/* * Copyright (C) 2007 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.internal.widget; import android.Manifest; import android.app.ActivityManagerNative; import android.app.AlarmManager; import android.app.admin.DevicePolicyManager; import android.app.trust.TrustManager; import android.appwidget.AppWidgetManager; import android.content.ComponentName; import android.content.ContentResolver; import android.content.Context; import android.content.Intent; import android.content.pm.PackageManager; import android.content.pm.UserInfo; import android.os.AsyncTask; import android.os.IBinder; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemClock; import android.os.SystemProperties; import android.os.UserHandle; import android.os.UserManager; import android.os.storage.IMountService; import android.os.storage.StorageManager; import android.provider.Settings; import android.telecom.TelecomManager; import android.text.TextUtils; import android.util.Log; import android.view.IWindowManager; import android.view.View; import android.widget.Button; import com.android.internal.R; import com.google.android.collect.Lists; import java.security.MessageDigest; import java.security.NoSuchAlgorithmException; import java.security.SecureRandom; import java.util.ArrayList; import java.util.Collection; import java.util.List; /** * Utilities for the lock pattern and its settings. */ public class LockPatternUtils { private static final String TAG = "LockPatternUtils"; private static final boolean DEBUG = false; /** * The maximum number of incorrect attempts before the user is prevented * from trying again for {@link #FAILED_ATTEMPT_TIMEOUT_MS}. */ public static final int FAILED_ATTEMPTS_BEFORE_TIMEOUT = 5; /** * The number of incorrect attempts before which we fall back on an alternative * method of verifying the user, and resetting their lock pattern. */ public static final int FAILED_ATTEMPTS_BEFORE_RESET = 20; /** * How long the user is prevented from trying again after entering the * wrong pattern too many times. */ public static final long FAILED_ATTEMPT_TIMEOUT_MS = 30000L; /** * The interval of the countdown for showing progress of the lockout. */ public static final long FAILED_ATTEMPT_COUNTDOWN_INTERVAL_MS = 1000L; /** * This dictates when we start telling the user that continued failed attempts will wipe * their device. */ public static final int FAILED_ATTEMPTS_BEFORE_WIPE_GRACE = 5; /** * The minimum number of dots in a valid pattern. */ public static final int MIN_LOCK_PATTERN_SIZE = 4; /** * The minimum number of dots the user must include in a wrong pattern * attempt for it to be counted against the counts that affect * {@link #FAILED_ATTEMPTS_BEFORE_TIMEOUT} and {@link #FAILED_ATTEMPTS_BEFORE_RESET} */ public static final int MIN_PATTERN_REGISTER_FAIL = MIN_LOCK_PATTERN_SIZE; /** * Tells the keyguard to show the user switcher when the keyguard is created. */ public static final String KEYGUARD_SHOW_USER_SWITCHER = "showuserswitcher"; /** * Tells the keyguard to show the security challenge when the keyguard is created. */ public static final String KEYGUARD_SHOW_SECURITY_CHALLENGE = "showsecuritychallenge"; /** * Tells the keyguard to show the widget with the specified id when the keyguard is created. */ public static final String KEYGUARD_SHOW_APPWIDGET = "showappwidget"; /** * The bit in LOCK_BIOMETRIC_WEAK_FLAGS to be used to indicate whether liveliness should * be used */ public static final int FLAG_BIOMETRIC_WEAK_LIVELINESS = 0x1; /** * Pseudo-appwidget id we use to represent the default clock status widget */ public static final int ID_DEFAULT_STATUS_WIDGET = -2; public final static String LOCKOUT_PERMANENT_KEY = "lockscreen.lockedoutpermanently"; public final static String LOCKOUT_ATTEMPT_DEADLINE = "lockscreen.lockoutattemptdeadline"; public final static String PATTERN_EVER_CHOSEN_KEY = "lockscreen.patterneverchosen"; public final static String PASSWORD_TYPE_KEY = "lockscreen.password_type"; public static final String PASSWORD_TYPE_ALTERNATE_KEY = "lockscreen.password_type_alternate"; public final static String LOCK_PASSWORD_SALT_KEY = "lockscreen.password_salt"; public final static String DISABLE_LOCKSCREEN_KEY = "lockscreen.disabled"; public final static String LOCKSCREEN_OPTIONS = "lockscreen.options"; public final static String LOCKSCREEN_BIOMETRIC_WEAK_FALLBACK = "lockscreen.biometric_weak_fallback"; public final static String BIOMETRIC_WEAK_EVER_CHOSEN_KEY = "lockscreen.biometricweakeverchosen"; public final static String LOCKSCREEN_POWER_BUTTON_INSTANTLY_LOCKS = "lockscreen.power_button_instantly_locks"; public final static String LOCKSCREEN_WIDGETS_ENABLED = "lockscreen.widgets_enabled"; public final static String PASSWORD_HISTORY_KEY = "lockscreen.passwordhistory"; private static final String LOCK_SCREEN_OWNER_INFO = Settings.Secure.LOCK_SCREEN_OWNER_INFO; private static final String LOCK_SCREEN_OWNER_INFO_ENABLED = Settings.Secure.LOCK_SCREEN_OWNER_INFO_ENABLED; private static final String ENABLED_TRUST_AGENTS = "lockscreen.enabledtrustagents"; // Maximum allowed number of repeated or ordered characters in a sequence before we'll // consider it a complex PIN/password. public static final int MAX_ALLOWED_SEQUENCE = 3; private final Context mContext; private final ContentResolver mContentResolver; private DevicePolicyManager mDevicePolicyManager; private ILockSettings mLockSettingsService; private final boolean mMultiUserMode; // The current user is set by KeyguardViewMediator and shared by all LockPatternUtils. private static volatile int sCurrentUserId = UserHandle.USER_NULL; public DevicePolicyManager getDevicePolicyManager() { if (mDevicePolicyManager == null) { mDevicePolicyManager = (DevicePolicyManager)mContext.getSystemService(Context.DEVICE_POLICY_SERVICE); if (mDevicePolicyManager == null) { Log.e(TAG, "Can't get DevicePolicyManagerService: is it running?", new IllegalStateException("Stack trace:")); } } return mDevicePolicyManager; } private TrustManager getTrustManager() { TrustManager trust = (TrustManager) mContext.getSystemService(Context.TRUST_SERVICE); if (trust == null) { Log.e(TAG, "Can't get TrustManagerService: is it running?", new IllegalStateException("Stack trace:")); } return trust; } /** * @param contentResolver Used to look up and save settings. */ public LockPatternUtils(Context context) { mContext = context; mContentResolver = context.getContentResolver(); // If this is being called by the system or by an application like keyguard that // has permision INTERACT_ACROSS_USERS, then LockPatternUtils will operate in multi-user // mode where calls are for the current user rather than the user of the calling process. mMultiUserMode = context.checkCallingOrSelfPermission( Manifest.permission.INTERACT_ACROSS_USERS_FULL) == PackageManager.PERMISSION_GRANTED; } private ILockSettings getLockSettings() { if (mLockSettingsService == null) { mLockSettingsService = LockPatternUtilsCache.getInstance( ILockSettings.Stub.asInterface(ServiceManager.getService("lock_settings"))); } return mLockSettingsService; } public int getRequestedMinimumPasswordLength() { return getDevicePolicyManager().getPasswordMinimumLength(null, getCurrentOrCallingUserId()); } /** * Gets the device policy password mode. If the mode is non-specific, returns * MODE_PATTERN which allows the user to choose anything. */ public int getRequestedPasswordQuality() { return getDevicePolicyManager().getPasswordQuality(null, getCurrentOrCallingUserId()); } public int getRequestedPasswordHistoryLength() { return getDevicePolicyManager().getPasswordHistoryLength(null, getCurrentOrCallingUserId()); } public int getRequestedPasswordMinimumLetters() { return getDevicePolicyManager().getPasswordMinimumLetters(null, getCurrentOrCallingUserId()); } public int getRequestedPasswordMinimumUpperCase() { return getDevicePolicyManager().getPasswordMinimumUpperCase(null, getCurrentOrCallingUserId()); } public int getRequestedPasswordMinimumLowerCase() { return getDevicePolicyManager().getPasswordMinimumLowerCase(null, getCurrentOrCallingUserId()); } public int getRequestedPasswordMinimumNumeric() { return getDevicePolicyManager().getPasswordMinimumNumeric(null, getCurrentOrCallingUserId()); } public int getRequestedPasswordMinimumSymbols() { return getDevicePolicyManager().getPasswordMinimumSymbols(null, getCurrentOrCallingUserId()); } public int getRequestedPasswordMinimumNonLetter() { return getDevicePolicyManager().getPasswordMinimumNonLetter(null, getCurrentOrCallingUserId()); } public void reportFailedPasswordAttempt() { int userId = getCurrentOrCallingUserId(); getDevicePolicyManager().reportFailedPasswordAttempt(userId); getTrustManager().reportUnlockAttempt(false /* authenticated */, userId); getTrustManager().reportRequireCredentialEntry(userId); } public void reportSuccessfulPasswordAttempt() { getDevicePolicyManager().reportSuccessfulPasswordAttempt(getCurrentOrCallingUserId()); getTrustManager().reportUnlockAttempt(true /* authenticated */, getCurrentOrCallingUserId()); } public void setCurrentUser(int userId) { sCurrentUserId = userId; } public int getCurrentUser() { if (sCurrentUserId != UserHandle.USER_NULL) { // Someone is regularly updating using setCurrentUser() use that value. return sCurrentUserId; } try { return ActivityManagerNative.getDefault().getCurrentUser().id; } catch (RemoteException re) { return UserHandle.USER_OWNER; } } public void removeUser(int userId) { try { getLockSettings().removeUser(userId); } catch (RemoteException re) { Log.e(TAG, "Couldn't remove lock settings for user " + userId); } } private int getCurrentOrCallingUserId() { if (mMultiUserMode) { // TODO: This is a little inefficient. See if all users of this are able to // handle USER_CURRENT and pass that instead. return getCurrentUser(); } else { return UserHandle.getCallingUserId(); } } /** * Check to see if a pattern matches the saved pattern. If no pattern exists, * always returns true. * @param pattern The pattern to check. * @return Whether the pattern matches the stored one. */ public boolean checkPattern(List pattern) { final int userId = getCurrentOrCallingUserId(); try { return getLockSettings().checkPattern(patternToString(pattern), userId); } catch (RemoteException re) { return true; } } /** * Check to see if a password matches the saved password. If no password exists, * always returns true. * @param password The password to check. * @return Whether the password matches the stored one. */ public boolean checkPassword(String password) { final int userId = getCurrentOrCallingUserId(); try { return getLockSettings().checkPassword(password, userId); } catch (RemoteException re) { return true; } } /** * Check to see if vold already has the password. * Note that this also clears vold's copy of the password. * @return Whether the vold password matches or not. */ public boolean checkVoldPassword() { final int userId = getCurrentOrCallingUserId(); try { return getLockSettings().checkVoldPassword(userId); } catch (RemoteException re) { return false; } } /** * Check to see if a password matches any of the passwords stored in the * password history. * * @param password The password to check. * @return Whether the password matches any in the history. */ public boolean checkPasswordHistory(String password) { String passwordHashString = new String( passwordToHash(password, getCurrentOrCallingUserId())); String passwordHistory = getString(PASSWORD_HISTORY_KEY); if (passwordHistory == null) { return false; } // Password History may be too long... int passwordHashLength = passwordHashString.length(); int passwordHistoryLength = getRequestedPasswordHistoryLength(); if(passwordHistoryLength == 0) { return false; } int neededPasswordHistoryLength = passwordHashLength * passwordHistoryLength + passwordHistoryLength - 1; if (passwordHistory.length() > neededPasswordHistoryLength) { passwordHistory = passwordHistory.substring(0, neededPasswordHistoryLength); } return passwordHistory.contains(passwordHashString); } /** * Check to see if the user has stored a lock pattern. * @return Whether a saved pattern exists. */ public boolean savedPatternExists() { try { return getLockSettings().havePattern(getCurrentOrCallingUserId()); } catch (RemoteException re) { return false; } } /** * Check to see if the user has stored a lock pattern. * @return Whether a saved pattern exists. */ public boolean savedPasswordExists() { try { return getLockSettings().havePassword(getCurrentOrCallingUserId()); } catch (RemoteException re) { return false; } } /** * Return true if the user has ever chosen a pattern. This is true even if the pattern is * currently cleared. * * @return True if the user has ever chosen a pattern. */ public boolean isPatternEverChosen() { return getBoolean(PATTERN_EVER_CHOSEN_KEY, false); } /** * Return true if the user has ever chosen biometric weak. This is true even if biometric * weak is not current set. * * @return True if the user has ever chosen biometric weak. */ public boolean isBiometricWeakEverChosen() { return getBoolean(BIOMETRIC_WEAK_EVER_CHOSEN_KEY, false); } /** * Used by device policy manager to validate the current password * information it has. */ public int getActivePasswordQuality() { int activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED; // Note we don't want to use getKeyguardStoredPasswordQuality() because we want this to // return biometric_weak if that is being used instead of the backup int quality = (int) getLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING); switch (quality) { case DevicePolicyManager.PASSWORD_QUALITY_SOMETHING: if (isLockPatternEnabled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_SOMETHING; } break; case DevicePolicyManager.PASSWORD_QUALITY_BIOMETRIC_WEAK: if (isBiometricWeakInstalled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_BIOMETRIC_WEAK; } break; case DevicePolicyManager.PASSWORD_QUALITY_NUMERIC: if (isLockPasswordEnabled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_NUMERIC; } break; case DevicePolicyManager.PASSWORD_QUALITY_NUMERIC_COMPLEX: if (isLockPasswordEnabled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_NUMERIC_COMPLEX; } break; case DevicePolicyManager.PASSWORD_QUALITY_ALPHABETIC: if (isLockPasswordEnabled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_ALPHABETIC; } break; case DevicePolicyManager.PASSWORD_QUALITY_ALPHANUMERIC: if (isLockPasswordEnabled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_ALPHANUMERIC; } break; case DevicePolicyManager.PASSWORD_QUALITY_COMPLEX: if (isLockPasswordEnabled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_COMPLEX; } break; } return activePasswordQuality; } /** * Clear any lock pattern or password. */ public void clearLock(boolean isFallback) { if(!isFallback) deleteGallery(); saveLockPassword(null, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING); setLockPatternEnabled(false); saveLockPattern(null); setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED); setLong(PASSWORD_TYPE_ALTERNATE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED); onAfterChangingPassword(); } /** * Disable showing lock screen at all when the DevicePolicyManager allows it. * This is only meaningful if pattern, pin or password are not set. * * @param disable Disables lock screen when true */ public void setLockScreenDisabled(boolean disable) { setLong(DISABLE_LOCKSCREEN_KEY, disable ? 1 : 0); } /** * Determine if LockScreen can be disabled. This is used, for example, to tell if we should * show LockScreen or go straight to the home screen. * * @return true if lock screen is can be disabled */ public boolean isLockScreenDisabled() { if (!isSecure() && getLong(DISABLE_LOCKSCREEN_KEY, 0) != 0) { // Check if the number of switchable users forces the lockscreen. final List users = UserManager.get(mContext).getUsers(true); final int userCount = users.size(); int switchableUsers = 0; for (int i = 0; i < userCount; i++) { if (users.get(i).supportsSwitchTo()) { switchableUsers++; } } return switchableUsers < 2; } return false; } /** * Calls back SetupFaceLock to delete the temporary gallery file */ public void deleteTempGallery() { Intent intent = new Intent().setAction("com.android.facelock.DELETE_GALLERY"); intent.putExtra("deleteTempGallery", true); mContext.sendBroadcast(intent); } /** * Calls back SetupFaceLock to delete the gallery file when the lock type is changed */ void deleteGallery() { if(usingBiometricWeak()) { Intent intent = new Intent().setAction("com.android.facelock.DELETE_GALLERY"); intent.putExtra("deleteGallery", true); mContext.sendBroadcast(intent); } } /** * Save a lock pattern. * @param pattern The new pattern to save. */ public void saveLockPattern(List pattern) { this.saveLockPattern(pattern, false); } /** * Save a lock pattern. * @param pattern The new pattern to save. * @param isFallback Specifies if this is a fallback to biometric weak */ public void saveLockPattern(List pattern, boolean isFallback) { try { int userId = getCurrentOrCallingUserId(); getLockSettings().setLockPattern(patternToString(pattern), userId); DevicePolicyManager dpm = getDevicePolicyManager(); if (pattern != null) { // Update the device encryption password. if (userId == UserHandle.USER_OWNER && LockPatternUtils.isDeviceEncryptionEnabled()) { final ContentResolver cr = mContext.getContentResolver(); final boolean required = Settings.Global.getInt(cr, Settings.Global.REQUIRE_PASSWORD_TO_DECRYPT, 1) == 1 ? true : false; if (!required) { clearEncryptionPassword(); } else { String stringPattern = patternToString(pattern); updateEncryptionPassword(StorageManager.CRYPT_TYPE_PATTERN, stringPattern); } } setBoolean(PATTERN_EVER_CHOSEN_KEY, true); if (!isFallback) { deleteGallery(); setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING); dpm.setActivePasswordState(DevicePolicyManager.PASSWORD_QUALITY_SOMETHING, pattern.size(), 0, 0, 0, 0, 0, 0, userId); } else { setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_BIOMETRIC_WEAK); setLong(PASSWORD_TYPE_ALTERNATE_KEY, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING); finishBiometricWeak(); dpm.setActivePasswordState(DevicePolicyManager.PASSWORD_QUALITY_BIOMETRIC_WEAK, 0, 0, 0, 0, 0, 0, 0, userId); } } else { dpm.setActivePasswordState(DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, 0, 0, 0, 0, 0, 0, 0, userId); } onAfterChangingPassword(); } catch (RemoteException re) { Log.e(TAG, "Couldn't save lock pattern " + re); } } private void updateCryptoUserInfo() { int userId = getCurrentOrCallingUserId(); if (userId != UserHandle.USER_OWNER) { return; } final String ownerInfo = isOwnerInfoEnabled() ? getOwnerInfo(userId) : ""; IBinder service = ServiceManager.getService("mount"); if (service == null) { Log.e(TAG, "Could not find the mount service to update the user info"); return; } IMountService mountService = IMountService.Stub.asInterface(service); try { Log.d(TAG, "Setting owner info"); mountService.setField(StorageManager.OWNER_INFO_KEY, ownerInfo); } catch (RemoteException e) { Log.e(TAG, "Error changing user info", e); } } public void setOwnerInfo(String info, int userId) { setString(LOCK_SCREEN_OWNER_INFO, info, userId); updateCryptoUserInfo(); } public void setOwnerInfoEnabled(boolean enabled) { setBoolean(LOCK_SCREEN_OWNER_INFO_ENABLED, enabled); updateCryptoUserInfo(); } public String getOwnerInfo(int userId) { return getString(LOCK_SCREEN_OWNER_INFO); } public boolean isOwnerInfoEnabled() { return getBoolean(LOCK_SCREEN_OWNER_INFO_ENABLED, false); } /** * Compute the password quality from the given password string. */ static public int computePasswordQuality(String password) { boolean hasDigit = false; boolean hasNonDigit = false; final int len = password.length(); for (int i = 0; i < len; i++) { if (Character.isDigit(password.charAt(i))) { hasDigit = true; } else { hasNonDigit = true; } } if (hasNonDigit && hasDigit) { return DevicePolicyManager.PASSWORD_QUALITY_ALPHANUMERIC; } if (hasNonDigit) { return DevicePolicyManager.PASSWORD_QUALITY_ALPHABETIC; } if (hasDigit) { return maxLengthSequence(password) > MAX_ALLOWED_SEQUENCE ? DevicePolicyManager.PASSWORD_QUALITY_NUMERIC : DevicePolicyManager.PASSWORD_QUALITY_NUMERIC_COMPLEX; } return DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED; } private static int categoryChar(char c) { if ('a' <= c && c <= 'z') return 0; if ('A' <= c && c <= 'Z') return 1; if ('0' <= c && c <= '9') return 2; return 3; } private static int maxDiffCategory(int category) { if (category == 0 || category == 1) return 1; else if (category == 2) return 10; return 0; } /* * Returns the maximum length of a sequential characters. A sequence is defined as * monotonically increasing characters with a constant interval or the same character repeated. * * For example: * maxLengthSequence("1234") == 4 * maxLengthSequence("1234abc") == 4 * maxLengthSequence("aabc") == 3 * maxLengthSequence("qwertyuio") == 1 * maxLengthSequence("@ABC") == 3 * maxLengthSequence(";;;;") == 4 (anything that repeats) * maxLengthSequence(":;<=>") == 1 (ordered, but not composed of alphas or digits) * * @param string the pass * @return the number of sequential letters or digits */ public static int maxLengthSequence(String string) { if (string.length() == 0) return 0; char previousChar = string.charAt(0); int category = categoryChar(previousChar); //current category of the sequence int diff = 0; //difference between two consecutive characters boolean hasDiff = false; //if we are currently targeting a sequence int maxLength = 0; //maximum length of a sequence already found int startSequence = 0; //where the current sequence started for (int current = 1; current < string.length(); current++) { char currentChar = string.charAt(current); int categoryCurrent = categoryChar(currentChar); int currentDiff = (int) currentChar - (int) previousChar; if (categoryCurrent != category || Math.abs(currentDiff) > maxDiffCategory(category)) { maxLength = Math.max(maxLength, current - startSequence); startSequence = current; hasDiff = false; category = categoryCurrent; } else { if(hasDiff && currentDiff != diff) { maxLength = Math.max(maxLength, current - startSequence); startSequence = current - 1; } diff = currentDiff; hasDiff = true; } previousChar = currentChar; } maxLength = Math.max(maxLength, string.length() - startSequence); return maxLength; } /** Update the encryption password if it is enabled **/ private void updateEncryptionPassword(final int type, final String password) { DevicePolicyManager dpm = getDevicePolicyManager(); if (dpm.getStorageEncryptionStatus(getCurrentOrCallingUserId()) != DevicePolicyManager.ENCRYPTION_STATUS_ACTIVE) { return; } final IBinder service = ServiceManager.getService("mount"); if (service == null) { Log.e(TAG, "Could not find the mount service to update the encryption password"); return; } new AsyncTask() { @Override protected Void doInBackground(Void... dummy) { IMountService mountService = IMountService.Stub.asInterface(service); try { mountService.changeEncryptionPassword(type, password); } catch (RemoteException e) { Log.e(TAG, "Error changing encryption password", e); } return null; } }.execute(); } /** * Save a lock password. Does not ensure that the password is as good * as the requested mode, but will adjust the mode to be as good as the * pattern. * @param password The password to save * @param quality {@see DevicePolicyManager#getPasswordQuality(android.content.ComponentName)} */ public void saveLockPassword(String password, int quality) { this.saveLockPassword(password, quality, false, getCurrentOrCallingUserId()); } /** * Save a lock password. Does not ensure that the password is as good * as the requested mode, but will adjust the mode to be as good as the * pattern. * @param password The password to save * @param quality {@see DevicePolicyManager#getPasswordQuality(android.content.ComponentName)} * @param isFallback Specifies if this is a fallback to biometric weak */ public void saveLockPassword(String password, int quality, boolean isFallback) { saveLockPassword(password, quality, isFallback, getCurrentOrCallingUserId()); } /** * Save a lock password. Does not ensure that the password is as good * as the requested mode, but will adjust the mode to be as good as the * pattern. * @param password The password to save * @param quality {@see DevicePolicyManager#getPasswordQuality(android.content.ComponentName)} * @param isFallback Specifies if this is a fallback to biometric weak * @param userHandle The userId of the user to change the password for */ public void saveLockPassword(String password, int quality, boolean isFallback, int userHandle) { try { DevicePolicyManager dpm = getDevicePolicyManager(); if (!TextUtils.isEmpty(password)) { getLockSettings().setLockPassword(password, userHandle); int computedQuality = computePasswordQuality(password); // Update the device encryption password. if (userHandle == UserHandle.USER_OWNER && LockPatternUtils.isDeviceEncryptionEnabled()) { final ContentResolver cr = mContext.getContentResolver(); final boolean required = Settings.Global.getInt(cr, Settings.Global.REQUIRE_PASSWORD_TO_DECRYPT, 1) == 1 ? true : false; if (!required) { clearEncryptionPassword(); } else { boolean numeric = computedQuality == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC; boolean numericComplex = computedQuality == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC_COMPLEX; int type = numeric || numericComplex ? StorageManager.CRYPT_TYPE_PIN : StorageManager.CRYPT_TYPE_PASSWORD; updateEncryptionPassword(type, password); } } if (!isFallback) { deleteGallery(); setLong(PASSWORD_TYPE_KEY, Math.max(quality, computedQuality), userHandle); if (computedQuality != DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED) { int letters = 0; int uppercase = 0; int lowercase = 0; int numbers = 0; int symbols = 0; int nonletter = 0; for (int i = 0; i < password.length(); i++) { char c = password.charAt(i); if (c >= 'A' && c <= 'Z') { letters++; uppercase++; } else if (c >= 'a' && c <= 'z') { letters++; lowercase++; } else if (c >= '0' && c <= '9') { numbers++; nonletter++; } else { symbols++; nonletter++; } } dpm.setActivePasswordState(Math.max(quality, computedQuality), password.length(), letters, uppercase, lowercase, numbers, symbols, nonletter, userHandle); } else { // The password is not anything. dpm.setActivePasswordState( DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, 0, 0, 0, 0, 0, 0, 0, userHandle); } } else { // Case where it's a fallback for biometric weak setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_BIOMETRIC_WEAK, userHandle); setLong(PASSWORD_TYPE_ALTERNATE_KEY, Math.max(quality, computedQuality), userHandle); finishBiometricWeak(); dpm.setActivePasswordState(DevicePolicyManager.PASSWORD_QUALITY_BIOMETRIC_WEAK, 0, 0, 0, 0, 0, 0, 0, userHandle); } // Add the password to the password history. We assume all // password hashes have the same length for simplicity of implementation. String passwordHistory = getString(PASSWORD_HISTORY_KEY, userHandle); if (passwordHistory == null) { passwordHistory = new String(); } int passwordHistoryLength = getRequestedPasswordHistoryLength(); if (passwordHistoryLength == 0) { passwordHistory = ""; } else { byte[] hash = passwordToHash(password, userHandle); passwordHistory = new String(hash) + "," + passwordHistory; // Cut it to contain passwordHistoryLength hashes // and passwordHistoryLength -1 commas. passwordHistory = passwordHistory.substring(0, Math.min(hash.length * passwordHistoryLength + passwordHistoryLength - 1, passwordHistory .length())); } setString(PASSWORD_HISTORY_KEY, passwordHistory, userHandle); } else { // Empty password getLockSettings().setLockPassword(null, userHandle); if (userHandle == UserHandle.USER_OWNER) { // Set the encryption password to default. updateEncryptionPassword(StorageManager.CRYPT_TYPE_DEFAULT, null); } dpm.setActivePasswordState( DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, 0, 0, 0, 0, 0, 0, 0, userHandle); } onAfterChangingPassword(); } catch (RemoteException re) { // Cant do much Log.e(TAG, "Unable to save lock password " + re); } } /** * Gets whether the device is encrypted. * * @return Whether the device is encrypted. */ public static boolean isDeviceEncrypted() { IMountService mountService = IMountService.Stub.asInterface( ServiceManager.getService("mount")); try { return mountService.getEncryptionState() != IMountService.ENCRYPTION_STATE_NONE && mountService.getPasswordType() != StorageManager.CRYPT_TYPE_DEFAULT; } catch (RemoteException re) { Log.e(TAG, "Error getting encryption state", re); } return true; } /** * Determine if the device supports encryption, even if it's set to default. This * differs from isDeviceEncrypted() in that it returns true even if the device is * encrypted with the default password. * @return true if device encryption is enabled */ public static boolean isDeviceEncryptionEnabled() { final String status = SystemProperties.get("ro.crypto.state", "unsupported"); return "encrypted".equalsIgnoreCase(status); } /** * Clears the encryption password. */ public void clearEncryptionPassword() { updateEncryptionPassword(StorageManager.CRYPT_TYPE_DEFAULT, null); } /** * Retrieves the quality mode we're in. * {@see DevicePolicyManager#getPasswordQuality(android.content.ComponentName)} * * @return stored password quality */ public int getKeyguardStoredPasswordQuality() { return getKeyguardStoredPasswordQuality(getCurrentOrCallingUserId()); } /** * Retrieves the quality mode for {@param userHandle}. * {@see DevicePolicyManager#getPasswordQuality(android.content.ComponentName)} * * @return stored password quality */ public int getKeyguardStoredPasswordQuality(int userHandle) { int quality = (int) getLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, userHandle); // If the user has chosen to use weak biometric sensor, then return the backup locking // method and treat biometric as a special case. if (quality == DevicePolicyManager.PASSWORD_QUALITY_BIOMETRIC_WEAK) { quality = (int) getLong(PASSWORD_TYPE_ALTERNATE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, userHandle); } return quality; } /** * @return true if the lockscreen method is set to biometric weak */ public boolean usingBiometricWeak() { int quality = (int) getLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED); return quality == DevicePolicyManager.PASSWORD_QUALITY_BIOMETRIC_WEAK; } /** * Deserialize a pattern. * @param string The pattern serialized with {@link #patternToString} * @return The pattern. */ public static List stringToPattern(String string) { List result = Lists.newArrayList(); final byte[] bytes = string.getBytes(); for (int i = 0; i < bytes.length; i++) { byte b = bytes[i]; result.add(LockPatternView.Cell.of(b / 3, b % 3)); } return result; } /** * Serialize a pattern. * @param pattern The pattern. * @return The pattern in string form. */ public static String patternToString(List pattern) { if (pattern == null) { return ""; } final int patternSize = pattern.size(); byte[] res = new byte[patternSize]; for (int i = 0; i < patternSize; i++) { LockPatternView.Cell cell = pattern.get(i); res[i] = (byte) (cell.getRow() * 3 + cell.getColumn()); } return new String(res); } /* * Generate an SHA-1 hash for the pattern. Not the most secure, but it is * at least a second level of protection. First level is that the file * is in a location only readable by the system process. * @param pattern the gesture pattern. * @return the hash of the pattern in a byte array. */ public static byte[] patternToHash(List pattern) { if (pattern == null) { return null; } final int patternSize = pattern.size(); byte[] res = new byte[patternSize]; for (int i = 0; i < patternSize; i++) { LockPatternView.Cell cell = pattern.get(i); res[i] = (byte) (cell.getRow() * 3 + cell.getColumn()); } try { MessageDigest md = MessageDigest.getInstance("SHA-1"); byte[] hash = md.digest(res); return hash; } catch (NoSuchAlgorithmException nsa) { return res; } } private String getSalt(int userId) { long salt = getLong(LOCK_PASSWORD_SALT_KEY, 0, userId); if (salt == 0) { try { salt = SecureRandom.getInstance("SHA1PRNG").nextLong(); setLong(LOCK_PASSWORD_SALT_KEY, salt, userId); Log.v(TAG, "Initialized lock password salt for user: " + userId); } catch (NoSuchAlgorithmException e) { // Throw an exception rather than storing a password we'll never be able to recover throw new IllegalStateException("Couldn't get SecureRandom number", e); } } return Long.toHexString(salt); } /* * Generate a hash for the given password. To avoid brute force attacks, we use a salted hash. * Not the most secure, but it is at least a second level of protection. First level is that * the file is in a location only readable by the system process. * @param password the gesture pattern. * @return the hash of the pattern in a byte array. */ public byte[] passwordToHash(String password, int userId) { if (password == null) { return null; } String algo = null; byte[] hashed = null; try { byte[] saltedPassword = (password + getSalt(userId)).getBytes(); byte[] sha1 = MessageDigest.getInstance(algo = "SHA-1").digest(saltedPassword); byte[] md5 = MessageDigest.getInstance(algo = "MD5").digest(saltedPassword); hashed = (toHex(sha1) + toHex(md5)).getBytes(); } catch (NoSuchAlgorithmException e) { Log.w(TAG, "Failed to encode string because of missing algorithm: " + algo); } return hashed; } private static String toHex(byte[] ary) { final String hex = "0123456789ABCDEF"; String ret = ""; for (int i = 0; i < ary.length; i++) { ret += hex.charAt((ary[i] >> 4) & 0xf); ret += hex.charAt(ary[i] & 0xf); } return ret; } /** * @return Whether the lock password is enabled, or if it is set as a backup for biometric weak */ public boolean isLockPasswordEnabled() { long mode = getLong(PASSWORD_TYPE_KEY, 0); long backupMode = getLong(PASSWORD_TYPE_ALTERNATE_KEY, 0); final boolean passwordEnabled = mode == DevicePolicyManager.PASSWORD_QUALITY_ALPHABETIC || mode == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC || mode == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC_COMPLEX || mode == DevicePolicyManager.PASSWORD_QUALITY_ALPHANUMERIC || mode == DevicePolicyManager.PASSWORD_QUALITY_COMPLEX; final boolean backupEnabled = backupMode == DevicePolicyManager.PASSWORD_QUALITY_ALPHABETIC || backupMode == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC || backupMode == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC_COMPLEX || backupMode == DevicePolicyManager.PASSWORD_QUALITY_ALPHANUMERIC || backupMode == DevicePolicyManager.PASSWORD_QUALITY_COMPLEX; return savedPasswordExists() && (passwordEnabled || (usingBiometricWeak() && backupEnabled)); } /** * @return Whether the lock pattern is enabled, or if it is set as a backup for biometric weak */ public boolean isLockPatternEnabled() { final boolean backupEnabled = getLong(PASSWORD_TYPE_ALTERNATE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED) == DevicePolicyManager.PASSWORD_QUALITY_SOMETHING; return getBoolean(Settings.Secure.LOCK_PATTERN_ENABLED, false) && (getLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED) == DevicePolicyManager.PASSWORD_QUALITY_SOMETHING || (usingBiometricWeak() && backupEnabled)); } /** * @return Whether biometric weak lock is installed and that the front facing camera exists */ public boolean isBiometricWeakInstalled() { // Check that it's installed PackageManager pm = mContext.getPackageManager(); try { pm.getPackageInfo("com.android.facelock", PackageManager.GET_ACTIVITIES); } catch (PackageManager.NameNotFoundException e) { return false; } // Check that the camera is enabled if (!pm.hasSystemFeature(PackageManager.FEATURE_CAMERA_FRONT)) { return false; } if (getDevicePolicyManager().getCameraDisabled(null, getCurrentOrCallingUserId())) { return false; } // TODO: If we decide not to proceed with Face Unlock as a trustlet, this must be changed // back to returning true. If we become certain that Face Unlock will be a trustlet, this // entire function and a lot of other code can be removed. if (DEBUG) Log.d(TAG, "Forcing isBiometricWeakInstalled() to return false to disable it"); return false; } /** * Set whether biometric weak liveliness is enabled. */ public void setBiometricWeakLivelinessEnabled(boolean enabled) { long currentFlag = getLong(Settings.Secure.LOCK_BIOMETRIC_WEAK_FLAGS, 0L); long newFlag; if (enabled) { newFlag = currentFlag | FLAG_BIOMETRIC_WEAK_LIVELINESS; } else { newFlag = currentFlag & ~FLAG_BIOMETRIC_WEAK_LIVELINESS; } setLong(Settings.Secure.LOCK_BIOMETRIC_WEAK_FLAGS, newFlag); } /** * @return Whether the biometric weak liveliness is enabled. */ public boolean isBiometricWeakLivelinessEnabled() { long currentFlag = getLong(Settings.Secure.LOCK_BIOMETRIC_WEAK_FLAGS, 0L); return ((currentFlag & FLAG_BIOMETRIC_WEAK_LIVELINESS) != 0); } /** * Set whether the lock pattern is enabled. */ public void setLockPatternEnabled(boolean enabled) { setBoolean(Settings.Secure.LOCK_PATTERN_ENABLED, enabled); } /** * @return Whether the visible pattern is enabled. */ public boolean isVisiblePatternEnabled() { return getBoolean(Settings.Secure.LOCK_PATTERN_VISIBLE, false); } /** * Set whether the visible pattern is enabled. */ public void setVisiblePatternEnabled(boolean enabled) { setBoolean(Settings.Secure.LOCK_PATTERN_VISIBLE, enabled); // Update for crypto if owner int userId = getCurrentOrCallingUserId(); if (userId != UserHandle.USER_OWNER) { return; } IBinder service = ServiceManager.getService("mount"); if (service == null) { Log.e(TAG, "Could not find the mount service to update the user info"); return; } IMountService mountService = IMountService.Stub.asInterface(service); try { mountService.setField(StorageManager.PATTERN_VISIBLE_KEY, enabled ? "1" : "0"); } catch (RemoteException e) { Log.e(TAG, "Error changing pattern visible state", e); } } /** * @return Whether tactile feedback for the pattern is enabled. */ public boolean isTactileFeedbackEnabled() { return Settings.System.getIntForUser(mContentResolver, Settings.System.HAPTIC_FEEDBACK_ENABLED, 1, UserHandle.USER_CURRENT) != 0; } /** * Set and store the lockout deadline, meaning the user can't attempt his/her unlock * pattern until the deadline has passed. * @return the chosen deadline. */ public long setLockoutAttemptDeadline() { final long deadline = SystemClock.elapsedRealtime() + FAILED_ATTEMPT_TIMEOUT_MS; setLong(LOCKOUT_ATTEMPT_DEADLINE, deadline); return deadline; } /** * @return The elapsed time in millis in the future when the user is allowed to * attempt to enter his/her lock pattern, or 0 if the user is welcome to * enter a pattern. */ public long getLockoutAttemptDeadline() { final long deadline = getLong(LOCKOUT_ATTEMPT_DEADLINE, 0L); final long now = SystemClock.elapsedRealtime(); if (deadline < now || deadline > (now + FAILED_ATTEMPT_TIMEOUT_MS)) { return 0L; } return deadline; } /** * @return Whether the user is permanently locked out until they verify their * credentials. Occurs after {@link #FAILED_ATTEMPTS_BEFORE_RESET} failed * attempts. */ public boolean isPermanentlyLocked() { return getBoolean(LOCKOUT_PERMANENT_KEY, false); } /** * Set the state of whether the device is permanently locked, meaning the user * must authenticate via other means. * * @param locked Whether the user is permanently locked out until they verify their * credentials. Occurs after {@link #FAILED_ATTEMPTS_BEFORE_RESET} failed * attempts. */ public void setPermanentlyLocked(boolean locked) { setBoolean(LOCKOUT_PERMANENT_KEY, locked); } public boolean isEmergencyCallCapable() { return mContext.getResources().getBoolean( com.android.internal.R.bool.config_voice_capable); } public boolean isPukUnlockScreenEnable() { return mContext.getResources().getBoolean( com.android.internal.R.bool.config_enable_puk_unlock_screen); } public boolean isEmergencyCallEnabledWhileSimLocked() { return mContext.getResources().getBoolean( com.android.internal.R.bool.config_enable_emergency_call_while_sim_locked); } /** * @return A formatted string of the next alarm (for showing on the lock screen), * or null if there is no next alarm. */ public AlarmManager.AlarmClockInfo getNextAlarm() { AlarmManager alarmManager = (AlarmManager) mContext.getSystemService(Context.ALARM_SERVICE); return alarmManager.getNextAlarmClock(UserHandle.USER_CURRENT); } private boolean getBoolean(String secureSettingKey, boolean defaultValue, int userId) { try { return getLockSettings().getBoolean(secureSettingKey, defaultValue, userId); } catch (RemoteException re) { return defaultValue; } } private boolean getBoolean(String secureSettingKey, boolean defaultValue) { return getBoolean(secureSettingKey, defaultValue, getCurrentOrCallingUserId()); } private void setBoolean(String secureSettingKey, boolean enabled, int userId) { try { getLockSettings().setBoolean(secureSettingKey, enabled, userId); } catch (RemoteException re) { // What can we do? Log.e(TAG, "Couldn't write boolean " + secureSettingKey + re); } } private void setBoolean(String secureSettingKey, boolean enabled) { setBoolean(secureSettingKey, enabled, getCurrentOrCallingUserId()); } public int[] getAppWidgets() { return getAppWidgets(UserHandle.USER_CURRENT); } private int[] getAppWidgets(int userId) { String appWidgetIdString = Settings.Secure.getStringForUser( mContentResolver, Settings.Secure.LOCK_SCREEN_APPWIDGET_IDS, userId); String delims = ","; if (appWidgetIdString != null && appWidgetIdString.length() > 0) { String[] appWidgetStringIds = appWidgetIdString.split(delims); int[] appWidgetIds = new int[appWidgetStringIds.length]; for (int i = 0; i < appWidgetStringIds.length; i++) { String appWidget = appWidgetStringIds[i]; try { appWidgetIds[i] = Integer.decode(appWidget); } catch (NumberFormatException e) { Log.d(TAG, "Error when parsing widget id " + appWidget); return null; } } return appWidgetIds; } return new int[0]; } private static String combineStrings(int[] list, String separator) { int listLength = list.length; switch (listLength) { case 0: { return ""; } case 1: { return Integer.toString(list[0]); } } int strLength = 0; int separatorLength = separator.length(); String[] stringList = new String[list.length]; for (int i = 0; i < listLength; i++) { stringList[i] = Integer.toString(list[i]); strLength += stringList[i].length(); if (i < listLength - 1) { strLength += separatorLength; } } StringBuilder sb = new StringBuilder(strLength); for (int i = 0; i < listLength; i++) { sb.append(list[i]); if (i < listLength - 1) { sb.append(separator); } } return sb.toString(); } // appwidget used when appwidgets are disabled (we make an exception for // default clock widget) public void writeFallbackAppWidgetId(int appWidgetId) { Settings.Secure.putIntForUser(mContentResolver, Settings.Secure.LOCK_SCREEN_FALLBACK_APPWIDGET_ID, appWidgetId, UserHandle.USER_CURRENT); } // appwidget used when appwidgets are disabled (we make an exception for // default clock widget) public int getFallbackAppWidgetId() { return Settings.Secure.getIntForUser( mContentResolver, Settings.Secure.LOCK_SCREEN_FALLBACK_APPWIDGET_ID, AppWidgetManager.INVALID_APPWIDGET_ID, UserHandle.USER_CURRENT); } private void writeAppWidgets(int[] appWidgetIds) { Settings.Secure.putStringForUser(mContentResolver, Settings.Secure.LOCK_SCREEN_APPWIDGET_IDS, combineStrings(appWidgetIds, ","), UserHandle.USER_CURRENT); } // TODO: log an error if this returns false public boolean addAppWidget(int widgetId, int index) { int[] widgets = getAppWidgets(); if (widgets == null) { return false; } if (index < 0 || index > widgets.length) { return false; } int[] newWidgets = new int[widgets.length + 1]; for (int i = 0, j = 0; i < newWidgets.length; i++) { if (index == i) { newWidgets[i] = widgetId; i++; } if (i < newWidgets.length) { newWidgets[i] = widgets[j]; j++; } } writeAppWidgets(newWidgets); return true; } public boolean removeAppWidget(int widgetId) { int[] widgets = getAppWidgets(); if (widgets.length == 0) { return false; } int[] newWidgets = new int[widgets.length - 1]; for (int i = 0, j = 0; i < widgets.length; i++) { if (widgets[i] == widgetId) { // continue... } else if (j >= newWidgets.length) { // we couldn't find the widget return false; } else { newWidgets[j] = widgets[i]; j++; } } writeAppWidgets(newWidgets); return true; } private long getLong(String secureSettingKey, long defaultValue, int userHandle) { try { return getLockSettings().getLong(secureSettingKey, defaultValue, userHandle); } catch (RemoteException re) { return defaultValue; } } private long getLong(String secureSettingKey, long defaultValue) { try { return getLockSettings().getLong(secureSettingKey, defaultValue, getCurrentOrCallingUserId()); } catch (RemoteException re) { return defaultValue; } } private void setLong(String secureSettingKey, long value) { setLong(secureSettingKey, value, getCurrentOrCallingUserId()); } private void setLong(String secureSettingKey, long value, int userHandle) { try { getLockSettings().setLong(secureSettingKey, value, userHandle); } catch (RemoteException re) { // What can we do? Log.e(TAG, "Couldn't write long " + secureSettingKey + re); } } private String getString(String secureSettingKey) { return getString(secureSettingKey, getCurrentOrCallingUserId()); } private String getString(String secureSettingKey, int userHandle) { try { return getLockSettings().getString(secureSettingKey, null, userHandle); } catch (RemoteException re) { return null; } } private void setString(String secureSettingKey, String value, int userHandle) { try { getLockSettings().setString(secureSettingKey, value, userHandle); } catch (RemoteException re) { // What can we do? Log.e(TAG, "Couldn't write string " + secureSettingKey + re); } } public boolean isSecure() { long mode = getKeyguardStoredPasswordQuality(); final boolean isPattern = mode == DevicePolicyManager.PASSWORD_QUALITY_SOMETHING; final boolean isPassword = mode == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC || mode == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC_COMPLEX || mode == DevicePolicyManager.PASSWORD_QUALITY_ALPHABETIC || mode == DevicePolicyManager.PASSWORD_QUALITY_ALPHANUMERIC || mode == DevicePolicyManager.PASSWORD_QUALITY_COMPLEX; final boolean secure = isPattern && isLockPatternEnabled() && savedPatternExists() || isPassword && savedPasswordExists(); return secure; } /** * Sets the emergency button visibility based on isEmergencyCallCapable(). * * If the emergency button is visible, sets the text on the emergency button * to indicate what action will be taken. * * If there's currently a call in progress, the button will take them to the call * @param button The button to update * @param shown Indicates whether the given screen wants the emergency button to show at all * @param showIcon Indicates whether to show a phone icon for the button. */ public void updateEmergencyCallButtonState(Button button, boolean shown, boolean showIcon) { if (isEmergencyCallCapable() && shown) { button.setVisibility(View.VISIBLE); } else { button.setVisibility(View.GONE); return; } int textId; if (isInCall()) { // show "return to call" text and show phone icon textId = R.string.lockscreen_return_to_call; int phoneCallIcon = showIcon ? R.drawable.stat_sys_phone_call : 0; button.setCompoundDrawablesWithIntrinsicBounds(phoneCallIcon, 0, 0, 0); } else { textId = R.string.lockscreen_emergency_call; int emergencyIcon = showIcon ? R.drawable.ic_emergency : 0; button.setCompoundDrawablesWithIntrinsicBounds(emergencyIcon, 0, 0, 0); } button.setText(textId); } /** * Resumes a call in progress. Typically launched from the EmergencyCall button * on various lockscreens. */ public void resumeCall() { getTelecommManager().showInCallScreen(false); } /** * @return {@code true} if there is a call currently in progress, {@code false} otherwise. */ public boolean isInCall() { return getTelecommManager().isInCall(); } private TelecomManager getTelecommManager() { return (TelecomManager) mContext.getSystemService(Context.TELECOM_SERVICE); } private void finishBiometricWeak() { setBoolean(BIOMETRIC_WEAK_EVER_CHOSEN_KEY, true); // Launch intent to show final screen, this also // moves the temporary gallery to the actual gallery Intent intent = new Intent(); intent.setClassName("com.android.facelock", "com.android.facelock.SetupEndScreen"); mContext.startActivity(intent); } public void setPowerButtonInstantlyLocks(boolean enabled) { setBoolean(LOCKSCREEN_POWER_BUTTON_INSTANTLY_LOCKS, enabled); } public boolean getPowerButtonInstantlyLocks() { return getBoolean(LOCKSCREEN_POWER_BUTTON_INSTANTLY_LOCKS, true); } public static boolean isSafeModeEnabled() { try { return IWindowManager.Stub.asInterface( ServiceManager.getService("window")).isSafeModeEnabled(); } catch (RemoteException e) { // Shouldn't happen! } return false; } /** * Determine whether the user has selected any non-system widgets in keyguard * * @return true if widgets have been selected */ public boolean hasWidgetsEnabledInKeyguard(int userid) { int widgets[] = getAppWidgets(userid); for (int i = 0; i < widgets.length; i++) { if (widgets[i] > 0) { return true; } } return false; } public boolean getWidgetsEnabled() { return getWidgetsEnabled(getCurrentOrCallingUserId()); } public boolean getWidgetsEnabled(int userId) { return getBoolean(LOCKSCREEN_WIDGETS_ENABLED, false, userId); } public void setWidgetsEnabled(boolean enabled) { setWidgetsEnabled(enabled, getCurrentOrCallingUserId()); } public void setWidgetsEnabled(boolean enabled, int userId) { setBoolean(LOCKSCREEN_WIDGETS_ENABLED, enabled, userId); } public void setEnabledTrustAgents(Collection activeTrustAgents) { setEnabledTrustAgents(activeTrustAgents, getCurrentOrCallingUserId()); } public List getEnabledTrustAgents() { return getEnabledTrustAgents(getCurrentOrCallingUserId()); } public void setEnabledTrustAgents(Collection activeTrustAgents, int userId) { StringBuilder sb = new StringBuilder(); for (ComponentName cn : activeTrustAgents) { if (sb.length() > 0) { sb.append(','); } sb.append(cn.flattenToShortString()); } setString(ENABLED_TRUST_AGENTS, sb.toString(), userId); getTrustManager().reportEnabledTrustAgentsChanged(getCurrentOrCallingUserId()); } public List getEnabledTrustAgents(int userId) { String serialized = getString(ENABLED_TRUST_AGENTS, userId); if (TextUtils.isEmpty(serialized)) { return null; } String[] split = serialized.split(","); ArrayList activeTrustAgents = new ArrayList(split.length); for (String s : split) { if (!TextUtils.isEmpty(s)) { activeTrustAgents.add(ComponentName.unflattenFromString(s)); } } return activeTrustAgents; } /** * @see android.app.trust.TrustManager#reportRequireCredentialEntry(int) */ public void requireCredentialEntry(int userId) { getTrustManager().reportRequireCredentialEntry(userId); } private void onAfterChangingPassword() { getTrustManager().reportEnabledTrustAgentsChanged(getCurrentOrCallingUserId()); } }