gecko/mobile/android/modules/WebappManager.jsm

660 lines
25 KiB
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/. */
"use strict";
this.EXPORTED_SYMBOLS = ["WebappManager"];
const { classes: Cc, interfaces: Ci, utils: Cu } = Components;
const UPDATE_URL_PREF = "browser.webapps.updateCheckUrl";
Cu.import("resource://gre/modules/AppsUtils.jsm");
Cu.import("resource://gre/modules/Downloads.jsm");
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("resource://gre/modules/NetUtil.jsm");
Cu.import("resource://gre/modules/FileUtils.jsm");
Cu.import("resource://gre/modules/DOMRequestHelper.jsm");
Cu.import("resource://gre/modules/Webapps.jsm");
Cu.import("resource://gre/modules/osfile.jsm");
Cu.import("resource://gre/modules/Promise.jsm");
Cu.import("resource://gre/modules/Task.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "Notifications", "resource://gre/modules/Notifications.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "Messaging", "resource://gre/modules/Messaging.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "PluralForm", "resource://gre/modules/PluralForm.jsm");
// Import AppsServiceChild.DOMApplicationRegistry for its getAll method.
var AppsServiceChild = {};
XPCOMUtils.defineLazyModuleGetter(AppsServiceChild, "DOMApplicationRegistry",
"resource://gre/modules/AppsServiceChild.jsm");
XPCOMUtils.defineLazyGetter(this, "Strings", function() {
return Services.strings.createBundle("chrome://browser/locale/webapp.properties");
});
XPCOMUtils.defineLazyServiceGetter(this, "ParentalControls",
"@mozilla.org/parental-controls-service;1", "nsIParentalControlsService");
/**
* Get the formatted plural form of a string. Escapes semicolons in arguments
* to provide to the formatter before formatting the string, then unescapes them
* after getting its plural form, to avoid tripping up the plural form getter
* with a semicolon in one of the formatter's arguments, since the plural forms
* of localized strings are delimited by semicolons.
*
* Ideally, we'd get the plural form first and then format the string,
* so we wouldn't have to escape/unescape the semicolons; but that would require
* changes to nsIStringBundle and PluralForm.jsm.
*
* @param stringName {String} the string to get the formatted plural form of
* @param formatterArgs {Array} of {String} args to provide to the formatter
* @param pluralNum {Number} the number that determines the plural form
* @returns {String} the formatted plural form of the string
*/
function getFormattedPluralForm(stringName, formatterArgs, pluralNum) {
// Escape semicolons by replacing them with ESC characters.
let escapedArgs = [arg.replace(/;/g, String.fromCharCode(0x1B)) for (arg of formatterArgs)];
let formattedString = Strings.formatStringFromName(stringName, escapedArgs, escapedArgs.length);
let pluralForm = PluralForm.get(pluralNum, formattedString);
let unescapedString = pluralForm.replace(String.fromCharCode(0x1B), ";", "g");
return unescapedString;
}
let Log = Cu.import("resource://gre/modules/AndroidLog.jsm", {}).AndroidLog;
let debug = Log.d.bind(null, "WebappManager");
this.WebappManager = {
__proto__: DOMRequestIpcHelper.prototype,
get _testing() {
try {
return Services.prefs.getBoolPref("browser.webapps.testing");
} catch(ex) {
return false;
}
},
install: function(aMessage, aMessageManager) {
if (this._testing) {
// Go directly to DOM. Do not download/install APK, do not collect $200.
DOMApplicationRegistry.doInstall(aMessage, aMessageManager);
return;
}
this._installApk(aMessage, aMessageManager);
},
installPackage: function(aMessage, aMessageManager) {
if (this._testing) {
// Go directly to DOM. Do not download/install APK, do not collect $200.
DOMApplicationRegistry.doInstallPackage(aMessage, aMessageManager);
return;
}
this._installApk(aMessage, aMessageManager);
},
_installApk: function(aMessage, aMessageManager) { return Task.spawn((function*() {
if (!ParentalControls.isAllowed(ParentalControls.INSTALL_APPS)) {
aMessage.error = Strings.GetStringFromName("webappsDisabled"),
aMessageManager.sendAsyncMessage("Webapps:Install:Return:KO", aMessage);
return;
}
let filePath;
try {
filePath = yield this._downloadApk(aMessage.app.manifestURL);
} catch(ex) {
aMessage.error = ex;
aMessageManager.sendAsyncMessage("Webapps:Install:Return:KO", aMessage);
debug("error downloading APK: " + ex);
return;
}
Messaging.sendRequestForResult({
type: "Webapps:InstallApk",
filePath: filePath,
data: aMessage,
}).catch(function (error) {
aMessage.error = error;
aMessageManager.sendAsyncMessage("Webapps:Install:Return:KO", aMessage);
debug("error downloading APK: " + error);
});
}).bind(this)); },
_downloadApk: function(aManifestUrl) {
debug("_downloadApk for " + aManifestUrl);
let deferred = Promise.defer();
// Get the endpoint URL and convert it to an nsIURI/nsIURL object.
const GENERATOR_URL_PREF = "browser.webapps.apkFactoryUrl";
const GENERATOR_URL_BASE = Services.prefs.getCharPref(GENERATOR_URL_PREF);
let generatorUrl = NetUtil.newURI(GENERATOR_URL_BASE).QueryInterface(Ci.nsIURL);
// Populate the query part of the URL with the manifest URL parameter.
let params = {
manifestUrl: aManifestUrl,
};
generatorUrl.query =
[p + "=" + encodeURIComponent(params[p]) for (p in params)].join("&");
debug("downloading APK from " + generatorUrl.spec);
Downloads.getSystemDownloadsDirectory().then(function(downloadsDir) {
let file = new FileUtils.File(downloadsDir);
file.append(aManifestUrl.replace(/[^a-zA-Z0-9]/gi, "") + ".apk");
file.createUnique(Ci.nsIFile.NORMAL_FILE_TYPE, FileUtils.PERMS_FILE);
debug("downloading APK to " + file.path);
let worker = new ChromeWorker("resource://gre/modules/WebappManagerWorker.js");
worker.onmessage = function(event) {
let { type, message } = event.data;
worker.terminate();
if (type == "success") {
deferred.resolve(file.path);
} else { // type == "failure"
debug("error downloading APK: " + message);
deferred.reject(message);
}
}
// Trigger the download.
worker.postMessage({ url: generatorUrl.spec, path: file.path });
});
return deferred.promise;
},
_deleteAppcachePath: function(aManifest) {
// We don't yet support pre-installing an appcache because it isn't clear
// how to do it without degrading the user experience (since users expect
// apps to be available after the system tells them they've been installed,
// which has already happened) and because nsCacheService shuts down
// when we trigger the native install dialog and doesn't re-init itself
// afterward (TODO: file bug about this behavior).
if ("appcache_path" in aManifest) {
debug("deleting appcache_path from manifest: " + aManifest.appcache_path);
delete aManifest.appcache_path;
}
},
askInstall: function(aData) {
let file = Cc["@mozilla.org/file/local;1"].createInstance(Ci.nsILocalFile);
file.initWithPath(aData.profilePath);
this._deleteAppcachePath(aData.app.manifest);
DOMApplicationRegistry.registryReady.then(() => {
DOMApplicationRegistry.confirmInstall(aData, file, (function(aApp, aManifest) {
this._postInstall(aData.profilePath, aManifest, aData.app.origin,
aData.app.apkPackageName, aData.app.manifestURL);
}).bind(this));
});
},
_postInstall: function(aProfilePath, aNewManifest, aOrigin, aApkPackageName, aManifestURL) {
// aOrigin may now point to the app: url that hosts this app.
Messaging.sendRequest({
type: "Webapps:Postinstall",
apkPackageName: aApkPackageName,
origin: aOrigin,
});
},
askUninstall: function(aData) {
// Android does not currently support automatic uninstalling of apps.
// See bug 1019054.
DOMApplicationRegistry.denyUninstall(aData, "NOT_SUPPORTED");
},
launch: function({ apkPackageName }) {
debug("launch: " + apkPackageName);
Messaging.sendRequest({
type: "Webapps:Launch",
packageName: apkPackageName,
});
},
uninstall: Task.async(function*(aData, aMessageManager) {
debug("uninstall: " + aData.manifestURL);
yield DOMApplicationRegistry.registryReady;
if (this._testing) {
// Go directly to DOM. Do not uninstall APK, do not collect $200.
DOMApplicationRegistry.doUninstall(aData, aMessageManager);
return;
}
let app = DOMApplicationRegistry.getAppByManifestURL(aData.manifestURL);
if (!app) {
throw new Error("app not found in registry");
}
// If the APK is installed, then _getAPKVersions will return a version
// for it, so we can use that function to determine its install status.
if (app.apkPackageName && app.apkPackageName in (yield this._getAPKVersions([ app.apkPackageName ]))) {
debug("APK is installed; requesting uninstallation");
Messaging.sendRequest({
type: "Webapps:UninstallApk",
apkPackageName: app.apkPackageName,
});
// We don't need to call DOMApplicationRegistry.doUninstall at this point,
// because the APK uninstall listener will call autoUninstall once the APK
// is uninstalled; and if the user cancels the APK uninstallation, then we
// shouldn't remove the app from the registry anyway.
// But we should tell the requesting document the result of their request.
// TODO: tell the requesting document if uninstallation succeeds or fails
// by storing weak references to the message/manager pair here and then
// using them in autoUninstall if they're still defined when it's called;
// and make EventListener.uninstallApk return an error when APK uninstall
// fails (which it should be able to detect reliably on Android 4+),
// which we observe here and use to notify the requester of failure.
} else {
// The APK isn't installed, but remove the app from the registry anyway,
// to ensure the user can always remove an app from the registry (and thus
// about:apps) even if it's out of sync with installed APKs.
debug("APK not installed; proceeding directly to removal from registry");
DOMApplicationRegistry.uninstall(aData.manifestURL);
}
}),
autoInstall: function(aData) {
debug("autoInstall " + aData.manifestURL);
let mm = {
sendAsyncMessage: function (aMessageName, aData) {
// TODO hook this back to Java to report errors.
debug("sendAsyncMessage " + aMessageName + ": " + JSON.stringify(aData));
}
};
let origin = Services.io.newURI(aData.manifestURL, null, null).prePath;
let message = aData.request || {
app: {
origin: origin,
receipts: [],
}
};
if (aData.updateManifest) {
if (aData.zipFilePath) {
aData.updateManifest.package_path = aData.zipFilePath;
}
message.app.updateManifest = aData.updateManifest;
}
// The manifest url may be subtly different between the
// time the APK was built and the APK being installed.
// Thus, we should take the APK as the source of truth.
message.app.manifestURL = aData.manifestURL;
message.app.manifest = aData.manifest;
message.app.apkPackageName = aData.apkPackageName;
message.profilePath = aData.profilePath;
message.mm = mm;
message.apkInstall = true;
DOMApplicationRegistry.registryReady.then(() => {
// If the app is already installed, update the existing installation.
// We should be able to use DOMApplicationRegistry.getAppByManifestURL,
// but it returns a mozIApplication, while _autoUpdate needs the original
// object from DOMApplicationRegistry.webapps in order to modify it.
for (let [ , app] in Iterator(DOMApplicationRegistry.webapps)) {
if (app.manifestURL == aData.manifestURL) {
return this._autoUpdate(aData, app);
}
}
switch (aData.type) { // can be hosted or packaged.
case "hosted":
DOMApplicationRegistry.doInstall(message, mm);
break;
case "packaged":
message.isPackage = true;
DOMApplicationRegistry.doInstallPackage(message, mm);
break;
}
});
},
_autoUpdate: function(aData, aOldApp) { return Task.spawn((function*() {
debug("_autoUpdate app of type " + aData.type);
if (aOldApp.apkPackageName != aData.apkPackageName) {
// This happens when the app was installed as a shortcut via the old
// runtime and is now being updated to an APK.
debug("update apkPackageName from " + aOldApp.apkPackageName + " to " + aData.apkPackageName);
aOldApp.apkPackageName = aData.apkPackageName;
}
if (aData.type == "hosted") {
this._deleteAppcachePath(aData.manifest);
let oldManifest = yield DOMApplicationRegistry.getManifestFor(aData.manifestURL);
yield DOMApplicationRegistry.updateHostedApp(aData, aOldApp.id, aOldApp, oldManifest, aData.manifest);
} else {
yield this._autoUpdatePackagedApp(aData, aOldApp);
}
this._postInstall(aData.profilePath, aData.manifest, aOldApp.origin, aOldApp.apkPackageName, aOldApp.manifestURL);
}).bind(this)); },
_autoUpdatePackagedApp: Task.async(function*(aData, aOldApp) {
debug("_autoUpdatePackagedApp: " + aData.manifestURL);
if (aData.updateManifest && aData.zipFilePath) {
aData.updateManifest.package_path = aData.zipFilePath;
}
// updatePackagedApp just prepares the update, after which we must
// download the package via the misnamed startDownload and then apply it
// via applyDownload.
yield DOMApplicationRegistry.updatePackagedApp(aData, aOldApp.id, aOldApp, aData.updateManifest);
try {
yield DOMApplicationRegistry.startDownload(aData.manifestURL);
} catch (ex if ex == "PACKAGE_UNCHANGED") {
debug("package unchanged");
// If the package is unchanged, then there's nothing more to do.
return;
}
yield DOMApplicationRegistry.applyDownload(aData.manifestURL);
}),
_checkingForUpdates: false,
checkForUpdates: function(userInitiated) { return Task.spawn((function*() {
debug("checkForUpdates");
// Don't start checking for updates if we're already doing so.
// TODO: Consider cancelling the old one and starting a new one anyway
// if the user requested this one.
if (this._checkingForUpdates) {
debug("already checking for updates");
return;
}
this._checkingForUpdates = true;
try {
let installedApps = yield this._getInstalledApps();
if (installedApps.length === 0) {
return;
}
// Map APK names to APK versions.
let apkNameToVersion = yield this._getAPKVersions(installedApps.map(app =>
app.apkPackageName).filter(apkPackageName => !!apkPackageName)
);
// Map manifest URLs to APK versions, which is what the service needs
// in order to tell us which apps are outdated; and also map them to app
// objects, which the downloader/installer uses to download/install APKs.
// XXX Will this cause us to update apps without packages, and if so,
// does that satisfy the legacy migration story?
let manifestUrlToApkVersion = {};
let manifestUrlToApp = {};
for (let app of installedApps) {
manifestUrlToApkVersion[app.manifestURL] = apkNameToVersion[app.apkPackageName] || 0;
manifestUrlToApp[app.manifestURL] = app;
}
let outdatedApps = yield this._getOutdatedApps(manifestUrlToApkVersion, userInitiated);
if (outdatedApps.length === 0) {
// If the user asked us to check for updates, tell 'em we came up empty.
if (userInitiated) {
this._notify({
title: Strings.GetStringFromName("noUpdatesTitle"),
message: Strings.GetStringFromName("noUpdatesMessage"),
icon: "drawable://alert_app",
});
}
return;
}
let usingLan = function() {
let network = Cc["@mozilla.org/network/network-link-service;1"].getService(Ci.nsINetworkLinkService);
return (network.linkType == network.LINK_TYPE_WIFI || network.linkType == network.LINK_TYPE_ETHERNET);
};
let updateAllowed = function() {
let autoUpdatePref = Services.prefs.getCharPref("app.update.autodownload");
return (autoUpdatePref == "enabled") || (autoUpdatePref == "wifi" && usingLan());
};
if (updateAllowed()) {
yield this._updateApks([manifestUrlToApp[url] for (url of outdatedApps)]);
} else {
let names = [manifestUrlToApp[url].name for (url of outdatedApps)].join(", ");
let accepted = yield this._notify({
title: PluralForm.get(outdatedApps.length, Strings.GetStringFromName("retrieveUpdateTitle")).
replace("#1", outdatedApps.length),
message: getFormattedPluralForm("retrieveUpdateMessage", [names], outdatedApps.length),
icon: "drawable://alert_app",
}).dismissed;
if (accepted) {
yield this._updateApks([manifestUrlToApp[url] for (url of outdatedApps)]);
}
}
}
// There isn't a catch block because we want the error to propagate through
// the promise chain, so callers can receive it and choose to respond to it.
finally {
// Ensure we update the _checkingForUpdates flag even if there's an error;
// otherwise the process will get stuck and never check for updates again.
this._checkingForUpdates = false;
}
}).bind(this)); },
_getAPKVersions: function(packageNames) {
return Messaging.sendRequestForResult({
type: "Webapps:GetApkVersions",
packageNames: packageNames
}).then(data => data.versions);
},
_getInstalledApps: function() {
let deferred = Promise.defer();
AppsServiceChild.DOMApplicationRegistry.getAll(apps => deferred.resolve(apps));
return deferred.promise;
},
_getOutdatedApps: function(installedApps, userInitiated) {
let deferred = Promise.defer();
let data = JSON.stringify({ installed: installedApps });
let notification;
if (userInitiated) {
notification = this._notify({
title: Strings.GetStringFromName("checkingForUpdatesTitle"),
message: Strings.GetStringFromName("checkingForUpdatesMessage"),
icon: "drawable://alert_app_animation",
progress: NaN,
});
}
let request = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"].
createInstance(Ci.nsIXMLHttpRequest).
QueryInterface(Ci.nsIXMLHttpRequestEventTarget);
request.mozBackgroundRequest = true;
request.open("POST", Services.prefs.getCharPref(UPDATE_URL_PREF), true);
request.channel.loadFlags = Ci.nsIChannel.LOAD_ANONYMOUS |
Ci.nsIChannel.LOAD_BYPASS_CACHE |
Ci.nsIChannel.INHIBIT_CACHING;
request.onload = function() {
if (userInitiated) {
notification.cancel();
}
deferred.resolve(JSON.parse(this.response).outdated);
};
request.onerror = function() {
if (userInitiated) {
notification.cancel();
}
deferred.reject(this.status || this.statusText);
};
request.setRequestHeader("Content-Type", "application/json");
request.setRequestHeader("Content-Length", data.length);
request.send(data);
return deferred.promise;
},
_updateApks: function(aApps) { return Task.spawn((function*() {
// Notify the user that we're in the progress of downloading updates.
let downloadingNames = [app.name for (app of aApps)].join(", ");
let notification = this._notify({
title: PluralForm.get(aApps.length, Strings.GetStringFromName("retrievingUpdateTitle")).
replace("#1", aApps.length),
message: getFormattedPluralForm("retrievingUpdateMessage", [downloadingNames], aApps.length),
icon: "drawable://alert_download_animation",
// TODO: make this a determinate progress indicator once we can determine
// the sizes of the APKs and observe their progress.
progress: NaN,
});
// Download the APKs for the given apps. We do this serially to avoid
// saturating the user's network connection.
// TODO: download APKs in parallel (or at least more than one at a time)
// if it seems reasonable.
let downloadedApks = [];
let downloadFailedApps = [];
for (let app of aApps) {
try {
let filePath = yield this._downloadApk(app.manifestURL);
downloadedApks.push({ app: app, filePath: filePath });
} catch(ex) {
downloadFailedApps.push(app);
}
}
notification.cancel();
// Notify the user if any downloads failed, but don't do anything
// when the user accepts/cancels the notification.
// In the future, we might prompt the user to retry the download.
if (downloadFailedApps.length > 0) {
let downloadFailedNames = [app.name for (app of downloadFailedApps)].join(", ");
this._notify({
title: PluralForm.get(downloadFailedApps.length, Strings.GetStringFromName("retrievalFailedTitle")).
replace("#1", downloadFailedApps.length),
message: getFormattedPluralForm("retrievalFailedMessage", [downloadFailedNames], downloadFailedApps.length),
icon: "drawable://alert_app",
});
}
// If we weren't able to download any APKs, then there's nothing more to do.
if (downloadedApks.length === 0) {
return;
}
// Prompt the user to update the apps for which we downloaded APKs, and wait
// until they accept/cancel the notification.
let downloadedNames = [apk.app.name for (apk of downloadedApks)].join(", ");
let accepted = yield this._notify({
title: PluralForm.get(downloadedApks.length, Strings.GetStringFromName("installUpdateTitle")).
replace("#1", downloadedApks.length),
message: getFormattedPluralForm("installUpdateMessage2", [downloadedNames], downloadedApks.length),
icon: "drawable://alert_app",
}).dismissed;
if (accepted) {
// The user accepted the notification, so install the downloaded APKs.
for (let apk of downloadedApks) {
let msg = {
app: apk.app,
// TODO: figure out why Webapps:InstallApk needs the "from" property.
from: apk.app.installOrigin,
};
Messaging.sendRequestForResult({
type: "Webapps:InstallApk",
filePath: apk.filePath,
data: msg,
}).catch((error) => {
// There's no page to report back to so drop the error.
// TODO: we should notify the user about this failure.
debug("APK install failed : " + error);
});
}
} else {
// The user cancelled the notification, so remove the downloaded APKs.
for (let apk of downloadedApks) {
try {
yield OS.file.remove(apk.filePath);
} catch(ex) {
debug("error removing " + apk.filePath + " for cancelled update: " + ex);
}
}
}
}).bind(this)); },
_notify: function(aOptions) {
dump("_notify: " + aOptions.title);
// Resolves to true if the notification is "clicked" (i.e. touched)
// and false if the notification is "cancelled" by swiping it away.
let dismissed = Promise.defer();
// TODO: make notifications expandable so users can expand them to read text
// that gets cut off in standard notifications.
let id = Notifications.create({
title: aOptions.title,
message: aOptions.message,
icon: aOptions.icon,
progress: aOptions.progress,
onClick: function(aId, aCookie) {
dismissed.resolve(true);
},
onCancel: function(aId, aCookie) {
dismissed.resolve(false);
},
});
// Return an object with a promise that resolves when the notification
// is dismissed by the user along with a method for cancelling it,
// so callers who want to wait for user action can do so, while those
// who want to control the notification's lifecycle can do that instead.
return {
dismissed: dismissed.promise,
cancel: function() {
Notifications.cancel(id);
},
};
},
autoUninstall: function(aData) {
DOMApplicationRegistry.registryReady.then(() => {
for (let id in DOMApplicationRegistry.webapps) {
let app = DOMApplicationRegistry.webapps[id];
if (aData.apkPackageNames.indexOf(app.apkPackageName) > -1) {
debug("attempting to uninstall " + app.name);
DOMApplicationRegistry.uninstall(app.manifestURL).then(
function() {
debug("success uninstalling " + app.name);
},
function(error) {
debug("error uninstalling " + app.name + ": " + error);
}
);
}
}
});
},
};