/* 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 Cc = Components.classes; const Ci = Components.interfaces; const Cu = Components.utils; const Cr = Components.results; Cu.import("resource://gre/modules/XPCOMUtils.jsm"); Cu.import("resource://gre/modules/DOMRequestHelper.jsm"); Cu.import("resource://gre/modules/Services.jsm"); const kSystemMessageInternalReady = "system-message-internal-ready"; XPCOMUtils.defineLazyServiceGetter(this, "cpmm", "@mozilla.org/childprocessmessagemanager;1", "nsISyncMessageSender"); function debug(aMsg) { // dump("-- SystemMessageManager " + Date.now() + " : " + aMsg + "\n"); } // Implementation of the DOM API for system messages function SystemMessageManager() { // If we have a system message handler registered for messages of type // |type|, this._dispatchers[type] equals {handler, messages, isHandling}, // where // - |handler| is the message handler that the page registered, // - |messages| is a list of messages which we've received while // dispatching messages to the handler, but haven't yet sent, and // - |isHandling| indicates whether we're currently dispatching messages // to this handler. this._dispatchers = {}; // Pending messages for this page, keyed by message type. this._pendings = {}; // Flag to specify if this process has already registered the manifest URL. this._registerManifestURLReady = false; // Used to know if the promise has to be accepted or not. this._isHandling = false; this._promise = null; // Flag to determine this process is a parent or child process. let appInfo = Cc["@mozilla.org/xre/app-info;1"]; this._isParentProcess = !appInfo || appInfo.getService(Ci.nsIXULRuntime) .processType == Ci.nsIXULRuntime.PROCESS_TYPE_DEFAULT; // An oberver to listen to whether the |SystemMessageInternal| is ready. if (this._isParentProcess) { Services.obs.addObserver(this, kSystemMessageInternalReady, false); } } SystemMessageManager.prototype = { __proto__: DOMRequestIpcHelper.prototype, _dispatchMessage: function(aType, aDispatcher, aMessage, aMessageID) { if (aDispatcher.isHandling) { // Queue up the incomming message if we're currently dispatching a // message; we'll send the message once we finish with the current one. // // _dispatchMethod is reentrant because a page can spin up a nested // event loop from within a system message handler (e.g. via alert()), // and we can then try to send the page another message while it's // inside this nested event loop. aDispatcher.messages.push({ message: aMessage, messageID: aMessageID }); return; } aDispatcher.isHandling = true; this._isHandling = true; // We get a json blob, but in some cases we want another kind of object // to be dispatched. To do so, we check if we have a valid contract ID of // "@mozilla.org/dom/system-messages/wrapper/TYPE;1" component implementing // nsISystemMessageWrapper. debug("Dispatching " + JSON.stringify(aMessage) + "\n"); let contractID = "@mozilla.org/dom/system-messages/wrapper/" + aType + ";1"; let wrapped = false; if (contractID in Cc) { debug(contractID + " is registered, creating an instance"); let wrapper = Cc[contractID].createInstance(Ci.nsISystemMessagesWrapper); if (wrapper) { aMessage = wrapper.wrapMessage(aMessage, this._window); wrapped = true; debug("wrapped = " + aMessage); } } let message = wrapped ? aMessage : Cu.cloneInto(aMessage, this._window); let rejectPromise = false; try { aDispatcher.handler.handleMessage(message); } catch(e) { rejectPromise = true; } this._isHandling = false; aDispatcher.isHandling = false; let self = this; function sendResponse() { // We need to notify the parent one of the system messages has been // handled, so the parent can release the CPU wake lock it took on our // behalf. cpmm.sendAsyncMessage("SystemMessageManager:HandleMessageDone", { type: aType, manifestURL: self._manifestURL, pageURL: self._pageURL, msgID: aMessageID, rejected: rejectPromise }); } if (!this._promise) { debug("No promise set, sending the response immediately."); sendResponse(); } else { debug("Using the promise to postpone the response."); this._promise.then(sendResponse, function() { rejectPromise = true; sendResponse(); }); this._promise = null; } if (aDispatcher.messages.length > 0) { let msg = aDispatcher.messages.shift(); this._dispatchMessage(aType, aDispatcher, msg.message, msg.messageID); } else { // No more messages that need to be handled, we can notify the // ContentChild to release the CPU wake lock grabbed by the ContentParent // (i.e. NewWakeLockOnBehalfOfProcess()) and reset the process's priority. // // TODO: Bug 874353 - Remove SystemMessageHandledListener in ContentParent Services.obs.notifyObservers(/* aSubject */ null, "handle-system-messages-done", /* aData */ null); } }, mozSetMessageHandler: function(aType, aHandler) { debug("set message handler for [" + aType + "] " + aHandler); if (this._isInBrowserElement) { debug("the app loaded in the browser cannot set message handler"); // Don't throw there, but ignore the registration. return; } if (!aType) { // Just bail out if we have no type. return; } let dispatchers = this._dispatchers; if (!aHandler) { // Setting the dispatcher to null means we don't want to handle messages // for this type anymore. delete dispatchers[aType]; return; } // Last registered handler wins. dispatchers[aType] = { handler: aHandler, messages: [], isHandling: false }; // Ask for the list of currently pending messages. cpmm.sendAsyncMessage("SystemMessageManager:GetPendingMessages", { type: aType, pageURL: this._pageURL, manifestURL: this._manifestURL }); }, mozHasPendingMessage: function(aType) { debug("asking pending message for [" + aType + "]"); if (this._isInBrowserElement) { debug("the app loaded in the browser cannot ask pending message"); // Don't throw there, but pretend to have no messages available. return false; } // If we have a handler for this type, we can't have any pending message. if (aType in this._dispatchers) { return false; } /* * NB: If the system message is fired after we received the cache * and before we registered the pageURL we will get false * negative however this is unlikely and will do no harm. */ let cache = Cc["@mozilla.org/system-message-cache;1"] .getService(Ci.nsISystemMessageCache); return cache.hasPendingMessage(aType, this._pageURL, this._manifestURL); }, mozIsHandlingMessage: function() { debug("is handling message: " + this._isHandling); return this._isHandling; }, mozSetMessageHandlerPromise: function(aPromise) { debug("setting a promise"); if (!this._isHandling) { throw "Not in a handleMessage method"; } if (this._promise) { throw "Promise already set"; } this._promise = aPromise; }, uninit: function() { this._dispatchers = null; this._pendings = null; this._promise = null; if (this._isParentProcess) { Services.obs.removeObserver(this, kSystemMessageInternalReady); } if (this._isInBrowserElement) { debug("the app loaded in the browser doesn't need to unregister " + "the manifest URL for listening to the system messages"); return; } cpmm.sendAsyncMessage("SystemMessageManager:Unregister", { manifestURL: this._manifestURL, pageURL: this._pageURL, innerWindowID: this.innerWindowID }); }, // Possible messages: // // - SystemMessageManager:Message // This one will only be received when the child process is alive when // the message is initially sent. // // - SystemMessageManager:GetPendingMessages:Return // This one will be received when the starting child process wants to // retrieve the pending system messages from the parent (i.e. after // sending SystemMessageManager:GetPendingMessages). receiveMessage: function(aMessage) { let msg = aMessage.data; debug("receiveMessage " + aMessage.name + " for [" + msg.type + "] " + "with manifest URL = " + msg.manifestURL + " and page URL = " + msg.pageURL); // Multiple windows can share the same target (process), the content // window needs to check if the manifest/page URL is matched. Only // *one* window should handle the system message. if (msg.manifestURL !== this._manifestURL || msg.pageURL !== this._pageURL) { debug("This page shouldn't handle the messages because its " + "manifest URL = " + this._manifestURL + " and page URL = " + this._pageURL); return; } let messages = (aMessage.name == "SystemMessageManager:Message") ? [{ msg: msg.msg, msgID: msg.msgID }] : msg.msgQueue; // We only dispatch messages when a handler is registered. let dispatcher = this._dispatchers[msg.type]; if (dispatcher) { if (aMessage.name == "SystemMessageManager:Message") { // Send an acknowledgement to parent to clean up the pending message // before we dispatch the message to apps, so a re-launched app won't // handle it again, which is redundant. cpmm.sendAsyncMessage("SystemMessageManager:Message:Return:OK", { type: msg.type, manifestURL: this._manifestURL, pageURL: this._pageURL, msgID: msg.msgID }); } messages.forEach(function(aMsg) { this._dispatchMessage(msg.type, dispatcher, aMsg.msg, aMsg.msgID); }, this); } else { // Since no handlers are registered, we need to notify the parent as if // all the queued system messages have been handled (notice |handledCount: // messages.length|), so the parent can release the CPU wake lock it took // on our behalf. cpmm.sendAsyncMessage("SystemMessageManager:HandleMessagesDone", { type: msg.type, manifestURL: this._manifestURL, pageURL: this._pageURL, handledCount: messages.length }); // We also need to notify the ContentChild to release the CPU wake lock // grabbed by the ContentParent (i.e. NewWakeLockOnBehalfOfProcess()) and // reset the process's priority. // // TODO: Bug 874353 - Remove SystemMessageHandledListener in ContentParent Services.obs.notifyObservers(/* aSubject */ null, "handle-system-messages-done", /* aData */ null); } }, // nsIDOMGlobalPropertyInitializer implementation. init: function(aWindow) { debug("init"); this.initDOMRequestHelper(aWindow, ["SystemMessageManager:Message", "SystemMessageManager:GetPendingMessages:Return"]); let principal = aWindow.document.nodePrincipal; this._isInBrowserElement = principal.isInBrowserElement; this._pageURL = principal.URI.spec; let appsService = Cc["@mozilla.org/AppsService;1"] .getService(Ci.nsIAppsService); this._manifestURL = appsService.getManifestURLByLocalId(principal.appId); // Two cases are valid to register the manifest URL for the current process: // 1. This is asked by a child process (parent process must be ready). // 2. Parent process has already constructed the |SystemMessageInternal|. // Otherwise, delay to do it when the |SystemMessageInternal| is ready. let readyToRegister = true; if (this._isParentProcess) { let ready = cpmm.sendSyncMessage( "SystemMessageManager:AskReadyToRegister", null); if (ready.length == 0 || !ready[0]) { readyToRegister = false; } } if (readyToRegister) { this._registerManifestURL(); } debug("done"); }, observe: function(aSubject, aTopic, aData) { if (aTopic === kSystemMessageInternalReady) { this._registerManifestURL(); } // Call the DOMRequestIpcHelper.observe method. this.__proto__.__proto__.observe.call(this, aSubject, aTopic, aData); }, _registerManifestURL: function() { if (this._isInBrowserElement) { debug("the app loaded in the browser doesn't need to register " + "the manifest URL for listening to the system messages"); return; } if (!this._registerManifestURLReady) { cpmm.sendAsyncMessage("SystemMessageManager:Register", { manifestURL: this._manifestURL, pageURL: this._pageURL, innerWindowID: this.innerWindowID }); this._registerManifestURLReady = true; } }, classID: Components.ID("{bc076ea0-609b-4d8f-83d7-5af7cbdc3bb2}"), QueryInterface: XPCOMUtils.generateQI([Ci.nsIDOMNavigatorSystemMessages, Ci.nsIDOMGlobalPropertyInitializer, Ci.nsIObserver, Ci.nsISupportsWeakReference]) } this.NSGetFactory = XPCOMUtils.generateNSGetFactory([SystemMessageManager]);