зеркало из https://github.com/mozilla/gecko-dev.git
283 строки
10 KiB
JavaScript
283 строки
10 KiB
JavaScript
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/*
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* Implements low-overhead integration between components of the application.
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* This may have different uses depending on the component, including:
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*
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* - Providing product-specific implementations registered at startup.
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* - Using alternative implementations during unit tests.
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* - Allowing add-ons to change specific behaviors.
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*
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* Components may define one or more integration points, each defined by a
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* root integration object whose properties and methods are the public interface
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* and default implementation of the integration point. For example:
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*
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* const DownloadIntegration = {
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* getTemporaryDirectory() {
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* return "/tmp/";
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* },
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*
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* getTemporaryFile(name) {
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* return this.getTemporaryDirectory() + name;
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* },
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* };
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*
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* Other parts of the application may register overrides for some or all of the
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* defined properties and methods. The component defining the integration point
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* does not have to be loaded at this stage, because the name of the integration
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* point is the only information required. For example, if the integration point
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* is called "downloads":
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*
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* Integration.downloads.register(base => ({
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* getTemporaryDirectory() {
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* return base.getTemporaryDirectory.call(this) + "subdir/";
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* },
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* }));
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*
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* When the component defining the integration point needs to call a method on
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* the integration object, instead of using it directly the component would use
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* the "getCombined" method to retrieve an object that includes all overrides.
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* For example:
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*
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* let combined = Integration.downloads.getCombined(DownloadIntegration);
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* Assert.is(combined.getTemporaryFile("file"), "/tmp/subdir/file");
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*
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* Overrides can be registered at startup or at any later time, so each call to
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* "getCombined" may return a different object. The simplest way to create a
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* reference to the combined object that stays updated to the latest version is
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* to define the root object in a JSM and use the "defineModuleGetter" method.
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*
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* *** Registration ***
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*
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* Since the interface is not declared formally, the registrations can happen
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* at startup without loading the component, so they do not affect performance.
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*
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* Hovever, this module does not provide a startup registry, this means that the
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* code that registers and implements the override must be loaded at startup.
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*
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* If performance for the override code is a concern, you can take advantage of
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* the fact that the function used to create the override is called lazily, and
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* include only a stub loader for the final code in an existing startup module.
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*
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* The registration of overrides should be repeated for each process where the
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* relevant integration methods will be called.
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*
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* *** Accessing base methods and properties ***
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*
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* Overrides are included in the prototype chain of the combined object in the
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* same order they were registered, where the first is closest to the root.
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*
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* When defining overrides, you do not need to set the "__proto__" property of
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* the objects you create, because their properties and methods are moved to a
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* new object with the correct prototype. If you do, however, you can call base
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* properties and methods using the "super" keyword. For example:
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*
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* Integration.downloads.register(base => ({
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* __proto__: base,
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* getTemporaryDirectory() {
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* return super.getTemporaryDirectory() + "subdir/";
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* },
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* }));
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*
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* *** State handling ***
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*
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* Storing state directly on the combined integration object using the "this"
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* reference is not recommended. When a new integration is registered, own
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* properties stored on the old combined object are copied to the new combined
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* object using a shallow copy, but the "this" reference for new invocations
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* of the methods will be different.
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*
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* If the root object defines a property that always points to the same object,
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* for example a "state" property, you can safely use it across registrations.
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*
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* Integration overrides provided by restartless add-ons should not use the
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* "this" reference to store state, to avoid conflicts with other add-ons.
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*
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* *** Interaction with XPCOM ***
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*
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* Providing the combined object as an argument to any XPCOM method will
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* generate a console error message, and will throw an exception where possible.
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* For example, you cannot register observers directly on the combined object.
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* This helps preventing mistakes due to the fact that the combined object
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* reference changes when new integration overrides are registered.
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*/
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"use strict";
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var EXPORTED_SYMBOLS = [
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"Integration",
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];
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ChromeUtils.import("resource://gre/modules/XPCOMUtils.jsm");
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/**
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* Maps integration point names to IntegrationPoint objects.
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*/
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const gIntegrationPoints = new Map();
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/**
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* This Proxy object creates IntegrationPoint objects using their name as key.
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* The objects will be the same for the duration of the process. For example:
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*
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* Integration.downloads.register(...);
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* Integration["addon-provided-integration"].register(...);
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*/
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var Integration = new Proxy({}, {
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get(target, name) {
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let integrationPoint = gIntegrationPoints.get(name);
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if (!integrationPoint) {
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integrationPoint = new IntegrationPoint();
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gIntegrationPoints.set(name, integrationPoint);
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}
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return integrationPoint;
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},
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});
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/**
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* Individual integration point for which overrides can be registered.
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*/
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var IntegrationPoint = function() {
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this._overrideFns = new Set();
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this._combined = {
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// eslint-disable-next-line mozilla/use-chromeutils-generateqi
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QueryInterface() {
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let ex = new Components.Exception(
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"Integration objects should not be used with XPCOM because" +
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" they change when new overrides are registered.",
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Cr.NS_ERROR_NO_INTERFACE);
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Cu.reportError(ex);
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throw ex;
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},
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};
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};
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this.IntegrationPoint.prototype = {
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/**
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* Ordered set of registered functions defining integration overrides.
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*/
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_overrideFns: null,
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/**
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* Combined integration object. When this reference changes, properties
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* defined directly on this object are copied to the new object.
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*
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* Initially, the only property of this object is a "QueryInterface" method
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* that throws an exception, to prevent misuse as a permanent XPCOM listener.
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*/
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_combined: null,
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/**
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* Indicates whether the integration object is current based on the list of
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* registered integration overrides.
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*/
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_combinedIsCurrent: false,
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/**
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* Registers new overrides for the integration methods. For example:
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*
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* Integration.nameOfIntegrationPoint.register(base => ({
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* asyncMethod: Task.async(function* () {
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* return yield base.asyncMethod.apply(this, arguments);
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* }),
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* }));
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*
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* @param overrideFn
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* Function returning an object defining the methods that should be
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* overridden. Its only parameter is an object that contains the base
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* implementation of all the available methods.
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*
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* @note The override function is called every time the list of registered
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* override functions changes. Thus, it should not have any side
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* effects or do any other initialization.
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*/
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register(overrideFn) {
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this._overrideFns.add(overrideFn);
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this._combinedIsCurrent = false;
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},
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/**
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* Removes a previously registered integration override.
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*
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* Overrides don't usually need to be unregistered, unless they are added by a
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* restartless add-on, in which case they should be unregistered when the
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* add-on is disabled or uninstalled.
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*
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* @param overrideFn
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* This must be the same function object passed to "register".
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*/
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unregister(overrideFn) {
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this._overrideFns.delete(overrideFn);
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this._combinedIsCurrent = false;
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},
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/**
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* Retrieves the dynamically generated object implementing the integration
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* methods. Platform-specific code and add-ons can override methods of this
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* object using the "register" method.
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*/
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getCombined(root) {
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if (this._combinedIsCurrent) {
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return this._combined;
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}
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// In addition to enumerating all the registered integration overrides in
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// order, we want to keep any state that was previously stored in the
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// combined object using the "this" reference in integration methods.
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let overrideFnArray = [...this._overrideFns, () => this._combined];
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let combined = root;
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for (let overrideFn of overrideFnArray) {
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try {
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// Obtain a new set of methods from the next override function in the
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// list, specifying the current combined object as the base argument.
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let override = overrideFn(combined);
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// Retrieve a list of property descriptors from the returned object, and
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// use them to build a new combined object whose prototype points to the
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// previous combined object.
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let descriptors = {};
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for (let name of Object.getOwnPropertyNames(override)) {
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descriptors[name] = Object.getOwnPropertyDescriptor(override, name);
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}
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combined = Object.create(combined, descriptors);
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} catch (ex) {
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// Any error will result in the current override being skipped.
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Cu.reportError(ex);
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}
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}
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this._combinedIsCurrent = true;
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return this._combined = combined;
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},
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/**
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* Defines a getter to retrieve the dynamically generated object implementing
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* the integration methods, loading the root implementation lazily from the
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* specified JSM module. For example:
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*
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* Integration.test.defineModuleGetter(this, "TestIntegration",
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* "resource://testing-common/TestIntegration.jsm");
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*
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* @param targetObject
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* The object on which the lazy getter will be defined.
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* @param name
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* The name of the getter to define.
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* @param moduleUrl
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* The URL used to obtain the module.
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* @param symbol [optional]
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* The name of the symbol exported by the module. This can be omitted
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* if the name of the exported symbol is equal to the getter name.
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*/
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defineModuleGetter(targetObject, name, moduleUrl, symbol) {
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let moduleHolder = {};
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XPCOMUtils.defineLazyModuleGetter(moduleHolder, name, moduleUrl, symbol);
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Object.defineProperty(targetObject, name, {
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get: () => this.getCombined(moduleHolder[name]),
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configurable: true,
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enumerable: true,
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});
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},
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};
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