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/* -*- Mode: indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* vim: set sts=2 sw=2 et tw=80: */
/* 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
/**
* This module contains utilities and base classes for logic which is
* common between the parent and child process, and in particular
* between ExtensionParent.sys.mjs and ExtensionChild.sys.mjs.
*/
import { XPCOMUtils } from "resource://gre/modules/XPCOMUtils.sys.mjs";
import { AppConstants } from "resource://gre/modules/AppConstants.sys.mjs";
const lazy = XPCOMUtils.declareLazy({
ConsoleAPI: "resource://gre/modules/Console.sys.mjs",
PrivateBrowsingUtils: "resource://gre/modules/PrivateBrowsingUtils.sys.mjs",
SchemaRoot: "resource://gre/modules/Schemas.sys.mjs",
Schemas: "resource://gre/modules/Schemas.sys.mjs",
styleSheetService: {
service: "@mozilla.org/content/style-sheet-service;1",
iid: Ci.nsIStyleSheetService,
},
wptEnabled: {
pref: "extensions.wpt.enabled",
default: false,
},
// An hidden pref only meant to be used if we would need to revert the use
// of the ChromeUtils.callFunctionAndLogException helper temporarily because
// of regression only hit once it got to the release channel.
//
// without any regression that needed us to revert it.
callFunctionAndLogExceptionDisabled: {
pref: "extensions.callFunctionAndLogExceptionDisabled",
default: false,
},
});
const ScriptError = Components.Constructor(
"@mozilla.org/scripterror;1",
"nsIScriptError",
"initWithWindowID"
);
import { ExtensionUtils } from "resource://gre/modules/ExtensionUtils.sys.mjs";
var {
DefaultMap,
DefaultWeakMap,
ExtensionError,
getInnerWindowID,
getUniqueId,
} = ExtensionUtils;
function getConsole() {
return new lazy.ConsoleAPI({
maxLogLevelPref: "extensions.webextensions.log.level",
prefix: "WebExtensions",
});
}
// Run a function and report exceptions.
function runSafeSyncWithoutClone(f, ...args) {
try {
return f(...args);
} catch (e) {
// This method is called with `this` unbound and it doesn't have
// access to a BaseContext instance and so we can't check if `e`
// is an instance of the extension context's Error constructor
// (like we do in BaseContext applySafeWithoutClone method).
dump(
`Extension error: ${e} ${e?.fileName} ${
e?.lineNumber
}\n[[Exception stack\n${e?.stack}Current stack\n${Error().stack}]]\n`
);
Cu.reportError(e);
}
}
// Return true if the given value is an instance of the given
// native type.
function instanceOf(value, type) {
return (
value &&
typeof value === "object" &&
ChromeUtils.getClassName(value) === type
);
}
/**
* Convert any of several different representations of a date/time to a Date object.
* Accepts several formats:
* a Date object, an ISO8601 string, or a number of milliseconds since the epoch as
* either a number or a string.
*
* @param {Date|string|number} date
* The date to convert.
* @returns {Date}
* A Date object
*/
function normalizeTime(date) {
// Of all the formats we accept the "number of milliseconds since the epoch as a string"
// is an outlier, everything else can just be passed directly to the Date constructor.
return new Date(
typeof date == "string" && /^\d+$/.test(date) ? parseInt(date, 10) : date
);
}
function withHandlingUserInput(window, callable) {
let handle = window.windowUtils.setHandlingUserInput(true);
try {
return callable();
} finally {
handle.destruct();
}
}
/**
* Defines a lazy getter for the given property on the given object. The
* first time the property is accessed, the return value of the getter
* is defined on the current `this` object with the given property name.
* Importantly, this means that a lazy getter defined on an object
* prototype will be invoked separately for each object instance that
* it's accessed on.
*
* Note: for better type inference, prefer redefineGetter() below.
*
* @param {object} object
* The prototype object on which to define the getter.
* @param {string | symbol} prop
* The property name for which to define the getter.
* @param {callback} getter
* The function to call in order to generate the final property
* value.
*/
function defineLazyGetter(object, prop, getter) {
Object.defineProperty(object, prop, {
enumerable: true,
configurable: true,
get() {
return redefineGetter(this, prop, getter.call(this), true);
},
set(value) {
redefineGetter(this, prop, value, true);
},
});
}
/**
* A more type-inference friendly version of defineLazyGetter() above.
* Call it from a real getter (and setter) for your class or object.
* On first run, it will redefine the property with the final value.
*
* @template Value
* @param {object} object
* @param {string | symbol} key
* @param {Value} value
* @returns {Value}
*/
function redefineGetter(object, key, value, writable = false) {
Object.defineProperty(object, key, {
enumerable: true,
configurable: true,
writable,
value,
});
return value;
}
function checkLoadURI(uri, principal, options) {
let ssm = Services.scriptSecurityManager;
let flags = ssm.STANDARD;
if (!options.allowScript) {
flags |= ssm.DISALLOW_SCRIPT;
}
if (!options.allowInheritsPrincipal) {
flags |= ssm.DISALLOW_INHERIT_PRINCIPAL;
}
if (options.dontReportErrors) {
flags |= ssm.DONT_REPORT_ERRORS;
}
try {
ssm.checkLoadURIWithPrincipal(principal, uri, flags);
} catch (e) {
return false;
}
return true;
}
function checkLoadURL(url, principal, options) {
try {
return checkLoadURI(Services.io.newURI(url), principal, options);
} catch (e) {
return false; // newURI threw.
}
}
function makeWidgetId(id) {
id = id.toLowerCase();
// FIXME: This allows for collisions.
return id.replace(/[^a-z0-9_-]/g, "_");
}
/**
* A sentinel class to indicate that an array of values should be
* treated as an array when used as a promise resolution value, but as a
* spread expression (...args) when passed to a callback.
*/
class SpreadArgs extends Array {
constructor(args) {
super();
this.push(...args);
}
}
/**
* Like SpreadArgs, but also indicates that the array values already
* belong to the target compartment, and should not be cloned before
* being passed.
*
* The `unwrappedValues` property contains an Array object which belongs
* to the target compartment, and contains the same unwrapped values
* passed the NoCloneSpreadArgs constructor.
*/
class NoCloneSpreadArgs {
constructor(args) {
this.unwrappedValues = args;
}
[Symbol.iterator]() {
return this.unwrappedValues[Symbol.iterator]();
}
}
const LISTENERS = Symbol("listeners");
const ONCE_MAP = Symbol("onceMap");
export class EventEmitter {
constructor() {
this[LISTENERS] = new Map();
this[ONCE_MAP] = new WeakMap();
}
/**
* Checks whether there is some listener for the given event.
*
* @param {string} event
* The name of the event to listen for.
* @returns {boolean}
*/
has(event) {
return this[LISTENERS].has(event);
}
/**
* Adds the given function as a listener for the given event.
*
* The listener function may optionally return a Promise which
* resolves when it has completed all operations which event
* dispatchers may need to block on.
*
* @param {string} event
* The name of the event to listen for.
* @param {function(string, ...any): any} listener
* The listener to call when events are emitted.
*/
on(event, listener) {
let listeners = this[LISTENERS].get(event);
if (!listeners) {
listeners = new Set();
this[LISTENERS].set(event, listeners);
}
listeners.add(listener);
}
/**
* Removes the given function as a listener for the given event.
*
* @param {string} event
* The name of the event to stop listening for.
* @param {function(string, ...any): any} listener
* The listener function to remove.
*/
off(event, listener) {
let set = this[LISTENERS].get(event);
if (set) {
set.delete(listener);
set.delete(this[ONCE_MAP].get(listener));
if (!set.size) {
this[LISTENERS].delete(event);
}
}
}
/**
* Adds the given function as a listener for the given event once.
*
* @param {string} event
* The name of the event to listen for.
* @param {function(string, ...any): any} listener
* The listener to call when events are emitted.
*/
once(event, listener) {
let wrapper = (event, ...args) => {
this.off(event, wrapper);
this[ONCE_MAP].delete(listener);
return listener(event, ...args);
};
this[ONCE_MAP].set(listener, wrapper);
this.on(event, wrapper);
}
/**
* Triggers all listeners for the given event. If any listeners return
* a value, returns a promise which resolves when all returned
* promises have resolved. Otherwise, returns undefined.
*
* @param {string} event
* The name of the event to emit.
* @param {any} args
* Arbitrary arguments to pass to the listener functions, after
* the event name.
* @returns {Promise?}
*/
emit(event, ...args) {
let listeners = this[LISTENERS].get(event);
if (listeners) {
let promises = [];
for (let listener of listeners) {
try {
let result = listener(event, ...args);
if (result !== undefined) {
promises.push(result);
}
} catch (e) {
Cu.reportError(e);
}
}
if (promises.length) {
return Promise.all(promises);
}
}
}
}
/**
* Base class for WebExtension APIs. Each API creates a new class
* that inherits from this class, the derived class is instantiated
* once for each extension that uses the API.
*/
export class ExtensionAPI extends EventEmitter {
constructor(extension) {
super();
this.extension = extension;
extension.once("shutdown", (what, isAppShutdown) => {
if (this.onShutdown) {
this.onShutdown(isAppShutdown);
}
this.extension = null;
});
}
destroy() {}
/** @param {string} _entryName */
onManifestEntry(_entryName) {}
/** @param {boolean} _isAppShutdown */
onShutdown(_isAppShutdown) {}
/** @param {BaseContext} _context */
getAPI(_context) {
throw new Error("Not Implemented");
}
/** @param {string} _id */
static onDisable(_id) {}
/** @param {string} _id */
static onUninstall(_id) {}
/**
* @param {string} _id
* @param {object} _manifest
*/
static onUpdate(_id, _manifest) {}
}
/**
* Subclass to add APIs commonly used with persistent events.
* If a namespace uses events, it should use this subclass.
*
* this.apiNamespace = class extends ExtensionAPIPersistent {};
*/
class ExtensionAPIPersistent extends ExtensionAPI {
/** @type {Record<string, callback>} */
PERSISTENT_EVENTS;
/**
* Check for event entry.
*
* @param {string} event The event name e.g. onStateChanged
* @returns {boolean}
*/
hasEventRegistrar(event) {
return (
this.PERSISTENT_EVENTS && Object.hasOwn(this.PERSISTENT_EVENTS, event)
);
}
/**
* Get the event registration fuction
*
* @param {string} event The event name e.g. onStateChanged
* @returns {Function} register is used to start the listener
* register returns an object containing
* a convert and unregister function.
*/
getEventRegistrar(event) {
if (this.hasEventRegistrar(event)) {
return this.PERSISTENT_EVENTS[event].bind(this);
}
}
/**
* Used when instantiating an EventManager instance to register the listener.
*
* @param {object} options Options used for event registration
* @param {BaseContext} options.context Extension Context passed when creating an EventManager instance.
* @param {string} options.event The eAPI vent name.
* @param {Function} options.fire The function passed to the listener to fire the event.
* @param {Array<any>} params An optional array of parameters received along with the
* addListener request.
* @returns {Function} The unregister function used in the EventManager.
*/
registerEventListener(options, params) {
const apiRegistar = this.getEventRegistrar(options.event);
return apiRegistar?.(options, params).unregister;
}
/**
* Used to prime a listener for when the background script is not running.
*
* @param {string} event The event name e.g. onStateChanged or captiveURL.onChange.
* @param {Function} fire The function passed to the listener to fire the event.
* @param {Array} params Params passed to the event listener.
* @param {boolean} isInStartup unused here but passed for subclass use.
* @returns {object} the unregister and convert functions used in the EventManager.
*/
primeListener(event, fire, params, isInStartup) {
const apiRegistar = this.getEventRegistrar(event);
return apiRegistar?.({ fire, isInStartup }, params);
}
}
/**
* This class contains the information we have about an individual
* extension. It is never instantiated directly, instead subclasses
* for each type of process extend this class and add members that are
* relevant for that process.
*
* @abstract
*/
export class BaseContext {
/** @type {boolean} */
isTopContext;
/** @type {string} */
viewType;
constructor(envType, extension) {
this.envType = envType;
this.onClose = new Set();
this.checkedLastError = false;
this._lastError = null;
this.contextId = getUniqueId();
this.unloaded = false;
this.extension = extension;
this.manifestVersion = extension.manifestVersion;
this.jsonSandbox = null;
this.active = true;
this.incognito = null;
this.messageManager = null;
this.contentWindow = null;
this.innerWindowID = 0;
this.browserId = 0;
// These two properties are assigned in ContentScriptContextChild subclass
// to keep a copy of the content script sandbox Error and Promise globals
// (which are used by the WebExtensions internals) before any extension
// content script code had any chance to redefine them.
this.cloneScopeError = null;
this.cloneScopePromise = null;
}
get isProxyContextParent() {
return false;
}
get Error() {
// Return the copy stored in the context instance (when the context is an instance of
// ContentScriptContextChild or the global from extension page window otherwise).
return this.cloneScopeError || this.cloneScope.Error;
}
get Promise() {
// Return the copy stored in the context instance (when the context is an instance of
// ContentScriptContextChild or the global from extension page window otherwise).
return this.cloneScopePromise || this.cloneScope.Promise;
}
get privateBrowsingAllowed() {
return this.extension.privateBrowsingAllowed;
}
get isBackgroundContext() {
if (this.viewType === "background") {
if (this.isProxyContextParent) {
return !!this.isTopContext; // Set in ExtensionPageContextParent.
}
const { contentWindow } = this;
return !!contentWindow && contentWindow.top === contentWindow;
}
return this.viewType === "background_worker";
}
/**
* Whether the extension context is using the WebIDL bindings for the
* WebExtensions APIs.
* To be overridden in subclasses (e.g. WorkerContextChild) and to be
* optionally used in ExtensionAPI classes to customize the behavior of the
* API when the calls to the extension API are originated from the WebIDL
* bindings.
*/
get useWebIDLBindings() {
return false;
}
canAccessWindow(window) {
return this.extension.canAccessWindow(window);
}
canAccessContainer(userContextId) {
return this.extension.canAccessContainer(userContextId);
}
/**
* Opens a conduit linked to this context, populating related address fields.
* Only available in child contexts with an associated contentWindow.
*
* @type {ConduitGen}
*/
openConduit(subject, address) {
let wgc = this.contentWindow.windowGlobalChild;
let conduit = wgc.getActor("Conduits").openConduit(subject, {
id: subject.id || getUniqueId(),
extensionId: this.extension.id,
envType: this.envType,
...address,
});
this.callOnClose(conduit);
conduit.setCloseCallback(() => {
this.forgetOnClose(conduit);
});
return conduit;
}
setContentWindow(contentWindow) {
if (!this.canAccessWindow(contentWindow)) {
throw new Error(
"BaseContext attempted to load when extension is not allowed due to incognito settings."
);
}
this.browserId = contentWindow.browsingContext?.browserId;
this.innerWindowID = getInnerWindowID(contentWindow);
this.messageManager = contentWindow.docShell.messageManager;
if (this.incognito == null) {
this.incognito =
lazy.PrivateBrowsingUtils.isContentWindowPrivate(contentWindow);
}
let wgc = contentWindow.windowGlobalChild;
Object.defineProperty(this, "active", {
configurable: true,
enumerable: true,
get: () => wgc.isCurrentGlobal && !wgc.windowContext.isInBFCache,
});
Object.defineProperty(this, "contentWindow", {
configurable: true,
enumerable: true,
get: () => (this.active ? wgc.browsingContext.window : null),
});
this.callOnClose({
close: () => {
// Allow other "close" handlers to use these properties, until the next tick.
Promise.resolve().then(() => {
Object.defineProperty(this, "contentWindow", { value: null });
Object.defineProperty(this, "active", { value: false });
wgc = null;
});
},
});
}
// All child contexts must implement logActivity. This is handled if the child
// context subclasses ExtensionBaseContextChild. ProxyContextParent overrides
// this with a noop for parent contexts.
logActivity(_type, _name, _data) {
throw new Error(`Not implemented for ${this.envType}`);
}
/** @type {object} */
get cloneScope() {
throw new Error("Not implemented");
}
/** @type {nsIPrincipal} */
get principal() {
throw new Error("Not implemented");
}
runSafe(callback, ...args) {
return this.applySafe(callback, args);
}
runSafeWithoutClone(callback, ...args) {
return this.applySafeWithoutClone(callback, args);
}
applySafe(callback, args, caller) {
if (this.unloaded) {
Cu.reportError("context.runSafe called after context unloaded", caller);
} else if (!this.active) {
Cu.reportError(
"context.runSafe called while context is inactive",
caller
);
} else {
try {
let { cloneScope } = this;
args = args.map(arg => Cu.cloneInto(arg, cloneScope));
} catch (e) {
Cu.reportError(e);
dump(
`runSafe failure: cloning into ${this.cloneScope}: ${e}\n\n${Error().stack}`
);
}
return this.applySafeWithoutClone(callback, args, caller);
}
}
applySafeWithoutClone(callback, args, caller) {
if (this.unloaded) {
Cu.reportError(
"context.runSafeWithoutClone called after context unloaded",
caller
);
} else if (!this.active) {
Cu.reportError(
"context.runSafeWithoutClone called while context is inactive",
caller
);
} else {
try {
// When we are in the parent process (isProxyContextParent==true), there is no need to forward
// the exceptions to the extension document (this.cloneScope).
if (
this.isProxyContextParent ||
lazy.callFunctionAndLogExceptionDisabled
) {
return Reflect.apply(callback, null, args);
}
// Use callFunctionAndLogException in order to ensure routing any exception to DevTools.
return ChromeUtils.callFunctionAndLogException(this.cloneScope, () =>
Reflect.apply(callback, null, args)
);
} catch (e) {
if (this.isProxyContextParent) {
Cu.reportError(e);
}
}
}
}
logConsoleScriptError({
message,
fileName,
lineNumber,
columnNumber,
flags = Ci.nsIScriptError.errorFlag,
innerWindowID = this.innerWindowID,
}) {
if (innerWindowID) {
Services.console.logMessage(
new ScriptError(
message,
fileName,
lineNumber,
columnNumber,
flags,
"content javascript",
innerWindowID
)
);
} else {
Cu.reportError(new Error(message));
}
}
checkLoadURL(url, options = {}) {
// As an optimization, f the URL starts with the extension's base URL,
// don't do any further checks. It's always allowed to load it.
if (url.startsWith(this.extension.baseURL)) {
return true;
}
return checkLoadURL(url, this.principal, options);
}
/**
* Safely call JSON.stringify() on an object that comes from an
* extension.
*
* @param {[any, callback?, number?]} args for JSON.stringify()
* @returns {string} The stringified representation of obj
*/
jsonStringify(...args) {
if (!this.jsonSandbox) {
this.jsonSandbox = Cu.Sandbox(this.principal, {
sameZoneAs: this.cloneScope,
wantXrays: false,
});
}
return Cu.waiveXrays(this.jsonSandbox.JSON).stringify(...args);
}
callOnClose(obj) {
this.onClose.add(obj);
}
forgetOnClose(obj) {
this.onClose.delete(obj);
}
get lastError() {
this.checkedLastError = true;
return this._lastError;
}
set lastError(val) {
this.checkedLastError = false;
this._lastError = val;
}
/**
* Normalizes the given error object for use by the target scope. If
* the target is an error object which belongs to that scope, it is
* returned as-is. If it is an ordinary object with a `message`
* property, it is converted into an error belonging to the target
* scope. If it is an Error object which does *not* belong to the
* clone scope, it is reported, and converted to an unexpected
* exception error.
*
* @param {Error|object} error
* @param {nsIStackFrame?} [caller]
* @returns {Error}
*/
normalizeError(error, caller) {
if (error instanceof this.Error) {
return error;
}
let message, fileName;
if (error && typeof error === "object") {
const isPlain = ChromeUtils.getClassName(error) === "Object";
if (isPlain && error.mozWebExtLocation) {
caller = error.mozWebExtLocation;
}
if (isPlain && caller && (error.mozWebExtLocation || !error.fileName)) {
caller = Cu.cloneInto(caller, this.cloneScope);
return ChromeUtils.createError(error.message, caller);
}
if (
isPlain ||
error instanceof ExtensionError ||
this.principal.subsumes(Cu.getObjectPrincipal(error))
) {
message = error.message;
fileName = error.fileName;
}
}
if (!message) {
Cu.reportError(error);
message = "An unexpected error occurred";
}
return new this.Error(message, fileName);
}
/**
* Sets the value of `.lastError` to `error`, calls the given
* callback, and reports an error if the value has not been checked
* when the callback returns.
*
* @param {object} error An object with a `message` property. May
* optionally be an `Error` object belonging to the target scope.
* @param {nsIStackFrame?} caller
* The optional caller frame which triggered this callback, to be used
* in error reporting.
* @param {Function} callback The callback to call.
* @returns {*} The return value of callback.
*/
withLastError(error, caller, callback) {
this.lastError = this.normalizeError(error);
try {
return callback();
} finally {
if (!this.checkedLastError) {
Cu.reportError(`Unchecked lastError value: ${this.lastError}`, caller);
}
this.lastError = null;
}
}
/**
* Captures the most recent stack frame which belongs to the extension.
*
* @returns {nsIStackFrame?}
*/
getCaller() {
return ChromeUtils.getCallerLocation(this.principal);
}
/**
* Wraps the given promise so it can be safely returned to extension
* code in this context.
*
* If `callback` is provided, however, it is used as a completion
* function for the promise, and no promise is returned. In this case,
* the callback is called when the promise resolves or rejects. In the
* latter case, `lastError` is set to the rejection value, and the
* callback function must check `browser.runtime.lastError` or
* `extension.runtime.lastError` in order to prevent it being reported
* to the console.
*
* @param {Promise} promise The promise with which to wrap the
* callback. May resolve to a `SpreadArgs` instance, in which case
* each element will be used as a separate argument.
*
* Unless the promise object belongs to the cloneScope global, its
* resolution value is cloned into cloneScope prior to calling the
* `callback` function or resolving the wrapped promise.
*
* @param {Function} [callback] The callback function to wrap
*
* @returns {Promise|undefined} If callback is null, a promise object
* belonging to the target scope. Otherwise, undefined.
*/
wrapPromise(promise, callback = null) {
let caller = this.getCaller();
let applySafe = this.applySafe.bind(this);
if (Cu.getGlobalForObject(promise) === this.cloneScope) {
applySafe = this.applySafeWithoutClone.bind(this);
}
if (callback) {
promise.then(
args => {
if (this.unloaded) {
Cu.reportError(`Promise resolved after context unloaded\n`, caller);
} else if (!this.active) {
Cu.reportError(
`Promise resolved while context is inactive\n`,
caller
);
} else if (args instanceof NoCloneSpreadArgs) {
this.applySafeWithoutClone(callback, args.unwrappedValues, caller);
} else if (args instanceof SpreadArgs) {
applySafe(callback, args, caller);
} else {
applySafe(callback, [args], caller);
}
},
error => {
this.withLastError(error, caller, () => {
if (this.unloaded) {
Cu.reportError(
`Promise rejected after context unloaded\n`,
caller
);
} else if (!this.active) {
Cu.reportError(
`Promise rejected while context is inactive\n`,
caller
);
} else {
this.applySafeWithoutClone(callback, [], caller);
}
});
}
);
} else {
return new this.Promise((resolve, reject) => {
promise.then(
value => {
if (this.unloaded) {
Cu.reportError(
`Promise resolved after context unloaded\n`,
caller
);
} else if (!this.active) {
Cu.reportError(
`Promise resolved while context is inactive\n`,
caller
);
} else if (value instanceof NoCloneSpreadArgs) {
let values = value.unwrappedValues;
this.applySafeWithoutClone(
resolve,
values.length == 1 ? [values[0]] : [values],
caller
);
} else if (value instanceof SpreadArgs) {
applySafe(resolve, value.length == 1 ? value : [value], caller);
} else {
applySafe(resolve, [value], caller);
}
},
value => {
if (this.unloaded) {
Cu.reportError(
`Promise rejected after context unloaded: ${
value && value.message
}\n`,
caller
);
} else if (!this.active) {
Cu.reportError(
`Promise rejected while context is inactive: ${
value && value.message
}\n`,
caller
);
} else {
this.applySafeWithoutClone(
reject,
[this.normalizeError(value, caller)],
caller
);
}
}
);
});
}
}
unload() {
this.unloaded = true;
for (let obj of this.onClose) {
obj.close();
}
this.onClose.clear();
}
/**
* A simple proxy for unload(), for use with callOnClose().
*/
close() {
this.unload();
}
}
/**
* An object that runs the implementation of a schema API. Instantiations of
* this interfaces are used by Schemas.sys.mjs.
*
* @interface
*/
export class SchemaAPIInterface {
/**
* Calls this as a function that returns its return value.
*
* @abstract
* @param {Array} _args The parameters for the function.
* @returns {*} The return value of the invoked function.
*/
callFunction(_args) {
throw new Error("Not implemented");
}
/**
* Calls this as a function and ignores its return value.
*
* @abstract
* @param {Array} _args The parameters for the function.
*/
callFunctionNoReturn(_args) {
throw new Error("Not implemented");
}
/**
* Calls this as a function that completes asynchronously.
*
* @abstract
* @param {Array} _args The parameters for the function.
* @param {callback} [_callback] The callback to be called when the function
* completes.
* @param {boolean} [_requireUserInput=false] If true, the function should
* fail if the browser is not currently handling user input.
* @returns {Promise|undefined} Must be void if `callback` is set, and a
* promise otherwise. The promise is resolved when the function completes.
*/
callAsyncFunction(_args, _callback, _requireUserInput) {
throw new Error("Not implemented");
}
/**
* Retrieves the value of this as a property.
*
* @abstract
* @returns {*} The value of the property.
*/
getProperty() {
throw new Error("Not implemented");
}
/**
* Assigns the value to this as property.
*
* @abstract
* @param {string} _value The new value of the property.
*/
setProperty(_value) {
throw new Error("Not implemented");
}
/**
* Registers a `listener` to this as an event.
*
* @abstract
* @param {Function} _listener The callback to be called when the event fires.
* @param {Array} _args Extra parameters for EventManager.addListener.
* @see EventManager.addListener
*/
addListener(_listener, _args) {
throw new Error("Not implemented");
}
/**
* Checks whether `listener` is listening to this as an event.
*
* @abstract
* @param {Function} _listener The event listener.
* @returns {boolean} Whether `listener` is registered with this as an event.
* @see EventManager.hasListener
*/
hasListener(_listener) {
throw new Error("Not implemented");
}
/**
* Unregisters `listener` from this as an event.
*
* @abstract
* @param {Function} _listener The event listener.
* @see EventManager.removeListener
*/
removeListener(_listener) {
throw new Error("Not implemented");
}
/**
* Revokes the implementation object, and prevents any further method
* calls from having external effects.
*
* @abstract
*/
revoke() {
throw new Error("Not implemented");
}
}
/**
* An object that runs a locally implemented API.
*/
class LocalAPIImplementation extends SchemaAPIInterface {
/**
* Constructs an implementation of the `name` method or property of `pathObj`.
*
* @param {object} pathObj The object containing the member with name `name`.
* @param {string} name The name of the implemented member.
* @param {BaseContext} context The context in which the schema is injected.
*/
constructor(pathObj, name, context) {
super();
this.pathObj = pathObj;
this.name = name;
this.context = context;
}
revoke() {
if (this.pathObj[this.name][lazy.Schemas.REVOKE]) {
this.pathObj[this.name][lazy.Schemas.REVOKE]();
}
this.pathObj = null;
this.name = null;
this.context = null;
}
callFunction(args) {
try {
return this.pathObj[this.name](...args);
} catch (e) {
throw this.context.normalizeError(e);
}
}
callFunctionNoReturn(args) {
try {
this.pathObj[this.name](...args);
} catch (e) {
throw this.context.normalizeError(e);
}
}
callAsyncFunction(args, callback, requireUserInput) {
let promise;
try {
if (requireUserInput) {
if (!this.context.contentWindow.windowUtils.isHandlingUserInput) {
throw new ExtensionError(
`${this.name} may only be called from a user input handler`
);
}
}
promise = this.pathObj[this.name](...args) || Promise.resolve();
} catch (e) {
promise = Promise.reject(e);
}
return this.context.wrapPromise(promise, callback);
}
getProperty() {
return this.pathObj[this.name];
}
setProperty(value) {
this.pathObj[this.name] = value;
}
addListener(listener, args) {
try {
this.pathObj[this.name].addListener.call(null, listener, ...args);
} catch (e) {
throw this.context.normalizeError(e);
}
}
hasListener(listener) {
return this.pathObj[this.name].hasListener.call(null, listener);
}
removeListener(listener) {
this.pathObj[this.name].removeListener.call(null, listener);
}
}
// Recursively copy properties from source to dest.
function deepCopy(dest, source) {
for (let prop in source) {
let desc = Object.getOwnPropertyDescriptor(source, prop);
if (typeof desc.value == "object") {
if (!(prop in dest)) {
dest[prop] = {};
}
deepCopy(dest[prop], source[prop]);
} else {
Object.defineProperty(dest, prop, desc);
}
}
}
function getChild(map, key) {
let child = map.children.get(key);
if (!child) {
child = {
modules: new Set(),
children: new Map(),
};
map.children.set(key, child);
}
return child;
}
function getPath(map, path) {
for (let key of path) {
map = getChild(map, key);
}
return map;
}
function mergePaths(dest, source) {
for (let name of source.modules) {
dest.modules.add(name);
}
for (let [name, child] of source.children.entries()) {
mergePaths(getChild(dest, name), child);
}
}
/**
* Manages loading and accessing a set of APIs for a specific extension
* context.
*
* @param {BaseContext} context
* The context to manage APIs for.
* @param {SchemaAPIManager} apiManager
* The API manager holding the APIs to manage.
* @param {object} root
* The root object into which APIs will be injected.
*/
class CanOfAPIs {
constructor(context, apiManager, root) {
this.context = context;
this.scopeName = context.envType;
this.apiManager = apiManager;
this.root = root;
this.apiPaths = new Map();
this.apis = new Map();
}
/**
* Synchronously loads and initializes an ExtensionAPI instance.
*
* @param {string} name
* The name of the API to load.
*/
loadAPI(name) {
if (this.apis.has(name)) {
return;
}
let { extension } = this.context;
let api = this.apiManager.getAPI(name, extension, this.scopeName);
if (!api) {
return;
}
this.apis.set(name, api);
deepCopy(this.root, api.getAPI(this.context));
}
/**
* Asynchronously loads and initializes an ExtensionAPI instance.
*
* @param {string} name
* The name of the API to load.
*/
async asyncLoadAPI(name) {
if (this.apis.has(name)) {
return;
}
let { extension } = this.context;
if (!lazy.Schemas.checkPermissions(name, extension)) {
return;
}
let api = await this.apiManager.asyncGetAPI(
name,
extension,
this.scopeName
);
// Check again, because async;
if (this.apis.has(name)) {
return;
}
this.apis.set(name, api);
deepCopy(this.root, api.getAPI(this.context));
}
/**
* Finds the API at the given path from the root object, and
* synchronously loads the API that implements it if it has not
* already been loaded.
*
* @param {string} path
* The "."-separated path to find.
* @returns {*}
*/
findAPIPath(path) {
if (this.apiPaths.has(path)) {
return this.apiPaths.get(path);
}
let obj = this.root;
let modules = this.apiManager.modulePaths;
let parts = path.split(".");
for (let [i, key] of parts.entries()) {
if (!obj) {
return;
}
modules = getChild(modules, key);
for (let name of modules.modules) {
if (!this.apis.has(name)) {
this.loadAPI(name);
}
}
if (!(key in obj) && i < parts.length - 1) {
obj[key] = {};
}
obj = obj[key];
}
this.apiPaths.set(path, obj);
return obj;
}
/**
* Finds the API at the given path from the root object, and
* asynchronously loads the API that implements it if it has not
* already been loaded.
*
* @param {string} path
* The "."-separated path to find.
* @returns {Promise<*>}
*/
async asyncFindAPIPath(path) {
if (this.apiPaths.has(path)) {
return this.apiPaths.get(path);
}
let obj = this.root;
let modules = this.apiManager.modulePaths;
let parts = path.split(".");
for (let [i, key] of parts.entries()) {
if (!obj) {
return;
}
modules = getChild(modules, key);
for (let name of modules.modules) {
if (!this.apis.has(name)) {
await this.asyncLoadAPI(name);
}
}
if (!(key in obj) && i < parts.length - 1) {
obj[key] = {};
}
if (typeof obj[key] === "function") {
obj = obj[key].bind(obj);
} else {
obj = obj[key];
}
}
this.apiPaths.set(path, obj);
return obj;
}
}
/**
* @class APIModule
* @abstract
*
* @property {string} url
* The URL of the script which contains the module's
* implementation. This script must define a global property
* matching the modules name, which must be a class constructor
* which inherits from {@link ExtensionAPI}.
*
* @property {string} schema
* The URL of the JSON schema which describes the module's API.
*
* @property {Array<string>} scopes
* The list of scope names into which the API may be loaded.
*
* @property {Array<string>} manifest
* The list of top-level manifest properties which will trigger
* the module to be loaded, and its `onManifestEntry` method to be
* called.
*
* @property {Array<string>} events
* The list events which will trigger the module to be loaded, and
* its appropriate event handler method to be called. Currently
* only accepts "startup".
*
* @property {Array<string>} permissions
* An optional list of permissions, any of which must be present
* in order for the module to load.
*
* @property {Array<Array<string>>} paths
* A list of paths from the root API object which, when accessed,
* will cause the API module to be instantiated and injected.
*/
/**
* This object loads the ext-*.js scripts that define the extension API.
*
* This class instance is shared with the scripts that it loads, so that the
* ext-*.js scripts and the instantiator can communicate with each other.
*/
class SchemaAPIManager extends EventEmitter {
/**
* @param {string} processType
* "main" - The main, one and only chrome browser process.
* "addon" - An addon process.
* "content" - A content process.
* "devtools" - A devtools process.
* @param {import("Schemas.sys.mjs").SchemaInject} [schema]
*/
constructor(processType, schema) {
super();
this.processType = processType;
this.global = null;
if (schema) {
this.schema = schema;
}
this.modules = new Map();
this.modulePaths = { children: new Map(), modules: new Set() };
this.manifestKeys = new Map();
this.eventModules = new DefaultMap(() => new Set());
this.settingsModules = new Set();
this._modulesJSONLoaded = false;
this.schemaURLs = new Map();
this.apis = new DefaultWeakMap(() => new Map());
this._scriptScopes = [];
}
onStartup(extension) {
let promises = [];
for (let apiName of this.eventModules.get("startup")) {
promises.push(
extension.apiManager.asyncGetAPI(apiName, extension).then(api => {
if (api) {
api.onStartup();
}
})
);
}
return Promise.all(promises);
}
async loadModuleJSON(urls) {
let promises = urls.map(url => fetch(url).then(resp => resp.json()));
return this.initModuleJSON(await Promise.all(promises));
}
initModuleJSON(blobs) {
for (let json of blobs) {
this.registerModules(json);
}
this._modulesJSONLoaded = true;
return new StructuredCloneHolder("SchemaAPIManager/initModuleJSON", null, {
modules: this.modules,
modulePaths: this.modulePaths,
manifestKeys: this.manifestKeys,
eventModules: this.eventModules,
settingsModules: this.settingsModules,
schemaURLs: this.schemaURLs,
});
}
initModuleData(moduleData) {
if (!this._modulesJSONLoaded) {
let data = moduleData.deserialize({}, true);
this.modules = data.modules;
this.modulePaths = data.modulePaths;
this.manifestKeys = data.manifestKeys;
this.eventModules = new DefaultMap(() => new Set(), data.eventModules);
this.settingsModules = new Set(data.settingsModules);
this.schemaURLs = data.schemaURLs;
}
this._modulesJSONLoaded = true;
}
/**
* Registers a set of ExtensionAPI modules to be lazily loaded and
* managed by this manager.
*
* @param {object} obj
* An object containing property for eacy API module to be
* registered. Each value should be an object implementing the
* APIModule interface.
*/
registerModules(obj) {
for (let [name, details] of Object.entries(obj)) {
details.namespaceName = name;
if (this.modules.has(name)) {
throw new Error(`Module '${name}' already registered`);
}
this.modules.set(name, details);
if (details.schema) {
let content =
details.scopes &&
(details.scopes.includes("content_parent") ||
details.scopes.includes("content_child"));
this.schemaURLs.set(details.schema, { content });
}
for (let event of details.events || []) {
this.eventModules.get(event).add(name);
}
if (details.settings) {
this.settingsModules.add(name);
}
for (let key of details.manifest || []) {
if (this.manifestKeys.has(key)) {
throw new Error(
`Manifest key '${key}' already registered by '${this.manifestKeys.get(
key
)}'`
);
}
this.manifestKeys.set(key, name);
}
for (let path of details.paths || []) {
getPath(this.modulePaths, path).modules.add(name);
}
}
}
/**
* Emits an `onManifestEntry` event for the top-level manifest entry
* on all relevant {@link ExtensionAPI} instances for the given
* extension.
*
* The API modules will be synchronously loaded if they have not been
* loaded already.
*
* @param {Extension} extension
* The extension for which to emit the events.
* @param {string} entry
* The name of the top-level manifest entry.
*
* @returns {*}
*/
emitManifestEntry(extension, entry) {
let apiName = this.manifestKeys.get(entry);
if (apiName) {
let api = extension.apiManager.getAPI(apiName, extension);
return api.onManifestEntry(entry);
}
}
/**
* Emits an `onManifestEntry` event for the top-level manifest entry
* on all relevant {@link ExtensionAPI} instances for the given
* extension.
*
* The API modules will be asynchronously loaded if they have not been
* loaded already.
*
* @param {Extension} extension
* The extension for which to emit the events.
* @param {string} entry
* The name of the top-level manifest entry.
*
* @returns {Promise<*>}
*/
async asyncEmitManifestEntry(extension, entry) {
let apiName = this.manifestKeys.get(entry);
if (apiName) {
let api = await extension.apiManager.asyncGetAPI(apiName, extension);
return api.onManifestEntry(entry);
}
}
/**
* Returns the {@link ExtensionAPI} instance for the given API module,
* for the given extension, in the given scope, synchronously loading
* and instantiating it if necessary.
*
* @param {string} name
* The name of the API module to load.
* @param {Extension} extension
* The extension for which to load the API.
* @param {string} [scope = null]
* The scope type for which to retrieve the API, or null if not
* being retrieved for a particular scope.
*
* @returns {ExtensionAPI?}
*/
getAPI(name, extension, scope = null) {
if (!this._checkGetAPI(name, extension, scope)) {
return;
}
let apis = this.apis.get(extension);
if (apis.has(name)) {
return apis.get(name);
}
let module = this.loadModule(name);
let api = new module(extension);
apis.set(name, api);
return api;
}
/**
* Returns the {@link ExtensionAPI} instance for the given API module,
* for the given extension, in the given scope, asynchronously loading
* and instantiating it if necessary.
*
* @param {string} name
* The name of the API module to load.
* @param {Extension} extension
* The extension for which to load the API.
* @param {string} [scope = null]
* The scope type for which to retrieve the API, or null if not
* being retrieved for a particular scope.
*
* @returns {Promise<ExtensionAPI>?}
*/
async asyncGetAPI(name, extension, scope = null) {
if (!this._checkGetAPI(name, extension, scope)) {
return;
}
let apis = this.apis.get(extension);
if (apis.has(name)) {
return apis.get(name);
}
let module = await this.asyncLoadModule(name);
// Check again, because async.
if (apis.has(name)) {
return apis.get(name);
}
let api = new module(extension);
apis.set(name, api);
return api;
}
/**
* Synchronously loads an API module, if not already loaded, and
* returns its ExtensionAPI constructor.
*
* @param {string} name
* The name of the module to load.
* @returns {typeof ExtensionAPI}
*/
loadModule(name) {
let module = this.modules.get(name);
if (module.loaded) {
return this.global[name];
}
this._checkLoadModule(module, name);
this.initGlobal();
Services.scriptloader.loadSubScript(module.url, this.global);
module.loaded = true;
return this.global[name];
}
/**
* aSynchronously loads an API module, if not already loaded, and
* returns its ExtensionAPI constructor.
*
* @param {string} name
* The name of the module to load.
*
* @returns {Promise<typeof ExtensionAPI>}
*/
asyncLoadModule(name) {
let module = this.modules.get(name);
if (module.loaded) {
return Promise.resolve(this.global[name]);
}
if (module.asyncLoaded) {
return module.asyncLoaded;
}
this._checkLoadModule(module, name);
module.asyncLoaded = ChromeUtils.compileScript(module.url).then(script => {
// In some rare cases, loadModule() may have been called since we started
// the async compileScript call. In that case, return the result that we
// already got from loadModule.
if (!module.loaded) {
this.initGlobal();
script.executeInGlobal(this.global);
module.loaded = true;
}
return this.global[name];
});
return module.asyncLoaded;
}
asyncLoadSettingsModules() {
return Promise.all(
Array.from(this.settingsModules).map(apiName =>
this.asyncLoadModule(apiName)
)
);
}
getModule(name) {
return this.modules.get(name);
}
/**
* Checks whether the given API module may be loaded for the given
* extension, in the given scope.
*
* @param {string} name
* The name of the API module to check.
* @param {Extension} extension
* The extension for which to check the API.
* @param {string} [scope = null]
* The scope type for which to check the API, or null if not
* being checked for a particular scope.
*
* @returns {boolean}
* Whether the module may be loaded.
*/
_checkGetAPI(name, extension, scope = null) {
let module = this.getModule(name);
if (!module) {
// A module may not exist for a particular manifest version, but
// we allow keys in the manifest. An example is pageAction.
return false;
}
if (
module.permissions &&
!module.permissions.some(perm => extension.hasPermission(perm))
) {
return false;
}
if (!scope) {
return true;
}
if (!module.scopes.includes(scope)) {
return false;
}
if (!lazy.Schemas.checkPermissions(module.namespaceName, extension)) {
return false;
}
return true;
}
_checkLoadModule(module, name) {
if (!module) {
throw new Error(`Module '${name}' does not exist`);
}
if (this.global && this.global[name]) {
throw new Error(
`Module '${name}' conflicts with existing global property`
);
}
}
/**
* Create a global object that is used as the shared global for all ext-*.js
* scripts that are loaded via `loadScript`.
*
* @returns {object} A sandbox that is used as the global by `loadScript`.
*/
_createExtGlobal() {
let global = Cu.Sandbox(
Services.scriptSecurityManager.getSystemPrincipal(),
{
wantXrays: false,
wantGlobalProperties: ["ChromeUtils"],
sandboxName: `Namespace of ext-*.js scripts for ${this.processType} (from: resource://gre/modules/ExtensionCommon.sys.mjs)`,
}
);
Object.assign(global, {
AppConstants,
Cc,
ChromeWorker,
Ci,
Cr,
Cu,
ExtensionAPI,
ExtensionAPIPersistent,
ExtensionCommon,
FileReader,
Glean,
GleanPings,
IOUtils,
L10nFileSource,
L10nRegistry,
MatchGlob,
MatchPattern,
MatchPatternSet,
OffscreenCanvas,
PathUtils,
Services,
StructuredCloneHolder,
WebExtensionPolicy,
XPCOMUtils,
extensions: this,
});
ChromeUtils.defineLazyGetter(global, "console", getConsole);
// eslint-disable-next-line mozilla/lazy-getter-object-name
ChromeUtils.defineESModuleGetters(global, {
ExtensionUtils: "resource://gre/modules/ExtensionUtils.sys.mjs",
});
return global;
}
initGlobal() {
if (!this.global) {
this.global = this._createExtGlobal();
}
}
/**
* Load an ext-*.js script. The script runs in its own scope, if it wishes to
* share state with another script it can assign to the `global` variable. If
* it wishes to communicate with this API manager, use `extensions`.
*
* @param {string} scriptUrl The URL of the ext-*.js script.
*/
loadScript(scriptUrl) {
// Create the object in the context of the sandbox so that the script runs
// in the sandbox's context instead of here.
let scope = Cu.createObjectIn(this.global);
Services.scriptloader.loadSubScript(scriptUrl, scope);
// Save the scope to avoid it being garbage collected.
this._scriptScopes.push(scope);
}
}
class LazyAPIManager extends SchemaAPIManager {
constructor(processType, moduleData, schemaURLs) {
super(processType);
/** @type {Promise | boolean} */
this.initialized = false;
this.initModuleData(moduleData);
this.schemaURLs = schemaURLs;
}
lazyInit() {}
}
defineLazyGetter(LazyAPIManager.prototype, "schema", function () {
let root = new lazy.SchemaRoot(lazy.Schemas.rootSchema, this.schemaURLs);
root.parseSchemas();
return root;
});
class MultiAPIManager extends SchemaAPIManager {
constructor(processType, children) {
super(processType);
this.initialized = false;
this.children = children;
}
async lazyInit() {
if (!this.initialized) {
this.initialized = true;
for (let child of this.children) {
if (child.lazyInit) {
let res = child.lazyInit();
if (res && typeof res.then === "function") {
await res;
}
}
mergePaths(this.modulePaths, child.modulePaths);
}
}
}
onStartup(extension) {
return Promise.all(this.children.map(child => child.onStartup(extension)));
}
getModule(name) {
for (let child of this.children) {
if (child.modules.has(name)) {
return child.modules.get(name);
}
}
}
loadModule(name) {
for (let child of this.children) {
if (child.modules.has(name)) {
return child.loadModule(name);
}
}
}
asyncLoadModule(name) {
for (let child of this.children) {
if (child.modules.has(name)) {
return child.asyncLoadModule(name);
}
}
}
}
defineLazyGetter(MultiAPIManager.prototype, "schema", function () {
let bases = this.children.map(child => child.schema);
// All API manager schema roots should derive from the global schema root,
// so it doesn't need its own entry.
if (bases[bases.length - 1] === lazy.Schemas) {
bases.pop();
}
if (bases.length === 1) {
bases = bases[0];
}
return new lazy.SchemaRoot(bases, new Map());
});
export function LocaleData(data) {
this.defaultLocale = data.defaultLocale;
this.selectedLocale = data.selectedLocale;
this.locales = data.locales || new Map();
this.warnedMissingKeys = new Set();
/**
* Map(locale-name -> Map(message-key -> localized-string))
*
* Contains a key for each loaded locale, each of which is a
* Map of message keys to their localized strings.
*
* @type {Map<string, Map<string, string>>}
*/
this.messages = data.messages || new Map();
if (data.builtinMessages) {
this.messages.set(this.BUILTIN, data.builtinMessages);
}
}
LocaleData.listLocaleVariations = function LocaleData_listLocaleVariations(
locale
) {
const subTags = locale.split("-");
const result = [];
while (subTags.length) {
result.push(subTags.join("-"));
subTags.pop();
}
return result;
};
LocaleData.prototype = {
// Representation of the object to send to content processes. This
// should include anything the content process might need.
serialize() {
return {
defaultLocale: this.defaultLocale,
selectedLocale: this.selectedLocale,
messages: this.messages,
locales: this.locales,
};
},
BUILTIN: "@@BUILTIN_MESSAGES",
has(locale) {
return this.messages.has(locale);
},
getAvailableLocales(preferredLocale) {
const locales = [this.BUILTIN];
if (preferredLocale) {
locales.push(...LocaleData.listLocaleVariations(preferredLocale));
}
if (!locales.includes(this.defaultLocale)) {
locales.push(this.defaultLocale);
}
return locales.filter(locale => this.messages.has(locale));
},
localizeMessage(message, substitutions = [], options = {}) {
const defaultOptions = {
defaultValue: "",
cloneScope: null,
};
const locales = options.locale
? this.getAvailableLocales(options.locale)
: this.availableLocales;
options = Object.assign(defaultOptions, options);
// Message names are case-insensitive, so normalize them to lower-case.
message = message.toLowerCase();
for (let locale of locales) {
let messages = this.messages.get(locale);
if (messages.has(message)) {
let str = messages.get(message);
if (!str.includes("$")) {
return str;
}
if (!Array.isArray(substitutions)) {
substitutions = [substitutions];
}
let replacer = (matched, index, dollarSigns) => {
if (index) {
// This is not quite Chrome-compatible. Chrome consumes any number
// of digits following the $, but only accepts 9 substitutions. We
// accept any number of substitutions.
index = parseInt(index, 10) - 1;
return index in substitutions ? substitutions[index] : "";
}
// For any series of contiguous `$`s, the first is dropped, and
// the rest remain in the output string.
return dollarSigns;
};
return str.replace(/\$(?:([1-9]\d*)|(\$+))/g, replacer);
}
}
// Check for certain pre-defined messages.
if (message == "@@ui_locale") {
return this.uiLocale;
} else if (message.startsWith("@@bidi_")) {
let rtl = Services.locale.isAppLocaleRTL;
if (message == "@@bidi_dir") {
return rtl ? "rtl" : "ltr";
} else if (message == "@@bidi_reversed_dir") {
return rtl ? "ltr" : "rtl";
} else if (message == "@@bidi_start_edge") {
return rtl ? "right" : "left";
} else if (message == "@@bidi_end_edge") {
return rtl ? "left" : "right";
}
}
if (!this.warnedMissingKeys.has(message)) {
let error = `Unknown localization message ${message}`;
if (options.cloneScope) {
error = new options.cloneScope.Error(error);
}
Cu.reportError(error);
this.warnedMissingKeys.add(message);
}
return options.defaultValue;
},
// Localize a string, replacing all |__MSG_(.*)__| tokens with the
// matching string from the current locale, as determined by
// |this.selectedLocale|.
//
// This may not be called before calling either |initLocale| or
// |initAllLocales|.
localize(str, locale = this.selectedLocale) {
if (!str) {
return str;
}
return str.replace(/__MSG_([A-Za-z0-9@_]+?)__/g, (matched, message) => {
return this.localizeMessage(message, [], {
locale,
defaultValue: matched,
});
});
},
// Validates the contents of a locale JSON file, normalizes the
// messages into a Map of message key -> localized string pairs.
addLocale(locale, messages, extension) {
let result = new Map();
let isPlainObject = obj =>
obj &&
typeof obj === "object" &&
ChromeUtils.getClassName(obj) === "Object";
// Chrome does not document the semantics of its localization
// system very well. It handles replacements by pre-processing
// messages, replacing |$[a-zA-Z0-9@_]+$| tokens with the value of their
// replacements. Later, it processes the resulting string for
// |$[0-9]| replacements.
//
// Again, it does not document this, but it accepts any number
// of sequential |$|s, and replaces them with that number minus
// 1. It also accepts |$| followed by any number of sequential
// digits, but refuses to process a localized string which
// provides more than 9 substitutions.
if (!isPlainObject(messages)) {
extension.packagingError(`Invalid locale data for ${locale}`);
return result;
}
for (let key of Object.keys(messages)) {
let msg = messages[key];
if (!isPlainObject(msg) || typeof msg.message != "string") {
extension.packagingError(
`Invalid locale message data for ${locale}, message ${JSON.stringify(
key
)}`
);
continue;
}
// Substitutions are case-insensitive, so normalize all of their names
// to lower-case.
let placeholders = new Map();
if ("placeholders" in msg && isPlainObject(msg.placeholders)) {
for (let key of Object.keys(msg.placeholders)) {
placeholders.set(key.toLowerCase(), msg.placeholders[key]);
}
}
let replacer = (match, name) => {
let replacement = placeholders.get(name.toLowerCase());
if (isPlainObject(replacement) && "content" in replacement) {
return replacement.content;
}
return "";
};
let value = msg.message.replace(/\$([A-Za-z0-9@_]+)\$/g, replacer);
// Message names are also case-insensitive, so normalize them to lower-case.
result.set(key.toLowerCase(), value);
}
this.messages.set(locale, result);
return result;
},
get acceptLanguages() {
let result = Services.prefs.getComplexValue(
"intl.accept_languages",
Ci.nsIPrefLocalizedString
).data;
return result.split(/\s*,\s*/g);
},
get uiLocale() {
return Services.locale.appLocaleAsBCP47;
},
get availableLocales() {
let value = this.getAvailableLocales(this.selectedLocale);
return redefineGetter(this, "availableLocales", value);
},
};
/**
* This is a generic class for managing event listeners.
*
* @example
* new EventManager({
* context,
* name: "api.subAPI",
* register: fire => {
* let listener = (...) => {
* // Fire any listeners registered with addListener.
* fire.async(arg1, arg2);
* };
* // Register the listener.
* SomehowRegisterListener(listener);
* return () => {
* // Return a way to unregister the listener.
* SomehowUnregisterListener(listener);
* };
* }
* }).api()
*
* The result is an object with addListener, removeListener, and
* hasListener methods. `context` is an add-on scope (either an
* ExtensionContext in the chrome process or ExtensionContext in a
* content process).
*/
class EventManager {
/*
* A persistent event must provide module and name. Additionally the
* module must implement primeListeners in the ExtensionAPI class.
*
* A startup blocking event must also add the startupBlocking flag in
* ext-toolkit.json or ext-browser.json.
*
* Listeners synchronously added from a background extension context
* will be persisted, for a persistent background script only the
* "startup blocking" events will be persisted.
*
* EventManager instances created in a child process can't persist any listener.
*
* @param {object} params
* Parameters that control this EventManager.
* @param {BaseContext} params.context
* An object representing the extension instance using this event.
* @param {string} params.module
* The API module name, required for persistent events.
* @param {string} params.event
* The API event name, required for persistent events.
* @param {ExtensionAPI} params.extensionApi
* The API intance. If the API uses the ExtensionAPIPersistent class, some simplification is
* possible by passing the api (self or this) and the internal register function will be used.
* @param {string} [params.name]
* A name used only for debugging. If not provided, name is built from module and event.
* @param {functon} params.register
* A function called whenever a new listener is added.
* @param {boolean} [params.inputHandling=false]
* If true, the "handling user input" flag is set while handlers
* for this event are executing.
*/
constructor(params) {
let {
context,
module,
event,
name,
register,
extensionApi,
inputHandling = false,
resetIdleOnEvent = true,
} = params;
this.context = context;
this.module = module;
this.event = event;
this.name = name;
this.register = register;
this.inputHandling = inputHandling;
this.resetIdleOnEvent = resetIdleOnEvent;
const isBackgroundParent =
this.context.envType === "addon_parent" &&
this.context.isBackgroundContext;
// EventManager instances that belongs to the event page, but along
// with that we should consider if calling sendMessage from an event
// page should also reset idle timer, and so in the shorter term
// here we are allowing listeners from other extension pages to
// also reset the idle timer.
const isAddonContext = ["addon_parent", "addon_child"].includes(
this.context.envType
);
// Avoid resetIdleOnEvent overhead by only consider it when applicable.
if (!isAddonContext || context.extension.persistentBackground) {
this.resetIdleOnEvent = false;
}
if (!name) {
this.name = `${module}.${event}`;
}
if (!this.register && extensionApi instanceof ExtensionAPIPersistent) {
this.register = (fire, ...params) => {
return extensionApi.registerEventListener(
{ context, event, fire },
params
);
};
}
if (!this.register) {
throw new Error(
`EventManager requires register method for ${this.name}.`
);
}
this.canPersistEvents = module && event && isBackgroundParent;
if (this.canPersistEvents) {
let { extension } = context;
if (extension.persistentBackground) {
// Persistent backgrounds will only persist startup blocking APIs.
let api_module = extension.apiManager.getModule(this.module);
if (!api_module?.startupBlocking) {
this.canPersistEvents = false;
}
} else {
// Event pages will persist all APIs that implement primeListener.
// The api is already loaded so this does not have performance effect.
let api = extension.apiManager.getAPI(
this.module,
extension,
"addon_parent"
);
// If the api doesn't implement primeListener we do not persist the events.
if (!api?.primeListener) {
this.canPersistEvents = false;
}
}
}
this.unregister = new Map();
this.remove = new Map();
}
/*
* Information about listeners to persistent events is associated with
* the extension to which they belong. Any extension thas has such
* listeners has a property called `persistentListeners` that is a
* 3-level Map:
*
* - the first 2 keys are the module name (e.g., webRequest)
* and the name of the event within the module (e.g., onBeforeRequest).
*
* - the third level of the map is used to track multiple listeners for
* the same event, these listeners are distinguished by the extra arguments
* passed to addListener()
*
* - for quick lookups, the key to the third Map is the result of calling
* uneval() on the array of extra arguments.
*
* - the value stored in the Map or persistent listeners we keep in memory
* is a plain object with:
* - a property called `params` that is the original (ie, not uneval()ed)
* extra arguments to addListener()
* - and a property called `listeners` that is an array of plain object
* each representing a listener to be primed and a `primeId` autoincremented
* integer that represents each of the primed listeners that belongs to the
* group listeners with the same set of extra params.
* - a `nextPrimeId` property keeps track of the numeric primeId that should
* be assigned to new persistent listeners added for the same event and
* same set of extra params.
*
* For a primed listener (i.e., the stub listener created during browser startup
* before the extension background page is started, and after an event page is
* suspended on idle), the object will be later populated (by the callers of
* EventManager.primeListeners) with an additional `primed` property that serves
* as a placeholder listener, collecting all events that got emitted while the
* background page was not yet started, and eventually replaced by a callback
* registered from the extension code, once the background page scripts have been
* executed (or dropped if the background page scripts do not register the same
* listener anymore).
*
* @param {Extension} extension
* @returns {boolean} True if the extension had any persistent listeners.
*/
static _initPersistentListeners(extension) {
if (extension.persistentListeners) {
return !!extension.persistentListeners.size;
}
let listeners = new DefaultMap(() => new DefaultMap(() => new Map()));
extension.persistentListeners = listeners;
let persistentListeners = extension.startupData?.persistentListeners;
if (!persistentListeners) {
return false;
}
let found = false;
for (let [module, savedModuleEntry] of Object.entries(
persistentListeners
)) {
for (let [event, savedEventEntry] of Object.entries(savedModuleEntry)) {
for (let paramList of savedEventEntry) {
* registered with a different set of extra params (and so only one listener
* could be persisted for the same set of extra params)
*
* registered for that event, but multiple listeners registered with the same
* set of extra params will be captured as multiple entries in the
* paramsList array.
*
* NOTE: persisted listeners are stored in the startupData part of the Addon DB
* and are expected to be preserved across Firefox and Addons upgrades and downgrades
* (unlike the WebExtensions startupCache data which is cleared when Firefox or the
* addon is updated) and so we are taking special care about forward and backward
* compatibility of the persistentListeners on-disk format:
*
* - forward compatibility: when this new version of this startupData loading logic
* is loading the old persistentListeners on-disk format:
* - on the first run only one listener will be primed for each of the extra params
* recorded in the startupData (same as in older Firefox versions)
* context is started once the startupData will be updated to
* include each of the listeners (indipendently if the set of
* extra params is the same as another listener already been
* persisted).
* - after the first run, all listeners will be primed separately, even if the extra
* params are the same as other listeners already primed, and so
* each of the listener will receive the pending events collected
*
* - backward compatibility: when the old version of this startupData loading logic
* is loading the new persistentListeners on-disk format, the last
* entry with the same set of extra params will be eventually overwritting the
* be hit, but no actual change in behavior is expected.
*/
let key = uneval(paramList);
const eventEntry = listeners.get(module).get(event);
if (eventEntry.has(key)) {
const keyEntry = eventEntry.get(key);
let primeId = keyEntry.nextPrimeId;
keyEntry.listeners.push({ primeId });
keyEntry.nextPrimeId++;
} else {
eventEntry.set(key, {
params: paramList,
nextPrimeId: 1,
listeners: [{ primeId: 0 }],
});
}
found = true;
}
}
}
return found;
}
// Extract just the information needed at startup for all persistent
// listeners, and arrange for it to be saved. This should be called
// whenever the set of persistent listeners for an extension changes.
static _writePersistentListeners(extension) {
let startupListeners = {};
for (let [module, moduleEntry] of extension.persistentListeners) {
startupListeners[module] = {};
for (let [event, eventEntry] of moduleEntry) {
// Turn the per-event entries from the format they are being kept
// in memory:
//
// [
// { params: paramList1, listeners: [listener1, listener2, ...] },
// { params: paramList2, listeners: [listener3, listener3, ...] },
// ...
// ]
//
// into the format used for storing them on disk (in the startupData),
// which is an array of the params for each listener (with the param list
// included as many times as many listeners are persisted for the same
// set of params):
//
// [paramList1, paramList1, ..., paramList2, paramList2, ...]
//
// This format will also work as expected on older Firefox versions where
// only one listener was being persisted for each set of params.
startupListeners[module][event] = Array.from(
eventEntry.values()
).flatMap(keyEntry => keyEntry.listeners.map(() => keyEntry.params));
}
}
extension.startupData.persistentListeners = startupListeners;
extension.saveStartupData();
}
// Set up "primed" event listeners for any saved event listeners
// in an extension's startup data.
// This function is only called during browser startup, it stores details
// about all primed listeners in the extension's persistentListeners Map.
static primeListeners(extension, isInStartup = false) {
if (!EventManager._initPersistentListeners(extension)) {
return;
}
for (let [module, moduleEntry] of extension.persistentListeners) {
// If we're in startup, we only want to continue attempting to prime a
// subset of events that should be startup blocking.
if (isInStartup) {
let api_module = extension.apiManager.getModule(module);
if (!api_module.startupBlocking) {
continue;
}
}
let api = extension.apiManager.getAPI(module, extension, "addon_parent");
// If an extension is upgraded and a permission, such as webRequest, is
// removed, we will have been called but the API is no longer available.
if (!api?.primeListener) {
// The runtime module no longer implements primed listeners, drop them.
extension.persistentListeners.delete(module);
EventManager._writePersistentListeners(extension);
continue;
}
for (let [event, eventEntry] of moduleEntry) {
for (let [key, { params, listeners }] of eventEntry) {
for (let listener of listeners) {
// Reset the `listener.added` flag by setting it to `false` while
// re-priming the listeners because the event page has suspended
// and the previous converted listener is no longer listening.
const listenerWasAdded = listener.added;
listener.added = false;
listener.params = params;
let primed = { pendingEvents: [] };
let fireEvent = (...args) =>
new Promise((resolve, reject) => {
if (!listener.primed) {
reject(
new Error(
`primed listener ${module}.${event} not re-registered`
)
);
return;
}
primed.pendingEvents.push({ args, resolve, reject });
extension.emit("background-script-event");
});
let fire = {
wakeup: () => extension.wakeupBackground(),
sync: fireEvent,
async: fireEvent,
// fire.async for ProxyContextParent is already not cloning.
raw: fireEvent,
};
try {
let handler = api.primeListener(
event,
fire,
listener.params,
isInStartup
);
if (handler) {
listener.primed = primed;
Object.assign(primed, handler);
}
} catch (e) {
Cu.reportError(
`Error priming listener ${module}.${event}: ${e} :: ${e.stack}`
);
// Force this listener to be cleared.
listener.error = true;
}
// If an attempt to prime a listener failed, ensure it is cleared now.
// If a module is a startup blocking module, not all listeners may
// get primed during early startup. For that reason, we don't clear
// persisted listeners during early startup. At the end of background
// execution any listeners that were not renewed will be cleared.
//
// avoid to special handling it here.
if (
listener.error ||
(!isInStartup &&
!(
(`${module}.${event}` === "runtime.onStartup" &&
listenerWasAdded) ||
listener.primed
))
) {
EventManager.clearPersistentListener(
extension,
module,
event,
key,
listener.primeId
);
}
}
}
}
}
}
/**
* This is called as a result of background script startup-finished and shutdown.
*
* After startup, it removes any remaining primed listeners. These exist if the
* listener was not renewed during startup. In this case the persisted listener
* data is also removed.
*
* During shutdown, care should be taken to set clearPersistent to false.
* persisted listener data should NOT be cleared during shutdown.
*
* @param {Extension} extension
* @param {boolean} clearPersistent whether the persisted listener data should be cleared.
*/
static clearPrimedListeners(extension, clearPersistent = true) {
if (!extension.persistentListeners) {
return;
}
for (let [module, moduleEntry] of extension.persistentListeners) {
for (let [event, eventEntry] of moduleEntry) {
for (let [key, { listeners }] of eventEntry) {
for (let listener of listeners) {
let { primed, added, primeId } = listener;
// When a primed listener is added or renewed during initial
// background execution we set an added flag. If it was primed
// when added, primed is set to null.
if (added) {
continue;
}
if (primed) {
// When a primed listener was not renewed, primed will still be truthy.
// These need to be cleared on shutdown (important for event pages), but
// we only clear the persisted listener data after the startup of a background.
// Release any pending events and unregister the primed handler.
listener.primed = null;
for (let evt of primed.pendingEvents) {
evt.reject(new Error("listener not re-registered"));
}
primed.unregister();
}
// Clear any persisted events that were not renewed, should typically
// only be done at the end of the background page load.
if (clearPersistent) {
EventManager.clearPersistentListener(
extension,
module,
event,
key,
primeId
);
}
}
}
}
}
}
// Record the fact that there is a listener for the given event in
// the given extension. `args` is an Array containing any extra
// arguments that were passed to addListener().
static savePersistentListener(extension, module, event, args = []) {
EventManager._initPersistentListeners(extension);
let key = uneval(args);
const eventEntry = extension.persistentListeners.get(module).get(event);
let primeId;
if (!eventEntry.has(key)) {
// when writing, only args are written, other properties are dropped
primeId = 0;
eventEntry.set(key, {
params: args,
listeners: [{ added: true, primeId }],
nextPrimeId: 1,
});
} else {
const keyEntry = eventEntry.get(key);
primeId = keyEntry.nextPrimeId;
keyEntry.listeners.push({ added: true, primeId });
keyEntry.nextPrimeId = primeId + 1;
}
EventManager._writePersistentListeners(extension);
return [module, event, key, primeId];
}
// Remove the record for the given event listener from the extension's
// startup data. `key` must be a string, the result of calling uneval()
// on the array of extra arguments originally passed to addListener().
static clearPersistentListener(
extension,
module,
event,
key = uneval([]),
primeId = undefined
) {
let eventEntry = extension.persistentListeners.get(module).get(event);
let keyEntry = eventEntry.get(key);
if (primeId != undefined && keyEntry) {
keyEntry.listeners = keyEntry.listeners.filter(
listener => listener.primeId !== primeId
);
}
if (primeId == undefined || keyEntry?.listeners.length === 0) {
eventEntry.delete(key);
if (eventEntry.size == 0) {
let moduleEntry = extension.persistentListeners.get(module);
moduleEntry.delete(event);
if (moduleEntry.size == 0) {
extension.persistentListeners.delete(module);
}
}
}
EventManager._writePersistentListeners(extension);
}
addListener(callback, ...args) {
if (this.unregister.has(callback)) {
return;
}
this.context.logActivity("api_call", `${this.name}.addListener`, { args });
let shouldFire = () => {
if (this.context.unloaded) {
dump(`${this.name} event fired after context unloaded.\n`);
} else if (!this.context.active) {
dump(`${this.name} event fired while context is inactive.\n`);
} else if (this.unregister.has(callback)) {
return true;
}
return false;
};
let { extension } = this.context;
const resetIdle = () => {
if (this.resetIdleOnEvent) {
extension?.emit("background-script-reset-idle", {
reason: "event",
eventName: this.name,
});
}
};
let fire = {
sync: (...args) => {
if (shouldFire()) {
resetIdle();
let result = this.context.applySafe(callback, args);
this.context.logActivity("api_event", this.name, { args, result });
return result;
}
},
async: (...args) => {
return Promise.resolve().then(() => {
if (shouldFire()) {
resetIdle();
let result = this.context.applySafe(callback, args);
this.context.logActivity("api_event", this.name, { args, result });
return result;
}
});
},
raw: (...args) => {
if (!shouldFire()) {
throw new Error("Called raw() on unloaded/inactive context");
}
resetIdle();
let result;
// When we are in the parent process (isProxyContextParent==true), there is no need to forward
// the exceptions to the extension document (context.cloneScope).
if (
this.context.isProxyContextParent ||
lazy.callFunctionAndLogExceptionDisabled
) {
result = Reflect.apply(callback, null, args);
} else {
// Use callFunctionAndLogException in order to ensure routing any exception to DevTools.
result = ChromeUtils.callFunctionAndLogException(
this.context.cloneScope,
() => Reflect.apply(callback, null, args)
);
}
this.context.logActivity("api_event", this.name, { args, result });
return result;
},
asyncWithoutClone: (...args) => {
return Promise.resolve().then(() => {
if (shouldFire()) {
resetIdle();
let result = this.context.applySafeWithoutClone(callback, args);
this.context.logActivity("api_event", this.name, { args, result });
return result;
}
});
},
};
let { module, event } = this;
let unregister = null;
let recordStartupData = false;
// If this is a persistent event, check for a listener that was already
// created during startup. If there is one, use it and don't create a
// new one.
if (this.canPersistEvents) {
// Once a background is started, listenerPromises is set to null. At
// that point, we stop recording startup data.
recordStartupData = !!this.context.listenerPromises;
let key = uneval(args);
EventManager._initPersistentListeners(extension);
let keyEntry = extension.persistentListeners
.get(module)
.get(event)
.get(key);
// Get the first persistent listener which matches the module, event and extra arguments
// and not added back by the extension yet, the persistent listener found may be either
// primed or not (in particular API Events that belongs to APIs that should not be blocking
// startup may have persistent listeners that are not primed during the first execution
// of the background context happening as part of the applications startup, whereas they
// will be primed when the background context will be suspended on the idle timeout).
let listener = keyEntry?.listeners.find(listener => !listener.added);
if (listener) {
// During startup only a subset of persisted listeners are primed. As
// well, each API determines whether to prime a specific listener.
let { primed } = listener;
if (primed) {
listener.primed = null;
primed.convert(fire, this.context);
unregister = primed.unregister;
for (let evt of primed.pendingEvents) {
evt.resolve(fire.async(...evt.args));
}
}
listener.added = true;
recordStartupData = false;
// Do not clear the persistent listener for a non-persistent backgrond
// context on removeListener calls got after the background context
// was fully started. The persistent listener can instead be cleared
// by not re-registering it on the next background context startup.
//
// This check prevents that for listeners that were already persisted
// and primed (a separate one below prevents it for new listeners).
//
// unregistered.
if (extension.persistentBackground) {
this.remove.set(callback, () => {
EventManager.clearPersistentListener(
extension,
module,
event,
uneval(args),
listener.primeId
);
});
}
}
}
if (!unregister) {
unregister = this.register(fire, ...args);
}
this.unregister.set(callback, unregister);
this.context.callOnClose(this);
// If this is a new listener for a persistent event, record
// the details for subsequent startups.
if (recordStartupData) {
const [, , , /* _module */ /* _event */ /* _key */ primeId] =
EventManager.savePersistentListener(extension, module, event, args);
// Do not clear the persistent listener for a non-persistent backgrond
// context on removeListener calls got after the background context
// was fully started. The persistent listener can instead be cleared
// by not re-registering it on the next background context startup.
//
// This check prevents that for new listeners that were not already persisted
// and primed.
//
// unregistered.
if (extension.persistentBackground) {
this.remove.set(callback, () => {
EventManager.clearPersistentListener(
extension,
module,
event,
uneval(args),
primeId
);
});
}
}
}
removeListener(callback, clearPersistentListener = true) {
if (!this.unregister.has(callback)) {
return;
}
this.context.logActivity("api_call", `${this.name}.removeListener`, {
args: [],
});
let unregister = this.unregister.get(callback);
this.unregister.delete(callback);
try {
unregister();
} catch (e) {
Cu.reportError(e);
}
if (clearPersistentListener && this.remove.has(callback)) {
let cleanup = this.remove.get(callback);
this.remove.delete(callback);
cleanup();
}
if (this.unregister.size == 0) {
this.context.forgetOnClose(this);
}
}
hasListener(callback) {
return this.unregister.has(callback);
}
revoke() {
for (let callback of this.unregister.keys()) {
this.removeListener(callback, false);
}
}
close() {
this.revoke();
}
api() {
return {
addListener: (...args) => this.addListener(...args),
removeListener: (...args) => this.removeListener(...args),
hasListener: (...args) => this.hasListener(...args),
setUserInput: this.inputHandling,
[lazy.Schemas.REVOKE]: () => this.revoke(),
};
}
}
// Simple API for event listeners where events never fire.
function ignoreEvent(context, name) {
return {
addListener: function () {
let id = context.extension.id;
let frame = Components.stack.caller;
let msg = `In add-on ${id}, attempting to use listener "${name}", which is unimplemented.`;
let scriptError = Cc["@mozilla.org/scripterror;1"].createInstance(
Ci.nsIScriptError
);
scriptError.init(
msg,
frame.filename,
frame.lineNumber,
frame.columnNumber,
Ci.nsIScriptError.warningFlag,
"content javascript"
);
Services.console.logMessage(scriptError);
},
removeListener: function () {},
hasListener: function () {},
};
}
const stylesheetMap = new DefaultMap(url => {
let uri = Services.io.newURI(url);
return lazy.styleSheetService.preloadSheet(
uri,
// Note: keep in sync with ext-browser-content.js. This used to be
lazy.styleSheetService.AUTHOR_SHEET
);
});
/**
* Updates the in-memory representation of extension host permissions, i.e.
* policy.allowedOrigins.
*
* @param {WebExtensionPolicy} policy
* A policy. All MatchPattern instances in policy.allowedOrigins are
* expected to have been constructed with ignorePath: true.
* @param {string[]} origins
* A list of already-normalized origins, equivalent to using the
* MatchPattern constructor with ignorePath: true.
* @param {boolean} isAdd
* Whether to add instead of removing the host permissions.
*/
function updateAllowedOrigins(policy, origins, isAdd) {
if (!origins.length) {
// Nothing to modify.
return;
}
let patternMap = new Map();
for (let pattern of policy.allowedOrigins.patterns) {
patternMap.set(pattern.pattern, pattern);
}
if (!isAdd) {
for (let origin of origins) {
patternMap.delete(origin);
}
} else {
// In the parent process, policy.extension.restrictSchemes is available.
// In the content process, we need to check the mozillaAddons permission,
// which is only available if approved by the parent.
const restrictSchemes =
policy.extension?.restrictSchemes ??
policy.hasPermission("mozillaAddons");
for (let origin of origins) {
if (patternMap.has(origin)) {
continue;
}
patternMap.set(
origin,
new MatchPattern(origin, { restrictSchemes, ignorePath: true })
);
}
}
// patternMap contains only MatchPattern instances, so we don't need to set
// the options parameter (with restrictSchemes, etc.) since that is only used
// if the input is a string.
policy.allowedOrigins = new MatchPatternSet(Array.from(patternMap.values()));
}
export var ExtensionCommon = {
BaseContext,
CanOfAPIs,
EventManager,
ExtensionAPI,
ExtensionAPIPersistent,
EventEmitter,
LocalAPIImplementation,
LocaleData,
NoCloneSpreadArgs,
SchemaAPIInterface,
SchemaAPIManager,
SpreadArgs,
checkLoadURI,
checkLoadURL,
defineLazyGetter,
redefineGetter,
getConsole,
ignoreEvent,
instanceOf,
makeWidgetId,
normalizeTime,
runSafeSyncWithoutClone,
stylesheetMap,
updateAllowedOrigins,
withHandlingUserInput,
MultiAPIManager,
LazyAPIManager,
// Whether we're running under Web Platform Tests mode,
// required to adjust some cross-browser behaviors.
get isInWPT() {
return Cu.isInAutomation && lazy.wptEnabled;
},
};