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/* 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/. */
"use strict";
const Cu = Components.utils;
const Ci = Components.interfaces;
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "Prefetcher",
"resource://gre/modules/Prefetcher.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "RemoteAddonsParent",
"resource://gre/modules/RemoteAddonsParent.jsm");
/**
* This service overlays the API that the browser exposes to
* add-ons. The overlay tries to make a multiprocess browser appear as
* much as possible like a single process browser. An overlay can
* replace methods, getters, and setters of arbitrary browser objects.
*
* Most of the actual replacement code is implemented in
* RemoteAddonsParent. The code in this service simply decides how to
* replace code. For a given type of object (say, an
* nsIObserverService) the code in RemoteAddonsParent can register a
* set of replacement methods. This set is called an
* "interposition". The service keeps track of all the different
* interpositions. Whenever a method is called on some part of the
* browser API, this service gets a chance to replace it. To do so, it
* consults its map based on the type of object. If an interposition
* is found, the given method is looked up on it and called
* instead. If no method (or no interposition) is found, then the
* original target method is called as normal.
*
* For each method call, we need to determine the type of the target
* object. If the object is an old-style XPConnect wrapped native,
* then the type is simply the interface that the method was called on
* (Ci.nsIObserverService, say). For all other objects (WebIDL
* objects, CPOWs, and normal JS objects), the type is determined by
* calling getObjectTag.
*
* The interpositions defined in RemoteAddonsParent have three
* properties: methods, getters, and setters. When accessing a
* property, we first consult methods. If nothing is found, then we
* consult getters or setters, depending on whether the access is a
* get or a set.
*
* The methods in |methods| are functions that will be called whenever
* the given method is called on the target object. They are passed
* the same parameters as the original function except for two
* additional ones at the beginning: the add-on ID and the original
* target object that the method was called on. Additionally, the
* value of |this| is set to the original target object.
*
* The values in |getters| and |setters| should also be
* functions. They are called immediately when the given property is
* accessed. The functions in |getters| take two parameters: the
* add-on ID and the original target object. The functions in
* |setters| take those arguments plus the value that the property is
* being set to.
*/
function AddonInterpositionService()
{
Prefetcher.init();
RemoteAddonsParent.init();
// These maps keep track of the interpositions for all different
// kinds of objects.
this._interfaceInterpositions = RemoteAddonsParent.getInterfaceInterpositions();
this._taggedInterpositions = RemoteAddonsParent.getTaggedInterpositions();
let wl = [];
for (let v in this._interfaceInterpositions) {
let interp = this._interfaceInterpositions[v];
wl.push(...Object.getOwnPropertyNames(interp.methods));
wl.push(...Object.getOwnPropertyNames(interp.getters));
wl.push(...Object.getOwnPropertyNames(interp.setters));
}
for (let v in this._taggedInterpositions) {
let interp = this._taggedInterpositions[v];
wl.push(...Object.getOwnPropertyNames(interp.methods));
wl.push(...Object.getOwnPropertyNames(interp.getters));
wl.push(...Object.getOwnPropertyNames(interp.setters));
}
let nameSet = new Set();
wl = wl.filter(function(item) {
if (nameSet.has(item))
return true;
nameSet.add(item);
return true;
});
this._whitelist = wl;
}
AddonInterpositionService.prototype = {
classID: Components.ID("{1363d5f0-d95e-11e3-9c1a-0800200c9a66}"),
QueryInterface: XPCOMUtils.generateQI([Ci.nsIAddonInterposition, Ci.nsISupportsWeakReference]),
getWhitelist: function() {
return this._whitelist;
},
// When the interface is not known for a method call, this code
// determines the type of the target object.
getObjectTag: function(target) {
if (Cu.isCrossProcessWrapper(target)) {
return Cu.getCrossProcessWrapperTag(target);
}
if (target instanceof Ci.nsIDOMXULElement) {
if (target.localName == "browser" && target.isRemoteBrowser) {
return "RemoteBrowserElement";
}
if (target.localName == "tabbrowser") {
return "TabBrowserElement";
}
}
if (target instanceof Ci.nsIDOMChromeWindow && target.gMultiProcessBrowser) {
return "ChromeWindow";
}
if (target instanceof Ci.nsIDOMEventTarget) {
return "EventTarget";
}
return "generic";
},
interposeProperty: function(addon, target, iid, prop) {
let interp;
if (iid) {
interp = this._interfaceInterpositions[iid];
} else {
try {
interp = this._taggedInterpositions[this.getObjectTag(target)];
}
catch (e) {
Cu.reportError(new Components.Exception("Failed to interpose object", e.result, Components.stack.caller));
}
}
if (!interp) {
return Prefetcher.lookupInCache(addon, target, prop);
}
let desc = { configurable: false, enumerable: true };
if ("methods" in interp && prop in interp.methods) {
desc.writable = false;
desc.value = function(...args) {
return interp.methods[prop](addon, target, ...args);
}
return desc;
} else if ("getters" in interp && prop in interp.getters) {
desc.get = function() { return interp.getters[prop](addon, target); };
if ("setters" in interp && prop in interp.setters) {
desc.set = function(v) { return interp.setters[prop](addon, target, v); };
}
return desc;
}
return Prefetcher.lookupInCache(addon, target, prop);
},
interposeCall: function(addonId, originalFunc, originalThis, args) {
args.splice(0, 0, addonId);
return originalFunc.apply(originalThis, args);
},
};
this.NSGetFactory = XPCOMUtils.generateNSGetFactory([AddonInterpositionService]);
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