/* * 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.annotation.IntDef; import android.annotation.Nullable; import android.app.admin.DevicePolicyManager; import android.app.admin.PasswordMetrics; import android.app.trust.IStrongAuthTracker; import android.app.trust.TrustManager; import android.content.ComponentName; import android.content.ContentResolver; import android.content.Context; import android.content.pm.UserInfo; import android.os.AsyncTask; import android.os.Handler; import android.os.IBinder; import android.os.Looper; import android.os.Message; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemClock; import android.os.UserHandle; import android.os.UserManager; import android.os.storage.IStorageManager; import android.os.storage.StorageManager; import android.provider.Settings; import android.text.TextUtils; import android.util.Log; import android.util.SparseIntArray; import com.android.internal.annotations.VisibleForTesting; import com.google.android.collect.Lists; import libcore.util.HexEncoding; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.nio.charset.StandardCharsets; 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 key to identify when the lock pattern enabled flag is being accessed for legacy reasons. */ public static final String LEGACY_LOCK_PATTERN_ENABLED = "legacy_lock_pattern_enabled"; /** * 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; /** * 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 size of a valid password. */ public static final int MIN_LOCK_PASSWORD_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; public static final int CREDENTIAL_TYPE_NONE = -1; public static final int CREDENTIAL_TYPE_PATTERN = 1; public static final int CREDENTIAL_TYPE_PASSWORD = 2; @Deprecated public final static String LOCKOUT_PERMANENT_KEY = "lockscreen.lockedoutpermanently"; public final static String LOCKOUT_ATTEMPT_DEADLINE = "lockscreen.lockoutattemptdeadline"; public final static String LOCKOUT_ATTEMPT_TIMEOUT_MS = "lockscreen.lockoutattempttimeoutmss"; public final static String PATTERN_EVER_CHOSEN_KEY = "lockscreen.patterneverchosen"; public final static String PASSWORD_TYPE_KEY = "lockscreen.password_type"; @Deprecated public final static 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"; @Deprecated public final static String LOCKSCREEN_BIOMETRIC_WEAK_FALLBACK = "lockscreen.biometric_weak_fallback"; @Deprecated 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"; @Deprecated 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 LOCK_SCREEN_DEVICE_OWNER_INFO = "lockscreen.device_owner_info"; private static final String ENABLED_TRUST_AGENTS = "lockscreen.enabledtrustagents"; private static final String IS_TRUST_USUALLY_MANAGED = "lockscreen.istrustusuallymanaged"; public static final String PROFILE_KEY_NAME_ENCRYPT = "profile_key_name_encrypt_"; public static final String PROFILE_KEY_NAME_DECRYPT = "profile_key_name_decrypt_"; public static final String SYNTHETIC_PASSWORD_KEY_PREFIX = "synthetic_password_"; public static final String SYNTHETIC_PASSWORD_HANDLE_KEY = "sp-handle"; public static final String SYNTHETIC_PASSWORD_ENABLED_KEY = "enable-sp"; private final Context mContext; private final ContentResolver mContentResolver; private DevicePolicyManager mDevicePolicyManager; private ILockSettings mLockSettingsService; private UserManager mUserManager; private final Handler mHandler; /** * Use {@link TrustManager#isTrustUsuallyManaged(int)}. * * This returns the lazily-peristed value and should only be used by TrustManagerService. */ public boolean isTrustUsuallyManaged(int userId) { if (!(mLockSettingsService instanceof ILockSettings.Stub)) { throw new IllegalStateException("May only be called by TrustManagerService. " + "Use TrustManager.isTrustUsuallyManaged()"); } try { return getLockSettings().getBoolean(IS_TRUST_USUALLY_MANAGED, false, userId); } catch (RemoteException e) { return false; } } public void setTrustUsuallyManaged(boolean managed, int userId) { try { getLockSettings().setBoolean(IS_TRUST_USUALLY_MANAGED, managed, userId); } catch (RemoteException e) { // System dead. } } public void userPresent(int userId) { try { getLockSettings().userPresent(userId); } catch (RemoteException e) { throw e.rethrowFromSystemServer(); } } public static final class RequestThrottledException extends Exception { private int mTimeoutMs; public RequestThrottledException(int timeoutMs) { mTimeoutMs = timeoutMs; } /** * @return The amount of time in ms before another request may * be executed */ public int getTimeoutMs() { return mTimeoutMs; } } 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 UserManager getUserManager() { if (mUserManager == null) { mUserManager = UserManager.get(mContext); } return mUserManager; } 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; } public LockPatternUtils(Context context) { mContext = context; mContentResolver = context.getContentResolver(); Looper looper = Looper.myLooper(); mHandler = looper != null ? new Handler(looper) : null; } @VisibleForTesting public ILockSettings getLockSettings() { if (mLockSettingsService == null) { ILockSettings service = ILockSettings.Stub.asInterface( ServiceManager.getService("lock_settings")); mLockSettingsService = service; } return mLockSettingsService; } public int getRequestedMinimumPasswordLength(int userId) { return getDevicePolicyManager().getPasswordMinimumLength(null, userId); } /** * 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(int userId) { return getDevicePolicyManager().getPasswordQuality(null, userId); } private int getRequestedPasswordHistoryLength(int userId) { return getDevicePolicyManager().getPasswordHistoryLength(null, userId); } public int getRequestedPasswordMinimumLetters(int userId) { return getDevicePolicyManager().getPasswordMinimumLetters(null, userId); } public int getRequestedPasswordMinimumUpperCase(int userId) { return getDevicePolicyManager().getPasswordMinimumUpperCase(null, userId); } public int getRequestedPasswordMinimumLowerCase(int userId) { return getDevicePolicyManager().getPasswordMinimumLowerCase(null, userId); } public int getRequestedPasswordMinimumNumeric(int userId) { return getDevicePolicyManager().getPasswordMinimumNumeric(null, userId); } public int getRequestedPasswordMinimumSymbols(int userId) { return getDevicePolicyManager().getPasswordMinimumSymbols(null, userId); } public int getRequestedPasswordMinimumNonLetter(int userId) { return getDevicePolicyManager().getPasswordMinimumNonLetter(null, userId); } public void reportFailedPasswordAttempt(int userId) { getDevicePolicyManager().reportFailedPasswordAttempt(userId); getTrustManager().reportUnlockAttempt(false /* authenticated */, userId); } public void reportSuccessfulPasswordAttempt(int userId) { getDevicePolicyManager().reportSuccessfulPasswordAttempt(userId); getTrustManager().reportUnlockAttempt(true /* authenticated */, userId); } public void reportPasswordLockout(int timeoutMs, int userId) { getTrustManager().reportUnlockLockout(timeoutMs, userId); } public int getCurrentFailedPasswordAttempts(int userId) { return getDevicePolicyManager().getCurrentFailedPasswordAttempts(userId); } public int getMaximumFailedPasswordsForWipe(int userId) { return getDevicePolicyManager().getMaximumFailedPasswordsForWipe( null /* componentName */, userId); } private byte[] verifyCredential(String credential, int type, long challenge, int userId) throws RequestThrottledException { try { VerifyCredentialResponse response = getLockSettings().verifyCredential(credential, type, challenge, userId); if (response.getResponseCode() == VerifyCredentialResponse.RESPONSE_OK) { return response.getPayload(); } else if (response.getResponseCode() == VerifyCredentialResponse.RESPONSE_RETRY) { throw new RequestThrottledException(response.getTimeout()); } else { return null; } } catch (RemoteException re) { return null; } } private boolean checkCredential(String credential, int type, int userId, @Nullable CheckCredentialProgressCallback progressCallback) throws RequestThrottledException { try { VerifyCredentialResponse response = getLockSettings().checkCredential(credential, type, userId, wrapCallback(progressCallback)); if (response.getResponseCode() == VerifyCredentialResponse.RESPONSE_OK) { return true; } else if (response.getResponseCode() == VerifyCredentialResponse.RESPONSE_RETRY) { throw new RequestThrottledException(response.getTimeout()); } else { return false; } } catch (RemoteException re) { return false; } } /** * Check to see if a pattern matches the saved pattern. * If pattern matches, return an opaque attestation that the challenge * was verified. * * @param pattern The pattern to check. * @param challenge The challenge to verify against the pattern * @return the attestation that the challenge was verified, or null. */ public byte[] verifyPattern(List pattern, long challenge, int userId) throws RequestThrottledException { throwIfCalledOnMainThread(); return verifyCredential(patternToString(pattern), CREDENTIAL_TYPE_PATTERN, challenge, userId); } /** * 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, int userId) throws RequestThrottledException { return checkPattern(pattern, userId, null /* progressCallback */); } /** * 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, int userId, @Nullable CheckCredentialProgressCallback progressCallback) throws RequestThrottledException { throwIfCalledOnMainThread(); return checkCredential(patternToString(pattern), CREDENTIAL_TYPE_PATTERN, userId, progressCallback); } /** * Check to see if a password matches the saved password. * If password matches, return an opaque attestation that the challenge * was verified. * * @param password The password to check. * @param challenge The challenge to verify against the password * @return the attestation that the challenge was verified, or null. */ public byte[] verifyPassword(String password, long challenge, int userId) throws RequestThrottledException { throwIfCalledOnMainThread(); return verifyCredential(password, CREDENTIAL_TYPE_PASSWORD, challenge, userId); } /** * Check to see if a password matches the saved password. * If password matches, return an opaque attestation that the challenge * was verified. * * @param password The password to check. * @param challenge The challenge to verify against the password * @return the attestation that the challenge was verified, or null. */ public byte[] verifyTiedProfileChallenge(String password, boolean isPattern, long challenge, int userId) throws RequestThrottledException { throwIfCalledOnMainThread(); try { VerifyCredentialResponse response = getLockSettings().verifyTiedProfileChallenge(password, isPattern ? CREDENTIAL_TYPE_PATTERN : CREDENTIAL_TYPE_PASSWORD, challenge, userId); if (response.getResponseCode() == VerifyCredentialResponse.RESPONSE_OK) { return response.getPayload(); } else if (response.getResponseCode() == VerifyCredentialResponse.RESPONSE_RETRY) { throw new RequestThrottledException(response.getTimeout()); } else { return null; } } catch (RemoteException re) { return null; } } /** * 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, int userId) throws RequestThrottledException { return checkPassword(password, userId, null /* progressCallback */); } /** * 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, int userId, @Nullable CheckCredentialProgressCallback progressCallback) throws RequestThrottledException { throwIfCalledOnMainThread(); return checkCredential(password, CREDENTIAL_TYPE_PASSWORD, userId, progressCallback); } /** * 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(int userId) { 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, int userId) { String passwordHashString = new String( passwordToHash(password, userId), StandardCharsets.UTF_8); String passwordHistory = getString(PASSWORD_HISTORY_KEY, userId); if (passwordHistory == null) { return false; } // Password History may be too long... int passwordHashLength = passwordHashString.length(); int passwordHistoryLength = getRequestedPasswordHistoryLength(userId); 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. */ private boolean savedPatternExists(int userId) { try { return getLockSettings().havePattern(userId); } catch (RemoteException re) { return false; } } /** * Check to see if the user has stored a lock pattern. * @return Whether a saved pattern exists. */ private boolean savedPasswordExists(int userId) { try { return getLockSettings().havePassword(userId); } 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(int userId) { return getBoolean(PATTERN_EVER_CHOSEN_KEY, false, userId); } /** * Used by device policy manager to validate the current password * information it has. */ public int getActivePasswordQuality(int userId) { int quality = getKeyguardStoredPasswordQuality(userId); if (isLockPasswordEnabled(quality, userId)) { // Quality is a password and a password exists. Return the quality. return quality; } if (isLockPatternEnabled(quality, userId)) { // Quality is a pattern and a pattern exists. Return the quality. return quality; } return DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED; } /** * Use it to reset keystore without wiping work profile */ public void resetKeyStore(int userId) { try { getLockSettings().resetKeyStore(userId); } catch (RemoteException e) { // It should not happen Log.e(TAG, "Couldn't reset keystore " + e); } } /** * Clear any lock pattern or password. */ public void clearLock(String savedCredential, int userHandle) { setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, userHandle); try{ getLockSettings().setLockCredential(null, CREDENTIAL_TYPE_NONE, savedCredential, userHandle); } catch (RemoteException e) { // well, we tried... } if (userHandle == UserHandle.USER_SYSTEM) { // Set the encryption password to default. updateEncryptionPassword(StorageManager.CRYPT_TYPE_DEFAULT, null); setCredentialRequiredToDecrypt(false); } onAfterChangingPassword(userHandle); } /** * Disable showing lock screen at all for a given user. * This is only meaningful if pattern, pin or password are not set. * * @param disable Disables lock screen when true * @param userId User ID of the user this has effect on */ public void setLockScreenDisabled(boolean disable, int userId) { setBoolean(DISABLE_LOCKSCREEN_KEY, disable, userId); } /** * Determine if LockScreen is disabled for the current user. This is used to decide whether * LockScreen is shown after reboot or after screen timeout / short press on power. * * @return true if lock screen is disabled */ public boolean isLockScreenDisabled(int userId) { if (isSecure(userId)) { return false; } boolean disabledByDefault = mContext.getResources().getBoolean( com.android.internal.R.bool.config_disableLockscreenByDefault); boolean isSystemUser = UserManager.isSplitSystemUser() && userId == UserHandle.USER_SYSTEM; return getBoolean(DISABLE_LOCKSCREEN_KEY, false, userId) || (disabledByDefault && !isSystemUser); } /** * Save a lock pattern. * @param pattern The new pattern to save. * @param userId the user whose pattern is to be saved. */ public void saveLockPattern(List pattern, int userId) { this.saveLockPattern(pattern, null, userId); } /** * Save a lock pattern. * @param pattern The new pattern to save. * @param savedPattern The previously saved pattern, converted to String format * @param userId the user whose pattern is to be saved. */ public void saveLockPattern(List pattern, String savedPattern, int userId) { try { if (pattern == null || pattern.size() < MIN_LOCK_PATTERN_SIZE) { throw new IllegalArgumentException("pattern must not be null and at least " + MIN_LOCK_PATTERN_SIZE + " dots long."); } setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING, userId); getLockSettings().setLockCredential(patternToString(pattern), CREDENTIAL_TYPE_PATTERN, savedPattern, userId); // Update the device encryption password. if (userId == UserHandle.USER_SYSTEM && LockPatternUtils.isDeviceEncryptionEnabled()) { if (!shouldEncryptWithCredentials(true)) { clearEncryptionPassword(); } else { String stringPattern = patternToString(pattern); updateEncryptionPassword(StorageManager.CRYPT_TYPE_PATTERN, stringPattern); } } setBoolean(PATTERN_EVER_CHOSEN_KEY, true, userId); onAfterChangingPassword(userId); } catch (RemoteException re) { Log.e(TAG, "Couldn't save lock pattern " + re); } } private void updateCryptoUserInfo(int userId) { if (userId != UserHandle.USER_SYSTEM) { return; } final String ownerInfo = isOwnerInfoEnabled(userId) ? 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; } IStorageManager storageManager = IStorageManager.Stub.asInterface(service); try { Log.d(TAG, "Setting owner info"); storageManager.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(userId); } public void setOwnerInfoEnabled(boolean enabled, int userId) { setBoolean(LOCK_SCREEN_OWNER_INFO_ENABLED, enabled, userId); updateCryptoUserInfo(userId); } public String getOwnerInfo(int userId) { return getString(LOCK_SCREEN_OWNER_INFO, userId); } public boolean isOwnerInfoEnabled(int userId) { return getBoolean(LOCK_SCREEN_OWNER_INFO_ENABLED, false, userId); } /** * Sets the device owner information. If the information is {@code null} or empty then the * device owner info is cleared. * * @param info Device owner information which will be displayed instead of the user * owner info. */ public void setDeviceOwnerInfo(String info) { if (info != null && info.isEmpty()) { info = null; } setString(LOCK_SCREEN_DEVICE_OWNER_INFO, info, UserHandle.USER_SYSTEM); } public String getDeviceOwnerInfo() { return getString(LOCK_SCREEN_DEVICE_OWNER_INFO, UserHandle.USER_SYSTEM); } public boolean isDeviceOwnerInfoEnabled() { return getDeviceOwnerInfo() != null; } /** Update the encryption password if it is enabled **/ private void updateEncryptionPassword(final int type, final String password) { if (!isDeviceEncryptionEnabled()) { 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) { IStorageManager storageManager = IStorageManager.Stub.asInterface(service); try { storageManager.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 * password. * @param password The password to save * @param savedPassword The previously saved lock password, or null if none * @param quality {@see DevicePolicyManager#getPasswordQuality(android.content.ComponentName)} * @param userHandle The userId of the user to change the password for */ public void saveLockPassword(String password, String savedPassword, int quality, int userHandle) { try { if (password == null || password.length() < MIN_LOCK_PASSWORD_SIZE) { throw new IllegalArgumentException("password must not be null and at least " + "of length " + MIN_LOCK_PASSWORD_SIZE); } final int computedQuality = PasswordMetrics.computeForPassword(password).quality; setLong(PASSWORD_TYPE_KEY, Math.max(quality, computedQuality), userHandle); getLockSettings().setLockCredential(password, CREDENTIAL_TYPE_PASSWORD, savedPassword, userHandle); updateEncryptionPasswordIfNeeded(password, computedQuality, userHandle); updatePasswordHistory(password, userHandle); } catch (RemoteException re) { // Cant do much Log.e(TAG, "Unable to save lock password " + re); } } /** * Update device encryption password if calling user is USER_SYSTEM and device supports * encryption. */ private void updateEncryptionPasswordIfNeeded(String password, int quality, int userHandle) { // Update the device encryption password. if (userHandle == UserHandle.USER_SYSTEM && LockPatternUtils.isDeviceEncryptionEnabled()) { if (!shouldEncryptWithCredentials(true)) { clearEncryptionPassword(); } else { boolean numeric = quality == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC; boolean numericComplex = quality == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC_COMPLEX; int type = numeric || numericComplex ? StorageManager.CRYPT_TYPE_PIN : StorageManager.CRYPT_TYPE_PASSWORD; updateEncryptionPassword(type, password); } } } private void updatePasswordHistory(String password, int 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 = ""; } int passwordHistoryLength = getRequestedPasswordHistoryLength(userHandle); if (passwordHistoryLength == 0) { passwordHistory = ""; } else { byte[] hash = passwordToHash(password, userHandle); passwordHistory = new String(hash, StandardCharsets.UTF_8) + "," + 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); onAfterChangingPassword(userHandle); } /** * 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() { return StorageManager.isEncrypted(); } /** * Determine if the device is file encrypted * @return true if device is file encrypted */ public static boolean isFileEncryptionEnabled() { return StorageManager.isFileEncryptedNativeOrEmulated(); } /** * Clears the encryption password. */ public void clearEncryptionPassword() { updateEncryptionPassword(StorageManager.CRYPT_TYPE_DEFAULT, null); } /** * Retrieves the quality mode for {@param userHandle}. * {@see DevicePolicyManager#getPasswordQuality(android.content.ComponentName)} * * @return stored password quality */ public int getKeyguardStoredPasswordQuality(int userHandle) { return (int) getLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, userHandle); } /** * Enables/disables the Separate Profile Challenge for this {@param userHandle}. This is a no-op * for user handles that do not belong to a managed profile. * * @param userHandle Managed profile user id * @param enabled True if separate challenge is enabled * @param managedUserPassword Managed profile previous password. Null when {@param enabled} is * true */ public void setSeparateProfileChallengeEnabled(int userHandle, boolean enabled, String managedUserPassword) { UserInfo info = getUserManager().getUserInfo(userHandle); if (info.isManagedProfile()) { try { getLockSettings().setSeparateProfileChallengeEnabled(userHandle, enabled, managedUserPassword); onAfterChangingPassword(userHandle); } catch (RemoteException e) { Log.e(TAG, "Couldn't update work profile challenge enabled"); } } } /** * Retrieves whether the Separate Profile Challenge is enabled for this {@param userHandle}. */ public boolean isSeparateProfileChallengeEnabled(int userHandle) { UserInfo info = getUserManager().getUserInfo(userHandle); if (info == null || !info.isManagedProfile()) { return false; } try { return getLockSettings().getSeparateProfileChallengeEnabled(userHandle); } catch (RemoteException e) { Log.e(TAG, "Couldn't get separate profile challenge enabled"); // Default value is false return false; } } /** * Retrieves whether the current DPM allows use of the Profile Challenge. */ public boolean isSeparateProfileChallengeAllowed(int userHandle) { UserInfo info = getUserManager().getUserInfo(userHandle); if (info == null || !info.isManagedProfile()) { return false; } return getDevicePolicyManager().isSeparateProfileChallengeAllowed(userHandle); } /** * Retrieves whether the current profile and device locks can be unified. */ public boolean isSeparateProfileChallengeAllowedToUnify(int userHandle) { return getDevicePolicyManager().isProfileActivePasswordSufficientForParent(userHandle); } /** * Deserialize a pattern. * @param string The pattern serialized with {@link #patternToString} * @return The pattern. */ public static List stringToPattern(String string) { if (string == null) { return null; } List result = Lists.newArrayList(); final byte[] bytes = string.getBytes(); for (int i = 0; i < bytes.length; i++) { byte b = (byte) (bytes[i] - '1'); 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() + '1'); } return new String(res); } public static String patternStringToBaseZero(String pattern) { if (pattern == null) { return ""; } final int patternSize = pattern.length(); byte[] res = new byte[patternSize]; final byte[] bytes = pattern.getBytes(); for (int i = 0; i < patternSize; i++) { res[i] = (byte) (bytes[i] - '1'); } 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; } try { byte[] saltedPassword = (password + getSalt(userId)).getBytes(); byte[] sha1 = MessageDigest.getInstance("SHA-1").digest(saltedPassword); byte[] md5 = MessageDigest.getInstance("MD5").digest(saltedPassword); byte[] combined = new byte[sha1.length + md5.length]; System.arraycopy(sha1, 0, combined, 0, sha1.length); System.arraycopy(md5, 0, combined, sha1.length, md5.length); final char[] hexEncoded = HexEncoding.encode(combined); return new String(hexEncoded).getBytes(StandardCharsets.UTF_8); } catch (NoSuchAlgorithmException e) { throw new AssertionError("Missing digest algorithm: ", e); } } /** * @param userId the user for which to report the value * @return Whether the lock screen is secured. */ public boolean isSecure(int userId) { int mode = getKeyguardStoredPasswordQuality(userId); return isLockPatternEnabled(mode, userId) || isLockPasswordEnabled(mode, userId); } public boolean isLockPasswordEnabled(int userId) { return isLockPasswordEnabled(getKeyguardStoredPasswordQuality(userId), userId); } private boolean isLockPasswordEnabled(int mode, int userId) { 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 || mode == DevicePolicyManager.PASSWORD_QUALITY_MANAGED; return passwordEnabled && savedPasswordExists(userId); } /** * @return Whether the lock pattern is enabled */ public boolean isLockPatternEnabled(int userId) { return isLockPatternEnabled(getKeyguardStoredPasswordQuality(userId), userId); } @Deprecated public boolean isLegacyLockPatternEnabled(int userId) { // Note: this value should default to {@code true} to avoid any reset that might result. // We must use a special key to read this value, since it will by default return the value // based on the new logic. return getBoolean(LEGACY_LOCK_PATTERN_ENABLED, true, userId); } @Deprecated public void setLegacyLockPatternEnabled(int userId) { setBoolean(Settings.Secure.LOCK_PATTERN_ENABLED, true, userId); } private boolean isLockPatternEnabled(int mode, int userId) { return mode == DevicePolicyManager.PASSWORD_QUALITY_SOMETHING && savedPatternExists(userId); } /** * @return Whether the visible pattern is enabled. */ public boolean isVisiblePatternEnabled(int userId) { return getBoolean(Settings.Secure.LOCK_PATTERN_VISIBLE, false, userId); } /** * Set whether the visible pattern is enabled. */ public void setVisiblePatternEnabled(boolean enabled, int userId) { setBoolean(Settings.Secure.LOCK_PATTERN_VISIBLE, enabled, userId); // Update for crypto if owner if (userId != UserHandle.USER_SYSTEM) { return; } IBinder service = ServiceManager.getService("mount"); if (service == null) { Log.e(TAG, "Could not find the mount service to update the user info"); return; } IStorageManager storageManager = IStorageManager.Stub.asInterface(service); try { storageManager.setField(StorageManager.PATTERN_VISIBLE_KEY, enabled ? "1" : "0"); } catch (RemoteException e) { Log.e(TAG, "Error changing pattern visible state", e); } } /** * Set whether the visible password is enabled for cryptkeeper screen. */ public void setVisiblePasswordEnabled(boolean enabled, int userId) { // Update for crypto if owner if (userId != UserHandle.USER_SYSTEM) { return; } IBinder service = ServiceManager.getService("mount"); if (service == null) { Log.e(TAG, "Could not find the mount service to update the user info"); return; } IStorageManager storageManager = IStorageManager.Stub.asInterface(service); try { storageManager.setField(StorageManager.PASSWORD_VISIBLE_KEY, enabled ? "1" : "0"); } catch (RemoteException e) { Log.e(TAG, "Error changing password 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(int userId, int timeoutMs) { final long deadline = SystemClock.elapsedRealtime() + timeoutMs; setLong(LOCKOUT_ATTEMPT_DEADLINE, deadline, userId); setLong(LOCKOUT_ATTEMPT_TIMEOUT_MS, timeoutMs, userId); 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(int userId) { long deadline = getLong(LOCKOUT_ATTEMPT_DEADLINE, 0L, userId); final long timeoutMs = getLong(LOCKOUT_ATTEMPT_TIMEOUT_MS, 0L, userId); final long now = SystemClock.elapsedRealtime(); if (deadline < now && deadline != 0) { // timeout expired setLong(LOCKOUT_ATTEMPT_DEADLINE, 0, userId); setLong(LOCKOUT_ATTEMPT_TIMEOUT_MS, 0, userId); return 0L; } if (deadline > (now + timeoutMs)) { // device was rebooted, set new deadline deadline = now + timeoutMs; setLong(LOCKOUT_ATTEMPT_DEADLINE, deadline, userId); } return deadline; } private boolean getBoolean(String secureSettingKey, boolean defaultValue, int userId) { try { return getLockSettings().getBoolean(secureSettingKey, defaultValue, userId); } catch (RemoteException re) { return defaultValue; } } 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 long getLong(String secureSettingKey, long defaultValue, int userHandle) { try { return getLockSettings().getLong(secureSettingKey, defaultValue, userHandle); } catch (RemoteException re) { return defaultValue; } } 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, 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 void setPowerButtonInstantlyLocks(boolean enabled, int userId) { setBoolean(LOCKSCREEN_POWER_BUTTON_INSTANTLY_LOCKS, enabled, userId); } public boolean getPowerButtonInstantlyLocks(int userId) { return getBoolean(LOCKSCREEN_POWER_BUTTON_INSTANTLY_LOCKS, true, userId); } 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(userId); } 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; } /** * Disable trust until credentials have been entered for user {@param userId}. * * Requires the {@link android.Manifest.permission#ACCESS_KEYGUARD_SECURE_STORAGE} permission. * * @param userId either an explicit user id or {@link android.os.UserHandle#USER_ALL} */ public void requireCredentialEntry(int userId) { requireStrongAuth(StrongAuthTracker.SOME_AUTH_REQUIRED_AFTER_USER_REQUEST, userId); } /** * Requests strong authentication for user {@param userId}. * * Requires the {@link android.Manifest.permission#ACCESS_KEYGUARD_SECURE_STORAGE} permission. * * @param strongAuthReason a combination of {@link StrongAuthTracker.StrongAuthFlags} indicating * the reason for and the strength of the requested authentication. * @param userId either an explicit user id or {@link android.os.UserHandle#USER_ALL} */ public void requireStrongAuth(@StrongAuthTracker.StrongAuthFlags int strongAuthReason, int userId) { try { getLockSettings().requireStrongAuth(strongAuthReason, userId); } catch (RemoteException e) { Log.e(TAG, "Error while requesting strong auth: " + e); } } private void onAfterChangingPassword(int userHandle) { getTrustManager().reportEnabledTrustAgentsChanged(userHandle); } public boolean isCredentialRequiredToDecrypt(boolean defaultValue) { final int value = Settings.Global.getInt(mContentResolver, Settings.Global.REQUIRE_PASSWORD_TO_DECRYPT, -1); return value == -1 ? defaultValue : (value != 0); } public void setCredentialRequiredToDecrypt(boolean required) { if (!(getUserManager().isSystemUser() || getUserManager().isPrimaryUser())) { throw new IllegalStateException( "Only the system or primary user may call setCredentialRequiredForDecrypt()"); } if (isDeviceEncryptionEnabled()){ Settings.Global.putInt(mContext.getContentResolver(), Settings.Global.REQUIRE_PASSWORD_TO_DECRYPT, required ? 1 : 0); } } private boolean isDoNotAskCredentialsOnBootSet() { return getDevicePolicyManager().getDoNotAskCredentialsOnBoot(); } private boolean shouldEncryptWithCredentials(boolean defaultValue) { return isCredentialRequiredToDecrypt(defaultValue) && !isDoNotAskCredentialsOnBootSet(); } private void throwIfCalledOnMainThread() { if (Looper.getMainLooper().isCurrentThread()) { throw new IllegalStateException("should not be called from the main thread."); } } public void registerStrongAuthTracker(final StrongAuthTracker strongAuthTracker) { try { getLockSettings().registerStrongAuthTracker(strongAuthTracker.mStub); } catch (RemoteException e) { throw new RuntimeException("Could not register StrongAuthTracker"); } } public void unregisterStrongAuthTracker(final StrongAuthTracker strongAuthTracker) { try { getLockSettings().unregisterStrongAuthTracker(strongAuthTracker.mStub); } catch (RemoteException e) { Log.e(TAG, "Could not unregister StrongAuthTracker", e); } } /** * @see StrongAuthTracker#getStrongAuthForUser */ public int getStrongAuthForUser(int userId) { try { return getLockSettings().getStrongAuthForUser(userId); } catch (RemoteException e) { Log.e(TAG, "Could not get StrongAuth", e); return StrongAuthTracker.getDefaultFlags(mContext); } } /** * @see StrongAuthTracker#isTrustAllowedForUser */ public boolean isTrustAllowedForUser(int userId) { return getStrongAuthForUser(userId) == StrongAuthTracker.STRONG_AUTH_NOT_REQUIRED; } /** * @see StrongAuthTracker#isFingerprintAllowedForUser */ public boolean isFingerprintAllowedForUser(int userId) { return (getStrongAuthForUser(userId) & ~StrongAuthTracker.ALLOWING_FINGERPRINT) == 0; } private ICheckCredentialProgressCallback wrapCallback( final CheckCredentialProgressCallback callback) { if (callback == null) { return null; } else { if (mHandler == null) { throw new IllegalStateException("Must construct LockPatternUtils on a looper thread" + " to use progress callbacks."); } return new ICheckCredentialProgressCallback.Stub() { @Override public void onCredentialVerified() throws RemoteException { mHandler.post(callback::onEarlyMatched); } }; } } /** * Create an escrow token for the current user, which can later be used to unlock FBE * or change user password. * * After adding, if the user currently has lockscreen password, he will need to perform a * confirm credential operation in order to activate the token for future use. If the user * has no secure lockscreen, then the token is activated immediately. * * @return a unique 64-bit token handle which is needed to refer to this token later. */ public long addEscrowToken(byte[] token, int userId) { try { return getLockSettings().addEscrowToken(token, userId); } catch (RemoteException re) { return 0L; } } /** * Remove an escrow token. * @return true if the given handle refers to a valid token previously returned from * {@link #addEscrowToken}, whether it's active or not. return false otherwise. */ public boolean removeEscrowToken(long handle, int userId) { try { return getLockSettings().removeEscrowToken(handle, userId); } catch (RemoteException re) { return false; } } /** * Check if the given escrow token is active or not. Only active token can be used to call * {@link #setLockCredentialWithToken} and {@link #unlockUserWithToken} */ public boolean isEscrowTokenActive(long handle, int userId) { try { return getLockSettings().isEscrowTokenActive(handle, userId); } catch (RemoteException re) { return false; } } public boolean setLockCredentialWithToken(String credential, int type, long tokenHandle, byte[] token, int userId) { try { if (type != CREDENTIAL_TYPE_NONE) { if (TextUtils.isEmpty(credential) || credential.length() < MIN_LOCK_PASSWORD_SIZE) { throw new IllegalArgumentException("password must not be null and at least " + "of length " + MIN_LOCK_PASSWORD_SIZE); } final int computedQuality = PasswordMetrics.computeForPassword(credential).quality; if (!getLockSettings().setLockCredentialWithToken(credential, type, tokenHandle, token, userId)) { return false; } setLong(PASSWORD_TYPE_KEY, Math.max(DevicePolicyManager.PASSWORD_QUALITY_NUMERIC, computedQuality), userId); updateEncryptionPasswordIfNeeded(credential, computedQuality, userId); updatePasswordHistory(credential, userId); } else { if (!TextUtils.isEmpty(credential)) { throw new IllegalArgumentException("password must be emtpy for NONE type"); } if (!getLockSettings().setLockCredentialWithToken(null, CREDENTIAL_TYPE_NONE, tokenHandle, token, userId)) { return false; } setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, userId); if (userId == UserHandle.USER_SYSTEM) { // Set the encryption password to default. updateEncryptionPassword(StorageManager.CRYPT_TYPE_DEFAULT, null); setCredentialRequiredToDecrypt(false); } } onAfterChangingPassword(userId); return true; } catch (RemoteException re) { Log.e(TAG, "Unable to save lock password ", re); re.rethrowFromSystemServer(); } return false; } public void unlockUserWithToken(long tokenHandle, byte[] token, int userId) { try { getLockSettings().unlockUserWithToken(tokenHandle, token, userId); } catch (RemoteException re) { Log.e(TAG, "Unable to unlock user with token", re); re.rethrowFromSystemServer(); } } /** * Callback to be notified about progress when checking credentials. */ public interface CheckCredentialProgressCallback { /** * Called as soon as possible when we know that the credentials match but the user hasn't * been fully unlocked. */ void onEarlyMatched(); } /** * Tracks the global strong authentication state. */ public static class StrongAuthTracker { @IntDef(flag = true, value = { STRONG_AUTH_NOT_REQUIRED, STRONG_AUTH_REQUIRED_AFTER_BOOT, STRONG_AUTH_REQUIRED_AFTER_DPM_LOCK_NOW, SOME_AUTH_REQUIRED_AFTER_USER_REQUEST, STRONG_AUTH_REQUIRED_AFTER_LOCKOUT, STRONG_AUTH_REQUIRED_AFTER_TIMEOUT}) @Retention(RetentionPolicy.SOURCE) public @interface StrongAuthFlags {} /** * Strong authentication is not required. */ public static final int STRONG_AUTH_NOT_REQUIRED = 0x0; /** * Strong authentication is required because the user has not authenticated since boot. */ public static final int STRONG_AUTH_REQUIRED_AFTER_BOOT = 0x1; /** * Strong authentication is required because a device admin has requested it. */ public static final int STRONG_AUTH_REQUIRED_AFTER_DPM_LOCK_NOW = 0x2; /** * Some authentication is required because the user has temporarily disabled trust. */ public static final int SOME_AUTH_REQUIRED_AFTER_USER_REQUEST = 0x4; /** * Strong authentication is required because the user has been locked out after too many * attempts. */ public static final int STRONG_AUTH_REQUIRED_AFTER_LOCKOUT = 0x8; /** * Strong authentication is required because it hasn't been used for a time required by * a device admin. */ public static final int STRONG_AUTH_REQUIRED_AFTER_TIMEOUT = 0x10; /** * Strong auth flags that do not prevent fingerprint from being accepted as auth. * * If any other flags are set, fingerprint is disabled. */ private static final int ALLOWING_FINGERPRINT = STRONG_AUTH_NOT_REQUIRED | SOME_AUTH_REQUIRED_AFTER_USER_REQUEST; private final SparseIntArray mStrongAuthRequiredForUser = new SparseIntArray(); private final H mHandler; private final int mDefaultStrongAuthFlags; public StrongAuthTracker(Context context) { this(context, Looper.myLooper()); } /** * @param looper the looper on whose thread calls to {@link #onStrongAuthRequiredChanged} * will be scheduled. * @param context the current {@link Context} */ public StrongAuthTracker(Context context, Looper looper) { mHandler = new H(looper); mDefaultStrongAuthFlags = getDefaultFlags(context); } public static @StrongAuthFlags int getDefaultFlags(Context context) { boolean strongAuthRequired = context.getResources().getBoolean( com.android.internal.R.bool.config_strongAuthRequiredOnBoot); return strongAuthRequired ? STRONG_AUTH_REQUIRED_AFTER_BOOT : STRONG_AUTH_NOT_REQUIRED; } /** * Returns {@link #STRONG_AUTH_NOT_REQUIRED} if strong authentication is not required, * otherwise returns a combination of {@link StrongAuthFlags} indicating why strong * authentication is required. * * @param userId the user for whom the state is queried. */ public @StrongAuthFlags int getStrongAuthForUser(int userId) { return mStrongAuthRequiredForUser.get(userId, mDefaultStrongAuthFlags); } /** * @return true if unlocking with trust alone is allowed for {@param userId} by the current * strong authentication requirements. */ public boolean isTrustAllowedForUser(int userId) { return getStrongAuthForUser(userId) == STRONG_AUTH_NOT_REQUIRED; } /** * @return true if unlocking with fingerprint alone is allowed for {@param userId} by the * current strong authentication requirements. */ public boolean isFingerprintAllowedForUser(int userId) { return (getStrongAuthForUser(userId) & ~ALLOWING_FINGERPRINT) == 0; } /** * Called when the strong authentication requirements for {@param userId} changed. */ public void onStrongAuthRequiredChanged(int userId) { } protected void handleStrongAuthRequiredChanged(@StrongAuthFlags int strongAuthFlags, int userId) { int oldValue = getStrongAuthForUser(userId); if (strongAuthFlags != oldValue) { if (strongAuthFlags == mDefaultStrongAuthFlags) { mStrongAuthRequiredForUser.delete(userId); } else { mStrongAuthRequiredForUser.put(userId, strongAuthFlags); } onStrongAuthRequiredChanged(userId); } } protected final IStrongAuthTracker.Stub mStub = new IStrongAuthTracker.Stub() { @Override public void onStrongAuthRequiredChanged(@StrongAuthFlags int strongAuthFlags, int userId) { mHandler.obtainMessage(H.MSG_ON_STRONG_AUTH_REQUIRED_CHANGED, strongAuthFlags, userId).sendToTarget(); } }; private class H extends Handler { static final int MSG_ON_STRONG_AUTH_REQUIRED_CHANGED = 1; public H(Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { switch (msg.what) { case MSG_ON_STRONG_AUTH_REQUIRED_CHANGED: handleStrongAuthRequiredChanged(msg.arg1, msg.arg2); break; } } } } public void enableSyntheticPassword() { setLong(SYNTHETIC_PASSWORD_ENABLED_KEY, 1L, UserHandle.USER_SYSTEM); } public boolean isSyntheticPasswordEnabled() { return getLong(SYNTHETIC_PASSWORD_ENABLED_KEY, 0, UserHandle.USER_SYSTEM) != 0; } }