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hotsoft-desenv2/XPCOMUtils.jsm

Created June 26, 2020 16:03
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resource://gre/modules/XPCOMUtils.jsm
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XPCOMUtils.jsm
/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*-
* vim: sw=2 ts=2 sts=2 et filetype=javascript
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
* Utilities for JavaScript components loaded by the JS component
* loader.
*
* Import into a JS component using
* 'Components.utils.import("resource://gre/modules/XPCOMUtils.jsm");'
*
* Exposing a JS 'class' as a component using these utility methods consists
* of several steps:
* 0. Import XPCOMUtils, as described above.
* 1. Declare the 'class' (or multiple classes) implementing the component(s):
* function MyComponent() {
* // constructor
* }
* MyComponent.prototype = {
* // properties required for XPCOM registration:
* classID: Components.ID("{xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx}"),
*
* // [optional] custom factory (an object implementing nsIFactory). If not
* // provided, the default factory is used, which returns
* // |(new MyComponent()).QueryInterface(iid)| in its createInstance().
* _xpcom_factory: { ... },
*
* // QueryInterface implementation, e.g. using the generateQI helper
* QueryInterface: ChromeUtils.generateQI(
* [Components.interfaces.nsIObserver,
* Components.interfaces.nsIMyInterface,
* "nsIFoo",
* "nsIBar" ]),
*
* // The following properties were used prior to Mozilla 2, but are no
* // longer supported. They may still be included for compatibility with
* // prior versions of XPCOMUtils. In Mozilla 2, this information is
* // included in the .manifest file which registers this JS component.
* classDescription: "unique text description",
* contractID: "@example.com/xxx;1",
*
* // ...component implementation...
* };
*
* 2. Create an array of component constructors (like the one
* created in step 1):
* var components = [MyComponent];
*
* 3. Define the NSGetFactory entry point:
* this.NSGetFactory = XPCOMUtils.generateNSGetFactory(components);
*/
var EXPORTED_SYMBOLS = [ "XPCOMUtils" ];
let global = Cu.getGlobalForObject({});
const nsIFactoryQI = ChromeUtils.generateQI([Ci.nsIFactory]);
// Some global imports expose additional symbols; for example,
// `Cu.importGlobalProperties(["MessageChannel"])` imports `MessageChannel`
// and `MessagePort`. This table maps those extra symbols to the main
// import name.
const EXTRA_GLOBAL_NAME_TO_IMPORT_NAME = {
Headers: "fetch",
MessagePort: "MessageChannel",
Request: "fetch",
Response: "fetch",
};
/**
* Redefines the given property on the given object with the given
* value. This can be used to redefine getter properties which do not
* implement setters.
*/
function redefine(object, prop, value) {
Object.defineProperty(object, prop, {
configurable: true,
enumerable: true,
value,
writable: true,
});
return value;
}
var XPCOMUtils = {
/**
* Generate a NSGetFactory function given an array of components.
*/
generateNSGetFactory: function XPCU_generateNSGetFactory(componentsArray) {
let classes = {};
for (let i = 0; i < componentsArray.length; i++) {
let component = componentsArray[i];
if (!(component.prototype.classID instanceof Components.ID))
throw Error("In generateNSGetFactory, classID missing or incorrect for component " + component);
classes[component.prototype.classID] = this._getFactory(component);
}
return function NSGetFactory(cid) {
let cidstring = cid.toString();
if (cidstring in classes)
return classes[cidstring];
throw Cr.NS_ERROR_FACTORY_NOT_REGISTERED;
}
},
/**
* Defines a getter on a specified object that will be created upon first use.
*
* @param aObject
* The object to define the lazy getter on.
* @param aName
* The name of the getter to define on aObject.
* @param aLambda
* A function that returns what the getter should return. This will
* only ever be called once.
*/
defineLazyGetter: function XPCU_defineLazyGetter(aObject, aName, aLambda)
{
let redefining = false;
Object.defineProperty(aObject, aName, {
get: function () {
if (!redefining) {
// Make sure we don't get into an infinite recursion loop if
// the getter lambda does something shady.
redefining = true;
return redefine(aObject, aName, aLambda.apply(aObject));
}
},
configurable: true,
enumerable: true
});
},
/**
* Defines a getter on a specified object for a script. The script will not
* be loaded until first use.
*
* @param aObject
* The object to define the lazy getter on.
* @param aNames
* The name of the getter to define on aObject for the script.
* This can be a string if the script exports only one symbol,
* or an array of strings if the script can be first accessed
* from several different symbols.
* @param aResource
* The URL used to obtain the script.
*/
defineLazyScriptGetter: function XPCU_defineLazyScriptGetter(aObject, aNames,
aResource)
{
if (!Array.isArray(aNames)) {
aNames = [aNames];
}
for (let name of aNames) {
Object.defineProperty(aObject, name, {
get: function() {
Services.scriptloader.loadSubScript(aResource, aObject);
return aObject[name];
},
set(value) {
redefine(aObject, name, value);
},
configurable: true,
enumerable: true
});
}
},
/**
* Defines a getter property on the given object for each of the given
* global names as accepted by Cu.importGlobalProperties. These
* properties are imported into the shared JSM module global, and then
* copied onto the given object, no matter which global the object
* belongs to.
*
* @param {object} aObject
* The object on which to define the properties.
* @param {string[]} aNames
* The list of global properties to define.
*/
defineLazyGlobalGetters(aObject, aNames) {
for (let name of aNames) {
this.defineLazyGetter(aObject, name, () => {
if (!(name in global)) {
let importName = EXTRA_GLOBAL_NAME_TO_IMPORT_NAME[name] || name;
Cu.importGlobalProperties([importName]);
}
return global[name];
});
}
},
/**
* Defines a getter on a specified object for a service. The service will not
* be obtained until first use.
*
* @param aObject
* The object to define the lazy getter on.
* @param aName
* The name of the getter to define on aObject for the service.
* @param aContract
* The contract used to obtain the service.
* @param aInterfaceName
* The name of the interface to query the service to.
*/
defineLazyServiceGetter: function XPCU_defineLazyServiceGetter(aObject, aName,
aContract,
aInterfaceName)
{
this.defineLazyGetter(aObject, aName, function XPCU_serviceLambda() {
if (aInterfaceName) {
return Cc[aContract].getService(Ci[aInterfaceName]);
}
return Cc[aContract].getService().wrappedJSObject;
});
},
/**
* Defines a lazy service getter on a specified object for each
* property in the given object.
*
* @param aObject
* The object to define the lazy getter on.
* @param aServices
* An object with a property for each service to be
* imported, where the property name is the name of the
* symbol to define, and the value is a 1 or 2 element array
* containing the contract ID and, optionally, the interface
* name of the service, as passed to defineLazyServiceGetter.
*/
defineLazyServiceGetters: function XPCU_defineLazyServiceGetters(
aObject, aServices)
{
for (let [name, service] of Object.entries(aServices)) {
// Note: This is hot code, and cross-compartment array wrappers
// are not JIT-friendly to destructuring or spread operators, so
// we need to use indexed access instead.
this.defineLazyServiceGetter(aObject, name, service[0], service[1] || null);
}
},
/**
* Defines a getter on a specified object for a module. The module will not
* be imported until first use. The getter allows to execute setup and
* teardown code (e.g. to register/unregister to services) and accepts
* a proxy object which acts on behalf of the module until it is imported.
*
* @param aObject
* The object to define the lazy getter on.
* @param aName
* The name of the getter to define on aObject for the module.
* @param aResource
* The URL used to obtain the module.
* @param aSymbol
* The name of the symbol exported by the module.
* This parameter is optional and defaults to aName.
* @param aPreLambda
* A function that is executed when the proxy is set up.
* This will only ever be called once.
* @param aPostLambda
* A function that is executed when the module has been imported to
* run optional teardown procedures on the proxy object.
* This will only ever be called once.
* @param aProxy
* An object which acts on behalf of the module to be imported until
* the module has been imported.
*/
defineLazyModuleGetter: function XPCU_defineLazyModuleGetter(
aObject, aName, aResource, aSymbol,
aPreLambda, aPostLambda, aProxy)
{
if (arguments.length == 3) {
return ChromeUtils.defineModuleGetter(aObject, aName, aResource);
}
let proxy = aProxy || {};
if (typeof(aPreLambda) === "function") {
aPreLambda.apply(proxy);
}
this.defineLazyGetter(aObject, aName, function XPCU_moduleLambda() {
var temp = {};
try {
ChromeUtils.import(aResource, temp);
if (typeof(aPostLambda) === "function") {
aPostLambda.apply(proxy);
}
} catch (ex) {
Cu.reportError("Failed to load module " + aResource + ".");
throw ex;
}
return temp[aSymbol || aName];
});
},
/**
* Defines a lazy module getter on a specified object for each
* property in the given object.
*
* @param aObject
* The object to define the lazy getter on.
* @param aModules
* An object with a property for each module property to be
* imported, where the property name is the name of the
* imported symbol and the value is the module URI.
*/
defineLazyModuleGetters: function XPCU_defineLazyModuleGetters(
aObject, aModules)
{
for (let [name, module] of Object.entries(aModules)) {
ChromeUtils.defineModuleGetter(aObject, name, module);
}
},
/**
* Defines a getter on a specified object for preference value. The
* preference is read the first time that the property is accessed,
* and is thereafter kept up-to-date using a preference observer.
*
* @param aObject
* The object to define the lazy getter on.
* @param aName
* The name of the getter property to define on aObject.
* @param aPreference
* The name of the preference to read.
* @param aDefaultValue
* The default value to use, if the preference is not defined.
* @param aOnUpdate
* A function to call upon update. Receives as arguments
* `(aPreference, previousValue, newValue)`
* @param aTransform
* An optional function to transform the value. If provided,
* this function receives the new preference value as an argument
* and its return value is used by the getter.
*/
defineLazyPreferenceGetter: function XPCU_defineLazyPreferenceGetter(
aObject, aName, aPreference,
aDefaultValue = null,
aOnUpdate = null,
aTransform = val => val)
{
// Note: We need to keep a reference to this observer alive as long
// as aObject is alive. This means that all of our getters need to
// explicitly close over the variable that holds the object, and we
// cannot define a value in place of a getter after we read the
// preference.
let observer = {
QueryInterface: XPCU_lazyPreferenceObserverQI,
value: undefined,
observe(subject, topic, data) {
if (data == aPreference) {
if (aOnUpdate) {
let previous = this.value;
// Fetch and cache value.
this.value = undefined;
let latest = lazyGetter();
aOnUpdate(data, previous, latest);
} else {
// Empty cache, next call to the getter will cause refetch.
this.value = undefined;
}
}
},
}
let defineGetter = get => {
Object.defineProperty(aObject, aName, {
configurable: true,
enumerable: true,
get,
});
};
function lazyGetter() {
if (observer.value === undefined) {
let prefValue;
switch (Services.prefs.getPrefType(aPreference)) {
case Ci.nsIPrefBranch.PREF_STRING:
prefValue = Services.prefs.getStringPref(aPreference);
break;
case Ci.nsIPrefBranch.PREF_INT:
prefValue = Services.prefs.getIntPref(aPreference);
break;
case Ci.nsIPrefBranch.PREF_BOOL:
prefValue = Services.prefs.getBoolPref(aPreference);
break;
case Ci.nsIPrefBranch.PREF_INVALID:
prefValue = aDefaultValue;
break;
default:
// This should never happen.
throw new Error(`Error getting pref ${aPreference}; its value's type is ` +
`${Services.prefs.getPrefType(aPreference)}, which I don't ` +
`know how to handle.`);
}
observer.value = aTransform(prefValue);
}
return observer.value;
}
defineGetter(() => {
Services.prefs.addObserver(aPreference, observer, true);
defineGetter(lazyGetter);
return lazyGetter();
});
},
/**
* Returns an nsIFactory for |component|.
*/
_getFactory: function XPCOMUtils__getFactory(component) {
var factory = component.prototype._xpcom_factory;
if (!factory) {
factory = {
createInstance: function(outer, iid) {
if (outer)
throw Cr.NS_ERROR_NO_AGGREGATION;
return (new component()).QueryInterface(iid);
},
QueryInterface: nsIFactoryQI
}
}
return factory;
},
/**
* generates a singleton nsIFactory implementation that can be used as
* the _xpcom_factory of the component.
* @param aServiceConstructor
* Constructor function of the component.
*/
generateSingletonFactory:
function XPCOMUtils_generateSingletonFactory(aServiceConstructor) {
return {
_instance: null,
createInstance: function XPCU_SF_createInstance(aOuter, aIID) {
if (aOuter !== null) {
throw Cr.NS_ERROR_NO_AGGREGATION;
}
if (this._instance === null) {
this._instance = new aServiceConstructor();
}
return this._instance.QueryInterface(aIID);
},
QueryInterface: nsIFactoryQI
};
},
/**
* Defines a non-writable property on an object.
*/
defineConstant: function XPCOMUtils__defineConstant(aObj, aName, aValue) {
Object.defineProperty(aObj, aName, {
value: aValue,
enumerable: true,
writable: false
});
},
/**
* Defines a proxy which acts as a lazy object getter that can be passed
* around as a reference, and will only be evaluated when something in
* that object gets accessed.
*
* The evaluation can be triggered by a function call, by getting or
* setting a property, calling this as a constructor, or enumerating
* the properties of this object (e.g. during an iteration).
*
* Please note that, even after evaluated, the object given to you
* remains being the proxy object (which forwards everything to the
* real object). This is important to correctly use these objects
* in pairs of add+remove listeners, for example.
* If your use case requires access to the direct object, you can
* get it through the untrap callback.
*
* @param aObject
* The object to define the lazy getter on.
*
* You can pass null to aObject if you just want to get this
* proxy through the return value.
*
* @param aName
* The name of the getter to define on aObject.
*
* @param aInitFuncOrResource
* A function or a module that defines what this object actually
* should be when it gets evaluated. This will only ever be called once.
*
* Short-hand: If you pass a string to this parameter, it will be treated
* as the URI of a module to be imported, and aName will be used as
* the symbol to retrieve from the module.
*
* @param aStubProperties
* In this parameter, you can provide an object which contains
* properties from the original object that, when accessed, will still
* prevent the entire object from being evaluated.
*
* These can be copies or simplified versions of the original properties.
*
* One example is to provide an alternative QueryInterface implementation
* to avoid the entire object from being evaluated when it's added as an
* observer (as addObserver calls object.QueryInterface(Ci.nsIObserver)).
*
* Once the object has been evaluated, the properties from the real
* object will be used instead of the ones provided here.
*
* @param aUntrapCallback
* A function that gets called once when the object has just been evaluated.
* You can use this to do some work (e.g. setting properties) that you need
* to do on this object but that can wait until it gets evaluated.
*
* Another use case for this is to use during code development to log when
* this object gets evaluated, to make sure you're not accidentally triggering
* it earlier than expected.
*/
defineLazyProxy: function XPCOMUtils__defineLazyProxy(aObject, aName, aInitFuncOrResource,
aStubProperties, aUntrapCallback) {
let initFunc = aInitFuncOrResource;
if (typeof(aInitFuncOrResource) == "string") {
initFunc = function () {
let tmp = {};
ChromeUtils.import(aInitFuncOrResource, tmp);
return tmp[aName];
};
}
let handler = new LazyProxyHandler(aName, initFunc,
aStubProperties, aUntrapCallback);
/*
* We cannot simply create a lazy getter for the underlying
* object and pass it as the target of the proxy, because
* just passing it in `new Proxy` means it would get
* evaluated. Becase of this, a full handler needs to be
* implemented (the LazyProxyHandler).
*
* So, an empty object is used as the target, and the handler
* replaces it on every call with the real object.
*/
let proxy = new Proxy({}, handler);
if (aObject) {
Object.defineProperty(aObject, aName, {
value: proxy,
enumerable: true,
writable: true,
});
}
return proxy;
},
};
/**
* LazyProxyHandler
* This class implements the handler used
* in the proxy from defineLazyProxy.
*
* This handler forwards all calls to an underlying object,
* stored as `this.realObject`, which is obtained as the returned
* value from aInitFunc, which will be called on the first time
* time that it needs to be used (with an exception in the get() trap
* for the properties provided in the `aStubProperties` parameter).
*/
class LazyProxyHandler {
constructor(aName, aInitFunc, aStubProperties, aUntrapCallback) {
this.pending = true;
this.name = aName;
this.initFuncOrResource = aInitFunc;
this.stubProperties = aStubProperties;
this.untrapCallback = aUntrapCallback;
}
getObject() {
if (this.pending) {
this.realObject = this.initFuncOrResource.call(null);
if (this.untrapCallback) {
this.untrapCallback.call(null, this.realObject);
this.untrapCallback = null;
}
this.pending = false;
this.stubProperties = null;
}
return this.realObject;
}
getPrototypeOf(target) {
return Reflect.getPrototypeOf(this.getObject());
}
setPrototypeOf(target, prototype) {
return Reflect.setPrototypeOf(this.getObject(), prototype);
}
isExtensible(target) {
return Reflect.isExtensible(this.getObject());
}
preventExtensions(target) {
return Reflect.preventExtensions(this.getObject());
}
getOwnPropertyDescriptor(target, prop) {
return Reflect.getOwnPropertyDescriptor(this.getObject(), prop);
}
defineProperty(target, prop, descriptor) {
return Reflect.defineProperty(this.getObject(), prop, descriptor);
}
has(target, prop) {
return Reflect.has(this.getObject(), prop);
}
get(target, prop, receiver) {
if (this.pending &&
this.stubProperties &&
Object.prototype.hasOwnProperty.call(this.stubProperties, prop)) {
return this.stubProperties[prop];
}
return Reflect.get(this.getObject(), prop, receiver);
}
set(target, prop, value, receiver) {
return Reflect.set(this.getObject(), prop, value, receiver);
}
deleteProperty(target, prop) {
return Reflect.deleteProperty(this.getObject(), prop);
}
ownKeys(target) {
return Reflect.ownKeys(this.getObject());
}
}
var XPCU_lazyPreferenceObserverQI = ChromeUtils.generateQI([Ci.nsIObserver, Ci.nsISupportsWeakReference]);
ChromeUtils.defineModuleGetter(this, "Services",
"resource://gre/modules/Services.jsm");
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