/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.server; import android.app.AlarmManager; import android.app.Notification; import android.app.NotificationManager; import android.app.PendingIntent; import android.bluetooth.BluetoothAdapter; import android.content.BroadcastReceiver; import android.content.ContentResolver; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.pm.PackageManager; import android.database.ContentObserver; import android.net.wifi.IWifiManager; import android.net.wifi.ScanResult; import android.net.wifi.SupplicantState; import android.net.wifi.WifiInfo; import android.net.wifi.WifiManager; import android.net.wifi.WifiStateMachine; import android.net.wifi.WifiConfiguration; import android.net.wifi.WifiWatchdogStateMachine; import android.net.wifi.WifiConfiguration.KeyMgmt; import android.net.wifi.WpsInfo; import android.net.wifi.WpsResult; import android.net.ConnectivityManager; import android.net.DhcpInfo; import android.net.NetworkInfo; import android.net.NetworkInfo.State; import android.net.NetworkInfo.DetailedState; import android.net.TrafficStats; import android.os.Binder; import android.os.Handler; import android.os.Messenger; import android.os.HandlerThread; import android.os.IBinder; import android.os.INetworkManagementService; import android.os.Message; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemProperties; import android.os.WorkSource; import android.provider.Settings; import android.text.TextUtils; import android.util.Slog; import java.util.ArrayList; import java.util.List; import java.util.Set; import java.util.concurrent.atomic.AtomicInteger; import java.util.concurrent.atomic.AtomicBoolean; import java.io.FileDescriptor; import java.io.PrintWriter; import com.android.internal.app.IBatteryStats; import com.android.internal.telephony.TelephonyIntents; import com.android.internal.util.AsyncChannel; import com.android.server.am.BatteryStatsService; import com.android.internal.R; /** * WifiService handles remote WiFi operation requests by implementing * the IWifiManager interface. * * @hide */ //TODO: Clean up multiple locks and implement WifiService // as a SM to track soft AP/client/adhoc bring up based // on device idle state, airplane mode and boot. public class WifiService extends IWifiManager.Stub { private static final String TAG = "WifiService"; private static final boolean DBG = false; private final WifiStateMachine mWifiStateMachine; private Context mContext; private AlarmManager mAlarmManager; private PendingIntent mIdleIntent; private static final int IDLE_REQUEST = 0; private boolean mScreenOff; private boolean mDeviceIdle; private boolean mEmergencyCallbackMode = false; private int mPluggedType; /* Chipset supports background scan */ private final boolean mBackgroundScanSupported; private final LockList mLocks = new LockList(); // some wifi lock statistics private int mFullHighPerfLocksAcquired; private int mFullHighPerfLocksReleased; private int mFullLocksAcquired; private int mFullLocksReleased; private int mScanLocksAcquired; private int mScanLocksReleased; private final List mMulticasters = new ArrayList(); private int mMulticastEnabled; private int mMulticastDisabled; private final IBatteryStats mBatteryStats; private boolean mEnableTrafficStatsPoll = false; private int mTrafficStatsPollToken = 0; private long mTxPkts; private long mRxPkts; /* Tracks last reported data activity */ private int mDataActivity; private String mInterfaceName; /** * Interval in milliseconds between polling for traffic * statistics */ private static final int POLL_TRAFFIC_STATS_INTERVAL_MSECS = 1000; /** * See {@link Settings.Secure#WIFI_IDLE_MS}. This is the default value if a * Settings.Secure value is not present. This timeout value is chosen as * the approximate point at which the battery drain caused by Wi-Fi * being enabled but not active exceeds the battery drain caused by * re-establishing a connection to the mobile data network. */ private static final long DEFAULT_IDLE_MS = 15 * 60 * 1000; /* 15 minutes */ private static final String ACTION_DEVICE_IDLE = "com.android.server.WifiManager.action.DEVICE_IDLE"; private static final int WIFI_DISABLED = 0; private static final int WIFI_ENABLED = 1; /* Wifi enabled while in airplane mode */ private static final int WIFI_ENABLED_AIRPLANE_OVERRIDE = 2; /* Wifi disabled due to airplane mode on */ private static final int WIFI_DISABLED_AIRPLANE_ON = 3; /* Persisted state that tracks the wifi & airplane interaction from settings */ private AtomicInteger mPersistWifiState = new AtomicInteger(WIFI_DISABLED); /* Tracks current airplane mode state */ private AtomicBoolean mAirplaneModeOn = new AtomicBoolean(false); /* Tracks whether wifi is enabled from WifiStateMachine's perspective */ private boolean mWifiEnabled; private boolean mIsReceiverRegistered = false; NetworkInfo mNetworkInfo = new NetworkInfo(ConnectivityManager.TYPE_WIFI, 0, "WIFI", ""); // Variables relating to the 'available networks' notification /** * The icon to show in the 'available networks' notification. This will also * be the ID of the Notification given to the NotificationManager. */ private static final int ICON_NETWORKS_AVAILABLE = com.android.internal.R.drawable.stat_notify_wifi_in_range; /** * When a notification is shown, we wait this amount before possibly showing it again. */ private final long NOTIFICATION_REPEAT_DELAY_MS; /** * Whether the user has set the setting to show the 'available networks' notification. */ private boolean mNotificationEnabled; /** * Observes the user setting to keep {@link #mNotificationEnabled} in sync. */ private NotificationEnabledSettingObserver mNotificationEnabledSettingObserver; /** * The {@link System#currentTimeMillis()} must be at least this value for us * to show the notification again. */ private long mNotificationRepeatTime; /** * The Notification object given to the NotificationManager. */ private Notification mNotification; /** * Whether the notification is being shown, as set by us. That is, if the * user cancels the notification, we will not receive the callback so this * will still be true. We only guarantee if this is false, then the * notification is not showing. */ private boolean mNotificationShown; /** * The number of continuous scans that must occur before consider the * supplicant in a scanning state. This allows supplicant to associate with * remembered networks that are in the scan results. */ private static final int NUM_SCANS_BEFORE_ACTUALLY_SCANNING = 3; /** * The number of scans since the last network state change. When this * exceeds {@link #NUM_SCANS_BEFORE_ACTUALLY_SCANNING}, we consider the * supplicant to actually be scanning. When the network state changes to * something other than scanning, we reset this to 0. */ private int mNumScansSinceNetworkStateChange; /** * Asynchronous channel to WifiStateMachine */ private AsyncChannel mWifiStateMachineChannel; /** * Clients receiving asynchronous messages */ private List mClients = new ArrayList(); /** * Handles client connections */ private class AsyncServiceHandler extends Handler { AsyncServiceHandler(android.os.Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { switch (msg.what) { case AsyncChannel.CMD_CHANNEL_HALF_CONNECTED: { if (msg.arg1 == AsyncChannel.STATUS_SUCCESSFUL) { Slog.d(TAG, "New client listening to asynchronous messages"); mClients.add((AsyncChannel) msg.obj); } else { Slog.e(TAG, "Client connection failure, error=" + msg.arg1); } break; } case AsyncChannel.CMD_CHANNEL_DISCONNECTED: { if (msg.arg1 == AsyncChannel.STATUS_SEND_UNSUCCESSFUL) { Slog.d(TAG, "Send failed, client connection lost"); } else { Slog.d(TAG, "Client connection lost with reason: " + msg.arg1); } mClients.remove((AsyncChannel) msg.obj); break; } case AsyncChannel.CMD_CHANNEL_FULL_CONNECTION: { AsyncChannel ac = new AsyncChannel(); ac.connect(mContext, this, msg.replyTo); break; } case WifiManager.CMD_ENABLE_TRAFFIC_STATS_POLL: { mEnableTrafficStatsPoll = (msg.arg1 == 1); mTrafficStatsPollToken++; if (mEnableTrafficStatsPoll) { notifyOnDataActivity(); sendMessageDelayed(Message.obtain(this, WifiManager.CMD_TRAFFIC_STATS_POLL, mTrafficStatsPollToken, 0), POLL_TRAFFIC_STATS_INTERVAL_MSECS); } break; } case WifiManager.CMD_TRAFFIC_STATS_POLL: { if (msg.arg1 == mTrafficStatsPollToken) { notifyOnDataActivity(); sendMessageDelayed(Message.obtain(this, WifiManager.CMD_TRAFFIC_STATS_POLL, mTrafficStatsPollToken, 0), POLL_TRAFFIC_STATS_INTERVAL_MSECS); } break; } case WifiManager.CMD_CONNECT_NETWORK: { if (msg.obj != null) { mWifiStateMachine.connectNetwork((WifiConfiguration)msg.obj); } else { mWifiStateMachine.connectNetwork(msg.arg1); } break; } case WifiManager.CMD_SAVE_NETWORK: { mWifiStateMachine.saveNetwork((WifiConfiguration)msg.obj); break; } case WifiManager.CMD_FORGET_NETWORK: { mWifiStateMachine.forgetNetwork(msg.arg1); break; } case WifiManager.CMD_START_WPS: { //replyTo has the original source mWifiStateMachine.startWps(msg.replyTo, (WpsInfo)msg.obj); break; } case WifiManager.CMD_DISABLE_NETWORK: { mWifiStateMachine.disableNetwork(msg.replyTo, msg.arg1, msg.arg2); break; } default: { Slog.d(TAG, "WifiServicehandler.handleMessage ignoring msg=" + msg); break; } } } } private AsyncServiceHandler mAsyncServiceHandler; /** * Handles interaction with WifiStateMachine */ private class WifiStateMachineHandler extends Handler { private AsyncChannel mWsmChannel; WifiStateMachineHandler(android.os.Looper looper) { super(looper); mWsmChannel = new AsyncChannel(); mWsmChannel.connect(mContext, this, mWifiStateMachine.getHandler()); } @Override public void handleMessage(Message msg) { switch (msg.what) { case AsyncChannel.CMD_CHANNEL_HALF_CONNECTED: { if (msg.arg1 == AsyncChannel.STATUS_SUCCESSFUL) { mWifiStateMachineChannel = mWsmChannel; } else { Slog.e(TAG, "WifiStateMachine connection failure, error=" + msg.arg1); mWifiStateMachineChannel = null; } break; } case AsyncChannel.CMD_CHANNEL_DISCONNECTED: { Slog.e(TAG, "WifiStateMachine channel lost, msg.arg1 =" + msg.arg1); mWifiStateMachineChannel = null; //Re-establish connection to state machine mWsmChannel.connect(mContext, this, mWifiStateMachine.getHandler()); break; } default: { Slog.d(TAG, "WifiStateMachineHandler.handleMessage ignoring msg=" + msg); break; } } } } WifiStateMachineHandler mWifiStateMachineHandler; /** * Temporary for computing UIDS that are responsible for starting WIFI. * Protected by mWifiStateTracker lock. */ private final WorkSource mTmpWorkSource = new WorkSource(); private WifiWatchdogStateMachine mWifiWatchdogStateMachine; WifiService(Context context) { mContext = context; mInterfaceName = SystemProperties.get("wifi.interface", "wlan0"); mWifiStateMachine = new WifiStateMachine(mContext, mInterfaceName); mWifiStateMachine.enableRssiPolling(true); mBatteryStats = BatteryStatsService.getService(); mAlarmManager = (AlarmManager)mContext.getSystemService(Context.ALARM_SERVICE); Intent idleIntent = new Intent(ACTION_DEVICE_IDLE, null); mIdleIntent = PendingIntent.getBroadcast(mContext, IDLE_REQUEST, idleIntent, 0); mContext.registerReceiver( new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { mAirplaneModeOn.set(isAirplaneModeOn()); /* On airplane mode disable, restore wifi state if necessary */ if (!mAirplaneModeOn.get() && (testAndClearWifiSavedState() || mPersistWifiState.get() == WIFI_ENABLED_AIRPLANE_OVERRIDE)) { persistWifiState(true); } updateWifiState(); } }, new IntentFilter(Intent.ACTION_AIRPLANE_MODE_CHANGED)); IntentFilter filter = new IntentFilter(); filter.addAction(WifiManager.WIFI_STATE_CHANGED_ACTION); filter.addAction(WifiManager.NETWORK_STATE_CHANGED_ACTION); filter.addAction(WifiManager.SCAN_RESULTS_AVAILABLE_ACTION); mContext.registerReceiver( new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { if (intent.getAction().equals(WifiManager.WIFI_STATE_CHANGED_ACTION)) { int wifiState = intent.getIntExtra(WifiManager.EXTRA_WIFI_STATE, WifiManager.WIFI_STATE_DISABLED); mWifiEnabled = (wifiState == WifiManager.WIFI_STATE_ENABLED); // reset & clear notification on any wifi state change resetNotification(); } else if (intent.getAction().equals( WifiManager.NETWORK_STATE_CHANGED_ACTION)) { mNetworkInfo = (NetworkInfo) intent.getParcelableExtra( WifiManager.EXTRA_NETWORK_INFO); // reset & clear notification on a network connect & disconnect switch(mNetworkInfo.getDetailedState()) { case CONNECTED: case DISCONNECTED: evaluateTrafficStatsPolling(); resetNotification(); break; } } else if (intent.getAction().equals( WifiManager.SCAN_RESULTS_AVAILABLE_ACTION)) { checkAndSetNotification(); } } }, filter); HandlerThread wifiThread = new HandlerThread("WifiService"); wifiThread.start(); mAsyncServiceHandler = new AsyncServiceHandler(wifiThread.getLooper()); mWifiStateMachineHandler = new WifiStateMachineHandler(wifiThread.getLooper()); // Setting is in seconds NOTIFICATION_REPEAT_DELAY_MS = Settings.Secure.getInt(context.getContentResolver(), Settings.Secure.WIFI_NETWORKS_AVAILABLE_REPEAT_DELAY, 900) * 1000l; mNotificationEnabledSettingObserver = new NotificationEnabledSettingObserver(new Handler()); mNotificationEnabledSettingObserver.register(); mBackgroundScanSupported = mContext.getResources().getBoolean( com.android.internal.R.bool.config_wifi_background_scan_support); } /** * Check if Wi-Fi needs to be enabled and start * if needed * * This function is used only at boot time */ public void checkAndStartWifi() { mAirplaneModeOn.set(isAirplaneModeOn()); mPersistWifiState.set(getPersistedWifiState()); /* Start if Wi-Fi should be enabled or the saved state indicates Wi-Fi was on */ boolean wifiEnabled = shouldWifiBeEnabled() || testAndClearWifiSavedState(); Slog.i(TAG, "WifiService starting up with Wi-Fi " + (wifiEnabled ? "enabled" : "disabled")); setWifiEnabled(wifiEnabled); mWifiWatchdogStateMachine = WifiWatchdogStateMachine. makeWifiWatchdogStateMachine(mContext); } private boolean testAndClearWifiSavedState() { final ContentResolver cr = mContext.getContentResolver(); int wifiSavedState = 0; try { wifiSavedState = Settings.Secure.getInt(cr, Settings.Secure.WIFI_SAVED_STATE); if(wifiSavedState == 1) Settings.Secure.putInt(cr, Settings.Secure.WIFI_SAVED_STATE, 0); } catch (Settings.SettingNotFoundException e) { ; } return (wifiSavedState == 1); } private int getPersistedWifiState() { final ContentResolver cr = mContext.getContentResolver(); try { return Settings.Secure.getInt(cr, Settings.Secure.WIFI_ON); } catch (Settings.SettingNotFoundException e) { Settings.Secure.putInt(cr, Settings.Secure.WIFI_ON, WIFI_DISABLED); return WIFI_DISABLED; } } private boolean shouldWifiBeEnabled() { if (mAirplaneModeOn.get()) { return mPersistWifiState.get() == WIFI_ENABLED_AIRPLANE_OVERRIDE; } else { return mPersistWifiState.get() != WIFI_DISABLED; } } private void persistWifiState(boolean enabled) { final ContentResolver cr = mContext.getContentResolver(); boolean airplane = mAirplaneModeOn.get() && isAirplaneToggleable(); if (enabled) { if (airplane) { mPersistWifiState.set(WIFI_ENABLED_AIRPLANE_OVERRIDE); } else { mPersistWifiState.set(WIFI_ENABLED); } } else { if (airplane) { mPersistWifiState.set(WIFI_DISABLED_AIRPLANE_ON); } else { mPersistWifiState.set(WIFI_DISABLED); } } Settings.Secure.putInt(cr, Settings.Secure.WIFI_ON, mPersistWifiState.get()); } /** * see {@link android.net.wifi.WifiManager#pingSupplicant()} * @return {@code true} if the operation succeeds, {@code false} otherwise */ public boolean pingSupplicant() { enforceAccessPermission(); if (mWifiStateMachineChannel != null) { return mWifiStateMachine.syncPingSupplicant(mWifiStateMachineChannel); } else { Slog.e(TAG, "mWifiStateMachineChannel is not initialized"); return false; } } /** * see {@link android.net.wifi.WifiManager#startScan()} */ public void startScan(boolean forceActive) { enforceChangePermission(); mWifiStateMachine.startScan(forceActive); } private void enforceAccessPermission() { mContext.enforceCallingOrSelfPermission(android.Manifest.permission.ACCESS_WIFI_STATE, "WifiService"); } private void enforceChangePermission() { mContext.enforceCallingOrSelfPermission(android.Manifest.permission.CHANGE_WIFI_STATE, "WifiService"); } private void enforceMulticastChangePermission() { mContext.enforceCallingOrSelfPermission( android.Manifest.permission.CHANGE_WIFI_MULTICAST_STATE, "WifiService"); } /** * see {@link android.net.wifi.WifiManager#setWifiEnabled(boolean)} * @param enable {@code true} to enable, {@code false} to disable. * @return {@code true} if the enable/disable operation was * started or is already in the queue. */ public synchronized boolean setWifiEnabled(boolean enable) { enforceChangePermission(); if (DBG) { Slog.e(TAG, "Invoking mWifiStateMachine.setWifiEnabled\n"); } if (enable) { reportStartWorkSource(); } mWifiStateMachine.setWifiEnabled(enable); /* * Caller might not have WRITE_SECURE_SETTINGS, * only CHANGE_WIFI_STATE is enforced */ /* Avoids overriding of airplane state when wifi is already in the expected state */ if (enable != mWifiEnabled) { long ident = Binder.clearCallingIdentity(); persistWifiState(enable); Binder.restoreCallingIdentity(ident); } if (enable) { if (!mIsReceiverRegistered) { registerForBroadcasts(); mIsReceiverRegistered = true; } } else if (mIsReceiverRegistered) { mContext.unregisterReceiver(mReceiver); mIsReceiverRegistered = false; } return true; } /** * see {@link WifiManager#getWifiState()} * @return One of {@link WifiManager#WIFI_STATE_DISABLED}, * {@link WifiManager#WIFI_STATE_DISABLING}, * {@link WifiManager#WIFI_STATE_ENABLED}, * {@link WifiManager#WIFI_STATE_ENABLING}, * {@link WifiManager#WIFI_STATE_UNKNOWN} */ public int getWifiEnabledState() { enforceAccessPermission(); return mWifiStateMachine.syncGetWifiState(); } /** * see {@link android.net.wifi.WifiManager#setWifiApEnabled(WifiConfiguration, boolean)} * @param wifiConfig SSID, security and channel details as * part of WifiConfiguration * @param enabled true to enable and false to disable */ public void setWifiApEnabled(WifiConfiguration wifiConfig, boolean enabled) { enforceChangePermission(); mWifiStateMachine.setWifiApEnabled(wifiConfig, enabled); } /** * see {@link WifiManager#getWifiApState()} * @return One of {@link WifiManager#WIFI_AP_STATE_DISABLED}, * {@link WifiManager#WIFI_AP_STATE_DISABLING}, * {@link WifiManager#WIFI_AP_STATE_ENABLED}, * {@link WifiManager#WIFI_AP_STATE_ENABLING}, * {@link WifiManager#WIFI_AP_STATE_FAILED} */ public int getWifiApEnabledState() { enforceAccessPermission(); return mWifiStateMachine.syncGetWifiApState(); } /** * see {@link WifiManager#getWifiApConfiguration()} * @return soft access point configuration */ public WifiConfiguration getWifiApConfiguration() { enforceAccessPermission(); return mWifiStateMachine.syncGetWifiApConfiguration(); } /** * see {@link WifiManager#setWifiApConfiguration(WifiConfiguration)} * @param wifiConfig WifiConfiguration details for soft access point */ public void setWifiApConfiguration(WifiConfiguration wifiConfig) { enforceChangePermission(); if (wifiConfig == null) return; mWifiStateMachine.setWifiApConfiguration(wifiConfig); } /** * see {@link android.net.wifi.WifiManager#disconnect()} */ public void disconnect() { enforceChangePermission(); mWifiStateMachine.disconnectCommand(); } /** * see {@link android.net.wifi.WifiManager#reconnect()} */ public void reconnect() { enforceChangePermission(); mWifiStateMachine.reconnectCommand(); } /** * see {@link android.net.wifi.WifiManager#reassociate()} */ public void reassociate() { enforceChangePermission(); mWifiStateMachine.reassociateCommand(); } /** * see {@link android.net.wifi.WifiManager#getConfiguredNetworks()} * @return the list of configured networks */ public List getConfiguredNetworks() { enforceAccessPermission(); return mWifiStateMachine.syncGetConfiguredNetworks(); } /** * see {@link android.net.wifi.WifiManager#addOrUpdateNetwork(WifiConfiguration)} * @return the supplicant-assigned identifier for the new or updated * network if the operation succeeds, or {@code -1} if it fails */ public int addOrUpdateNetwork(WifiConfiguration config) { enforceChangePermission(); if (mWifiStateMachineChannel != null) { return mWifiStateMachine.syncAddOrUpdateNetwork(mWifiStateMachineChannel, config); } else { Slog.e(TAG, "mWifiStateMachineChannel is not initialized"); return -1; } } /** * See {@link android.net.wifi.WifiManager#removeNetwork(int)} * @param netId the integer that identifies the network configuration * to the supplicant * @return {@code true} if the operation succeeded */ public boolean removeNetwork(int netId) { enforceChangePermission(); if (mWifiStateMachineChannel != null) { return mWifiStateMachine.syncRemoveNetwork(mWifiStateMachineChannel, netId); } else { Slog.e(TAG, "mWifiStateMachineChannel is not initialized"); return false; } } /** * See {@link android.net.wifi.WifiManager#enableNetwork(int, boolean)} * @param netId the integer that identifies the network configuration * to the supplicant * @param disableOthers if true, disable all other networks. * @return {@code true} if the operation succeeded */ public boolean enableNetwork(int netId, boolean disableOthers) { enforceChangePermission(); if (mWifiStateMachineChannel != null) { return mWifiStateMachine.syncEnableNetwork(mWifiStateMachineChannel, netId, disableOthers); } else { Slog.e(TAG, "mWifiStateMachineChannel is not initialized"); return false; } } /** * See {@link android.net.wifi.WifiManager#disableNetwork(int)} * @param netId the integer that identifies the network configuration * to the supplicant * @return {@code true} if the operation succeeded */ public boolean disableNetwork(int netId) { enforceChangePermission(); if (mWifiStateMachineChannel != null) { return mWifiStateMachine.syncDisableNetwork(mWifiStateMachineChannel, netId); } else { Slog.e(TAG, "mWifiStateMachineChannel is not initialized"); return false; } } /** * See {@link android.net.wifi.WifiManager#getConnectionInfo()} * @return the Wi-Fi information, contained in {@link WifiInfo}. */ public WifiInfo getConnectionInfo() { enforceAccessPermission(); /* * Make sure we have the latest information, by sending * a status request to the supplicant. */ return mWifiStateMachine.syncRequestConnectionInfo(); } /** * Return the results of the most recent access point scan, in the form of * a list of {@link ScanResult} objects. * @return the list of results */ public List getScanResults() { enforceAccessPermission(); return mWifiStateMachine.syncGetScanResultsList(); } /** * Tell the supplicant to persist the current list of configured networks. * @return {@code true} if the operation succeeded * * TODO: deprecate this */ public boolean saveConfiguration() { boolean result = true; enforceChangePermission(); if (mWifiStateMachineChannel != null) { return mWifiStateMachine.syncSaveConfig(mWifiStateMachineChannel); } else { Slog.e(TAG, "mWifiStateMachineChannel is not initialized"); return false; } } /** * Set the country code * @param countryCode ISO 3166 country code. * @param persist {@code true} if the setting should be remembered. * * The persist behavior exists so that wifi can fall back to the last * persisted country code on a restart, when the locale information is * not available from telephony. */ public void setCountryCode(String countryCode, boolean persist) { Slog.i(TAG, "WifiService trying to set country code to " + countryCode + " with persist set to " + persist); enforceChangePermission(); mWifiStateMachine.setCountryCode(countryCode, persist); } /** * Set the operational frequency band * @param band One of * {@link WifiManager#WIFI_FREQUENCY_BAND_AUTO}, * {@link WifiManager#WIFI_FREQUENCY_BAND_5GHZ}, * {@link WifiManager#WIFI_FREQUENCY_BAND_2GHZ}, * @param persist {@code true} if the setting should be remembered. * */ public void setFrequencyBand(int band, boolean persist) { enforceChangePermission(); if (!isDualBandSupported()) return; Slog.i(TAG, "WifiService trying to set frequency band to " + band + " with persist set to " + persist); mWifiStateMachine.setFrequencyBand(band, persist); } /** * Get the operational frequency band */ public int getFrequencyBand() { enforceAccessPermission(); return mWifiStateMachine.getFrequencyBand(); } public boolean isDualBandSupported() { //TODO: Should move towards adding a driver API that checks at runtime return mContext.getResources().getBoolean( com.android.internal.R.bool.config_wifi_dual_band_support); } /** * Return the DHCP-assigned addresses from the last successful DHCP request, * if any. * @return the DHCP information */ public DhcpInfo getDhcpInfo() { enforceAccessPermission(); return mWifiStateMachine.syncGetDhcpInfo(); } /** * see {@link android.net.wifi.WifiManager#startWifi} * */ public void startWifi() { enforceChangePermission(); /* TODO: may be add permissions for access only to connectivity service * TODO: if a start issued, keep wifi alive until a stop issued irrespective * of WifiLock & device idle status unless wifi enabled status is toggled */ mWifiStateMachine.setDriverStart(true, mEmergencyCallbackMode); mWifiStateMachine.reconnectCommand(); } /** * see {@link android.net.wifi.WifiManager#stopWifi} * */ public void stopWifi() { enforceChangePermission(); /* TODO: may be add permissions for access only to connectivity service * TODO: if a stop is issued, wifi is brought up only by startWifi * unless wifi enabled status is toggled */ mWifiStateMachine.setDriverStart(false, mEmergencyCallbackMode); } /** * see {@link android.net.wifi.WifiManager#addToBlacklist} * */ public void addToBlacklist(String bssid) { enforceChangePermission(); mWifiStateMachine.addToBlacklist(bssid); } /** * see {@link android.net.wifi.WifiManager#clearBlacklist} * */ public void clearBlacklist() { enforceChangePermission(); mWifiStateMachine.clearBlacklist(); } /** * Get a reference to handler. This is used by a client to establish * an AsyncChannel communication with WifiService */ public Messenger getMessenger() { /* Enforce the highest permissions TODO: when we consider exposing the asynchronous API, think about how to provide both access and change permissions seperately */ enforceAccessPermission(); enforceChangePermission(); return new Messenger(mAsyncServiceHandler); } /** * Get the IP and proxy configuration file */ public String getConfigFile() { enforceAccessPermission(); return mWifiStateMachine.getConfigFile(); } private final BroadcastReceiver mReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { String action = intent.getAction(); long idleMillis = Settings.Secure.getLong(mContext.getContentResolver(), Settings.Secure.WIFI_IDLE_MS, DEFAULT_IDLE_MS); int stayAwakeConditions = Settings.System.getInt(mContext.getContentResolver(), Settings.System.STAY_ON_WHILE_PLUGGED_IN, 0); if (action.equals(Intent.ACTION_SCREEN_ON)) { if (DBG) { Slog.d(TAG, "ACTION_SCREEN_ON"); } mAlarmManager.cancel(mIdleIntent); mScreenOff = false; evaluateTrafficStatsPolling(); mWifiStateMachine.enableRssiPolling(true); if (mBackgroundScanSupported) { mWifiStateMachine.enableBackgroundScanCommand(false); } mWifiStateMachine.enableAllNetworks(); setDeviceIdleAndUpdateWifi(false); } else if (action.equals(Intent.ACTION_SCREEN_OFF)) { if (DBG) { Slog.d(TAG, "ACTION_SCREEN_OFF"); } mScreenOff = true; evaluateTrafficStatsPolling(); mWifiStateMachine.enableRssiPolling(false); if (mBackgroundScanSupported) { mWifiStateMachine.enableBackgroundScanCommand(true); } /* * Set a timer to put Wi-Fi to sleep, but only if the screen is off * AND the "stay on while plugged in" setting doesn't match the * current power conditions (i.e, not plugged in, plugged in to USB, * or plugged in to AC). */ if (!shouldWifiStayAwake(stayAwakeConditions, mPluggedType)) { //Delayed shutdown if wifi is connected if (mNetworkInfo.getDetailedState() == DetailedState.CONNECTED) { if (DBG) Slog.d(TAG, "setting ACTION_DEVICE_IDLE: " + idleMillis + " ms"); mAlarmManager.set(AlarmManager.RTC_WAKEUP, System.currentTimeMillis() + idleMillis, mIdleIntent); } else { setDeviceIdleAndUpdateWifi(true); } } } else if (action.equals(ACTION_DEVICE_IDLE)) { setDeviceIdleAndUpdateWifi(true); } else if (action.equals(Intent.ACTION_BATTERY_CHANGED)) { /* * Set a timer to put Wi-Fi to sleep, but only if the screen is off * AND we are transitioning from a state in which the device was supposed * to stay awake to a state in which it is not supposed to stay awake. * If "stay awake" state is not changing, we do nothing, to avoid resetting * the already-set timer. */ int pluggedType = intent.getIntExtra("plugged", 0); if (DBG) { Slog.d(TAG, "ACTION_BATTERY_CHANGED pluggedType: " + pluggedType); } if (mScreenOff && shouldWifiStayAwake(stayAwakeConditions, mPluggedType) && !shouldWifiStayAwake(stayAwakeConditions, pluggedType)) { long triggerTime = System.currentTimeMillis() + idleMillis; if (DBG) { Slog.d(TAG, "setting ACTION_DEVICE_IDLE timer for " + idleMillis + "ms"); } mAlarmManager.set(AlarmManager.RTC_WAKEUP, triggerTime, mIdleIntent); } mPluggedType = pluggedType; } else if (action.equals(BluetoothAdapter.ACTION_CONNECTION_STATE_CHANGED)) { int state = intent.getIntExtra(BluetoothAdapter.EXTRA_CONNECTION_STATE, BluetoothAdapter.STATE_DISCONNECTED); mWifiStateMachine.sendBluetoothAdapterStateChange(state); } else if (action.equals(TelephonyIntents.ACTION_EMERGENCY_CALLBACK_MODE_CHANGED)) { mEmergencyCallbackMode = intent.getBooleanExtra("phoneinECMState", false); updateWifiState(); } } /** * Determines whether the Wi-Fi chipset should stay awake or be put to * sleep. Looks at the setting for the sleep policy and the current * conditions. * * @see #shouldDeviceStayAwake(int, int) */ private boolean shouldWifiStayAwake(int stayAwakeConditions, int pluggedType) { //Never sleep as long as the user has not changed the settings int wifiSleepPolicy = Settings.System.getInt(mContext.getContentResolver(), Settings.System.WIFI_SLEEP_POLICY, Settings.System.WIFI_SLEEP_POLICY_NEVER); if (wifiSleepPolicy == Settings.System.WIFI_SLEEP_POLICY_NEVER) { // Never sleep return true; } else if ((wifiSleepPolicy == Settings.System.WIFI_SLEEP_POLICY_NEVER_WHILE_PLUGGED) && (pluggedType != 0)) { // Never sleep while plugged, and we're plugged return true; } else { // Default return shouldDeviceStayAwake(stayAwakeConditions, pluggedType); } } /** * Determine whether the bit value corresponding to {@code pluggedType} is set in * the bit string {@code stayAwakeConditions}. Because a {@code pluggedType} value * of {@code 0} isn't really a plugged type, but rather an indication that the * device isn't plugged in at all, there is no bit value corresponding to a * {@code pluggedType} value of {@code 0}. That is why we shift by * {@code pluggedType - 1} instead of by {@code pluggedType}. * @param stayAwakeConditions a bit string specifying which "plugged types" should * keep the device (and hence Wi-Fi) awake. * @param pluggedType the type of plug (USB, AC, or none) for which the check is * being made * @return {@code true} if {@code pluggedType} indicates that the device is * supposed to stay awake, {@code false} otherwise. */ private boolean shouldDeviceStayAwake(int stayAwakeConditions, int pluggedType) { return (stayAwakeConditions & pluggedType) != 0; } }; private void setDeviceIdleAndUpdateWifi(boolean deviceIdle) { mDeviceIdle = deviceIdle; reportStartWorkSource(); updateWifiState(); } private synchronized void reportStartWorkSource() { mTmpWorkSource.clear(); if (mDeviceIdle) { for (int i=0; i scanResults = mWifiStateMachine.syncGetScanResultsList(); if (scanResults != null && scanResults.size() != 0) { pw.println(" BSSID Frequency RSSI Flags SSID"); for (ScanResult r : scanResults) { pw.printf(" %17s %9d %5d %-16s %s%n", r.BSSID, r.frequency, r.level, r.capabilities, r.SSID == null ? "" : r.SSID); } } pw.println(); pw.println("Locks acquired: " + mFullLocksAcquired + " full, " + mFullHighPerfLocksAcquired + " full high perf, " + mScanLocksAcquired + " scan"); pw.println("Locks released: " + mFullLocksReleased + " full, " + mFullHighPerfLocksReleased + " full high perf, " + mScanLocksReleased + " scan"); pw.println(); pw.println("Locks held:"); mLocks.dump(pw); pw.println(); pw.println("WifiWatchdogStateMachine dump"); mWifiWatchdogStateMachine.dump(pw); } private class WifiLock extends DeathRecipient { WifiLock(int lockMode, String tag, IBinder binder, WorkSource ws) { super(lockMode, tag, binder, ws); } public void binderDied() { synchronized (mLocks) { releaseWifiLockLocked(mBinder); } } public String toString() { return "WifiLock{" + mTag + " type=" + mMode + " binder=" + mBinder + "}"; } } private class LockList { private List mList; private LockList() { mList = new ArrayList(); } private synchronized boolean hasLocks() { return !mList.isEmpty(); } private synchronized int getStrongestLockMode() { if (mList.isEmpty()) { return WifiManager.WIFI_MODE_FULL; } if (mFullHighPerfLocksAcquired > mFullHighPerfLocksReleased) { return WifiManager.WIFI_MODE_FULL_HIGH_PERF; } if (mFullLocksAcquired > mFullLocksReleased) { return WifiManager.WIFI_MODE_FULL; } return WifiManager.WIFI_MODE_SCAN_ONLY; } private void addLock(WifiLock lock) { if (findLockByBinder(lock.mBinder) < 0) { mList.add(lock); } } private WifiLock removeLock(IBinder binder) { int index = findLockByBinder(binder); if (index >= 0) { WifiLock ret = mList.remove(index); ret.unlinkDeathRecipient(); return ret; } else { return null; } } private int findLockByBinder(IBinder binder) { int size = mList.size(); for (int i = size - 1; i >= 0; i--) if (mList.get(i).mBinder == binder) return i; return -1; } private void dump(PrintWriter pw) { for (WifiLock l : mList) { pw.print(" "); pw.println(l); } } } void enforceWakeSourcePermission(int uid, int pid) { if (uid == android.os.Process.myUid()) { return; } mContext.enforcePermission(android.Manifest.permission.UPDATE_DEVICE_STATS, pid, uid, null); } public boolean acquireWifiLock(IBinder binder, int lockMode, String tag, WorkSource ws) { mContext.enforceCallingOrSelfPermission(android.Manifest.permission.WAKE_LOCK, null); if (lockMode != WifiManager.WIFI_MODE_FULL && lockMode != WifiManager.WIFI_MODE_SCAN_ONLY && lockMode != WifiManager.WIFI_MODE_FULL_HIGH_PERF) { Slog.e(TAG, "Illegal argument, lockMode= " + lockMode); if (DBG) throw new IllegalArgumentException("lockMode=" + lockMode); return false; } if (ws != null && ws.size() == 0) { ws = null; } if (ws != null) { enforceWakeSourcePermission(Binder.getCallingUid(), Binder.getCallingPid()); } if (ws == null) { ws = new WorkSource(Binder.getCallingUid()); } WifiLock wifiLock = new WifiLock(lockMode, tag, binder, ws); synchronized (mLocks) { return acquireWifiLockLocked(wifiLock); } } private void noteAcquireWifiLock(WifiLock wifiLock) throws RemoteException { switch(wifiLock.mMode) { case WifiManager.WIFI_MODE_FULL: case WifiManager.WIFI_MODE_FULL_HIGH_PERF: mBatteryStats.noteFullWifiLockAcquiredFromSource(wifiLock.mWorkSource); break; case WifiManager.WIFI_MODE_SCAN_ONLY: mBatteryStats.noteScanWifiLockAcquiredFromSource(wifiLock.mWorkSource); break; } } private void noteReleaseWifiLock(WifiLock wifiLock) throws RemoteException { switch(wifiLock.mMode) { case WifiManager.WIFI_MODE_FULL: case WifiManager.WIFI_MODE_FULL_HIGH_PERF: mBatteryStats.noteFullWifiLockReleasedFromSource(wifiLock.mWorkSource); break; case WifiManager.WIFI_MODE_SCAN_ONLY: mBatteryStats.noteScanWifiLockReleasedFromSource(wifiLock.mWorkSource); break; } } private boolean acquireWifiLockLocked(WifiLock wifiLock) { if (DBG) Slog.d(TAG, "acquireWifiLockLocked: " + wifiLock); mLocks.addLock(wifiLock); long ident = Binder.clearCallingIdentity(); try { noteAcquireWifiLock(wifiLock); switch(wifiLock.mMode) { case WifiManager.WIFI_MODE_FULL: ++mFullLocksAcquired; break; case WifiManager.WIFI_MODE_FULL_HIGH_PERF: ++mFullHighPerfLocksAcquired; break; case WifiManager.WIFI_MODE_SCAN_ONLY: ++mScanLocksAcquired; break; } // Be aggressive about adding new locks into the accounted state... // we want to over-report rather than under-report. reportStartWorkSource(); updateWifiState(); return true; } catch (RemoteException e) { return false; } finally { Binder.restoreCallingIdentity(ident); } } public void updateWifiLockWorkSource(IBinder lock, WorkSource ws) { int uid = Binder.getCallingUid(); int pid = Binder.getCallingPid(); if (ws != null && ws.size() == 0) { ws = null; } if (ws != null) { enforceWakeSourcePermission(uid, pid); } long ident = Binder.clearCallingIdentity(); try { synchronized (mLocks) { int index = mLocks.findLockByBinder(lock); if (index < 0) { throw new IllegalArgumentException("Wifi lock not active"); } WifiLock wl = mLocks.mList.get(index); noteReleaseWifiLock(wl); wl.mWorkSource = ws != null ? new WorkSource(ws) : new WorkSource(uid); noteAcquireWifiLock(wl); } } catch (RemoteException e) { } finally { Binder.restoreCallingIdentity(ident); } } public boolean releaseWifiLock(IBinder lock) { mContext.enforceCallingOrSelfPermission(android.Manifest.permission.WAKE_LOCK, null); synchronized (mLocks) { return releaseWifiLockLocked(lock); } } private boolean releaseWifiLockLocked(IBinder lock) { boolean hadLock; WifiLock wifiLock = mLocks.removeLock(lock); if (DBG) Slog.d(TAG, "releaseWifiLockLocked: " + wifiLock); hadLock = (wifiLock != null); long ident = Binder.clearCallingIdentity(); try { if (hadLock) { noteReleaseWifiLock(wifiLock); switch(wifiLock.mMode) { case WifiManager.WIFI_MODE_FULL: ++mFullLocksReleased; break; case WifiManager.WIFI_MODE_FULL_HIGH_PERF: ++mFullHighPerfLocksReleased; break; case WifiManager.WIFI_MODE_SCAN_ONLY: ++mScanLocksReleased; break; } } // TODO - should this only happen if you hadLock? updateWifiState(); } catch (RemoteException e) { } finally { Binder.restoreCallingIdentity(ident); } return hadLock; } private abstract class DeathRecipient implements IBinder.DeathRecipient { String mTag; int mMode; IBinder mBinder; WorkSource mWorkSource; DeathRecipient(int mode, String tag, IBinder binder, WorkSource ws) { super(); mTag = tag; mMode = mode; mBinder = binder; mWorkSource = ws; try { mBinder.linkToDeath(this, 0); } catch (RemoteException e) { binderDied(); } } void unlinkDeathRecipient() { mBinder.unlinkToDeath(this, 0); } } private class Multicaster extends DeathRecipient { Multicaster(String tag, IBinder binder) { super(Binder.getCallingUid(), tag, binder, null); } public void binderDied() { Slog.e(TAG, "Multicaster binderDied"); synchronized (mMulticasters) { int i = mMulticasters.indexOf(this); if (i != -1) { removeMulticasterLocked(i, mMode); } } } public String toString() { return "Multicaster{" + mTag + " binder=" + mBinder + "}"; } public int getUid() { return mMode; } } public void initializeMulticastFiltering() { enforceMulticastChangePermission(); synchronized (mMulticasters) { // if anybody had requested filters be off, leave off if (mMulticasters.size() != 0) { return; } else { mWifiStateMachine.startFilteringMulticastV4Packets(); } } } public void acquireMulticastLock(IBinder binder, String tag) { enforceMulticastChangePermission(); synchronized (mMulticasters) { mMulticastEnabled++; mMulticasters.add(new Multicaster(tag, binder)); // Note that we could call stopFilteringMulticastV4Packets only when // our new size == 1 (first call), but this function won't // be called often and by making the stopPacket call each // time we're less fragile and self-healing. mWifiStateMachine.stopFilteringMulticastV4Packets(); } int uid = Binder.getCallingUid(); Long ident = Binder.clearCallingIdentity(); try { mBatteryStats.noteWifiMulticastEnabled(uid); } catch (RemoteException e) { } finally { Binder.restoreCallingIdentity(ident); } } public void releaseMulticastLock() { enforceMulticastChangePermission(); int uid = Binder.getCallingUid(); synchronized (mMulticasters) { mMulticastDisabled++; int size = mMulticasters.size(); for (int i = size - 1; i >= 0; i--) { Multicaster m = mMulticasters.get(i); if ((m != null) && (m.getUid() == uid)) { removeMulticasterLocked(i, uid); } } } } private void removeMulticasterLocked(int i, int uid) { Multicaster removed = mMulticasters.remove(i); if (removed != null) { removed.unlinkDeathRecipient(); } if (mMulticasters.size() == 0) { mWifiStateMachine.startFilteringMulticastV4Packets(); } Long ident = Binder.clearCallingIdentity(); try { mBatteryStats.noteWifiMulticastDisabled(uid); } catch (RemoteException e) { } finally { Binder.restoreCallingIdentity(ident); } } public boolean isMulticastEnabled() { enforceAccessPermission(); synchronized (mMulticasters) { return (mMulticasters.size() > 0); } } /** * Evaluate if traffic stats polling is needed based on * connection and screen on status */ private void evaluateTrafficStatsPolling() { Message msg; if (mNetworkInfo.getDetailedState() == DetailedState.CONNECTED && !mScreenOff) { msg = Message.obtain(mAsyncServiceHandler, WifiManager.CMD_ENABLE_TRAFFIC_STATS_POLL, 1, 0); } else { msg = Message.obtain(mAsyncServiceHandler, WifiManager.CMD_ENABLE_TRAFFIC_STATS_POLL, 0, 0); } msg.sendToTarget(); } private void notifyOnDataActivity() { long sent, received; long preTxPkts = mTxPkts, preRxPkts = mRxPkts; int dataActivity = WifiManager.DATA_ACTIVITY_NONE; mTxPkts = TrafficStats.getTxPackets(mInterfaceName); mRxPkts = TrafficStats.getRxPackets(mInterfaceName); if (preTxPkts > 0 || preRxPkts > 0) { sent = mTxPkts - preTxPkts; received = mRxPkts - preRxPkts; if (sent > 0) { dataActivity |= WifiManager.DATA_ACTIVITY_OUT; } if (received > 0) { dataActivity |= WifiManager.DATA_ACTIVITY_IN; } if (dataActivity != mDataActivity && !mScreenOff) { mDataActivity = dataActivity; for (AsyncChannel client : mClients) { client.sendMessage(WifiManager.DATA_ACTIVITY_NOTIFICATION, mDataActivity); } } } } private void checkAndSetNotification() { // If we shouldn't place a notification on available networks, then // don't bother doing any of the following if (!mNotificationEnabled) return; State state = mNetworkInfo.getState(); if ((state == NetworkInfo.State.DISCONNECTED) || (state == NetworkInfo.State.UNKNOWN)) { // Look for an open network List scanResults = mWifiStateMachine.syncGetScanResultsList(); if (scanResults != null) { int numOpenNetworks = 0; for (int i = scanResults.size() - 1; i >= 0; i--) { ScanResult scanResult = scanResults.get(i); //A capability of [ESS] represents an open access point //that is available for an STA to connect if (scanResult.capabilities != null && scanResult.capabilities.equals("[ESS]")) { numOpenNetworks++; } } if (numOpenNetworks > 0) { if (++mNumScansSinceNetworkStateChange >= NUM_SCANS_BEFORE_ACTUALLY_SCANNING) { /* * We've scanned continuously at least * NUM_SCANS_BEFORE_NOTIFICATION times. The user * probably does not have a remembered network in range, * since otherwise supplicant would have tried to * associate and thus resetting this counter. */ setNotificationVisible(true, numOpenNetworks, false, 0); } return; } } } // No open networks in range, remove the notification setNotificationVisible(false, 0, false, 0); } /** * Clears variables related to tracking whether a notification has been * shown recently and clears the current notification. */ private void resetNotification() { mNotificationRepeatTime = 0; mNumScansSinceNetworkStateChange = 0; setNotificationVisible(false, 0, false, 0); } /** * Display or don't display a notification that there are open Wi-Fi networks. * @param visible {@code true} if notification should be visible, {@code false} otherwise * @param numNetworks the number networks seen * @param force {@code true} to force notification to be shown/not-shown, * even if it is already shown/not-shown. * @param delay time in milliseconds after which the notification should be made * visible or invisible. */ private void setNotificationVisible(boolean visible, int numNetworks, boolean force, int delay) { // Since we use auto cancel on the notification, when the // mNetworksAvailableNotificationShown is true, the notification may // have actually been canceled. However, when it is false we know // for sure that it is not being shown (it will not be shown any other // place than here) // If it should be hidden and it is already hidden, then noop if (!visible && !mNotificationShown && !force) { return; } NotificationManager notificationManager = (NotificationManager) mContext .getSystemService(Context.NOTIFICATION_SERVICE); Message message; if (visible) { // Not enough time has passed to show the notification again if (System.currentTimeMillis() < mNotificationRepeatTime) { return; } if (mNotification == null) { // Cache the Notification object. mNotification = new Notification(); mNotification.when = 0; mNotification.icon = ICON_NETWORKS_AVAILABLE; mNotification.flags = Notification.FLAG_AUTO_CANCEL; mNotification.contentIntent = PendingIntent.getActivity(mContext, 0, new Intent(WifiManager.ACTION_PICK_WIFI_NETWORK), 0); } CharSequence title = mContext.getResources().getQuantityText( com.android.internal.R.plurals.wifi_available, numNetworks); CharSequence details = mContext.getResources().getQuantityText( com.android.internal.R.plurals.wifi_available_detailed, numNetworks); mNotification.tickerText = title; mNotification.setLatestEventInfo(mContext, title, details, mNotification.contentIntent); mNotificationRepeatTime = System.currentTimeMillis() + NOTIFICATION_REPEAT_DELAY_MS; notificationManager.notify(ICON_NETWORKS_AVAILABLE, mNotification); } else { notificationManager.cancel(ICON_NETWORKS_AVAILABLE); } mNotificationShown = visible; } private class NotificationEnabledSettingObserver extends ContentObserver { public NotificationEnabledSettingObserver(Handler handler) { super(handler); } public void register() { ContentResolver cr = mContext.getContentResolver(); cr.registerContentObserver(Settings.Secure.getUriFor( Settings.Secure.WIFI_NETWORKS_AVAILABLE_NOTIFICATION_ON), true, this); mNotificationEnabled = getValue(); } @Override public void onChange(boolean selfChange) { super.onChange(selfChange); mNotificationEnabled = getValue(); resetNotification(); } private boolean getValue() { return Settings.Secure.getInt(mContext.getContentResolver(), Settings.Secure.WIFI_NETWORKS_AVAILABLE_NOTIFICATION_ON, 1) == 1; } } }