/* * 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.pm; import android.annotation.IntDef; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.UserIdInt; import android.app.ActivityManager; import android.app.ActivityManagerInternal; import android.app.AppGlobals; import android.app.IUidObserver; import android.app.usage.UsageStatsManagerInternal; import android.appwidget.AppWidgetProviderInfo; import android.content.BroadcastReceiver; import android.content.ComponentName; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.IntentSender; import android.content.IntentSender.SendIntentException; import android.content.pm.ActivityInfo; import android.content.pm.ApplicationInfo; import android.content.pm.IPackageManager; import android.content.pm.IShortcutService; import android.content.pm.LauncherApps; import android.content.pm.LauncherApps.ShortcutQuery; import android.content.pm.PackageInfo; import android.content.pm.PackageManager; import android.content.pm.PackageManager.NameNotFoundException; import android.content.pm.PackageManagerInternal; import android.content.pm.ParceledListSlice; import android.content.pm.ResolveInfo; import android.content.pm.ShortcutInfo; import android.content.pm.ShortcutServiceInternal; import android.content.pm.ShortcutServiceInternal.ShortcutChangeListener; import android.content.pm.UserInfo; import android.content.res.Resources; import android.content.res.XmlResourceParser; import android.graphics.Bitmap; import android.graphics.Bitmap.CompressFormat; import android.graphics.Canvas; import android.graphics.RectF; import android.graphics.drawable.AdaptiveIconDrawable; import android.graphics.drawable.Icon; import android.net.Uri; import android.os.Binder; import android.os.Build; import android.os.Bundle; import android.os.Environment; import android.os.FileUtils; import android.os.Handler; import android.os.LocaleList; import android.os.Looper; import android.os.ParcelFileDescriptor; import android.os.PersistableBundle; import android.os.Process; import android.os.RemoteException; import android.os.ResultReceiver; import android.os.SELinux; import android.os.ServiceManager; import android.os.ShellCallback; import android.os.ShellCommand; import android.os.SystemClock; import android.os.UserHandle; import android.os.UserManager; import android.text.TextUtils; import android.text.format.Time; import android.util.ArraySet; import android.util.AtomicFile; import android.util.KeyValueListParser; import android.util.Log; import android.util.Slog; import android.util.SparseArray; import android.util.SparseBooleanArray; import android.util.SparseIntArray; import android.util.SparseLongArray; import android.util.TypedValue; import android.util.Xml; import android.view.IWindowManager; import com.android.internal.annotations.GuardedBy; import com.android.internal.annotations.VisibleForTesting; import com.android.internal.os.BackgroundThread; import com.android.internal.util.DumpUtils; import com.android.internal.util.FastXmlSerializer; import com.android.internal.util.Preconditions; import com.android.server.LocalServices; import com.android.server.SystemService; import com.android.server.pm.ShortcutUser.PackageWithUser; import libcore.io.IoUtils; import org.json.JSONArray; import org.json.JSONException; import org.json.JSONObject; import org.xmlpull.v1.XmlPullParser; import org.xmlpull.v1.XmlPullParserException; import org.xmlpull.v1.XmlSerializer; import java.io.BufferedInputStream; import java.io.BufferedOutputStream; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.File; import java.io.FileDescriptor; import java.io.FileInputStream; import java.io.FileNotFoundException; import java.io.FileOutputStream; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.io.PrintWriter; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.net.URISyntaxException; import java.nio.charset.StandardCharsets; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.concurrent.atomic.AtomicBoolean; import java.util.function.Consumer; import java.util.function.Predicate; /** * TODO: * - getIconMaxWidth()/getIconMaxHeight() should use xdpi and ydpi. * -> But TypedValue.applyDimension() doesn't differentiate x and y..? * * - Detect when already registered instances are passed to APIs again, which might break * internal bitmap handling. */ public class ShortcutService extends IShortcutService.Stub { static final String TAG = "ShortcutService"; static final boolean DEBUG = false; // STOPSHIP if true static final boolean DEBUG_LOAD = false; // STOPSHIP if true static final boolean DEBUG_PROCSTATE = false; // STOPSHIP if true @VisibleForTesting static final long DEFAULT_RESET_INTERVAL_SEC = 24 * 60 * 60; // 1 day @VisibleForTesting static final int DEFAULT_MAX_UPDATES_PER_INTERVAL = 10; @VisibleForTesting static final int DEFAULT_MAX_SHORTCUTS_PER_APP = 5; @VisibleForTesting static final int DEFAULT_MAX_ICON_DIMENSION_DP = 96; @VisibleForTesting static final int DEFAULT_MAX_ICON_DIMENSION_LOWRAM_DP = 48; @VisibleForTesting static final String DEFAULT_ICON_PERSIST_FORMAT = CompressFormat.PNG.name(); @VisibleForTesting static final int DEFAULT_ICON_PERSIST_QUALITY = 100; @VisibleForTesting static final int DEFAULT_SAVE_DELAY_MS = 3000; @VisibleForTesting static final String FILENAME_BASE_STATE = "shortcut_service.xml"; @VisibleForTesting static final String DIRECTORY_PER_USER = "shortcut_service"; @VisibleForTesting static final String DIRECTORY_DUMP = "shortcut_dump"; @VisibleForTesting static final String FILENAME_USER_PACKAGES = "shortcuts.xml"; static final String DIRECTORY_BITMAPS = "bitmaps"; private static final String TAG_ROOT = "root"; private static final String TAG_LAST_RESET_TIME = "last_reset_time"; private static final String ATTR_VALUE = "value"; private static final String LAUNCHER_INTENT_CATEGORY = Intent.CATEGORY_LAUNCHER; private static final String KEY_SHORTCUT = "shortcut"; private static final String KEY_LOW_RAM = "lowRam"; private static final String KEY_ICON_SIZE = "iconSize"; private static final String DUMMY_MAIN_ACTIVITY = "android.__dummy__"; @VisibleForTesting interface ConfigConstants { /** * Key name for the save delay, in milliseconds. (int) */ String KEY_SAVE_DELAY_MILLIS = "save_delay_ms"; /** * Key name for the throttling reset interval, in seconds. (long) */ String KEY_RESET_INTERVAL_SEC = "reset_interval_sec"; /** * Key name for the max number of modifying API calls per app for every interval. (int) */ String KEY_MAX_UPDATES_PER_INTERVAL = "max_updates_per_interval"; /** * Key name for the max icon dimensions in DP, for non-low-memory devices. */ String KEY_MAX_ICON_DIMENSION_DP = "max_icon_dimension_dp"; /** * Key name for the max icon dimensions in DP, for low-memory devices. */ String KEY_MAX_ICON_DIMENSION_DP_LOWRAM = "max_icon_dimension_dp_lowram"; /** * Key name for the max dynamic shortcuts per activity. (int) */ String KEY_MAX_SHORTCUTS = "max_shortcuts"; /** * Key name for icon compression quality, 0-100. */ String KEY_ICON_QUALITY = "icon_quality"; /** * Key name for icon compression format: "PNG", "JPEG" or "WEBP" */ String KEY_ICON_FORMAT = "icon_format"; } final Context mContext; private final Object mLock = new Object(); private static List EMPTY_RESOLVE_INFO = new ArrayList<>(0); // Temporarily reverted to anonymous inner class form due to: b/32554459 private static Predicate ACTIVITY_NOT_EXPORTED = new Predicate() { public boolean test(ResolveInfo ri) { return !ri.activityInfo.exported; } }; // Temporarily reverted to anonymous inner class form due to: b/32554459 private static Predicate PACKAGE_NOT_INSTALLED = new Predicate() { public boolean test(PackageInfo pi) { return !isInstalled(pi); } }; private final Handler mHandler; @GuardedBy("mLock") private final ArrayList mListeners = new ArrayList<>(1); @GuardedBy("mLock") private long mRawLastResetTime; /** * User ID -> UserShortcuts */ @GuardedBy("mLock") private final SparseArray mUsers = new SparseArray<>(); /** * Max number of dynamic + manifest shortcuts that each application can have at a time. */ private int mMaxShortcuts; /** * Max number of updating API calls that each application can make during the interval. */ int mMaxUpdatesPerInterval; /** * Actual throttling-reset interval. By default it's a day. */ private long mResetInterval; /** * Icon max width/height in pixels. */ private int mMaxIconDimension; private CompressFormat mIconPersistFormat; private int mIconPersistQuality; private int mSaveDelayMillis; private final IPackageManager mIPackageManager; private final PackageManagerInternal mPackageManagerInternal; private final UserManager mUserManager; private final UsageStatsManagerInternal mUsageStatsManagerInternal; private final ActivityManagerInternal mActivityManagerInternal; private final ShortcutRequestPinProcessor mShortcutRequestPinProcessor; private final ShortcutBitmapSaver mShortcutBitmapSaver; private final ShortcutDumpFiles mShortcutDumpFiles; @GuardedBy("mLock") final SparseIntArray mUidState = new SparseIntArray(); @GuardedBy("mLock") final SparseLongArray mUidLastForegroundElapsedTime = new SparseLongArray(); @GuardedBy("mLock") private List mDirtyUserIds = new ArrayList<>(); private final AtomicBoolean mBootCompleted = new AtomicBoolean(); private static final int PACKAGE_MATCH_FLAGS = PackageManager.MATCH_DIRECT_BOOT_AWARE | PackageManager.MATCH_DIRECT_BOOT_UNAWARE | PackageManager.MATCH_UNINSTALLED_PACKAGES; @GuardedBy("mLock") final SparseBooleanArray mUnlockedUsers = new SparseBooleanArray(); // Stats @VisibleForTesting interface Stats { int GET_DEFAULT_HOME = 0; int GET_PACKAGE_INFO = 1; int GET_PACKAGE_INFO_WITH_SIG = 2; int GET_APPLICATION_INFO = 3; int LAUNCHER_PERMISSION_CHECK = 4; int CLEANUP_DANGLING_BITMAPS = 5; int GET_ACTIVITY_WITH_METADATA = 6; int GET_INSTALLED_PACKAGES = 7; int CHECK_PACKAGE_CHANGES = 8; int GET_APPLICATION_RESOURCES = 9; int RESOURCE_NAME_LOOKUP = 10; int GET_LAUNCHER_ACTIVITY = 11; int CHECK_LAUNCHER_ACTIVITY = 12; int IS_ACTIVITY_ENABLED = 13; int PACKAGE_UPDATE_CHECK = 14; int ASYNC_PRELOAD_USER_DELAY = 15; int GET_DEFAULT_LAUNCHER = 16; int COUNT = GET_DEFAULT_LAUNCHER + 1; } private static final String[] STAT_LABELS = { "getHomeActivities()", "Launcher permission check", "getPackageInfo()", "getPackageInfo(SIG)", "getApplicationInfo", "cleanupDanglingBitmaps", "getActivity+metadata", "getInstalledPackages", "checkPackageChanges", "getApplicationResources", "resourceNameLookup", "getLauncherActivity", "checkLauncherActivity", "isActivityEnabled", "packageUpdateCheck", "asyncPreloadUserDelay", "getDefaultLauncher()" }; final Object mStatLock = new Object(); @GuardedBy("mStatLock") private final int[] mCountStats = new int[Stats.COUNT]; @GuardedBy("mStatLock") private final long[] mDurationStats = new long[Stats.COUNT]; private static final int PROCESS_STATE_FOREGROUND_THRESHOLD = ActivityManager.PROCESS_STATE_FOREGROUND_SERVICE; static final int OPERATION_SET = 0; static final int OPERATION_ADD = 1; static final int OPERATION_UPDATE = 2; /** @hide */ @IntDef(value = { OPERATION_SET, OPERATION_ADD, OPERATION_UPDATE }) @Retention(RetentionPolicy.SOURCE) @interface ShortcutOperation { } @GuardedBy("mLock") private int mWtfCount = 0; @GuardedBy("mLock") private Exception mLastWtfStacktrace; static class InvalidFileFormatException extends Exception { public InvalidFileFormatException(String message, Throwable cause) { super(message, cause); } } public ShortcutService(Context context) { this(context, BackgroundThread.get().getLooper(), /*onyForPackgeManagerApis*/ false); } @VisibleForTesting ShortcutService(Context context, Looper looper, boolean onlyForPackageManagerApis) { mContext = Preconditions.checkNotNull(context); LocalServices.addService(ShortcutServiceInternal.class, new LocalService()); mHandler = new Handler(looper); mIPackageManager = AppGlobals.getPackageManager(); mPackageManagerInternal = Preconditions.checkNotNull( LocalServices.getService(PackageManagerInternal.class)); mUserManager = Preconditions.checkNotNull(context.getSystemService(UserManager.class)); mUsageStatsManagerInternal = Preconditions.checkNotNull( LocalServices.getService(UsageStatsManagerInternal.class)); mActivityManagerInternal = Preconditions.checkNotNull( LocalServices.getService(ActivityManagerInternal.class)); mShortcutRequestPinProcessor = new ShortcutRequestPinProcessor(this, mLock); mShortcutBitmapSaver = new ShortcutBitmapSaver(this); mShortcutDumpFiles = new ShortcutDumpFiles(this); if (onlyForPackageManagerApis) { return; // Don't do anything further. For unit tests only. } // Register receivers. // We need to set a priority, so let's just not use PackageMonitor for now. // TODO Refactor PackageMonitor to support priorities. final IntentFilter packageFilter = new IntentFilter(); packageFilter.addAction(Intent.ACTION_PACKAGE_ADDED); packageFilter.addAction(Intent.ACTION_PACKAGE_REMOVED); packageFilter.addAction(Intent.ACTION_PACKAGE_CHANGED); packageFilter.addAction(Intent.ACTION_PACKAGE_DATA_CLEARED); packageFilter.addDataScheme("package"); packageFilter.setPriority(IntentFilter.SYSTEM_HIGH_PRIORITY); mContext.registerReceiverAsUser(mPackageMonitor, UserHandle.ALL, packageFilter, null, mHandler); final IntentFilter preferedActivityFilter = new IntentFilter(); preferedActivityFilter.addAction(Intent.ACTION_PREFERRED_ACTIVITY_CHANGED); preferedActivityFilter.setPriority(IntentFilter.SYSTEM_HIGH_PRIORITY); mContext.registerReceiverAsUser(mPackageMonitor, UserHandle.ALL, preferedActivityFilter, null, mHandler); final IntentFilter localeFilter = new IntentFilter(); localeFilter.addAction(Intent.ACTION_LOCALE_CHANGED); localeFilter.setPriority(IntentFilter.SYSTEM_HIGH_PRIORITY); mContext.registerReceiverAsUser(mReceiver, UserHandle.ALL, localeFilter, null, mHandler); injectRegisterUidObserver(mUidObserver, ActivityManager.UID_OBSERVER_PROCSTATE | ActivityManager.UID_OBSERVER_GONE); } void logDurationStat(int statId, long start) { synchronized (mStatLock) { mCountStats[statId]++; mDurationStats[statId] += (injectElapsedRealtime() - start); } } public String injectGetLocaleTagsForUser(@UserIdInt int userId) { // TODO This should get the per-user locale. b/30123329 b/30119489 return LocaleList.getDefault().toLanguageTags(); } final private IUidObserver mUidObserver = new IUidObserver.Stub() { @Override public void onUidStateChanged(int uid, int procState, long procStateSeq) { injectPostToHandler(() -> handleOnUidStateChanged(uid, procState)); } @Override public void onUidGone(int uid, boolean disabled) { injectPostToHandler(() -> handleOnUidStateChanged(uid, ActivityManager.PROCESS_STATE_NONEXISTENT)); } @Override public void onUidActive(int uid) { } @Override public void onUidIdle(int uid, boolean disabled) { } @Override public void onUidCachedChanged(int uid, boolean cached) { } }; void handleOnUidStateChanged(int uid, int procState) { if (DEBUG_PROCSTATE) { Slog.d(TAG, "onUidStateChanged: uid=" + uid + " state=" + procState); } synchronized (mLock) { mUidState.put(uid, procState); // We need to keep track of last time an app comes to foreground. // See ShortcutPackage.getApiCallCount() for how it's used. // It doesn't have to be persisted, but it needs to be the elapsed time. if (isProcessStateForeground(procState)) { mUidLastForegroundElapsedTime.put(uid, injectElapsedRealtime()); } } } private boolean isProcessStateForeground(int processState) { return processState <= PROCESS_STATE_FOREGROUND_THRESHOLD; } boolean isUidForegroundLocked(int uid) { if (uid == Process.SYSTEM_UID) { // IUidObserver doesn't report the state of SYSTEM, but it always has bound services, // so it's foreground anyway. return true; } // First, check with the local cache. if (isProcessStateForeground(mUidState.get(uid, ActivityManager.MAX_PROCESS_STATE))) { return true; } // If the cache says background, reach out to AM. Since it'll internally need to hold // the AM lock, we use it as a last resort. return isProcessStateForeground(mActivityManagerInternal.getUidProcessState(uid)); } long getUidLastForegroundElapsedTimeLocked(int uid) { return mUidLastForegroundElapsedTime.get(uid); } /** * System service lifecycle. */ public static final class Lifecycle extends SystemService { final ShortcutService mService; public Lifecycle(Context context) { super(context); mService = new ShortcutService(context); } @Override public void onStart() { publishBinderService(Context.SHORTCUT_SERVICE, mService); } @Override public void onBootPhase(int phase) { mService.onBootPhase(phase); } @Override public void onStopUser(int userHandle) { mService.handleStopUser(userHandle); } @Override public void onUnlockUser(int userId) { mService.handleUnlockUser(userId); } } /** lifecycle event */ void onBootPhase(int phase) { if (DEBUG) { Slog.d(TAG, "onBootPhase: " + phase); } switch (phase) { case SystemService.PHASE_LOCK_SETTINGS_READY: initialize(); break; case SystemService.PHASE_BOOT_COMPLETED: mBootCompleted.set(true); break; } } /** lifecycle event */ void handleUnlockUser(int userId) { if (DEBUG) { Slog.d(TAG, "handleUnlockUser: user=" + userId); } synchronized (mLock) { mUnlockedUsers.put(userId, true); } // Preload the user data. // Note, we don't use mHandler here but instead just start a new thread. // This is because mHandler (which uses com.android.internal.os.BackgroundThread) is very // busy at this point and this could take hundreds of milliseconds, which would be too // late since the launcher would already have started. // So we just create a new thread. This code runs rarely, so we don't use a thread pool // or anything. final long start = injectElapsedRealtime(); injectRunOnNewThread(() -> { synchronized (mLock) { logDurationStat(Stats.ASYNC_PRELOAD_USER_DELAY, start); getUserShortcutsLocked(userId); } }); } /** lifecycle event */ void handleStopUser(int userId) { if (DEBUG) { Slog.d(TAG, "handleStopUser: user=" + userId); } synchronized (mLock) { unloadUserLocked(userId); mUnlockedUsers.put(userId, false); } } private void unloadUserLocked(int userId) { if (DEBUG) { Slog.d(TAG, "unloadUserLocked: user=" + userId); } // Save all dirty information. saveDirtyInfo(); // Unload mUsers.delete(userId); } /** Return the base state file name */ private AtomicFile getBaseStateFile() { final File path = new File(injectSystemDataPath(), FILENAME_BASE_STATE); path.mkdirs(); return new AtomicFile(path); } /** * Init the instance. (load the state file, etc) */ private void initialize() { synchronized (mLock) { loadConfigurationLocked(); loadBaseStateLocked(); } } /** * Load the configuration from Settings. */ private void loadConfigurationLocked() { updateConfigurationLocked(injectShortcutManagerConstants()); } /** * Load the configuration from Settings. */ @VisibleForTesting boolean updateConfigurationLocked(String config) { boolean result = true; final KeyValueListParser parser = new KeyValueListParser(','); try { parser.setString(config); } catch (IllegalArgumentException e) { // Failed to parse the settings string, log this and move on // with defaults. Slog.e(TAG, "Bad shortcut manager settings", e); result = false; } mSaveDelayMillis = Math.max(0, (int) parser.getLong(ConfigConstants.KEY_SAVE_DELAY_MILLIS, DEFAULT_SAVE_DELAY_MS)); mResetInterval = Math.max(1, parser.getLong( ConfigConstants.KEY_RESET_INTERVAL_SEC, DEFAULT_RESET_INTERVAL_SEC) * 1000L); mMaxUpdatesPerInterval = Math.max(0, (int) parser.getLong( ConfigConstants.KEY_MAX_UPDATES_PER_INTERVAL, DEFAULT_MAX_UPDATES_PER_INTERVAL)); mMaxShortcuts = Math.max(0, (int) parser.getLong( ConfigConstants.KEY_MAX_SHORTCUTS, DEFAULT_MAX_SHORTCUTS_PER_APP)); final int iconDimensionDp = Math.max(1, injectIsLowRamDevice() ? (int) parser.getLong( ConfigConstants.KEY_MAX_ICON_DIMENSION_DP_LOWRAM, DEFAULT_MAX_ICON_DIMENSION_LOWRAM_DP) : (int) parser.getLong( ConfigConstants.KEY_MAX_ICON_DIMENSION_DP, DEFAULT_MAX_ICON_DIMENSION_DP)); mMaxIconDimension = injectDipToPixel(iconDimensionDp); mIconPersistFormat = CompressFormat.valueOf( parser.getString(ConfigConstants.KEY_ICON_FORMAT, DEFAULT_ICON_PERSIST_FORMAT)); mIconPersistQuality = (int) parser.getLong( ConfigConstants.KEY_ICON_QUALITY, DEFAULT_ICON_PERSIST_QUALITY); return result; } @VisibleForTesting String injectShortcutManagerConstants() { return android.provider.Settings.Global.getString( mContext.getContentResolver(), android.provider.Settings.Global.SHORTCUT_MANAGER_CONSTANTS); } @VisibleForTesting int injectDipToPixel(int dip) { return (int) TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_DIP, dip, mContext.getResources().getDisplayMetrics()); } // === Persisting === @Nullable static String parseStringAttribute(XmlPullParser parser, String attribute) { return parser.getAttributeValue(null, attribute); } static boolean parseBooleanAttribute(XmlPullParser parser, String attribute) { return parseLongAttribute(parser, attribute) == 1; } static int parseIntAttribute(XmlPullParser parser, String attribute) { return (int) parseLongAttribute(parser, attribute); } static int parseIntAttribute(XmlPullParser parser, String attribute, int def) { return (int) parseLongAttribute(parser, attribute, def); } static long parseLongAttribute(XmlPullParser parser, String attribute) { return parseLongAttribute(parser, attribute, 0); } static long parseLongAttribute(XmlPullParser parser, String attribute, long def) { final String value = parseStringAttribute(parser, attribute); if (TextUtils.isEmpty(value)) { return def; } try { return Long.parseLong(value); } catch (NumberFormatException e) { Slog.e(TAG, "Error parsing long " + value); return def; } } @Nullable static ComponentName parseComponentNameAttribute(XmlPullParser parser, String attribute) { final String value = parseStringAttribute(parser, attribute); if (TextUtils.isEmpty(value)) { return null; } return ComponentName.unflattenFromString(value); } @Nullable static Intent parseIntentAttributeNoDefault(XmlPullParser parser, String attribute) { final String value = parseStringAttribute(parser, attribute); Intent parsed = null; if (!TextUtils.isEmpty(value)) { try { parsed = Intent.parseUri(value, /* flags =*/ 0); } catch (URISyntaxException e) { Slog.e(TAG, "Error parsing intent", e); } } return parsed; } @Nullable static Intent parseIntentAttribute(XmlPullParser parser, String attribute) { Intent parsed = parseIntentAttributeNoDefault(parser, attribute); if (parsed == null) { // Default intent. parsed = new Intent(Intent.ACTION_VIEW); } return parsed; } static void writeTagValue(XmlSerializer out, String tag, String value) throws IOException { if (TextUtils.isEmpty(value)) return; out.startTag(null, tag); out.attribute(null, ATTR_VALUE, value); out.endTag(null, tag); } static void writeTagValue(XmlSerializer out, String tag, long value) throws IOException { writeTagValue(out, tag, Long.toString(value)); } static void writeTagValue(XmlSerializer out, String tag, ComponentName name) throws IOException { if (name == null) return; writeTagValue(out, tag, name.flattenToString()); } static void writeTagExtra(XmlSerializer out, String tag, PersistableBundle bundle) throws IOException, XmlPullParserException { if (bundle == null) return; out.startTag(null, tag); bundle.saveToXml(out); out.endTag(null, tag); } static void writeAttr(XmlSerializer out, String name, CharSequence value) throws IOException { if (TextUtils.isEmpty(value)) return; out.attribute(null, name, value.toString()); } static void writeAttr(XmlSerializer out, String name, long value) throws IOException { writeAttr(out, name, String.valueOf(value)); } static void writeAttr(XmlSerializer out, String name, boolean value) throws IOException { if (value) { writeAttr(out, name, "1"); } } static void writeAttr(XmlSerializer out, String name, ComponentName comp) throws IOException { if (comp == null) return; writeAttr(out, name, comp.flattenToString()); } static void writeAttr(XmlSerializer out, String name, Intent intent) throws IOException { if (intent == null) return; writeAttr(out, name, intent.toUri(/* flags =*/ 0)); } @VisibleForTesting void saveBaseStateLocked() { final AtomicFile file = getBaseStateFile(); if (DEBUG) { Slog.d(TAG, "Saving to " + file.getBaseFile()); } FileOutputStream outs = null; try { outs = file.startWrite(); // Write to XML XmlSerializer out = new FastXmlSerializer(); out.setOutput(outs, StandardCharsets.UTF_8.name()); out.startDocument(null, true); out.startTag(null, TAG_ROOT); // Body. writeTagValue(out, TAG_LAST_RESET_TIME, mRawLastResetTime); // Epilogue. out.endTag(null, TAG_ROOT); out.endDocument(); // Close. file.finishWrite(outs); } catch (IOException e) { Slog.e(TAG, "Failed to write to file " + file.getBaseFile(), e); file.failWrite(outs); } } private void loadBaseStateLocked() { mRawLastResetTime = 0; final AtomicFile file = getBaseStateFile(); if (DEBUG) { Slog.d(TAG, "Loading from " + file.getBaseFile()); } try (FileInputStream in = file.openRead()) { XmlPullParser parser = Xml.newPullParser(); parser.setInput(in, StandardCharsets.UTF_8.name()); int type; while ((type = parser.next()) != XmlPullParser.END_DOCUMENT) { if (type != XmlPullParser.START_TAG) { continue; } final int depth = parser.getDepth(); // Check the root tag final String tag = parser.getName(); if (depth == 1) { if (!TAG_ROOT.equals(tag)) { Slog.e(TAG, "Invalid root tag: " + tag); return; } continue; } // Assume depth == 2 switch (tag) { case TAG_LAST_RESET_TIME: mRawLastResetTime = parseLongAttribute(parser, ATTR_VALUE); break; default: Slog.e(TAG, "Invalid tag: " + tag); break; } } } catch (FileNotFoundException e) { // Use the default } catch (IOException | XmlPullParserException e) { Slog.e(TAG, "Failed to read file " + file.getBaseFile(), e); mRawLastResetTime = 0; } // Adjust the last reset time. getLastResetTimeLocked(); } @VisibleForTesting final File getUserFile(@UserIdInt int userId) { return new File(injectUserDataPath(userId), FILENAME_USER_PACKAGES); } private void saveUserLocked(@UserIdInt int userId) { final File path = getUserFile(userId); if (DEBUG) { Slog.d(TAG, "Saving to " + path); } mShortcutBitmapSaver.waitForAllSavesLocked(); path.getParentFile().mkdirs(); final AtomicFile file = new AtomicFile(path); FileOutputStream os = null; try { os = file.startWrite(); saveUserInternalLocked(userId, os, /* forBackup= */ false); file.finishWrite(os); // Remove all dangling bitmap files. cleanupDanglingBitmapDirectoriesLocked(userId); } catch (XmlPullParserException | IOException e) { Slog.e(TAG, "Failed to write to file " + file.getBaseFile(), e); file.failWrite(os); } } private void saveUserInternalLocked(@UserIdInt int userId, OutputStream os, boolean forBackup) throws IOException, XmlPullParserException { final BufferedOutputStream bos = new BufferedOutputStream(os); // Write to XML XmlSerializer out = new FastXmlSerializer(); out.setOutput(bos, StandardCharsets.UTF_8.name()); out.startDocument(null, true); getUserShortcutsLocked(userId).saveToXml(out, forBackup); out.endDocument(); bos.flush(); os.flush(); } static IOException throwForInvalidTag(int depth, String tag) throws IOException { throw new IOException(String.format("Invalid tag '%s' found at depth %d", tag, depth)); } static void warnForInvalidTag(int depth, String tag) throws IOException { Slog.w(TAG, String.format("Invalid tag '%s' found at depth %d", tag, depth)); } @Nullable private ShortcutUser loadUserLocked(@UserIdInt int userId) { final File path = getUserFile(userId); if (DEBUG) { Slog.d(TAG, "Loading from " + path); } final AtomicFile file = new AtomicFile(path); final FileInputStream in; try { in = file.openRead(); } catch (FileNotFoundException e) { if (DEBUG) { Slog.d(TAG, "Not found " + path); } return null; } try { final ShortcutUser ret = loadUserInternal(userId, in, /* forBackup= */ false); return ret; } catch (IOException | XmlPullParserException | InvalidFileFormatException e) { Slog.e(TAG, "Failed to read file " + file.getBaseFile(), e); return null; } finally { IoUtils.closeQuietly(in); } } private ShortcutUser loadUserInternal(@UserIdInt int userId, InputStream is, boolean fromBackup) throws XmlPullParserException, IOException, InvalidFileFormatException { final BufferedInputStream bis = new BufferedInputStream(is); ShortcutUser ret = null; XmlPullParser parser = Xml.newPullParser(); parser.setInput(bis, StandardCharsets.UTF_8.name()); int type; while ((type = parser.next()) != XmlPullParser.END_DOCUMENT) { if (type != XmlPullParser.START_TAG) { continue; } final int depth = parser.getDepth(); final String tag = parser.getName(); if (DEBUG_LOAD) { Slog.d(TAG, String.format("depth=%d type=%d name=%s", depth, type, tag)); } if ((depth == 1) && ShortcutUser.TAG_ROOT.equals(tag)) { ret = ShortcutUser.loadFromXml(this, parser, userId, fromBackup); continue; } throwForInvalidTag(depth, tag); } return ret; } private void scheduleSaveBaseState() { scheduleSaveInner(UserHandle.USER_NULL); // Special case -- use USER_NULL for base state. } void scheduleSaveUser(@UserIdInt int userId) { scheduleSaveInner(userId); } // In order to re-schedule, we need to reuse the same instance, so keep it in final. private final Runnable mSaveDirtyInfoRunner = this::saveDirtyInfo; private void scheduleSaveInner(@UserIdInt int userId) { if (DEBUG) { Slog.d(TAG, "Scheduling to save for " + userId); } synchronized (mLock) { if (!mDirtyUserIds.contains(userId)) { mDirtyUserIds.add(userId); } } // If already scheduled, remove that and re-schedule in N seconds. mHandler.removeCallbacks(mSaveDirtyInfoRunner); mHandler.postDelayed(mSaveDirtyInfoRunner, mSaveDelayMillis); } @VisibleForTesting void saveDirtyInfo() { if (DEBUG) { Slog.d(TAG, "saveDirtyInfo"); } try { synchronized (mLock) { for (int i = mDirtyUserIds.size() - 1; i >= 0; i--) { final int userId = mDirtyUserIds.get(i); if (userId == UserHandle.USER_NULL) { // USER_NULL for base state. saveBaseStateLocked(); } else { saveUserLocked(userId); } } mDirtyUserIds.clear(); } } catch (Exception e) { wtf("Exception in saveDirtyInfo", e); } } /** Return the last reset time. */ long getLastResetTimeLocked() { updateTimesLocked(); return mRawLastResetTime; } /** Return the next reset time. */ long getNextResetTimeLocked() { updateTimesLocked(); return mRawLastResetTime + mResetInterval; } static boolean isClockValid(long time) { return time >= 1420070400; // Thu, 01 Jan 2015 00:00:00 GMT } /** * Update the last reset time. */ private void updateTimesLocked() { final long now = injectCurrentTimeMillis(); final long prevLastResetTime = mRawLastResetTime; if (mRawLastResetTime == 0) { // first launch. // TODO Randomize?? mRawLastResetTime = now; } else if (now < mRawLastResetTime) { // Clock rewound. if (isClockValid(now)) { Slog.w(TAG, "Clock rewound"); // TODO Randomize?? mRawLastResetTime = now; } } else { if ((mRawLastResetTime + mResetInterval) <= now) { final long offset = mRawLastResetTime % mResetInterval; mRawLastResetTime = ((now / mResetInterval) * mResetInterval) + offset; } } if (prevLastResetTime != mRawLastResetTime) { scheduleSaveBaseState(); } } // Requires mLock held, but "Locked" prefix would look weired so we just say "L". protected boolean isUserUnlockedL(@UserIdInt int userId) { // First, check the local copy. if (mUnlockedUsers.get(userId)) { return true; } // If the local copy says the user is locked, check with AM for the actual state, since // the user might just have been unlocked. // Note we just don't use isUserUnlockingOrUnlocked() here, because it'll return false // when the user is STOPPING, which we still want to consider as "unlocked". final long token = injectClearCallingIdentity(); try { return mUserManager.isUserUnlockingOrUnlocked(userId); } finally { injectRestoreCallingIdentity(token); } } // Requires mLock held, but "Locked" prefix would look weired so we jsut say "L". void throwIfUserLockedL(@UserIdInt int userId) { if (!isUserUnlockedL(userId)) { throw new IllegalStateException("User " + userId + " is locked or not running"); } } @GuardedBy("mLock") @NonNull private boolean isUserLoadedLocked(@UserIdInt int userId) { return mUsers.get(userId) != null; } /** Return the per-user state. */ @GuardedBy("mLock") @NonNull ShortcutUser getUserShortcutsLocked(@UserIdInt int userId) { if (!isUserUnlockedL(userId)) { wtf("User still locked"); } ShortcutUser userPackages = mUsers.get(userId); if (userPackages == null) { userPackages = loadUserLocked(userId); if (userPackages == null) { userPackages = new ShortcutUser(this, userId); } mUsers.put(userId, userPackages); // Also when a user's data is first accessed, scan all packages. checkPackageChanges(userId); } return userPackages; } void forEachLoadedUserLocked(@NonNull Consumer c) { for (int i = mUsers.size() - 1; i >= 0; i--) { c.accept(mUsers.valueAt(i)); } } /** * Return the per-user per-package state. If the caller is a publisher, use * {@link #getPackageShortcutsForPublisherLocked} instead. */ @GuardedBy("mLock") @NonNull ShortcutPackage getPackageShortcutsLocked( @NonNull String packageName, @UserIdInt int userId) { return getUserShortcutsLocked(userId).getPackageShortcuts(packageName); } /** Return the per-user per-package state. Use this when the caller is a publisher. */ @GuardedBy("mLock") @NonNull ShortcutPackage getPackageShortcutsForPublisherLocked( @NonNull String packageName, @UserIdInt int userId) { final ShortcutPackage ret = getUserShortcutsLocked(userId).getPackageShortcuts(packageName); ret.getUser().onCalledByPublisher(packageName); return ret; } @GuardedBy("mLock") @NonNull ShortcutLauncher getLauncherShortcutsLocked( @NonNull String packageName, @UserIdInt int ownerUserId, @UserIdInt int launcherUserId) { return getUserShortcutsLocked(ownerUserId) .getLauncherShortcuts(packageName, launcherUserId); } // === Caller validation === void removeIconLocked(ShortcutInfo shortcut) { mShortcutBitmapSaver.removeIcon(shortcut); } public void cleanupBitmapsForPackage(@UserIdInt int userId, String packageName) { final File packagePath = new File(getUserBitmapFilePath(userId), packageName); if (!packagePath.isDirectory()) { return; } if (!(FileUtils.deleteContents(packagePath) && packagePath.delete())) { Slog.w(TAG, "Unable to remove directory " + packagePath); } } /** * Remove dangling bitmap files for a user. * * Note this method must be called with the lock held after calling * {@link ShortcutBitmapSaver#waitForAllSavesLocked()} to make sure there's no pending bitmap * saves are going on. */ private void cleanupDanglingBitmapDirectoriesLocked(@UserIdInt int userId) { if (DEBUG) { Slog.d(TAG, "cleanupDanglingBitmaps: userId=" + userId); } final long start = injectElapsedRealtime(); final ShortcutUser user = getUserShortcutsLocked(userId); final File bitmapDir = getUserBitmapFilePath(userId); final File[] children = bitmapDir.listFiles(); if (children == null) { return; } for (File child : children) { if (!child.isDirectory()) { continue; } final String packageName = child.getName(); if (DEBUG) { Slog.d(TAG, "cleanupDanglingBitmaps: Found directory=" + packageName); } if (!user.hasPackage(packageName)) { if (DEBUG) { Slog.d(TAG, "Removing dangling bitmap directory: " + packageName); } cleanupBitmapsForPackage(userId, packageName); } else { cleanupDanglingBitmapFilesLocked(userId, user, packageName, child); } } logDurationStat(Stats.CLEANUP_DANGLING_BITMAPS, start); } /** * Remove dangling bitmap files for a package. * * Note this method must be called with the lock held after calling * {@link ShortcutBitmapSaver#waitForAllSavesLocked()} to make sure there's no pending bitmap * saves are going on. */ private void cleanupDanglingBitmapFilesLocked(@UserIdInt int userId, @NonNull ShortcutUser user, @NonNull String packageName, @NonNull File path) { final ArraySet usedFiles = user.getPackageShortcuts(packageName).getUsedBitmapFiles(); for (File child : path.listFiles()) { if (!child.isFile()) { continue; } final String name = child.getName(); if (!usedFiles.contains(name)) { if (DEBUG) { Slog.d(TAG, "Removing dangling bitmap file: " + child.getAbsolutePath()); } child.delete(); } } } @VisibleForTesting static class FileOutputStreamWithPath extends FileOutputStream { private final File mFile; public FileOutputStreamWithPath(File file) throws FileNotFoundException { super(file); mFile = file; } public File getFile() { return mFile; } } /** * Build the cached bitmap filename for a shortcut icon. * * The filename will be based on the ID, except certain characters will be escaped. */ FileOutputStreamWithPath openIconFileForWrite(@UserIdInt int userId, ShortcutInfo shortcut) throws IOException { final File packagePath = new File(getUserBitmapFilePath(userId), shortcut.getPackage()); if (!packagePath.isDirectory()) { packagePath.mkdirs(); if (!packagePath.isDirectory()) { throw new IOException("Unable to create directory " + packagePath); } SELinux.restorecon(packagePath); } final String baseName = String.valueOf(injectCurrentTimeMillis()); for (int suffix = 0; ; suffix++) { final String filename = (suffix == 0 ? baseName : baseName + "_" + suffix) + ".png"; final File file = new File(packagePath, filename); if (!file.exists()) { if (DEBUG) { Slog.d(TAG, "Saving icon to " + file.getAbsolutePath()); } return new FileOutputStreamWithPath(file); } } } void saveIconAndFixUpShortcutLocked(ShortcutInfo shortcut) { if (shortcut.hasIconFile() || shortcut.hasIconResource()) { return; } final long token = injectClearCallingIdentity(); try { // Clear icon info on the shortcut. removeIconLocked(shortcut); final Icon icon = shortcut.getIcon(); if (icon == null) { return; // has no icon } int maxIconDimension = mMaxIconDimension; Bitmap bitmap; try { switch (icon.getType()) { case Icon.TYPE_RESOURCE: { injectValidateIconResPackage(shortcut, icon); shortcut.setIconResourceId(icon.getResId()); shortcut.addFlags(ShortcutInfo.FLAG_HAS_ICON_RES); return; } case Icon.TYPE_BITMAP: bitmap = icon.getBitmap(); // Don't recycle in this case. break; case Icon.TYPE_ADAPTIVE_BITMAP: { bitmap = icon.getBitmap(); // Don't recycle in this case. maxIconDimension *= (1 + 2 * AdaptiveIconDrawable.getExtraInsetFraction()); break; } default: // This shouldn't happen because we've already validated the icon, but // just in case. throw ShortcutInfo.getInvalidIconException(); } mShortcutBitmapSaver.saveBitmapLocked(shortcut, maxIconDimension, mIconPersistFormat, mIconPersistQuality); } finally { // Once saved, we won't use the original icon information, so null it out. shortcut.clearIcon(); } } finally { injectRestoreCallingIdentity(token); } } // Unfortunately we can't do this check in unit tests because we fake creator package names, // so override in unit tests. // TODO CTS this case. void injectValidateIconResPackage(ShortcutInfo shortcut, Icon icon) { if (!shortcut.getPackage().equals(icon.getResPackage())) { throw new IllegalArgumentException( "Icon resource must reside in shortcut owner package"); } } static Bitmap shrinkBitmap(Bitmap in, int maxSize) { // Original width/height. final int ow = in.getWidth(); final int oh = in.getHeight(); if ((ow <= maxSize) && (oh <= maxSize)) { if (DEBUG) { Slog.d(TAG, String.format("Icon size %dx%d, no need to shrink", ow, oh)); } return in; } final int longerDimension = Math.max(ow, oh); // New width and height. final int nw = ow * maxSize / longerDimension; final int nh = oh * maxSize / longerDimension; if (DEBUG) { Slog.d(TAG, String.format("Icon size %dx%d, shrinking to %dx%d", ow, oh, nw, nh)); } final Bitmap scaledBitmap = Bitmap.createBitmap(nw, nh, Bitmap.Config.ARGB_8888); final Canvas c = new Canvas(scaledBitmap); final RectF dst = new RectF(0, 0, nw, nh); c.drawBitmap(in, /*src=*/ null, dst, /* paint =*/ null); return scaledBitmap; } /** * For a shortcut, update all resource names from resource IDs, and also update all * resource-based strings. */ void fixUpShortcutResourceNamesAndValues(ShortcutInfo si) { final Resources publisherRes = injectGetResourcesForApplicationAsUser( si.getPackage(), si.getUserId()); if (publisherRes != null) { final long start = injectElapsedRealtime(); try { si.lookupAndFillInResourceNames(publisherRes); } finally { logDurationStat(Stats.RESOURCE_NAME_LOOKUP, start); } si.resolveResourceStrings(publisherRes); } } // === Caller validation === private boolean isCallerSystem() { final int callingUid = injectBinderCallingUid(); return UserHandle.isSameApp(callingUid, Process.SYSTEM_UID); } private boolean isCallerShell() { final int callingUid = injectBinderCallingUid(); return callingUid == Process.SHELL_UID || callingUid == Process.ROOT_UID; } private void enforceSystemOrShell() { if (!(isCallerSystem() || isCallerShell())) { throw new SecurityException("Caller must be system or shell"); } } private void enforceShell() { if (!isCallerShell()) { throw new SecurityException("Caller must be shell"); } } private void enforceSystem() { if (!isCallerSystem()) { throw new SecurityException("Caller must be system"); } } private void enforceResetThrottlingPermission() { if (isCallerSystem()) { return; } enforceCallingOrSelfPermission( android.Manifest.permission.RESET_SHORTCUT_MANAGER_THROTTLING, null); } private void enforceCallingOrSelfPermission( @NonNull String permission, @Nullable String message) { if (isCallerSystem()) { return; } injectEnforceCallingPermission(permission, message); } /** * Somehow overriding ServiceContext.enforceCallingPermission() in the unit tests would confuse * mockito. So instead we extracted it here and override it in the tests. */ @VisibleForTesting void injectEnforceCallingPermission( @NonNull String permission, @Nullable String message) { mContext.enforceCallingPermission(permission, message); } private void verifyCaller(@NonNull String packageName, @UserIdInt int userId) { Preconditions.checkStringNotEmpty(packageName, "packageName"); if (isCallerSystem()) { return; // no check } final int callingUid = injectBinderCallingUid(); // Otherwise, make sure the arguments are valid. if (UserHandle.getUserId(callingUid) != userId) { throw new SecurityException("Invalid user-ID"); } if (injectGetPackageUid(packageName, userId) != callingUid) { throw new SecurityException("Calling package name mismatch"); } Preconditions.checkState(!isEphemeralApp(packageName, userId), "Ephemeral apps can't use ShortcutManager"); } // Overridden in unit tests to execute r synchronously. void injectPostToHandler(Runnable r) { mHandler.post(r); } void injectRunOnNewThread(Runnable r) { new Thread(r).start(); } /** * @throws IllegalArgumentException if {@code numShortcuts} is bigger than * {@link #getMaxActivityShortcuts()}. */ void enforceMaxActivityShortcuts(int numShortcuts) { if (numShortcuts > mMaxShortcuts) { throw new IllegalArgumentException("Max number of dynamic shortcuts exceeded"); } } /** * Return the max number of dynamic + manifest shortcuts for each launcher icon. */ int getMaxActivityShortcuts() { return mMaxShortcuts; } /** * - Sends a notification to LauncherApps * - Write to file */ void packageShortcutsChanged(@NonNull String packageName, @UserIdInt int userId) { notifyListeners(packageName, userId); scheduleSaveUser(userId); } private void notifyListeners(@NonNull String packageName, @UserIdInt int userId) { if (DEBUG) { Slog.d(TAG, String.format( "Shortcut changes: package=%s, user=%d", packageName, userId)); } injectPostToHandler(() -> { try { final ArrayList copy; synchronized (mLock) { if (!isUserUnlockedL(userId)) { return; } copy = new ArrayList<>(mListeners); } // Note onShortcutChanged() needs to be called with the system service permissions. for (int i = copy.size() - 1; i >= 0; i--) { copy.get(i).onShortcutChanged(packageName, userId); } } catch (Exception ignore) { } }); } /** * Clean up / validate an incoming shortcut. * - Make sure all mandatory fields are set. * - Make sure the intent's extras are persistable, and them to set * {@link ShortcutInfo#mIntentPersistableExtrases}. Also clear its extras. * - Clear flags. */ private void fixUpIncomingShortcutInfo(@NonNull ShortcutInfo shortcut, boolean forUpdate, boolean forPinRequest) { if (shortcut.isReturnedByServer()) { Log.w(TAG, "Re-publishing ShortcutInfo returned by server is not supported." + " Some information such as icon may lost from shortcut."); } Preconditions.checkNotNull(shortcut, "Null shortcut detected"); if (shortcut.getActivity() != null) { Preconditions.checkState( shortcut.getPackage().equals(shortcut.getActivity().getPackageName()), "Cannot publish shortcut: activity " + shortcut.getActivity() + " does not" + " belong to package " + shortcut.getPackage()); Preconditions.checkState( injectIsMainActivity(shortcut.getActivity(), shortcut.getUserId()), "Cannot publish shortcut: activity " + shortcut.getActivity() + " is not" + " main activity"); } if (!forUpdate) { shortcut.enforceMandatoryFields(/* forPinned= */ forPinRequest); if (!forPinRequest) { Preconditions.checkState(shortcut.getActivity() != null, "Cannot publish shortcut: target activity is not set"); } } if (shortcut.getIcon() != null) { ShortcutInfo.validateIcon(shortcut.getIcon()); } shortcut.replaceFlags(0); } private void fixUpIncomingShortcutInfo(@NonNull ShortcutInfo shortcut, boolean forUpdate) { fixUpIncomingShortcutInfo(shortcut, forUpdate, /*forPinRequest=*/ false); } public void validateShortcutForPinRequest(@NonNull ShortcutInfo shortcut) { fixUpIncomingShortcutInfo(shortcut, /* forUpdate= */ false, /*forPinRequest=*/ true); } /** * When a shortcut has no target activity, set the default one from the package. */ private void fillInDefaultActivity(List shortcuts) { ComponentName defaultActivity = null; for (int i = shortcuts.size() - 1; i >= 0; i--) { final ShortcutInfo si = shortcuts.get(i); if (si.getActivity() == null) { if (defaultActivity == null) { defaultActivity = injectGetDefaultMainActivity( si.getPackage(), si.getUserId()); Preconditions.checkState(defaultActivity != null, "Launcher activity not found for package " + si.getPackage()); } si.setActivity(defaultActivity); } } } private void assignImplicitRanks(List shortcuts) { for (int i = shortcuts.size() - 1; i >= 0; i--) { shortcuts.get(i).setImplicitRank(i); } } private List setReturnedByServer(List shortcuts) { for (int i = shortcuts.size() - 1; i >= 0; i--) { shortcuts.get(i).setReturnedByServer(); } return shortcuts; } // === APIs === @Override public boolean setDynamicShortcuts(String packageName, ParceledListSlice shortcutInfoList, @UserIdInt int userId) { verifyCaller(packageName, userId); final List newShortcuts = (List) shortcutInfoList.getList(); final int size = newShortcuts.size(); synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); ps.ensureImmutableShortcutsNotIncluded(newShortcuts); fillInDefaultActivity(newShortcuts); ps.enforceShortcutCountsBeforeOperation(newShortcuts, OPERATION_SET); // Throttling. if (!ps.tryApiCall()) { return false; } // Initialize the implicit ranks for ShortcutPackage.adjustRanks(). ps.clearAllImplicitRanks(); assignImplicitRanks(newShortcuts); for (int i = 0; i < size; i++) { fixUpIncomingShortcutInfo(newShortcuts.get(i), /* forUpdate= */ false); } // First, remove all un-pinned; dynamic shortcuts ps.deleteAllDynamicShortcuts(); // Then, add/update all. We need to make sure to take over "pinned" flag. for (int i = 0; i < size; i++) { final ShortcutInfo newShortcut = newShortcuts.get(i); ps.addOrUpdateDynamicShortcut(newShortcut); } // Lastly, adjust the ranks. ps.adjustRanks(); } packageShortcutsChanged(packageName, userId); verifyStates(); return true; } @Override public boolean updateShortcuts(String packageName, ParceledListSlice shortcutInfoList, @UserIdInt int userId) { verifyCaller(packageName, userId); final List newShortcuts = (List) shortcutInfoList.getList(); final int size = newShortcuts.size(); synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); ps.ensureImmutableShortcutsNotIncluded(newShortcuts); // For update, don't fill in the default activity. Having null activity means // "don't update the activity" here. ps.enforceShortcutCountsBeforeOperation(newShortcuts, OPERATION_UPDATE); // Throttling. if (!ps.tryApiCall()) { return false; } // Initialize the implicit ranks for ShortcutPackage.adjustRanks(). ps.clearAllImplicitRanks(); assignImplicitRanks(newShortcuts); for (int i = 0; i < size; i++) { final ShortcutInfo source = newShortcuts.get(i); fixUpIncomingShortcutInfo(source, /* forUpdate= */ true); final ShortcutInfo target = ps.findShortcutById(source.getId()); if (target == null) { continue; } if (target.isEnabled() != source.isEnabled()) { Slog.w(TAG, "ShortcutInfo.enabled cannot be changed with updateShortcuts()"); } // When updating the rank, we need to insert between existing ranks, so set // this setRankChanged, and also copy the implicit rank fo adjustRanks(). if (source.hasRank()) { target.setRankChanged(); target.setImplicitRank(source.getImplicitRank()); } final boolean replacingIcon = (source.getIcon() != null); if (replacingIcon) { removeIconLocked(target); } // Note copyNonNullFieldsFrom() does the "updatable with?" check too. target.copyNonNullFieldsFrom(source); target.setTimestamp(injectCurrentTimeMillis()); if (replacingIcon) { saveIconAndFixUpShortcutLocked(target); } // When we're updating any resource related fields, re-extract the res names and // the values. if (replacingIcon || source.hasStringResources()) { fixUpShortcutResourceNamesAndValues(target); } } // Lastly, adjust the ranks. ps.adjustRanks(); } packageShortcutsChanged(packageName, userId); verifyStates(); return true; } @Override public boolean addDynamicShortcuts(String packageName, ParceledListSlice shortcutInfoList, @UserIdInt int userId) { verifyCaller(packageName, userId); final List newShortcuts = (List) shortcutInfoList.getList(); final int size = newShortcuts.size(); synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); ps.ensureImmutableShortcutsNotIncluded(newShortcuts); fillInDefaultActivity(newShortcuts); ps.enforceShortcutCountsBeforeOperation(newShortcuts, OPERATION_ADD); // Initialize the implicit ranks for ShortcutPackage.adjustRanks(). ps.clearAllImplicitRanks(); assignImplicitRanks(newShortcuts); // Throttling. if (!ps.tryApiCall()) { return false; } for (int i = 0; i < size; i++) { final ShortcutInfo newShortcut = newShortcuts.get(i); // Validate the shortcut. fixUpIncomingShortcutInfo(newShortcut, /* forUpdate= */ false); // When ranks are changing, we need to insert between ranks, so set the // "rank changed" flag. newShortcut.setRankChanged(); // Add it. ps.addOrUpdateDynamicShortcut(newShortcut); } // Lastly, adjust the ranks. ps.adjustRanks(); } packageShortcutsChanged(packageName, userId); verifyStates(); return true; } @Override public boolean requestPinShortcut(String packageName, ShortcutInfo shortcut, IntentSender resultIntent, int userId) { Preconditions.checkNotNull(shortcut); Preconditions.checkArgument(shortcut.isEnabled(), "Shortcut must be enabled"); return requestPinItem(packageName, userId, shortcut, null, null, resultIntent); } @Override public Intent createShortcutResultIntent(String packageName, ShortcutInfo shortcut, int userId) throws RemoteException { Preconditions.checkNotNull(shortcut); Preconditions.checkArgument(shortcut.isEnabled(), "Shortcut must be enabled"); verifyCaller(packageName, userId); final Intent ret; synchronized (mLock) { throwIfUserLockedL(userId); // Send request to the launcher, if supported. ret = mShortcutRequestPinProcessor.createShortcutResultIntent(shortcut, userId); } verifyStates(); return ret; } /** * Handles {@link #requestPinShortcut} and {@link ShortcutServiceInternal#requestPinAppWidget}. * After validating the caller, it passes the request to {@link #mShortcutRequestPinProcessor}. * Either {@param shortcut} or {@param appWidget} should be non-null. */ private boolean requestPinItem(String packageName, int userId, ShortcutInfo shortcut, AppWidgetProviderInfo appWidget, Bundle extras, IntentSender resultIntent) { verifyCaller(packageName, userId); final boolean ret; synchronized (mLock) { throwIfUserLockedL(userId); Preconditions.checkState(isUidForegroundLocked(injectBinderCallingUid()), "Calling application must have a foreground activity or a foreground service"); // Send request to the launcher, if supported. ret = mShortcutRequestPinProcessor.requestPinItemLocked(shortcut, appWidget, extras, userId, resultIntent); } verifyStates(); return ret; } @Override public void disableShortcuts(String packageName, List shortcutIds, CharSequence disabledMessage, int disabledMessageResId, @UserIdInt int userId) { verifyCaller(packageName, userId); Preconditions.checkNotNull(shortcutIds, "shortcutIds must be provided"); synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); ps.ensureImmutableShortcutsNotIncludedWithIds((List) shortcutIds); final String disabledMessageString = (disabledMessage == null) ? null : disabledMessage.toString(); for (int i = shortcutIds.size() - 1; i >= 0; i--) { ps.disableWithId(Preconditions.checkStringNotEmpty((String) shortcutIds.get(i)), disabledMessageString, disabledMessageResId, /* overrideImmutable=*/ false); } // We may have removed dynamic shortcuts which may have left a gap, so adjust the ranks. ps.adjustRanks(); } packageShortcutsChanged(packageName, userId); verifyStates(); } @Override public void enableShortcuts(String packageName, List shortcutIds, @UserIdInt int userId) { verifyCaller(packageName, userId); Preconditions.checkNotNull(shortcutIds, "shortcutIds must be provided"); synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); ps.ensureImmutableShortcutsNotIncludedWithIds((List) shortcutIds); for (int i = shortcutIds.size() - 1; i >= 0; i--) { ps.enableWithId((String) shortcutIds.get(i)); } } packageShortcutsChanged(packageName, userId); verifyStates(); } @Override public void removeDynamicShortcuts(String packageName, List shortcutIds, @UserIdInt int userId) { verifyCaller(packageName, userId); Preconditions.checkNotNull(shortcutIds, "shortcutIds must be provided"); synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); ps.ensureImmutableShortcutsNotIncludedWithIds((List) shortcutIds); for (int i = shortcutIds.size() - 1; i >= 0; i--) { ps.deleteDynamicWithId( Preconditions.checkStringNotEmpty((String) shortcutIds.get(i))); } // We may have removed dynamic shortcuts which may have left a gap, so adjust the ranks. ps.adjustRanks(); } packageShortcutsChanged(packageName, userId); verifyStates(); } @Override public void removeAllDynamicShortcuts(String packageName, @UserIdInt int userId) { verifyCaller(packageName, userId); synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); ps.deleteAllDynamicShortcuts(); } packageShortcutsChanged(packageName, userId); verifyStates(); } @Override public ParceledListSlice getDynamicShortcuts(String packageName, @UserIdInt int userId) { verifyCaller(packageName, userId); synchronized (mLock) { throwIfUserLockedL(userId); return getShortcutsWithQueryLocked( packageName, userId, ShortcutInfo.CLONE_REMOVE_FOR_CREATOR, ShortcutInfo::isDynamic); } } @Override public ParceledListSlice getManifestShortcuts(String packageName, @UserIdInt int userId) { verifyCaller(packageName, userId); synchronized (mLock) { throwIfUserLockedL(userId); return getShortcutsWithQueryLocked( packageName, userId, ShortcutInfo.CLONE_REMOVE_FOR_CREATOR, ShortcutInfo::isManifestShortcut); } } @Override public ParceledListSlice getPinnedShortcuts(String packageName, @UserIdInt int userId) { verifyCaller(packageName, userId); synchronized (mLock) { throwIfUserLockedL(userId); return getShortcutsWithQueryLocked( packageName, userId, ShortcutInfo.CLONE_REMOVE_FOR_CREATOR, ShortcutInfo::isPinned); } } private ParceledListSlice getShortcutsWithQueryLocked(@NonNull String packageName, @UserIdInt int userId, int cloneFlags, @NonNull Predicate query) { final ArrayList ret = new ArrayList<>(); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); ps.findAll(ret, query, cloneFlags); return new ParceledListSlice<>(setReturnedByServer(ret)); } @Override public int getMaxShortcutCountPerActivity(String packageName, @UserIdInt int userId) throws RemoteException { verifyCaller(packageName, userId); return mMaxShortcuts; } @Override public int getRemainingCallCount(String packageName, @UserIdInt int userId) { verifyCaller(packageName, userId); synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); return mMaxUpdatesPerInterval - ps.getApiCallCount(); } } @Override public long getRateLimitResetTime(String packageName, @UserIdInt int userId) { verifyCaller(packageName, userId); synchronized (mLock) { throwIfUserLockedL(userId); return getNextResetTimeLocked(); } } @Override public int getIconMaxDimensions(String packageName, int userId) { verifyCaller(packageName, userId); synchronized (mLock) { return mMaxIconDimension; } } @Override public void reportShortcutUsed(String packageName, String shortcutId, int userId) { verifyCaller(packageName, userId); Preconditions.checkNotNull(shortcutId); if (DEBUG) { Slog.d(TAG, String.format("reportShortcutUsed: Shortcut %s package %s used on user %d", shortcutId, packageName, userId)); } synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutPackage ps = getPackageShortcutsForPublisherLocked(packageName, userId); if (ps.findShortcutById(shortcutId) == null) { Log.w(TAG, String.format("reportShortcutUsed: package %s doesn't have shortcut %s", packageName, shortcutId)); return; } } final long token = injectClearCallingIdentity(); try { mUsageStatsManagerInternal.reportShortcutUsage(packageName, shortcutId, userId); } finally { injectRestoreCallingIdentity(token); } } @Override public boolean isRequestPinItemSupported(int callingUserId, int requestType) { final long token = injectClearCallingIdentity(); try { return mShortcutRequestPinProcessor .isRequestPinItemSupported(callingUserId, requestType); } finally { injectRestoreCallingIdentity(token); } } /** * Reset all throttling, for developer options and command line. Only system/shell can call * it. */ @Override public void resetThrottling() { enforceSystemOrShell(); resetThrottlingInner(getCallingUserId()); } void resetThrottlingInner(@UserIdInt int userId) { synchronized (mLock) { if (!isUserUnlockedL(userId)) { Log.w(TAG, "User " + userId + " is locked or not running"); return; } getUserShortcutsLocked(userId).resetThrottling(); } scheduleSaveUser(userId); Slog.i(TAG, "ShortcutManager: throttling counter reset for user " + userId); } void resetAllThrottlingInner() { synchronized (mLock) { mRawLastResetTime = injectCurrentTimeMillis(); } scheduleSaveBaseState(); Slog.i(TAG, "ShortcutManager: throttling counter reset for all users"); } @Override public void onApplicationActive(String packageName, int userId) { if (DEBUG) { Slog.d(TAG, "onApplicationActive: package=" + packageName + " userid=" + userId); } enforceResetThrottlingPermission(); synchronized (mLock) { if (!isUserUnlockedL(userId)) { // This is called by system UI, so no need to throw. Just ignore. return; } getPackageShortcutsLocked(packageName, userId) .resetRateLimitingForCommandLineNoSaving(); saveUserLocked(userId); } } // We override this method in unit tests to do a simpler check. boolean hasShortcutHostPermission(@NonNull String callingPackage, int userId) { final long start = injectElapsedRealtime(); try { return hasShortcutHostPermissionInner(callingPackage, userId); } finally { logDurationStat(Stats.LAUNCHER_PERMISSION_CHECK, start); } } // This method is extracted so we can directly call this method from unit tests, // even when hasShortcutPermission() is overridden. @VisibleForTesting boolean hasShortcutHostPermissionInner(@NonNull String packageName, int userId) { synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutUser user = getUserShortcutsLocked(userId); // Always trust the cached component. final ComponentName cached = user.getCachedLauncher(); if (cached != null) { if (cached.getPackageName().equals(packageName)) { return true; } } // If the cached one doesn't match, then go ahead final ComponentName detected = getDefaultLauncher(userId); // Update the cache. user.setLauncher(detected); if (detected != null) { if (DEBUG) { Slog.v(TAG, "Detected launcher: " + detected); } return detected.getPackageName().equals(packageName); } else { // Default launcher not found. return false; } } } @Nullable ComponentName getDefaultLauncher(@UserIdInt int userId) { final long start = injectElapsedRealtime(); final long token = injectClearCallingIdentity(); try { synchronized (mLock) { throwIfUserLockedL(userId); final ShortcutUser user = getUserShortcutsLocked(userId); final List allHomeCandidates = new ArrayList<>(); // Default launcher from package manager. final long startGetHomeActivitiesAsUser = injectElapsedRealtime(); final ComponentName defaultLauncher = mPackageManagerInternal .getHomeActivitiesAsUser(allHomeCandidates, userId); logDurationStat(Stats.GET_DEFAULT_HOME, startGetHomeActivitiesAsUser); ComponentName detected = null; if (defaultLauncher != null) { detected = defaultLauncher; if (DEBUG) { Slog.v(TAG, "Default launcher from PM: " + detected); } } else { detected = user.getLastKnownLauncher(); if (detected != null) { if (injectIsActivityEnabledAndExported(detected, userId)) { if (DEBUG) { Slog.v(TAG, "Cached launcher: " + detected); } } else { Slog.w(TAG, "Cached launcher " + detected + " no longer exists"); detected = null; user.clearLauncher(); } } } if (detected == null) { // If we reach here, that means it's the first check since the user was created, // and there's already multiple launchers and there's no default set. // Find the system one with the highest priority. // (We need to check the priority too because of FallbackHome in Settings.) // If there's no system launcher yet, then no one can access shortcuts, until // the user explicitly final int size = allHomeCandidates.size(); int lastPriority = Integer.MIN_VALUE; for (int i = 0; i < size; i++) { final ResolveInfo ri = allHomeCandidates.get(i); if (!ri.activityInfo.applicationInfo.isSystemApp()) { continue; } if (DEBUG) { Slog.d(TAG, String.format("hasShortcutPermissionInner: pkg=%s prio=%d", ri.activityInfo.getComponentName(), ri.priority)); } if (ri.priority < lastPriority) { continue; } detected = ri.activityInfo.getComponentName(); lastPriority = ri.priority; } } return detected; } } finally { injectRestoreCallingIdentity(token); logDurationStat(Stats.GET_DEFAULT_LAUNCHER, start); } } // === House keeping === private void cleanUpPackageForAllLoadedUsers(String packageName, @UserIdInt int packageUserId, boolean appStillExists) { synchronized (mLock) { forEachLoadedUserLocked(user -> cleanUpPackageLocked(packageName, user.getUserId(), packageUserId, appStillExists)); } } /** * Remove all the information associated with a package. This will really remove all the * information, including the restore information (i.e. it'll remove packages even if they're * shadow). * * This is called when an app is uninstalled, or an app gets "clear data"ed. */ @VisibleForTesting void cleanUpPackageLocked(String packageName, int owningUserId, int packageUserId, boolean appStillExists) { final boolean wasUserLoaded = isUserLoadedLocked(owningUserId); final ShortcutUser user = getUserShortcutsLocked(owningUserId); boolean doNotify = false; // First, remove the package from the package list (if the package is a publisher). if (packageUserId == owningUserId) { if (user.removePackage(packageName) != null) { doNotify = true; } } // Also remove from the launcher list (if the package is a launcher). user.removeLauncher(packageUserId, packageName); // Then remove pinned shortcuts from all launchers. user.forAllLaunchers(l -> l.cleanUpPackage(packageName, packageUserId)); // Now there may be orphan shortcuts because we removed pinned shortcuts at the previous // step. Remove them too. user.forAllPackages(p -> p.refreshPinnedFlags()); scheduleSaveUser(owningUserId); if (doNotify) { notifyListeners(packageName, owningUserId); } // If the app still exists (i.e. data cleared), we need to re-publish manifest shortcuts. if (appStillExists && (packageUserId == owningUserId)) { // This will do the notification and save when needed, so do it after the above // notifyListeners. user.rescanPackageIfNeeded(packageName, /* forceRescan=*/ true); } if (!wasUserLoaded) { // Note this will execute the scheduled save. unloadUserLocked(owningUserId); } } /** * Entry point from {@link LauncherApps}. */ private class LocalService extends ShortcutServiceInternal { @Override public List getShortcuts(int launcherUserId, @NonNull String callingPackage, long changedSince, @Nullable String packageName, @Nullable List shortcutIds, @Nullable ComponentName componentName, int queryFlags, int userId) { final ArrayList ret = new ArrayList<>(); final boolean cloneKeyFieldOnly = ((queryFlags & ShortcutQuery.FLAG_GET_KEY_FIELDS_ONLY) != 0); final int cloneFlag = cloneKeyFieldOnly ? ShortcutInfo.CLONE_REMOVE_NON_KEY_INFO : ShortcutInfo.CLONE_REMOVE_FOR_LAUNCHER; if (packageName == null) { shortcutIds = null; // LauncherAppsService already threw for it though. } synchronized (mLock) { throwIfUserLockedL(userId); throwIfUserLockedL(launcherUserId); getLauncherShortcutsLocked(callingPackage, userId, launcherUserId) .attemptToRestoreIfNeededAndSave(); if (packageName != null) { getShortcutsInnerLocked(launcherUserId, callingPackage, packageName, shortcutIds, changedSince, componentName, queryFlags, userId, ret, cloneFlag); } else { final List shortcutIdsF = shortcutIds; getUserShortcutsLocked(userId).forAllPackages(p -> { getShortcutsInnerLocked(launcherUserId, callingPackage, p.getPackageName(), shortcutIdsF, changedSince, componentName, queryFlags, userId, ret, cloneFlag); }); } } return setReturnedByServer(ret); } private void getShortcutsInnerLocked(int launcherUserId, @NonNull String callingPackage, @Nullable String packageName, @Nullable List shortcutIds, long changedSince, @Nullable ComponentName componentName, int queryFlags, int userId, ArrayList ret, int cloneFlag) { final ArraySet ids = shortcutIds == null ? null : new ArraySet<>(shortcutIds); final ShortcutPackage p = getUserShortcutsLocked(userId) .getPackageShortcutsIfExists(packageName); if (p == null) { return; // No need to instantiate ShortcutPackage. } p.findAll(ret, (ShortcutInfo si) -> { if (si.getLastChangedTimestamp() < changedSince) { return false; } if (ids != null && !ids.contains(si.getId())) { return false; } if (componentName != null) { if (si.getActivity() != null && !si.getActivity().equals(componentName)) { return false; } } if (((queryFlags & ShortcutQuery.FLAG_GET_DYNAMIC) != 0) && si.isDynamic()) { return true; } if (((queryFlags & ShortcutQuery.FLAG_GET_PINNED) != 0) && si.isPinned()) { return true; } if (((queryFlags & ShortcutQuery.FLAG_GET_MANIFEST) != 0) && si.isManifestShortcut()) { return true; } return false; }, cloneFlag, callingPackage, launcherUserId); } @Override public boolean isPinnedByCaller(int launcherUserId, @NonNull String callingPackage, @NonNull String packageName, @NonNull String shortcutId, int userId) { Preconditions.checkStringNotEmpty(packageName, "packageName"); Preconditions.checkStringNotEmpty(shortcutId, "shortcutId"); synchronized (mLock) { throwIfUserLockedL(userId); throwIfUserLockedL(launcherUserId); getLauncherShortcutsLocked(callingPackage, userId, launcherUserId) .attemptToRestoreIfNeededAndSave(); final ShortcutInfo si = getShortcutInfoLocked( launcherUserId, callingPackage, packageName, shortcutId, userId); return si != null && si.isPinned(); } } private ShortcutInfo getShortcutInfoLocked( int launcherUserId, @NonNull String callingPackage, @NonNull String packageName, @NonNull String shortcutId, int userId) { Preconditions.checkStringNotEmpty(packageName, "packageName"); Preconditions.checkStringNotEmpty(shortcutId, "shortcutId"); throwIfUserLockedL(userId); throwIfUserLockedL(launcherUserId); final ShortcutPackage p = getUserShortcutsLocked(userId) .getPackageShortcutsIfExists(packageName); if (p == null) { return null; } final ArrayList list = new ArrayList<>(1); p.findAll(list, (ShortcutInfo si) -> shortcutId.equals(si.getId()), /* clone flags=*/ 0, callingPackage, launcherUserId); return list.size() == 0 ? null : list.get(0); } @Override public void pinShortcuts(int launcherUserId, @NonNull String callingPackage, @NonNull String packageName, @NonNull List shortcutIds, int userId) { // Calling permission must be checked by LauncherAppsImpl. Preconditions.checkStringNotEmpty(packageName, "packageName"); Preconditions.checkNotNull(shortcutIds, "shortcutIds"); synchronized (mLock) { throwIfUserLockedL(userId); throwIfUserLockedL(launcherUserId); final ShortcutLauncher launcher = getLauncherShortcutsLocked(callingPackage, userId, launcherUserId); launcher.attemptToRestoreIfNeededAndSave(); launcher.pinShortcuts(userId, packageName, shortcutIds); } packageShortcutsChanged(packageName, userId); verifyStates(); } @Override public Intent[] createShortcutIntents(int launcherUserId, @NonNull String callingPackage, @NonNull String packageName, @NonNull String shortcutId, int userId) { // Calling permission must be checked by LauncherAppsImpl. Preconditions.checkStringNotEmpty(packageName, "packageName can't be empty"); Preconditions.checkStringNotEmpty(shortcutId, "shortcutId can't be empty"); synchronized (mLock) { throwIfUserLockedL(userId); throwIfUserLockedL(launcherUserId); getLauncherShortcutsLocked(callingPackage, userId, launcherUserId) .attemptToRestoreIfNeededAndSave(); // Make sure the shortcut is actually visible to the launcher. final ShortcutInfo si = getShortcutInfoLocked( launcherUserId, callingPackage, packageName, shortcutId, userId); // "si == null" should suffice here, but check the flags too just to make sure. if (si == null || !si.isEnabled() || !si.isAlive()) { Log.e(TAG, "Shortcut " + shortcutId + " does not exist or disabled"); return null; } return si.getIntents(); } } @Override public void addListener(@NonNull ShortcutChangeListener listener) { synchronized (mLock) { mListeners.add(Preconditions.checkNotNull(listener)); } } @Override public int getShortcutIconResId(int launcherUserId, @NonNull String callingPackage, @NonNull String packageName, @NonNull String shortcutId, int userId) { Preconditions.checkNotNull(callingPackage, "callingPackage"); Preconditions.checkNotNull(packageName, "packageName"); Preconditions.checkNotNull(shortcutId, "shortcutId"); synchronized (mLock) { throwIfUserLockedL(userId); throwIfUserLockedL(launcherUserId); getLauncherShortcutsLocked(callingPackage, userId, launcherUserId) .attemptToRestoreIfNeededAndSave(); final ShortcutPackage p = getUserShortcutsLocked(userId) .getPackageShortcutsIfExists(packageName); if (p == null) { return 0; } final ShortcutInfo shortcutInfo = p.findShortcutById(shortcutId); return (shortcutInfo != null && shortcutInfo.hasIconResource()) ? shortcutInfo.getIconResourceId() : 0; } } @Override public ParcelFileDescriptor getShortcutIconFd(int launcherUserId, @NonNull String callingPackage, @NonNull String packageName, @NonNull String shortcutId, int userId) { Preconditions.checkNotNull(callingPackage, "callingPackage"); Preconditions.checkNotNull(packageName, "packageName"); Preconditions.checkNotNull(shortcutId, "shortcutId"); synchronized (mLock) { throwIfUserLockedL(userId); throwIfUserLockedL(launcherUserId); getLauncherShortcutsLocked(callingPackage, userId, launcherUserId) .attemptToRestoreIfNeededAndSave(); final ShortcutPackage p = getUserShortcutsLocked(userId) .getPackageShortcutsIfExists(packageName); if (p == null) { return null; } final ShortcutInfo shortcutInfo = p.findShortcutById(shortcutId); if (shortcutInfo == null || !shortcutInfo.hasIconFile()) { return null; } final String path = mShortcutBitmapSaver.getBitmapPathMayWaitLocked(shortcutInfo); if (path == null) { Slog.w(TAG, "null bitmap detected in getShortcutIconFd()"); return null; } try { return ParcelFileDescriptor.open( new File(path), ParcelFileDescriptor.MODE_READ_ONLY); } catch (FileNotFoundException e) { Slog.e(TAG, "Icon file not found: " + path); return null; } } } @Override public boolean hasShortcutHostPermission(int launcherUserId, @NonNull String callingPackage) { return ShortcutService.this.hasShortcutHostPermission(callingPackage, launcherUserId); } @Override public boolean requestPinAppWidget(@NonNull String callingPackage, @NonNull AppWidgetProviderInfo appWidget, @Nullable Bundle extras, @Nullable IntentSender resultIntent, int userId) { Preconditions.checkNotNull(appWidget); return requestPinItem(callingPackage, userId, null, appWidget, extras, resultIntent); } @Override public boolean isRequestPinItemSupported(int callingUserId, int requestType) { return ShortcutService.this.isRequestPinItemSupported(callingUserId, requestType); } } final BroadcastReceiver mReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { if (!mBootCompleted.get()) { return; // Boot not completed, ignore the broadcast. } try { if (Intent.ACTION_LOCALE_CHANGED.equals(intent.getAction())) { handleLocaleChanged(); } } catch (Exception e) { wtf("Exception in mReceiver.onReceive", e); } } }; void handleLocaleChanged() { if (DEBUG) { Slog.d(TAG, "handleLocaleChanged"); } scheduleSaveBaseState(); synchronized (mLock) { final long token = injectClearCallingIdentity(); try { forEachLoadedUserLocked(user -> user.detectLocaleChange()); } finally { injectRestoreCallingIdentity(token); } } } /** * Package event callbacks. */ @VisibleForTesting final BroadcastReceiver mPackageMonitor = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { final int userId = intent.getIntExtra(Intent.EXTRA_USER_HANDLE, UserHandle.USER_NULL); if (userId == UserHandle.USER_NULL) { Slog.w(TAG, "Intent broadcast does not contain user handle: " + intent); return; } final String action = intent.getAction(); // This is normally called on Handler, so clearCallingIdentity() isn't needed, // but we still check it in unit tests. final long token = injectClearCallingIdentity(); try { synchronized (mLock) { if (!isUserUnlockedL(userId)) { if (DEBUG) { Slog.d(TAG, "Ignoring package broadcast " + action + " for locked/stopped user " + userId); } return; } // Whenever we get one of those package broadcasts, or get // ACTION_PREFERRED_ACTIVITY_CHANGED, we purge the default launcher cache. final ShortcutUser user = getUserShortcutsLocked(userId); user.clearLauncher(); } if (Intent.ACTION_PREFERRED_ACTIVITY_CHANGED.equals(action)) { // Nothing farther to do. return; } final Uri intentUri = intent.getData(); final String packageName = (intentUri != null) ? intentUri.getSchemeSpecificPart() : null; if (packageName == null) { Slog.w(TAG, "Intent broadcast does not contain package name: " + intent); return; } final boolean replacing = intent.getBooleanExtra(Intent.EXTRA_REPLACING, false); switch (action) { case Intent.ACTION_PACKAGE_ADDED: if (replacing) { handlePackageUpdateFinished(packageName, userId); } else { handlePackageAdded(packageName, userId); } break; case Intent.ACTION_PACKAGE_REMOVED: if (!replacing) { handlePackageRemoved(packageName, userId); } break; case Intent.ACTION_PACKAGE_CHANGED: handlePackageChanged(packageName, userId); break; case Intent.ACTION_PACKAGE_DATA_CLEARED: handlePackageDataCleared(packageName, userId); break; } } catch (Exception e) { wtf("Exception in mPackageMonitor.onReceive", e); } finally { injectRestoreCallingIdentity(token); } } }; /** * Called when a user is unlocked. * - Check all known packages still exist, and otherwise perform cleanup. * - If a package still exists, check the version code. If it's been updated, may need to * update timestamps of its shortcuts. */ @VisibleForTesting void checkPackageChanges(@UserIdInt int ownerUserId) { if (DEBUG) { Slog.d(TAG, "checkPackageChanges() ownerUserId=" + ownerUserId); } if (injectIsSafeModeEnabled()) { Slog.i(TAG, "Safe mode, skipping checkPackageChanges()"); return; } final long start = injectElapsedRealtime(); try { final ArrayList gonePackages = new ArrayList<>(); synchronized (mLock) { final ShortcutUser user = getUserShortcutsLocked(ownerUserId); // Find packages that have been uninstalled. user.forAllPackageItems(spi -> { if (spi.getPackageInfo().isShadow()) { return; // Don't delete shadow information. } if (!isPackageInstalled(spi.getPackageName(), spi.getPackageUserId())) { if (DEBUG) { Slog.d(TAG, "Uninstalled: " + spi.getPackageName() + " user " + spi.getPackageUserId()); } gonePackages.add(PackageWithUser.of(spi)); } }); if (gonePackages.size() > 0) { for (int i = gonePackages.size() - 1; i >= 0; i--) { final PackageWithUser pu = gonePackages.get(i); cleanUpPackageLocked(pu.packageName, ownerUserId, pu.userId, /* appStillExists = */ false); } } rescanUpdatedPackagesLocked(ownerUserId, user.getLastAppScanTime()); } } finally { logDurationStat(Stats.CHECK_PACKAGE_CHANGES, start); } verifyStates(); } private void rescanUpdatedPackagesLocked(@UserIdInt int userId, long lastScanTime) { final ShortcutUser user = getUserShortcutsLocked(userId); // Note after each OTA, we'll need to rescan all system apps, as their lastUpdateTime // is not reliable. final long now = injectCurrentTimeMillis(); final boolean afterOta = !injectBuildFingerprint().equals(user.getLastAppScanOsFingerprint()); // Then for each installed app, publish manifest shortcuts when needed. forUpdatedPackages(userId, lastScanTime, afterOta, ai -> { user.attemptToRestoreIfNeededAndSave(this, ai.packageName, userId); user.rescanPackageIfNeeded(ai.packageName, /* forceRescan= */ true); }); // Write the time just before the scan, because there may be apps that have just // been updated, and we want to catch them in the next time. user.setLastAppScanTime(now); user.setLastAppScanOsFingerprint(injectBuildFingerprint()); scheduleSaveUser(userId); } private void handlePackageAdded(String packageName, @UserIdInt int userId) { if (DEBUG) { Slog.d(TAG, String.format("handlePackageAdded: %s user=%d", packageName, userId)); } synchronized (mLock) { final ShortcutUser user = getUserShortcutsLocked(userId); user.attemptToRestoreIfNeededAndSave(this, packageName, userId); user.rescanPackageIfNeeded(packageName, /* forceRescan=*/ true); } verifyStates(); } private void handlePackageUpdateFinished(String packageName, @UserIdInt int userId) { if (DEBUG) { Slog.d(TAG, String.format("handlePackageUpdateFinished: %s user=%d", packageName, userId)); } synchronized (mLock) { final ShortcutUser user = getUserShortcutsLocked(userId); user.attemptToRestoreIfNeededAndSave(this, packageName, userId); if (isPackageInstalled(packageName, userId)) { user.rescanPackageIfNeeded(packageName, /* forceRescan=*/ true); } } verifyStates(); } private void handlePackageRemoved(String packageName, @UserIdInt int packageUserId) { if (DEBUG) { Slog.d(TAG, String.format("handlePackageRemoved: %s user=%d", packageName, packageUserId)); } cleanUpPackageForAllLoadedUsers(packageName, packageUserId, /* appStillExists = */ false); verifyStates(); } private void handlePackageDataCleared(String packageName, int packageUserId) { if (DEBUG) { Slog.d(TAG, String.format("handlePackageDataCleared: %s user=%d", packageName, packageUserId)); } cleanUpPackageForAllLoadedUsers(packageName, packageUserId, /* appStillExists = */ true); verifyStates(); } private void handlePackageChanged(String packageName, int packageUserId) { if (!isPackageInstalled(packageName, packageUserId)) { // Probably disabled, which is the same thing as uninstalled. handlePackageRemoved(packageName, packageUserId); return; } if (DEBUG) { Slog.d(TAG, String.format("handlePackageChanged: %s user=%d", packageName, packageUserId)); } // Activities may be disabled or enabled. Just rescan the package. synchronized (mLock) { final ShortcutUser user = getUserShortcutsLocked(packageUserId); user.rescanPackageIfNeeded(packageName, /* forceRescan=*/ true); } verifyStates(); } // === PackageManager interaction === /** * Returns {@link PackageInfo} unless it's uninstalled or disabled. */ @Nullable final PackageInfo getPackageInfoWithSignatures(String packageName, @UserIdInt int userId) { return getPackageInfo(packageName, userId, true); } /** * Returns {@link PackageInfo} unless it's uninstalled or disabled. */ @Nullable final PackageInfo getPackageInfo(String packageName, @UserIdInt int userId) { return getPackageInfo(packageName, userId, false); } int injectGetPackageUid(@NonNull String packageName, @UserIdInt int userId) { final long token = injectClearCallingIdentity(); try { return mIPackageManager.getPackageUid(packageName, PACKAGE_MATCH_FLAGS, userId); } catch (RemoteException e) { // Shouldn't happen. Slog.wtf(TAG, "RemoteException", e); return -1; } finally { injectRestoreCallingIdentity(token); } } /** * Returns {@link PackageInfo} unless it's uninstalled or disabled. */ @Nullable @VisibleForTesting final PackageInfo getPackageInfo(String packageName, @UserIdInt int userId, boolean getSignatures) { return isInstalledOrNull(injectPackageInfoWithUninstalled( packageName, userId, getSignatures)); } /** * Do not use directly; this returns uninstalled packages too. */ @Nullable @VisibleForTesting PackageInfo injectPackageInfoWithUninstalled(String packageName, @UserIdInt int userId, boolean getSignatures) { final long start = injectElapsedRealtime(); final long token = injectClearCallingIdentity(); try { return mIPackageManager.getPackageInfo( packageName, PACKAGE_MATCH_FLAGS | (getSignatures ? PackageManager.GET_SIGNATURES : 0), userId); } catch (RemoteException e) { // Shouldn't happen. Slog.wtf(TAG, "RemoteException", e); return null; } finally { injectRestoreCallingIdentity(token); logDurationStat( (getSignatures ? Stats.GET_PACKAGE_INFO_WITH_SIG : Stats.GET_PACKAGE_INFO), start); } } /** * Returns {@link ApplicationInfo} unless it's uninstalled or disabled. */ @Nullable @VisibleForTesting final ApplicationInfo getApplicationInfo(String packageName, @UserIdInt int userId) { return isInstalledOrNull(injectApplicationInfoWithUninstalled(packageName, userId)); } /** * Do not use directly; this returns uninstalled packages too. */ @Nullable @VisibleForTesting ApplicationInfo injectApplicationInfoWithUninstalled( String packageName, @UserIdInt int userId) { final long start = injectElapsedRealtime(); final long token = injectClearCallingIdentity(); try { return mIPackageManager.getApplicationInfo(packageName, PACKAGE_MATCH_FLAGS, userId); } catch (RemoteException e) { // Shouldn't happen. Slog.wtf(TAG, "RemoteException", e); return null; } finally { injectRestoreCallingIdentity(token); logDurationStat(Stats.GET_APPLICATION_INFO, start); } } /** * Returns {@link ActivityInfo} with its metadata unless it's uninstalled or disabled. */ @Nullable final ActivityInfo getActivityInfoWithMetadata(ComponentName activity, @UserIdInt int userId) { return isInstalledOrNull(injectGetActivityInfoWithMetadataWithUninstalled( activity, userId)); } /** * Do not use directly; this returns uninstalled packages too. */ @Nullable @VisibleForTesting ActivityInfo injectGetActivityInfoWithMetadataWithUninstalled( ComponentName activity, @UserIdInt int userId) { final long start = injectElapsedRealtime(); final long token = injectClearCallingIdentity(); try { return mIPackageManager.getActivityInfo(activity, (PACKAGE_MATCH_FLAGS | PackageManager.GET_META_DATA), userId); } catch (RemoteException e) { // Shouldn't happen. Slog.wtf(TAG, "RemoteException", e); return null; } finally { injectRestoreCallingIdentity(token); logDurationStat(Stats.GET_ACTIVITY_WITH_METADATA, start); } } /** * Return all installed and enabled packages. */ @NonNull @VisibleForTesting final List getInstalledPackages(@UserIdInt int userId) { final long start = injectElapsedRealtime(); final long token = injectClearCallingIdentity(); try { final List all = injectGetPackagesWithUninstalled(userId); all.removeIf(PACKAGE_NOT_INSTALLED); return all; } catch (RemoteException e) { // Shouldn't happen. Slog.wtf(TAG, "RemoteException", e); return null; } finally { injectRestoreCallingIdentity(token); logDurationStat(Stats.GET_INSTALLED_PACKAGES, start); } } /** * Do not use directly; this returns uninstalled packages too. */ @NonNull @VisibleForTesting List injectGetPackagesWithUninstalled(@UserIdInt int userId) throws RemoteException { final ParceledListSlice parceledList = mIPackageManager.getInstalledPackages(PACKAGE_MATCH_FLAGS, userId); if (parceledList == null) { return Collections.emptyList(); } return parceledList.getList(); } private void forUpdatedPackages(@UserIdInt int userId, long lastScanTime, boolean afterOta, Consumer callback) { if (DEBUG) { Slog.d(TAG, "forUpdatedPackages for user " + userId + ", lastScanTime=" + lastScanTime + " afterOta=" + afterOta); } final List list = getInstalledPackages(userId); for (int i = list.size() - 1; i >= 0; i--) { final PackageInfo pi = list.get(i); // If the package has been updated since the last scan time, then scan it. // Also if it's right after an OTA, always re-scan all apps anyway, since the // shortcut parser might have changed. if (afterOta || (pi.lastUpdateTime >= lastScanTime)) { if (DEBUG) { Slog.d(TAG, "Found updated package " + pi.packageName + " updateTime=" + pi.lastUpdateTime); } callback.accept(pi.applicationInfo); } } } private boolean isApplicationFlagSet(@NonNull String packageName, int userId, int flags) { final ApplicationInfo ai = injectApplicationInfoWithUninstalled(packageName, userId); return (ai != null) && ((ai.flags & flags) == flags); } private static boolean isInstalled(@Nullable ApplicationInfo ai) { return (ai != null) && ai.enabled && (ai.flags & ApplicationInfo.FLAG_INSTALLED) != 0; } private static boolean isEphemeralApp(@Nullable ApplicationInfo ai) { return (ai != null) && ai.isInstantApp(); } private static boolean isInstalled(@Nullable PackageInfo pi) { return (pi != null) && isInstalled(pi.applicationInfo); } private static boolean isInstalled(@Nullable ActivityInfo ai) { return (ai != null) && isInstalled(ai.applicationInfo); } private static ApplicationInfo isInstalledOrNull(ApplicationInfo ai) { return isInstalled(ai) ? ai : null; } private static PackageInfo isInstalledOrNull(PackageInfo pi) { return isInstalled(pi) ? pi : null; } private static ActivityInfo isInstalledOrNull(ActivityInfo ai) { return isInstalled(ai) ? ai : null; } boolean isPackageInstalled(String packageName, int userId) { return getApplicationInfo(packageName, userId) != null; } boolean isEphemeralApp(String packageName, int userId) { return isEphemeralApp(getApplicationInfo(packageName, userId)); } @Nullable XmlResourceParser injectXmlMetaData(ActivityInfo activityInfo, String key) { return activityInfo.loadXmlMetaData(mContext.getPackageManager(), key); } @Nullable Resources injectGetResourcesForApplicationAsUser(String packageName, int userId) { final long start = injectElapsedRealtime(); final long token = injectClearCallingIdentity(); try { return mContext.getPackageManager().getResourcesForApplicationAsUser( packageName, userId); } catch (NameNotFoundException e) { Slog.e(TAG, "Resources for package " + packageName + " not found"); return null; } finally { injectRestoreCallingIdentity(token); logDurationStat(Stats.GET_APPLICATION_RESOURCES, start); } } private Intent getMainActivityIntent() { final Intent intent = new Intent(Intent.ACTION_MAIN); intent.addCategory(LAUNCHER_INTENT_CATEGORY); return intent; } /** * Same as queryIntentActivitiesAsUser, except it makes sure the package is installed, * and only returns exported activities. */ @NonNull @VisibleForTesting List queryActivities(@NonNull Intent baseIntent, @NonNull String packageName, @Nullable ComponentName activity, int userId) { baseIntent.setPackage(Preconditions.checkNotNull(packageName)); if (activity != null) { baseIntent.setComponent(activity); } return queryActivities(baseIntent, userId, /* exportedOnly =*/ true); } @NonNull List queryActivities(@NonNull Intent intent, int userId, boolean exportedOnly) { final List resolved; final long token = injectClearCallingIdentity(); try { resolved = mContext.getPackageManager().queryIntentActivitiesAsUser( intent, PACKAGE_MATCH_FLAGS, userId); } finally { injectRestoreCallingIdentity(token); } if (resolved == null || resolved.size() == 0) { return EMPTY_RESOLVE_INFO; } // Make sure the package is installed. if (!isInstalled(resolved.get(0).activityInfo)) { return EMPTY_RESOLVE_INFO; } if (exportedOnly) { resolved.removeIf(ACTIVITY_NOT_EXPORTED); } return resolved; } /** * Return the main activity that is enabled and exported. If multiple activities are found, * return the first one. */ @Nullable ComponentName injectGetDefaultMainActivity(@NonNull String packageName, int userId) { final long start = injectElapsedRealtime(); try { final List resolved = queryActivities(getMainActivityIntent(), packageName, null, userId); return resolved.size() == 0 ? null : resolved.get(0).activityInfo.getComponentName(); } finally { logDurationStat(Stats.GET_LAUNCHER_ACTIVITY, start); } } /** * Return whether an activity is enabled, exported and main. */ boolean injectIsMainActivity(@NonNull ComponentName activity, int userId) { final long start = injectElapsedRealtime(); try { if (activity == null) { wtf("null activity detected"); return false; } if (DUMMY_MAIN_ACTIVITY.equals(activity.getClassName())) { return true; } final List resolved = queryActivities( getMainActivityIntent(), activity.getPackageName(), activity, userId); return resolved.size() > 0; } finally { logDurationStat(Stats.CHECK_LAUNCHER_ACTIVITY, start); } } /** * Create a dummy "main activity" component name which is used to create a dynamic shortcut * with no main activity temporarily. */ @NonNull ComponentName getDummyMainActivity(@NonNull String packageName) { return new ComponentName(packageName, DUMMY_MAIN_ACTIVITY); } boolean isDummyMainActivity(@Nullable ComponentName name) { return name != null && DUMMY_MAIN_ACTIVITY.equals(name.getClassName()); } /** * Return all the enabled, exported and main activities from a package. */ @NonNull List injectGetMainActivities(@NonNull String packageName, int userId) { final long start = injectElapsedRealtime(); try { return queryActivities(getMainActivityIntent(), packageName, null, userId); } finally { logDurationStat(Stats.CHECK_LAUNCHER_ACTIVITY, start); } } /** * Return whether an activity is enabled and exported. */ @VisibleForTesting boolean injectIsActivityEnabledAndExported( @NonNull ComponentName activity, @UserIdInt int userId) { final long start = injectElapsedRealtime(); try { return queryActivities(new Intent(), activity.getPackageName(), activity, userId) .size() > 0; } finally { logDurationStat(Stats.IS_ACTIVITY_ENABLED, start); } } /** * Get the {@link LauncherApps#ACTION_CONFIRM_PIN_SHORTCUT} or * {@link LauncherApps#ACTION_CONFIRM_PIN_APPWIDGET} activity in a given package depending on * the requestType. */ @Nullable ComponentName injectGetPinConfirmationActivity(@NonNull String launcherPackageName, int launcherUserId, int requestType) { Preconditions.checkNotNull(launcherPackageName); String action = requestType == LauncherApps.PinItemRequest.REQUEST_TYPE_SHORTCUT ? LauncherApps.ACTION_CONFIRM_PIN_SHORTCUT : LauncherApps.ACTION_CONFIRM_PIN_APPWIDGET; final Intent confirmIntent = new Intent(action).setPackage(launcherPackageName); final List candidates = queryActivities( confirmIntent, launcherUserId, /* exportedOnly =*/ false); for (ResolveInfo ri : candidates) { return ri.activityInfo.getComponentName(); } return null; } boolean injectIsSafeModeEnabled() { final long token = injectClearCallingIdentity(); try { return IWindowManager.Stub .asInterface(ServiceManager.getService(Context.WINDOW_SERVICE)) .isSafeModeEnabled(); } catch (RemoteException e) { return false; // Shouldn't happen though. } finally { injectRestoreCallingIdentity(token); } } /** * If {@code userId} is of a managed profile, return the parent user ID. Otherwise return * itself. */ int getParentOrSelfUserId(int userId) { final long token = injectClearCallingIdentity(); try { final UserInfo parent = mUserManager.getProfileParent(userId); return (parent != null) ? parent.id : userId; } finally { injectRestoreCallingIdentity(token); } } void injectSendIntentSender(IntentSender intentSender, Intent extras) { if (intentSender == null) { return; } try { intentSender.sendIntent(mContext, /* code= */ 0, extras, /* onFinished=*/ null, /* handler= */ null); } catch (SendIntentException e) { Slog.w(TAG, "sendIntent failed().", e); } } // === Backup & restore === boolean shouldBackupApp(String packageName, int userId) { return isApplicationFlagSet(packageName, userId, ApplicationInfo.FLAG_ALLOW_BACKUP); } boolean shouldBackupApp(PackageInfo pi) { return (pi.applicationInfo.flags & ApplicationInfo.FLAG_ALLOW_BACKUP) != 0; } @Override public byte[] getBackupPayload(@UserIdInt int userId) { enforceSystem(); if (DEBUG) { Slog.d(TAG, "Backing up user " + userId); } synchronized (mLock) { if (!isUserUnlockedL(userId)) { wtf("Can't backup: user " + userId + " is locked or not running"); return null; } final ShortcutUser user = getUserShortcutsLocked(userId); if (user == null) { wtf("Can't backup: user not found: id=" + userId); return null; } // Update the signatures for all packages. user.forAllPackageItems(spi -> spi.refreshPackageSignatureAndSave()); // Set the version code for the launchers. // We shouldn't do this for publisher packages, because we don't want to update the // version code without rescanning the manifest. user.forAllLaunchers(launcher -> launcher.ensureVersionInfo()); // Save to the filesystem. scheduleSaveUser(userId); saveDirtyInfo(); // Note, in case of backup, we don't have to wait on bitmap saving, because we don't // back up bitmaps anyway. // Then create the backup payload. final ByteArrayOutputStream os = new ByteArrayOutputStream(32 * 1024); try { saveUserInternalLocked(userId, os, /* forBackup */ true); } catch (XmlPullParserException | IOException e) { // Shouldn't happen. Slog.w(TAG, "Backup failed.", e); return null; } return os.toByteArray(); } } @Override public void applyRestore(byte[] payload, @UserIdInt int userId) { enforceSystem(); if (DEBUG) { Slog.d(TAG, "Restoring user " + userId); } synchronized (mLock) { if (!isUserUnlockedL(userId)) { wtf("Can't restore: user " + userId + " is locked or not running"); return; } // Note we print the file timestamps in dumpsys too, but also printing the timestamp // in the files anyway. mShortcutDumpFiles.save("restore-0-start.txt", pw -> { pw.print("Start time: "); dumpCurrentTime(pw); pw.println(); }); mShortcutDumpFiles.save("restore-1-payload.xml", payload); // Actually do restore. final ShortcutUser restored; final ByteArrayInputStream is = new ByteArrayInputStream(payload); try { restored = loadUserInternal(userId, is, /* fromBackup */ true); } catch (XmlPullParserException | IOException | InvalidFileFormatException e) { Slog.w(TAG, "Restoration failed.", e); return; } mShortcutDumpFiles.save("restore-2.txt", this::dumpInner); getUserShortcutsLocked(userId).mergeRestoredFile(restored); mShortcutDumpFiles.save("restore-3.txt", this::dumpInner); // Rescan all packages to re-publish manifest shortcuts and do other checks. rescanUpdatedPackagesLocked(userId, 0 // lastScanTime = 0; rescan all packages. ); mShortcutDumpFiles.save("restore-4.txt", this::dumpInner); mShortcutDumpFiles.save("restore-5-finish.txt", pw -> { pw.print("Finish time: "); dumpCurrentTime(pw); pw.println(); }); saveUserLocked(userId); } } // === Dump === @Override public void dump(FileDescriptor fd, PrintWriter pw, String[] args) { if (!DumpUtils.checkDumpAndUsageStatsPermission(mContext, TAG, pw)) return; dumpNoCheck(fd, pw, args); } @VisibleForTesting void dumpNoCheck(FileDescriptor fd, PrintWriter pw, String[] args) { boolean dumpMain = true; boolean checkin = false; boolean clear = false; boolean dumpUid = false; boolean dumpFiles = false; if (args != null) { for (String arg : args) { if ("-c".equals(arg)) { checkin = true; } else if ("--checkin".equals(arg)) { checkin = true; clear = true; } else if ("-a".equals(arg) || "--all".equals(arg)) { dumpUid = true; dumpFiles = true; } else if ("-u".equals(arg) || "--uid".equals(arg)) { dumpUid = true; } else if ("-f".equals(arg) || "--files".equals(arg)) { dumpFiles = true; } else if ("-n".equals(arg) || "--no-main".equals(arg)) { dumpMain = false; } } } if (checkin) { // Other flags are not supported for checkin. dumpCheckin(pw, clear); } else { if (dumpMain) { dumpInner(pw); pw.println(); } if (dumpUid) { dumpUid(pw); pw.println(); } if (dumpFiles) { dumpDumpFiles(pw); pw.println(); } } } private void dumpInner(PrintWriter pw) { synchronized (mLock) { final long now = injectCurrentTimeMillis(); pw.print("Now: ["); pw.print(now); pw.print("] "); pw.print(formatTime(now)); pw.print(" Raw last reset: ["); pw.print(mRawLastResetTime); pw.print("] "); pw.print(formatTime(mRawLastResetTime)); final long last = getLastResetTimeLocked(); pw.print(" Last reset: ["); pw.print(last); pw.print("] "); pw.print(formatTime(last)); final long next = getNextResetTimeLocked(); pw.print(" Next reset: ["); pw.print(next); pw.print("] "); pw.print(formatTime(next)); pw.print(" Config:"); pw.print(" Max icon dim: "); pw.println(mMaxIconDimension); pw.print(" Icon format: "); pw.println(mIconPersistFormat); pw.print(" Icon quality: "); pw.println(mIconPersistQuality); pw.print(" saveDelayMillis: "); pw.println(mSaveDelayMillis); pw.print(" resetInterval: "); pw.println(mResetInterval); pw.print(" maxUpdatesPerInterval: "); pw.println(mMaxUpdatesPerInterval); pw.print(" maxShortcutsPerActivity: "); pw.println(mMaxShortcuts); pw.println(); pw.println(" Stats:"); synchronized (mStatLock) { for (int i = 0; i < Stats.COUNT; i++) { dumpStatLS(pw, " ", i); } } pw.println(); pw.print(" #Failures: "); pw.println(mWtfCount); if (mLastWtfStacktrace != null) { pw.print(" Last failure stack trace: "); pw.println(Log.getStackTraceString(mLastWtfStacktrace)); } pw.println(); mShortcutBitmapSaver.dumpLocked(pw, " "); for (int i = 0; i < mUsers.size(); i++) { pw.println(); mUsers.valueAt(i).dump(pw, " "); } } } private void dumpUid(PrintWriter pw) { synchronized (mLock) { pw.println("** SHORTCUT MANAGER UID STATES (dumpsys shortcut -n -u)"); for (int i = 0; i < mUidState.size(); i++) { final int uid = mUidState.keyAt(i); final int state = mUidState.valueAt(i); pw.print(" UID="); pw.print(uid); pw.print(" state="); pw.print(state); if (isProcessStateForeground(state)) { pw.print(" [FG]"); } pw.print(" last FG="); pw.print(mUidLastForegroundElapsedTime.get(uid)); pw.println(); } } } static String formatTime(long time) { Time tobj = new Time(); tobj.set(time); return tobj.format("%Y-%m-%d %H:%M:%S"); } private void dumpCurrentTime(PrintWriter pw) { pw.print(formatTime(injectCurrentTimeMillis())); } private void dumpStatLS(PrintWriter pw, String prefix, int statId) { pw.print(prefix); final int count = mCountStats[statId]; final long dur = mDurationStats[statId]; pw.println(String.format("%s: count=%d, total=%dms, avg=%.1fms", STAT_LABELS[statId], count, dur, (count == 0 ? 0 : ((double) dur) / count))); } /** * Dumpsys for checkin. * * @param clear if true, clear the history information. Some other system services have this * behavior but shortcut service doesn't for now. */ private void dumpCheckin(PrintWriter pw, boolean clear) { synchronized (mLock) { try { final JSONArray users = new JSONArray(); for (int i = 0; i < mUsers.size(); i++) { users.put(mUsers.valueAt(i).dumpCheckin(clear)); } final JSONObject result = new JSONObject(); result.put(KEY_SHORTCUT, users); result.put(KEY_LOW_RAM, injectIsLowRamDevice()); result.put(KEY_ICON_SIZE, mMaxIconDimension); pw.println(result.toString(1)); } catch (JSONException e) { Slog.e(TAG, "Unable to write in json", e); } } } private void dumpDumpFiles(PrintWriter pw) { synchronized (mLock) { pw.println("** SHORTCUT MANAGER FILES (dumpsys shortcut -n -f)"); mShortcutDumpFiles.dumpAll(pw); } } // === Shell support === @Override public void onShellCommand(FileDescriptor in, FileDescriptor out, FileDescriptor err, String[] args, ShellCallback callback, ResultReceiver resultReceiver) { enforceShell(); final long token = injectClearCallingIdentity(); try { final int status = (new MyShellCommand()).exec(this, in, out, err, args, callback, resultReceiver); resultReceiver.send(status, null); } finally { injectRestoreCallingIdentity(token); } } static class CommandException extends Exception { public CommandException(String message) { super(message); } } /** * Handle "adb shell cmd". */ private class MyShellCommand extends ShellCommand { private int mUserId = UserHandle.USER_SYSTEM; private void parseOptionsLocked(boolean takeUser) throws CommandException { String opt; while ((opt = getNextOption()) != null) { switch (opt) { case "--user": if (takeUser) { mUserId = UserHandle.parseUserArg(getNextArgRequired()); if (!isUserUnlockedL(mUserId)) { throw new CommandException( "User " + mUserId + " is not running or locked"); } break; } // fallthrough default: throw new CommandException("Unknown option: " + opt); } } } @Override public int onCommand(String cmd) { if (cmd == null) { return handleDefaultCommands(cmd); } final PrintWriter pw = getOutPrintWriter(); try { switch (cmd) { case "reset-throttling": handleResetThrottling(); break; case "reset-all-throttling": handleResetAllThrottling(); break; case "override-config": handleOverrideConfig(); break; case "reset-config": handleResetConfig(); break; case "clear-default-launcher": handleClearDefaultLauncher(); break; case "get-default-launcher": handleGetDefaultLauncher(); break; case "unload-user": handleUnloadUser(); break; case "clear-shortcuts": handleClearShortcuts(); break; case "verify-states": // hidden command to verify various internal states. handleVerifyStates(); break; default: return handleDefaultCommands(cmd); } } catch (CommandException e) { pw.println("Error: " + e.getMessage()); return 1; } pw.println("Success"); return 0; } @Override public void onHelp() { final PrintWriter pw = getOutPrintWriter(); pw.println("Usage: cmd shortcut COMMAND [options ...]"); pw.println(); pw.println("cmd shortcut reset-throttling [--user USER_ID]"); pw.println(" Reset throttling for all packages and users"); pw.println(); pw.println("cmd shortcut reset-all-throttling"); pw.println(" Reset the throttling state for all users"); pw.println(); pw.println("cmd shortcut override-config CONFIG"); pw.println(" Override the configuration for testing (will last until reboot)"); pw.println(); pw.println("cmd shortcut reset-config"); pw.println(" Reset the configuration set with \"update-config\""); pw.println(); pw.println("cmd shortcut clear-default-launcher [--user USER_ID]"); pw.println(" Clear the cached default launcher"); pw.println(); pw.println("cmd shortcut get-default-launcher [--user USER_ID]"); pw.println(" Show the default launcher"); pw.println(); pw.println("cmd shortcut unload-user [--user USER_ID]"); pw.println(" Unload a user from the memory"); pw.println(" (This should not affect any observable behavior)"); pw.println(); pw.println("cmd shortcut clear-shortcuts [--user USER_ID] PACKAGE"); pw.println(" Remove all shortcuts from a package, including pinned shortcuts"); pw.println(); } private void handleResetThrottling() throws CommandException { synchronized (mLock) { parseOptionsLocked(/* takeUser =*/ true); Slog.i(TAG, "cmd: handleResetThrottling: user=" + mUserId); resetThrottlingInner(mUserId); } } private void handleResetAllThrottling() { Slog.i(TAG, "cmd: handleResetAllThrottling"); resetAllThrottlingInner(); } private void handleOverrideConfig() throws CommandException { final String config = getNextArgRequired(); Slog.i(TAG, "cmd: handleOverrideConfig: " + config); synchronized (mLock) { if (!updateConfigurationLocked(config)) { throw new CommandException("override-config failed. See logcat for details."); } } } private void handleResetConfig() { Slog.i(TAG, "cmd: handleResetConfig"); synchronized (mLock) { loadConfigurationLocked(); } } private void clearLauncher() { synchronized (mLock) { getUserShortcutsLocked(mUserId).forceClearLauncher(); } } private void showLauncher() { synchronized (mLock) { // This ensures to set the cached launcher. Package name doesn't matter. hasShortcutHostPermissionInner("-", mUserId); getOutPrintWriter().println("Launcher: " + getUserShortcutsLocked(mUserId).getLastKnownLauncher()); } } private void handleClearDefaultLauncher() throws CommandException { synchronized (mLock) { parseOptionsLocked(/* takeUser =*/ true); clearLauncher(); } } private void handleGetDefaultLauncher() throws CommandException { synchronized (mLock) { parseOptionsLocked(/* takeUser =*/ true); clearLauncher(); showLauncher(); } } private void handleUnloadUser() throws CommandException { synchronized (mLock) { parseOptionsLocked(/* takeUser =*/ true); Slog.i(TAG, "cmd: handleUnloadUser: user=" + mUserId); ShortcutService.this.handleStopUser(mUserId); } } private void handleClearShortcuts() throws CommandException { synchronized (mLock) { parseOptionsLocked(/* takeUser =*/ true); final String packageName = getNextArgRequired(); Slog.i(TAG, "cmd: handleClearShortcuts: user" + mUserId + ", " + packageName); ShortcutService.this.cleanUpPackageForAllLoadedUsers(packageName, mUserId, /* appStillExists = */ true); } } private void handleVerifyStates() throws CommandException { try { verifyStatesForce(); // This will throw when there's an issue. } catch (Throwable th) { throw new CommandException(th.getMessage() + "\n" + Log.getStackTraceString(th)); } } } // === Unit test support === // Injection point. @VisibleForTesting long injectCurrentTimeMillis() { return System.currentTimeMillis(); } @VisibleForTesting long injectElapsedRealtime() { return SystemClock.elapsedRealtime(); } @VisibleForTesting long injectUptimeMillis() { return SystemClock.uptimeMillis(); } // Injection point. @VisibleForTesting int injectBinderCallingUid() { return getCallingUid(); } private int getCallingUserId() { return UserHandle.getUserId(injectBinderCallingUid()); } // Injection point. @VisibleForTesting long injectClearCallingIdentity() { return Binder.clearCallingIdentity(); } // Injection point. @VisibleForTesting void injectRestoreCallingIdentity(long token) { Binder.restoreCallingIdentity(token); } // Injection point. @VisibleForTesting String injectBuildFingerprint() { return Build.FINGERPRINT; } final void wtf(String message) { wtf(message, /* exception= */ null); } // Injection point. void wtf(String message, Throwable e) { if (e == null) { e = new RuntimeException("Stacktrace"); } synchronized (mLock) { mWtfCount++; mLastWtfStacktrace = new Exception("Last failure was logged here:"); } Slog.wtf(TAG, message, e); } @VisibleForTesting File injectSystemDataPath() { return Environment.getDataSystemDirectory(); } @VisibleForTesting File injectUserDataPath(@UserIdInt int userId) { return new File(Environment.getDataSystemCeDirectory(userId), DIRECTORY_PER_USER); } public File getDumpPath() { return new File(injectUserDataPath(UserHandle.USER_SYSTEM), DIRECTORY_DUMP); } @VisibleForTesting boolean injectIsLowRamDevice() { return ActivityManager.isLowRamDeviceStatic(); } @VisibleForTesting void injectRegisterUidObserver(IUidObserver observer, int which) { try { ActivityManager.getService().registerUidObserver(observer, which, ActivityManager.PROCESS_STATE_UNKNOWN, null); } catch (RemoteException shouldntHappen) { } } File getUserBitmapFilePath(@UserIdInt int userId) { return new File(injectUserDataPath(userId), DIRECTORY_BITMAPS); } @VisibleForTesting SparseArray getShortcutsForTest() { return mUsers; } @VisibleForTesting int getMaxShortcutsForTest() { return mMaxShortcuts; } @VisibleForTesting int getMaxUpdatesPerIntervalForTest() { return mMaxUpdatesPerInterval; } @VisibleForTesting long getResetIntervalForTest() { return mResetInterval; } @VisibleForTesting int getMaxIconDimensionForTest() { return mMaxIconDimension; } @VisibleForTesting CompressFormat getIconPersistFormatForTest() { return mIconPersistFormat; } @VisibleForTesting int getIconPersistQualityForTest() { return mIconPersistQuality; } @VisibleForTesting ShortcutPackage getPackageShortcutForTest(String packageName, int userId) { synchronized (mLock) { final ShortcutUser user = mUsers.get(userId); if (user == null) return null; return user.getAllPackagesForTest().get(packageName); } } @VisibleForTesting ShortcutInfo getPackageShortcutForTest(String packageName, String shortcutId, int userId) { synchronized (mLock) { final ShortcutPackage pkg = getPackageShortcutForTest(packageName, userId); if (pkg == null) return null; return pkg.findShortcutById(shortcutId); } } @VisibleForTesting ShortcutLauncher getLauncherShortcutForTest(String packageName, int userId) { synchronized (mLock) { final ShortcutUser user = mUsers.get(userId); if (user == null) return null; return user.getAllLaunchersForTest().get(PackageWithUser.of(userId, packageName)); } } @VisibleForTesting ShortcutRequestPinProcessor getShortcutRequestPinProcessorForTest() { return mShortcutRequestPinProcessor; } /** * Control whether {@link #verifyStates} should be performed. We always perform it during unit * tests. */ @VisibleForTesting boolean injectShouldPerformVerification() { return DEBUG; } /** * Check various internal states and throws if there's any inconsistency. * This is normally only enabled during unit tests. */ final void verifyStates() { if (injectShouldPerformVerification()) { verifyStatesInner(); } } private final void verifyStatesForce() { verifyStatesInner(); } private void verifyStatesInner() { synchronized (mLock) { forEachLoadedUserLocked(u -> u.forAllPackageItems(ShortcutPackageItem::verifyStates)); } } @VisibleForTesting void waitForBitmapSavesForTest() { synchronized (mLock) { mShortcutBitmapSaver.waitForAllSavesLocked(); } } }