/* * 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.app.admin.DevicePolicyManager; import android.content.ContentResolver; import android.content.Context; import android.database.Cursor; import android.net.Uri; import android.os.FileObserver; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemClock; import android.provider.Calendar; import android.provider.Settings; import android.security.MessageDigest; import android.telephony.TelephonyManager; import android.text.TextUtils; import android.text.format.DateFormat; import android.util.Log; import android.widget.Button; import com.android.internal.R; import com.android.internal.telephony.ITelephony; import com.google.android.collect.Lists; import java.io.File; import java.io.FileNotFoundException; import java.io.IOException; import java.io.RandomAccessFile; import java.security.NoSuchAlgorithmException; import java.security.SecureRandom; import java.text.SimpleDateFormat; import java.util.Arrays; import java.util.Date; import java.util.List; import java.util.concurrent.atomic.AtomicBoolean; import java.util.TimeZone; /** * Utilities for the lock patten and its settings. */ public class LockPatternUtils { private static final String TAG = "LockPatternUtils"; private static final String SYSTEM_DIRECTORY = "/system/"; private static final String LOCK_PATTERN_FILE = "gesture.key"; private static final String LOCK_PASSWORD_FILE = "password.key"; /** * 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; /** * 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 = 3; private final static String LOCKOUT_PERMANENT_KEY = "lockscreen.lockedoutpermanently"; private final static String LOCKOUT_ATTEMPT_DEADLINE = "lockscreen.lockoutattemptdeadline"; private final static String PATTERN_EVER_CHOSEN_KEY = "lockscreen.patterneverchosen"; public final static String PASSWORD_TYPE_KEY = "lockscreen.password_type"; private final static String LOCK_PASSWORD_SALT_KEY = "lockscreen.password_salt"; private final Context mContext; private final ContentResolver mContentResolver; private DevicePolicyManager mDevicePolicyManager; private static String sLockPatternFilename; private static String sLockPasswordFilename; private static final AtomicBoolean sHaveNonZeroPatternFile = new AtomicBoolean(false); private static final AtomicBoolean sHaveNonZeroPasswordFile = new AtomicBoolean(false); private static FileObserver sPasswordObserver; 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; } /** * @param contentResolver Used to look up and save settings. */ public LockPatternUtils(Context context) { mContext = context; mContentResolver = context.getContentResolver(); // Initialize the location of gesture & PIN lock files if (sLockPatternFilename == null) { String dataSystemDirectory = android.os.Environment.getDataDirectory().getAbsolutePath() + SYSTEM_DIRECTORY; sLockPatternFilename = dataSystemDirectory + LOCK_PATTERN_FILE; sLockPasswordFilename = dataSystemDirectory + LOCK_PASSWORD_FILE; sHaveNonZeroPatternFile.set(new File(sLockPatternFilename).length() > 0); sHaveNonZeroPasswordFile.set(new File(sLockPasswordFilename).length() > 0); int fileObserverMask = FileObserver.CLOSE_WRITE | FileObserver.DELETE | FileObserver.MOVED_TO | FileObserver.CREATE; sPasswordObserver = new FileObserver(dataSystemDirectory, fileObserverMask) { public void onEvent(int event, String path) { if (LOCK_PATTERN_FILE.equals(path)) { Log.d(TAG, "lock pattern file changed"); sHaveNonZeroPatternFile.set(new File(sLockPatternFilename).length() > 0); } else if (LOCK_PASSWORD_FILE.equals(path)) { Log.d(TAG, "lock password file changed"); sHaveNonZeroPasswordFile.set(new File(sLockPasswordFilename).length() > 0); } } }; sPasswordObserver.startWatching(); } } public int getRequestedMinimumPasswordLength() { return getDevicePolicyManager().getPasswordMinimumLength(null); } /** * 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); } /** * Returns the actual password mode, as set by keyguard after updating the password. * * @return */ public void reportFailedPasswordAttempt() { getDevicePolicyManager().reportFailedPasswordAttempt(); } public void reportSuccessfulPasswordAttempt() { getDevicePolicyManager().reportSuccessfulPasswordAttempt(); } /** * 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) { try { // Read all the bytes from the file RandomAccessFile raf = new RandomAccessFile(sLockPatternFilename, "r"); final byte[] stored = new byte[(int) raf.length()]; int got = raf.read(stored, 0, stored.length); raf.close(); if (got <= 0) { return true; } // Compare the hash from the file with the entered pattern's hash return Arrays.equals(stored, LockPatternUtils.patternToHash(pattern)); } catch (FileNotFoundException fnfe) { return true; } catch (IOException ioe) { 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) { try { // Read all the bytes from the file RandomAccessFile raf = new RandomAccessFile(sLockPasswordFilename, "r"); final byte[] stored = new byte[(int) raf.length()]; int got = raf.read(stored, 0, stored.length); raf.close(); if (got <= 0) { return true; } // Compare the hash from the file with the entered password's hash return Arrays.equals(stored, passwordToHash(password)); } catch (FileNotFoundException fnfe) { return true; } catch (IOException ioe) { return true; } } /** * Check to see if the user has stored a lock pattern. * @return Whether a saved pattern exists. */ public boolean savedPatternExists() { return sHaveNonZeroPatternFile.get(); } /** * Check to see if the user has stored a lock pattern. * @return Whether a saved pattern exists. */ public boolean savedPasswordExists() { return sHaveNonZeroPasswordFile.get(); } /** * 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); } /** * Used by device policy manager to validate the current password * information it has. */ public int getActivePasswordQuality() { int activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED; switch (getKeyguardStoredPasswordQuality()) { case DevicePolicyManager.PASSWORD_QUALITY_SOMETHING: if (isLockPatternEnabled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_SOMETHING; } break; case DevicePolicyManager.PASSWORD_QUALITY_NUMERIC: if (isLockPasswordEnabled()) { activePasswordQuality = DevicePolicyManager.PASSWORD_QUALITY_NUMERIC; } 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; } return activePasswordQuality; } /** * Clear any lock pattern or password. */ public void clearLock() { getDevicePolicyManager().setActivePasswordState( DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, 0); saveLockPassword(null, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING); setLockPatternEnabled(false); saveLockPattern(null); setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING); } /** * Save a lock pattern. * @param pattern The new pattern to save. */ public void saveLockPattern(List pattern) { // Compute the hash final byte[] hash = LockPatternUtils.patternToHash(pattern); try { // Write the hash to file RandomAccessFile raf = new RandomAccessFile(sLockPatternFilename, "rw"); // Truncate the file if pattern is null, to clear the lock if (pattern == null) { raf.setLength(0); } else { raf.write(hash, 0, hash.length); } raf.close(); DevicePolicyManager dpm = getDevicePolicyManager(); if (pattern != null) { setBoolean(PATTERN_EVER_CHOSEN_KEY, true); setLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING); dpm.setActivePasswordState( DevicePolicyManager.PASSWORD_QUALITY_SOMETHING, pattern.size()); } else { dpm.setActivePasswordState( DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, 0); } } catch (FileNotFoundException fnfe) { // Cant do much, unless we want to fail over to using the settings provider Log.e(TAG, "Unable to save lock pattern to " + sLockPatternFilename); } catch (IOException ioe) { // Cant do much Log.e(TAG, "Unable to save lock pattern to " + sLockPatternFilename); } } /** * 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 DevicePolicyManager.PASSWORD_QUALITY_NUMERIC; } return DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED; } /** * 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) { // Compute the hash final byte[] hash = passwordToHash(password); try { // Write the hash to file RandomAccessFile raf = new RandomAccessFile(sLockPasswordFilename, "rw"); // Truncate the file if pattern is null, to clear the lock if (password == null) { raf.setLength(0); } else { raf.write(hash, 0, hash.length); } raf.close(); DevicePolicyManager dpm = getDevicePolicyManager(); if (password != null) { int computedQuality = computePasswordQuality(password); setLong(PASSWORD_TYPE_KEY, computedQuality); if (computedQuality != DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED) { dpm.setActivePasswordState(computedQuality, password.length()); } else { // The password is not anything. dpm.setActivePasswordState( DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, 0); } } else { dpm.setActivePasswordState( DevicePolicyManager.PASSWORD_QUALITY_UNSPECIFIED, 0); } } catch (FileNotFoundException fnfe) { // Cant do much, unless we want to fail over to using the settings provider Log.e(TAG, "Unable to save lock pattern to " + sLockPasswordFilename); } catch (IOException ioe) { // Cant do much Log.e(TAG, "Unable to save lock pattern to " + sLockPasswordFilename); } } /** * Retrieves the quality mode we're in. * {@see DevicePolicyManager#getPasswordQuality(android.content.ComponentName)} * * @return stored password quality */ public int getKeyguardStoredPasswordQuality() { return (int) getLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING); } /** * 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. */ private 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() { long salt = getLong(LOCK_PASSWORD_SALT_KEY, 0); if (salt == 0) { try { salt = SecureRandom.getInstance("SHA1PRNG").nextLong(); setLong(LOCK_PASSWORD_SALT_KEY, salt); Log.v(TAG, "Initialized lock password salt"); } 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) { if (password == null) { return null; } String algo = null; byte[] hashed = null; try { byte[] saltedPassword = (password + getSalt()).getBytes(); byte[] sha1 = MessageDigest.getInstance(algo = "SHA-1").digest(saltedPassword); byte[] md5 = MessageDigest.getInstance(algo = "MD5").digest(saltedPassword); hashed = toHex(sha1, md5); } catch (NoSuchAlgorithmException e) { Log.w(TAG, "Failed to encode string because of missing algorithm: " + algo); } return hashed; } private static final byte[] HEX_CHARS = new byte[]{ '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F' }; private static byte[] toHex(final byte[] array1, final byte[] array2) { final byte[] result = new byte[(array1.length + array2.length) * 2]; int i = 0; for (final byte b : array1) { result[i++] = HEX_CHARS[(b >> 4) & 0xf]; result[i++] = HEX_CHARS[b & 0xf]; } for (final byte b : array2) { result[i++] = HEX_CHARS[(b >> 4) & 0xf]; result[i++] = HEX_CHARS[b & 0xf]; } return result; } /** * @return Whether the lock password is enabled. */ public boolean isLockPasswordEnabled() { long mode = getLong(PASSWORD_TYPE_KEY, 0); return savedPasswordExists() && (mode == DevicePolicyManager.PASSWORD_QUALITY_ALPHABETIC || mode == DevicePolicyManager.PASSWORD_QUALITY_NUMERIC || mode == DevicePolicyManager.PASSWORD_QUALITY_ALPHANUMERIC); } /** * @return Whether the lock pattern is enabled. */ public boolean isLockPatternEnabled() { return getBoolean(Settings.Secure.LOCK_PATTERN_ENABLED) && getLong(PASSWORD_TYPE_KEY, DevicePolicyManager.PASSWORD_QUALITY_SOMETHING) == DevicePolicyManager.PASSWORD_QUALITY_SOMETHING; } /** * 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); } /** * Set whether the visible pattern is enabled. */ public void setVisiblePatternEnabled(boolean enabled) { setBoolean(Settings.Secure.LOCK_PATTERN_VISIBLE, enabled); } /** * @return Whether tactile feedback for the pattern is enabled. */ public boolean isTactileFeedbackEnabled() { return getBoolean(Settings.Secure.LOCK_PATTERN_TACTILE_FEEDBACK_ENABLED); } /** * Set whether tactile feedback for the pattern is enabled. */ public void setTactileFeedbackEnabled(boolean enabled) { setBoolean(Settings.Secure.LOCK_PATTERN_TACTILE_FEEDBACK_ENABLED, enabled); } public void setVisibleDotsEnabled(boolean enabled) { setBoolean(Settings.Secure.LOCK_DOTS_VISIBLE, enabled); } public boolean isVisibleDotsEnabled() { return getBoolean(Settings.Secure.LOCK_DOTS_VISIBLE, true); } public void setShowErrorPath(boolean enabled) { setBoolean(Settings.Secure.LOCK_SHOW_ERROR_PATH, enabled); } public boolean isShowErrorPath() { return getBoolean(Settings.Secure.LOCK_SHOW_ERROR_PATH, true); } public void setShowCustomMsg(boolean enabled) { setBoolean(Settings.Secure.LOCK_SHOW_CUSTOM_MSG, enabled); } public boolean isShowCustomMsg() { return getBoolean(Settings.Secure.LOCK_SHOW_CUSTOM_MSG, false); } public void setCustomMsg(String msg) { setString(Settings.Secure.LOCK_CUSTOM_MSG, msg); } public String getCustomMsg() { return getString(Settings.Secure.LOCK_CUSTOM_MSG); } public int getIncorrectDelay() { return getInt(Settings.Secure.LOCK_INCORRECT_DELAY, 2000); } public void setIncorrectDelay(int delay) { setInt(Settings.Secure.LOCK_INCORRECT_DELAY, delay); } public void setShowUnlockMsg(boolean enabled) { setBoolean(Settings.Secure.SHOW_UNLOCK_TEXT, enabled); } public boolean isShowUnlockMsg() { return getBoolean(Settings.Secure.SHOW_UNLOCK_TEXT, true); } public void setShowUnlockErrMsg(boolean enabled) { setBoolean(Settings.Secure.SHOW_UNLOCK_ERR_TEXT, enabled); } public boolean isShowUnlockErrMsg() { return getBoolean(Settings.Secure.SHOW_UNLOCK_ERR_TEXT, true); } /** * 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); } /** * 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); } /** * @return A formatted string of the next alarm (for showing on the lock screen), * or null if there is no next alarm. */ public String getNextAlarm() { String nextAlarm = Settings.System.getString(mContentResolver, Settings.System.NEXT_ALARM_FORMATTED); if (nextAlarm == null || TextUtils.isEmpty(nextAlarm)) { return null; } return nextAlarm; } /** * @return A formatted string of the next calendar event with a reminder * (for showing on the lock screen), or null if there is no next event * within a certain look-ahead time. */ public String getNextCalendarAlarm(long lookahead, String[] calendars, boolean remindersOnly) { long now = System.currentTimeMillis(); long later = now + lookahead; StringBuilder where = new StringBuilder(); if (remindersOnly) { where.append(Calendar.EventsColumns.HAS_ALARM + "=1"); } if (calendars != null && calendars.length > 0) { if (remindersOnly) { where.append(" AND "); } where.append(Calendar.EventsColumns.CALENDAR_ID + " in ("); for (int i = 0; i < calendars.length; i++) { where.append(calendars[i]); if (i != calendars.length - 1) { where.append(","); } } where.append(") "); } String[] projection = new String[] { Calendar.EventsColumns.TITLE, Calendar.Instances.BEGIN, Calendar.EventsColumns.DESCRIPTION, Calendar.EventsColumns.EVENT_LOCATION, Calendar.EventsColumns.ALL_DAY }; Uri uri = Uri.withAppendedPath(Calendar.Instances.CONTENT_URI, String.format("%d/%d", now, later)); String nextCalendarAlarm = null; Cursor cursor = null; try { cursor = mContentResolver.query(uri, projection, where.toString(), null, Calendar.Instances.DEFAULT_SORT_ORDER); if (cursor != null && cursor.moveToFirst()) { String title = cursor.getString(0); long begin = cursor.getLong(1); String description = cursor.getString(2); String location = cursor.getString(3); boolean allDay = cursor.getInt(4) != 0; // Check the next event in the case of allday event. As UTC is used for allday // events, the next event may be the one that actually starts sooner if (allDay && !cursor.isLast()) { cursor.moveToNext(); long nextBegin = cursor.getLong(1); if (nextBegin < begin + TimeZone.getDefault().getOffset(begin)) { title = cursor.getString(0); begin = nextBegin; description = cursor.getString(2); location = cursor.getString(3); allDay = cursor.getInt(4) != 0; } } Date start = new Date(begin); StringBuilder sb = new StringBuilder(); if (allDay) { SimpleDateFormat sdf = new SimpleDateFormat( mContext.getString(R.string.abbrev_wday_month_day_no_year)); // Calendar stores all-day events in UTC -- setting the timezone ensures // the correct date is shown. sdf.setTimeZone(TimeZone.getTimeZone("UTC")); sb.append(sdf.format(start)); } else { sb.append(DateFormat.format("E", start)); sb.append(" "); sb.append(DateFormat.getTimeFormat(mContext).format(start)); } sb.append(" "); sb.append(title); int showLocation = Settings.System.getInt(mContext.getContentResolver(), Settings.System.LOCKSCREEN_CALENDAR_SHOW_LOCATION, 0); if (showLocation != 0 && !TextUtils.isEmpty(location)) { switch(showLocation) { case 1: // Show first line int end = location.indexOf('\n'); if(end == -1) { sb.append("\n" + location); } else { sb.append("\n" + location.substring(0, end)); } break; case 2: // Show all sb.append("\n" + location); break; } } int showDescription = Settings.System.getInt(mContext.getContentResolver(), Settings.System.LOCKSCREEN_CALENDAR_SHOW_DESCRIPTION, 0); if (showDescription != 0 && !TextUtils.isEmpty(description)) { switch(showDescription) { case 1: // Show first line int end = description.indexOf('\n'); if(end == -1) { sb.append("\n" + description); } else { sb.append("\n" + description.substring(0, end)); } break; case 2: // Show all sb.append("\n" + description); break; } } nextCalendarAlarm = sb.toString(); } } finally { if (cursor != null) { cursor.close(); } } return nextCalendarAlarm; } private boolean getBoolean(String secureSettingKey) { return 1 == android.provider.Settings.Secure.getInt(mContentResolver, secureSettingKey, 0); } private boolean getBoolean(String systemSettingKey, boolean defaultValue) { return 1 == android.provider.Settings.Secure.getInt( mContentResolver, systemSettingKey, defaultValue ? 1 : 0); } private void setBoolean(String secureSettingKey, boolean enabled) { android.provider.Settings.Secure.putInt(mContentResolver, secureSettingKey, enabled ? 1 : 0); } private long getLong(String secureSettingKey, long def) { return android.provider.Settings.Secure.getLong(mContentResolver, secureSettingKey, def); } private void setLong(String secureSettingKey, long value) { android.provider.Settings.Secure.putLong(mContentResolver, secureSettingKey, value); } private int getInt(String systemSettingKey, int def) { return android.provider.Settings.Secure.getInt(mContentResolver, systemSettingKey, def); } private void setInt(String systemSettingKey, int value) { android.provider.Settings.Secure.putInt(mContentResolver, systemSettingKey, value); } private String getString(String systemSettingKey) { String s = android.provider.Settings.Secure.getString(mContentResolver, systemSettingKey); if (s == null) return ""; return s; } private void setString(String systemSettingKey, String value) { android.provider.Settings.Secure.putString(mContentResolver, systemSettingKey, value); } 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_ALPHABETIC || mode == DevicePolicyManager.PASSWORD_QUALITY_ALPHANUMERIC; final boolean secure = isPattern && isLockPatternEnabled() && savedPatternExists() || isPassword && savedPasswordExists(); return secure; } /** * 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 */ public void updateEmergencyCallButtonState(Button button) { int newState = TelephonyManager.getDefault().getCallState(); int textId; if (newState == TelephonyManager.CALL_STATE_OFFHOOK) { // show "return to call" text and show phone icon textId = R.string.lockscreen_return_to_call; int phoneCallIcon = R.drawable.stat_sys_phone_call; button.setCompoundDrawablesWithIntrinsicBounds(phoneCallIcon, 0, 0, 0); } else { textId = R.string.lockscreen_emergency_call; int emergencyIcon = R.drawable.ic_emergency; button.setCompoundDrawablesWithIntrinsicBounds(emergencyIcon, 0, 0, 0); } button.setText(textId); } /** * Resumes a call in progress. Typically launched from the EmergencyCall button * on various lockscreens. * * @return true if we were able to tell InCallScreen to show. */ public boolean resumeCall() { ITelephony phone = ITelephony.Stub.asInterface(ServiceManager.checkService("phone")); try { if (phone != null && phone.showCallScreen()) { return true; } } catch (RemoteException e) { // What can we do? } return false; } }