/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.server.webkit; import android.content.Context; import android.content.pm.ApplicationInfo; import android.content.pm.PackageInfo; import android.content.pm.Signature; import android.os.UserHandle; import android.util.Slog; import android.webkit.UserPackage; import android.webkit.WebViewProviderInfo; import android.webkit.WebViewProviderResponse; import java.io.PrintWriter; import java.lang.Integer; import java.util.List; /** * Implementation of the WebViewUpdateService. * This class doesn't depend on the android system like the actual Service does and can be used * directly by tests (as long as they implement a SystemInterface). * * This class implements two main features - handling WebView fallback packages and keeping track * of, and preparing, the current WebView implementation. The fallback mechanism is meant to be * uncoupled from the rest of the WebView preparation and does not store any state. The code for * choosing and preparing a WebView implementation needs to keep track of a couple of different * things such as what package is used as WebView implementation. * * The public methods in this class are accessed from WebViewUpdateService either on the UI thread * or on one of multiple Binder threads. This means that the code in this class needs to be * thread-safe. The fallback mechanism shares (almost) no information between threads which makes * it easier to argue about thread-safety (in theory, if timed badly, the fallback mechanism can * incorrectly enable/disable a fallback package but that fault will be corrected when we later * receive an intent for that enabling/disabling). On the other hand, the WebView preparation code * shares state between threads meaning that code that chooses a new WebView implementation or * checks which implementation is being used needs to hold a lock. * * The WebViewUpdateService can be accessed in a couple of different ways. * 1. It is started from the SystemServer at boot - at that point we just initiate some state such * as the WebView preparation class. * 2. The SystemServer calls WebViewUpdateService.prepareWebViewInSystemServer. This happens at boot * and the WebViewUpdateService should not have been accessed before this call. In this call we * enable/disable fallback packages and then choose WebView implementation for the first time. * 3. The update service listens for Intents related to package installs and removals. These intents * are received and processed on the UI thread. Each intent can result in enabling/disabling * fallback packages and changing WebView implementation. * 4. The update service can be reached through Binder calls which are handled on specific binder * threads. These calls can be made from any process. Generally they are used for changing WebView * implementation (from Settings), getting information about the current WebView implementation (for * loading WebView into an app process), or notifying the service about Relro creation being * completed. * * @hide */ public class WebViewUpdateServiceImpl { private static final String TAG = WebViewUpdateServiceImpl.class.getSimpleName(); private SystemInterface mSystemInterface; private WebViewUpdater mWebViewUpdater; final private Context mContext; private final static int MULTIPROCESS_SETTING_ON_VALUE = Integer.MAX_VALUE; private final static int MULTIPROCESS_SETTING_OFF_VALUE = Integer.MIN_VALUE; public WebViewUpdateServiceImpl(Context context, SystemInterface systemInterface) { mContext = context; mSystemInterface = systemInterface; mWebViewUpdater = new WebViewUpdater(mContext, mSystemInterface); } void packageStateChanged(String packageName, int changedState, int userId) { // We don't early out here in different cases where we could potentially early-out (e.g. if // we receive PACKAGE_CHANGED for another user than the system user) since that would // complicate this logic further and open up for more edge cases. updateFallbackStateOnPackageChange(packageName, changedState); mWebViewUpdater.packageStateChanged(packageName, changedState); } void prepareWebViewInSystemServer() { updateFallbackStateOnBoot(); mWebViewUpdater.prepareWebViewInSystemServer(); mSystemInterface.notifyZygote(isMultiProcessEnabled()); } private boolean existsValidNonFallbackProvider(WebViewProviderInfo[] providers) { for (WebViewProviderInfo provider : providers) { if (provider.availableByDefault && !provider.isFallback) { // userPackages can contain null objects. List userPackages = mSystemInterface.getPackageInfoForProviderAllUsers(mContext, provider); if (WebViewUpdater.isInstalledAndEnabledForAllUsers(userPackages) && // Checking validity of the package for the system user (rather than all // users) since package validity depends not on the user but on the package // itself. mWebViewUpdater.isValidProvider(provider, userPackages.get(UserHandle.USER_SYSTEM).getPackageInfo())) { return true; } } } return false; } void handleNewUser(int userId) { // The system user is always started at boot, and by that point we have already run one // round of the package-changing logic (through prepareWebViewInSystemServer()), so early // out here. if (userId == UserHandle.USER_SYSTEM) return; handleUserChange(); } void handleUserRemoved(int userId) { handleUserChange(); } /** * Called when a user was added or removed to ensure fallback logic and WebView preparation are * triggered. This has to be done since the WebView package we use depends on the enabled-state * of packages for all users (so adding or removing a user might cause us to change package). */ private void handleUserChange() { if (mSystemInterface.isFallbackLogicEnabled()) { updateFallbackState(mSystemInterface.getWebViewPackages()); } // Potentially trigger package-changing logic. mWebViewUpdater.updateCurrentWebViewPackage(null); } void notifyRelroCreationCompleted() { mWebViewUpdater.notifyRelroCreationCompleted(); } WebViewProviderResponse waitForAndGetProvider() { return mWebViewUpdater.waitForAndGetProvider(); } String changeProviderAndSetting(String newProvider) { return mWebViewUpdater.changeProviderAndSetting(newProvider); } WebViewProviderInfo[] getValidWebViewPackages() { return mWebViewUpdater.getValidWebViewPackages(); } WebViewProviderInfo[] getWebViewPackages() { return mSystemInterface.getWebViewPackages(); } PackageInfo getCurrentWebViewPackage() { return mWebViewUpdater.getCurrentWebViewPackage(); } void enableFallbackLogic(boolean enable) { mSystemInterface.enableFallbackLogic(enable); } private void updateFallbackStateOnBoot() { if (!mSystemInterface.isFallbackLogicEnabled()) return; WebViewProviderInfo[] webviewProviders = mSystemInterface.getWebViewPackages(); updateFallbackState(webviewProviders); } /** * Handle the enabled-state of our fallback package, i.e. if there exists some non-fallback * package that is valid (and available by default) then disable the fallback package, * otherwise, enable the fallback package. */ private void updateFallbackStateOnPackageChange(String changedPackage, int changedState) { if (!mSystemInterface.isFallbackLogicEnabled()) return; WebViewProviderInfo[] webviewProviders = mSystemInterface.getWebViewPackages(); // A package was changed / updated / downgraded, early out if it is not one of the // webview packages that are available by default. boolean changedPackageAvailableByDefault = false; for (WebViewProviderInfo provider : webviewProviders) { if (provider.packageName.equals(changedPackage)) { if (provider.availableByDefault) { changedPackageAvailableByDefault = true; } break; } } if (!changedPackageAvailableByDefault) return; updateFallbackState(webviewProviders); } private void updateFallbackState(WebViewProviderInfo[] webviewProviders) { // If there exists a valid and enabled non-fallback package - disable the fallback // package, otherwise, enable it. WebViewProviderInfo fallbackProvider = getFallbackProvider(webviewProviders); if (fallbackProvider == null) return; boolean existsValidNonFallbackProvider = existsValidNonFallbackProvider(webviewProviders); List userPackages = mSystemInterface.getPackageInfoForProviderAllUsers(mContext, fallbackProvider); if (existsValidNonFallbackProvider && !isDisabledForAllUsers(userPackages)) { mSystemInterface.uninstallAndDisablePackageForAllUsers(mContext, fallbackProvider.packageName); } else if (!existsValidNonFallbackProvider && !WebViewUpdater.isInstalledAndEnabledForAllUsers(userPackages)) { // Enable the fallback package for all users. mSystemInterface.enablePackageForAllUsers(mContext, fallbackProvider.packageName, true); } } /** * Returns the only fallback provider in the set of given packages, or null if there is none. */ private static WebViewProviderInfo getFallbackProvider(WebViewProviderInfo[] webviewPackages) { for (WebViewProviderInfo provider : webviewPackages) { if (provider.isFallback) { return provider; } } return null; } boolean isFallbackPackage(String packageName) { if (packageName == null || !mSystemInterface.isFallbackLogicEnabled()) return false; WebViewProviderInfo[] webviewPackages = mSystemInterface.getWebViewPackages(); WebViewProviderInfo fallbackProvider = getFallbackProvider(webviewPackages); return (fallbackProvider != null && packageName.equals(fallbackProvider.packageName)); } boolean isMultiProcessEnabled() { int settingValue = mSystemInterface.getMultiProcessSetting(mContext); if (mSystemInterface.isMultiProcessDefaultEnabled()) { // Multiprocess should be enabled unless the user has turned it off manually. return settingValue > MULTIPROCESS_SETTING_OFF_VALUE; } else { // Multiprocess should not be enabled, unless the user has turned it on manually. return settingValue >= MULTIPROCESS_SETTING_ON_VALUE; } } void enableMultiProcess(boolean enable) { PackageInfo current = getCurrentWebViewPackage(); mSystemInterface.setMultiProcessSetting(mContext, enable ? MULTIPROCESS_SETTING_ON_VALUE : MULTIPROCESS_SETTING_OFF_VALUE); mSystemInterface.notifyZygote(enable); if (current != null) { mSystemInterface.killPackageDependents(current.packageName); } } private static boolean isDisabledForAllUsers(List userPackages) { for (UserPackage userPackage : userPackages) { if (userPackage.getPackageInfo() != null && userPackage.isEnabledPackage()) { return false; } } return true; } /** * Dump the state of this Service. */ void dumpState(PrintWriter pw) { pw.println("Current WebView Update Service state"); pw.println(String.format(" Fallback logic enabled: %b", mSystemInterface.isFallbackLogicEnabled())); pw.println(String.format(" Multiprocess enabled: %b", isMultiProcessEnabled())); mWebViewUpdater.dumpState(pw); } }