/* * Copyright (C) 2015 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.settingslib.wifi; import android.annotation.MainThread; import android.content.BroadcastReceiver; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.database.ContentObserver; import android.net.ConnectivityManager; import android.net.Network; import android.net.NetworkCapabilities; import android.net.NetworkInfo; import android.net.NetworkInfo.DetailedState; import android.net.NetworkKey; import android.net.NetworkRequest; import android.net.NetworkScoreManager; import android.net.ScoredNetwork; import android.net.wifi.ScanResult; import android.net.wifi.WifiConfiguration; import android.net.wifi.WifiInfo; import android.net.wifi.WifiManager; import android.net.wifi.WifiNetworkScoreCache; import android.net.wifi.WifiNetworkScoreCache.CacheListener; import android.os.ConditionVariable; import android.os.Handler; import android.os.Looper; import android.os.Message; import android.provider.Settings; import android.support.annotation.GuardedBy; import android.util.ArraySet; import android.util.Log; import android.util.SparseArray; import android.util.SparseIntArray; import android.widget.Toast; import com.android.internal.annotations.VisibleForTesting; import com.android.settingslib.R; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Collection; import java.util.Collections; import java.util.HashMap; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.Set; import java.util.concurrent.atomic.AtomicBoolean; /** * Tracks saved or available wifi networks and their state. */ public class WifiTracker { // TODO(b/36733768): Remove flag includeSaved and includePasspoints. private static final String TAG = "WifiTracker"; private static final boolean DBG = Log.isLoggable(TAG, Log.DEBUG); /** verbose logging flag. this flag is set thru developer debugging options * and used so as to assist with in-the-field WiFi connectivity debugging */ public static int sVerboseLogging = 0; // TODO: Allow control of this? // Combo scans can take 5-6s to complete - set to 10s. private static final int WIFI_RESCAN_INTERVAL_MS = 10 * 1000; private static final int NUM_SCANS_TO_CONFIRM_AP_LOSS = 3; private final Context mContext; private final WifiManager mWifiManager; private final IntentFilter mFilter; private final ConnectivityManager mConnectivityManager; private final NetworkRequest mNetworkRequest; private final AtomicBoolean mConnected = new AtomicBoolean(false); private final WifiListener mListener; private final boolean mIncludeSaved; private final boolean mIncludeScans; private final boolean mIncludePasspoints; @VisibleForTesting final MainHandler mMainHandler; private final WorkHandler mWorkHandler; private WifiTrackerNetworkCallback mNetworkCallback; @GuardedBy("mLock") private boolean mRegistered; /** * The externally visible access point list. * * Updated using main handler. Clone of this collection is returned from * {@link #getAccessPoints()} */ private final List mAccessPoints = new ArrayList<>(); /** * The internal list of access points, synchronized on itself. * * Never exposed outside this class. */ @GuardedBy("mLock") private final List mInternalAccessPoints = new ArrayList<>(); /** * Synchronization lock for managing concurrency between main and worker threads. * *

This lock should be held for all background work. * TODO(b/37674366): Remove the worker thread so synchronization is no longer necessary. */ private final Object mLock = new Object(); //visible to both worker and main thread. @GuardedBy("mLock") private final AccessPointListenerAdapter mAccessPointListenerAdapter = new AccessPointListenerAdapter(); private final HashMap mSeenBssids = new HashMap<>(); private final HashMap mScanResultCache = new HashMap<>(); private Integer mScanId = 0; private NetworkInfo mLastNetworkInfo; private WifiInfo mLastInfo; private final NetworkScoreManager mNetworkScoreManager; private final WifiNetworkScoreCache mScoreCache; @GuardedBy("mLock") private final Set mRequestedScores = new ArraySet<>(); @VisibleForTesting Scanner mScanner; private boolean mStaleScanResults = false; public WifiTracker(Context context, WifiListener wifiListener, boolean includeSaved, boolean includeScans) { this(context, wifiListener, null, includeSaved, includeScans); } public WifiTracker(Context context, WifiListener wifiListener, Looper workerLooper, boolean includeSaved, boolean includeScans) { this(context, wifiListener, workerLooper, includeSaved, includeScans, false); } public WifiTracker(Context context, WifiListener wifiListener, boolean includeSaved, boolean includeScans, boolean includePasspoints) { this(context, wifiListener, null, includeSaved, includeScans, includePasspoints); } public WifiTracker(Context context, WifiListener wifiListener, Looper workerLooper, boolean includeSaved, boolean includeScans, boolean includePasspoints) { this(context, wifiListener, workerLooper, includeSaved, includeScans, includePasspoints, context.getSystemService(WifiManager.class), context.getSystemService(ConnectivityManager.class), context.getSystemService(NetworkScoreManager.class), Looper.myLooper() ); } @VisibleForTesting WifiTracker(Context context, WifiListener wifiListener, Looper workerLooper, boolean includeSaved, boolean includeScans, boolean includePasspoints, WifiManager wifiManager, ConnectivityManager connectivityManager, NetworkScoreManager networkScoreManager, Looper currentLooper) { if (!includeSaved && !includeScans) { throw new IllegalArgumentException("Must include either saved or scans"); } mContext = context; if (currentLooper == null) { // When we aren't on a looper thread, default to the main. currentLooper = Looper.getMainLooper(); } mMainHandler = new MainHandler(currentLooper); mWorkHandler = new WorkHandler( workerLooper != null ? workerLooper : currentLooper); mWifiManager = wifiManager; mIncludeSaved = includeSaved; mIncludeScans = includeScans; mIncludePasspoints = includePasspoints; mListener = wifiListener; mConnectivityManager = connectivityManager; // check if verbose logging has been turned on or off sVerboseLogging = mWifiManager.getVerboseLoggingLevel(); mFilter = new IntentFilter(); mFilter.addAction(WifiManager.WIFI_STATE_CHANGED_ACTION); mFilter.addAction(WifiManager.SCAN_RESULTS_AVAILABLE_ACTION); mFilter.addAction(WifiManager.NETWORK_IDS_CHANGED_ACTION); mFilter.addAction(WifiManager.SUPPLICANT_STATE_CHANGED_ACTION); mFilter.addAction(WifiManager.CONFIGURED_NETWORKS_CHANGED_ACTION); mFilter.addAction(WifiManager.LINK_CONFIGURATION_CHANGED_ACTION); mFilter.addAction(WifiManager.NETWORK_STATE_CHANGED_ACTION); mFilter.addAction(WifiManager.RSSI_CHANGED_ACTION); mNetworkRequest = new NetworkRequest.Builder() .clearCapabilities() .addTransportType(NetworkCapabilities.TRANSPORT_WIFI) .build(); mNetworkScoreManager = networkScoreManager; mScoreCache = new WifiNetworkScoreCache(context, new CacheListener(mWorkHandler) { @Override public void networkCacheUpdated(List networks) { synchronized (mLock) { if (!mRegistered) return; } if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "Score cache was updated with networks: " + networks); } updateNetworkScores(); } }); } /** * Synchronously update the list of access points with the latest information. */ @MainThread public void forceUpdate() { synchronized (mLock) { mWorkHandler.removeMessages(WorkHandler.MSG_UPDATE_ACCESS_POINTS); mLastInfo = mWifiManager.getConnectionInfo(); mLastNetworkInfo = mConnectivityManager.getNetworkInfo(mWifiManager.getCurrentNetwork()); updateAccessPointsLocked(); if (DBG) { Log.d(TAG, "force update - internal access point list:\n" + mInternalAccessPoints); } // Synchronously copy access points mMainHandler.removeMessages(MainHandler.MSG_ACCESS_POINT_CHANGED); mMainHandler.handleMessage( Message.obtain(mMainHandler, MainHandler.MSG_ACCESS_POINT_CHANGED)); if (DBG) { Log.d(TAG, "force update - external access point list:\n" + mAccessPoints); } } } /** * Force a scan for wifi networks to happen now. */ public void forceScan() { if (mWifiManager.isWifiEnabled() && mScanner != null) { mScanner.forceScan(); } } /** * Temporarily stop scanning for wifi networks. */ public void pauseScanning() { if (mScanner != null) { mScanner.pause(); mScanner = null; } } /** * Resume scanning for wifi networks after it has been paused. * *

The score cache should be registered before this method is invoked. */ public void resumeScanning() { if (mScanner == null) { mScanner = new Scanner(); } mWorkHandler.sendEmptyMessage(WorkHandler.MSG_RESUME); if (mWifiManager.isWifiEnabled()) { mScanner.resume(); } } /** * Start tracking wifi networks and scores. * *

Registers listeners and starts scanning for wifi networks. If this is not called * then forceUpdate() must be called to populate getAccessPoints(). */ @MainThread public void startTracking() { synchronized (mLock) { registerScoreCache(); resumeScanning(); if (!mRegistered) { mContext.registerReceiver(mReceiver, mFilter); // NetworkCallback objects cannot be reused. http://b/20701525 . mNetworkCallback = new WifiTrackerNetworkCallback(); mConnectivityManager.registerNetworkCallback(mNetworkRequest, mNetworkCallback); mRegistered = true; } } } private void registerScoreCache() { mNetworkScoreManager.registerNetworkScoreCache( NetworkKey.TYPE_WIFI, mScoreCache, NetworkScoreManager.CACHE_FILTER_SCAN_RESULTS); } private void requestScoresForNetworkKeys(Collection keys) { if (keys.isEmpty()) return; if (DBG) { Log.d(TAG, "Requesting scores for Network Keys: " + keys); } mNetworkScoreManager.requestScores(keys.toArray(new NetworkKey[keys.size()])); synchronized (mLock) { mRequestedScores.addAll(keys); } } /** * Stop tracking wifi networks and scores. * *

This should always be called when done with a WifiTracker (if startTracking was called) to * ensure proper cleanup and prevent any further callbacks from occurring. * *

Calling this method will set the {@link #mStaleScanResults} bit, which prevents * {@link WifiListener#onAccessPointsChanged()} callbacks from being invoked (until the bit * is unset on the next SCAN_RESULTS_AVAILABLE_ACTION). */ @MainThread public void stopTracking() { synchronized (mLock) { if (mRegistered) { mContext.unregisterReceiver(mReceiver); mConnectivityManager.unregisterNetworkCallback(mNetworkCallback); mRegistered = false; } unregisterAndClearScoreCache(); pauseScanning(); mWorkHandler.removePendingMessages(); mMainHandler.removePendingMessages(); } mStaleScanResults = true; } private void unregisterAndClearScoreCache() { mNetworkScoreManager.unregisterNetworkScoreCache(NetworkKey.TYPE_WIFI, mScoreCache); mScoreCache.clearScores(); // Synchronize on mLock to avoid concurrent modification during updateAccessPointsLocked synchronized (mLock) { mRequestedScores.clear(); } } /** * Gets the current list of access points. Should be called from main thread, otherwise * expect inconsistencies */ @MainThread public List getAccessPoints() { return new ArrayList<>(mAccessPoints); } public WifiManager getManager() { return mWifiManager; } public boolean isWifiEnabled() { return mWifiManager.isWifiEnabled(); } /** * Returns the number of saved networks on the device, regardless of whether the WifiTracker * is tracking saved networks. * TODO(b/62292448): remove this function and update callsites to use WifiSavedConfigUtils * directly. */ public int getNumSavedNetworks() { return WifiSavedConfigUtils.getAllConfigs(mContext, mWifiManager).size(); } public boolean isConnected() { return mConnected.get(); } public void dump(PrintWriter pw) { pw.println(" - wifi tracker ------"); for (AccessPoint accessPoint : getAccessPoints()) { pw.println(" " + accessPoint); } } private void handleResume() { mScanResultCache.clear(); mSeenBssids.clear(); mScanId = 0; } private Collection fetchScanResults() { mScanId++; final List newResults = mWifiManager.getScanResults(); for (ScanResult newResult : newResults) { if (newResult.SSID == null || newResult.SSID.isEmpty()) { continue; } mScanResultCache.put(newResult.BSSID, newResult); mSeenBssids.put(newResult.BSSID, mScanId); } if (mScanId > NUM_SCANS_TO_CONFIRM_AP_LOSS) { if (DBG) Log.d(TAG, "------ Dumping SSIDs that were expired on this scan ------"); Integer threshold = mScanId - NUM_SCANS_TO_CONFIRM_AP_LOSS; for (Iterator> it = mSeenBssids.entrySet().iterator(); it.hasNext(); /* nothing */) { Map.Entry e = it.next(); if (e.getValue() < threshold) { ScanResult result = mScanResultCache.get(e.getKey()); if (DBG) Log.d(TAG, "Removing " + e.getKey() + ":(" + result.SSID + ")"); mScanResultCache.remove(e.getKey()); it.remove(); } } if (DBG) Log.d(TAG, "---- Done Dumping SSIDs that were expired on this scan ----"); } return mScanResultCache.values(); } private WifiConfiguration getWifiConfigurationForNetworkId(int networkId) { final List configs = mWifiManager.getConfiguredNetworks(); if (configs != null) { for (WifiConfiguration config : configs) { if (mLastInfo != null && networkId == config.networkId && !(config.selfAdded && config.numAssociation == 0)) { return config; } } } return null; } /** Safely modify {@link #mInternalAccessPoints} by acquiring {@link #mLock} first. */ private void updateAccessPointsLocked() { synchronized (mLock) { updateAccessPoints(); } } /** * Update the internal list of access points. * *

Should never be called directly, use {@link #updateAccessPointsLocked()} instead. */ @GuardedBy("mLock") private void updateAccessPoints() { // Swap the current access points into a cached list. List cachedAccessPoints = new ArrayList<>(mInternalAccessPoints); ArrayList accessPoints = new ArrayList<>(); // Clear out the configs so we don't think something is saved when it isn't. for (AccessPoint accessPoint : cachedAccessPoints) { accessPoint.clearConfig(); } /* Lookup table to more quickly update AccessPoints by only considering objects with the * correct SSID. Maps SSID -> List of AccessPoints with the given SSID. */ Multimap apMap = new Multimap(); WifiConfiguration connectionConfig = null; if (mLastInfo != null) { connectionConfig = getWifiConfigurationForNetworkId(mLastInfo.getNetworkId()); } final Collection results = fetchScanResults(); final List configs = mWifiManager.getConfiguredNetworks(); if (configs != null) { for (WifiConfiguration config : configs) { if (config.selfAdded && config.numAssociation == 0) { continue; } AccessPoint accessPoint = getCachedOrCreate(config, cachedAccessPoints); if (mLastInfo != null && mLastNetworkInfo != null) { accessPoint.update(connectionConfig, mLastInfo, mLastNetworkInfo); } if (mIncludeSaved) { // If saved network not present in scan result then set its Rssi to // UNREACHABLE_RSSI boolean apFound = false; for (ScanResult result : results) { if (result.SSID.equals(accessPoint.getSsidStr())) { apFound = true; break; } } if (!apFound) { accessPoint.setUnreachable(); } accessPoints.add(accessPoint); apMap.put(accessPoint.getSsidStr(), accessPoint); } else { // If we aren't using saved networks, drop them into the cache so that // we have access to their saved info. cachedAccessPoints.add(accessPoint); } } } final List scoresToRequest = new ArrayList<>(); if (results != null) { for (ScanResult result : results) { // Ignore hidden and ad-hoc networks. if (result.SSID == null || result.SSID.length() == 0 || result.capabilities.contains("[IBSS]")) { continue; } NetworkKey key = NetworkKey.createFromScanResult(result); if (key != null && !mRequestedScores.contains(key)) { scoresToRequest.add(key); } boolean found = false; for (AccessPoint accessPoint : apMap.getAll(result.SSID)) { if (accessPoint.update(result)) { found = true; break; } } if (!found && mIncludeScans) { AccessPoint accessPoint = getCachedOrCreate(result, cachedAccessPoints); if (mLastInfo != null && mLastNetworkInfo != null) { accessPoint.update(connectionConfig, mLastInfo, mLastNetworkInfo); } if (result.isPasspointNetwork()) { // Retrieve a WifiConfiguration for a Passpoint provider that matches // the given ScanResult. This is used for showing that a given AP // (ScanResult) is available via a Passpoint provider (provider friendly // name). try { WifiConfiguration config = mWifiManager.getMatchingWifiConfig(result); if (config != null) { accessPoint.update(config); } } catch (UnsupportedOperationException e) { // Passpoint not supported on the device. } } accessPoints.add(accessPoint); apMap.put(accessPoint.getSsidStr(), accessPoint); } } } requestScoresForNetworkKeys(scoresToRequest); for (AccessPoint ap : accessPoints) { ap.update(mScoreCache, false /* mNetworkScoringUiEnabled */); } // Pre-sort accessPoints to speed preference insertion Collections.sort(accessPoints); // Log accesspoints that were deleted if (DBG) { Log.d(TAG, "------ Dumping SSIDs that were not seen on this scan ------"); for (AccessPoint prevAccessPoint : mInternalAccessPoints) { if (prevAccessPoint.getSsid() == null) continue; String prevSsid = prevAccessPoint.getSsidStr(); boolean found = false; for (AccessPoint newAccessPoint : accessPoints) { if (newAccessPoint.getSsid() != null && newAccessPoint.getSsid() .equals(prevSsid)) { found = true; break; } } if (!found) Log.d(TAG, "Did not find " + prevSsid + " in this scan"); } Log.d(TAG, "---- Done dumping SSIDs that were not seen on this scan ----"); } mInternalAccessPoints.clear(); mInternalAccessPoints.addAll(accessPoints); mMainHandler.sendEmptyMessage(MainHandler.MSG_ACCESS_POINT_CHANGED); } @VisibleForTesting AccessPoint getCachedOrCreate(ScanResult result, List cache) { final int N = cache.size(); for (int i = 0; i < N; i++) { if (cache.get(i).matches(result)) { AccessPoint ret = cache.remove(i); ret.update(result); return ret; } } final AccessPoint accessPoint = new AccessPoint(mContext, result); accessPoint.setListener(mAccessPointListenerAdapter); return accessPoint; } @VisibleForTesting AccessPoint getCachedOrCreate(WifiConfiguration config, List cache) { final int N = cache.size(); for (int i = 0; i < N; i++) { if (cache.get(i).matches(config)) { AccessPoint ret = cache.remove(i); ret.loadConfig(config); return ret; } } final AccessPoint accessPoint = new AccessPoint(mContext, config); accessPoint.setListener(mAccessPointListenerAdapter); return accessPoint; } private void updateNetworkInfo(NetworkInfo networkInfo) { /* sticky broadcasts can call this when wifi is disabled */ if (!mWifiManager.isWifiEnabled()) { mMainHandler.sendEmptyMessage(MainHandler.MSG_PAUSE_SCANNING); return; } if (networkInfo != null && networkInfo.getDetailedState() == DetailedState.OBTAINING_IPADDR) { mMainHandler.sendEmptyMessage(MainHandler.MSG_PAUSE_SCANNING); } else { mMainHandler.sendEmptyMessage(MainHandler.MSG_RESUME_SCANNING); } if (networkInfo != null) { mLastNetworkInfo = networkInfo; } WifiConfiguration connectionConfig = null; mLastInfo = mWifiManager.getConnectionInfo(); if (mLastInfo != null) { connectionConfig = getWifiConfigurationForNetworkId(mLastInfo.getNetworkId()); } boolean updated = false; boolean reorder = false; // Only reorder if connected AP was changed synchronized (mLock) { for (int i = mInternalAccessPoints.size() - 1; i >= 0; --i) { AccessPoint ap = mInternalAccessPoints.get(i); boolean previouslyConnected = ap.isActive(); if (ap.update(connectionConfig, mLastInfo, mLastNetworkInfo)) { updated = true; if (previouslyConnected != ap.isActive()) reorder = true; } if (ap.update(mScoreCache, false /* mNetworkScoringUiEnabled */)) { reorder = true; updated = true; } } if (reorder) Collections.sort(mInternalAccessPoints); if (updated) mMainHandler.sendEmptyMessage(MainHandler.MSG_ACCESS_POINT_CHANGED); } } /** * Update all the internal access points rankingScores, badge and metering. * *

Will trigger a resort and notify listeners of changes if applicable. * *

Synchronized on {@link #mLock}. */ private void updateNetworkScores() { synchronized (mLock) { boolean updated = false; for (int i = 0; i < mInternalAccessPoints.size(); i++) { if (mInternalAccessPoints.get(i).update( mScoreCache, false /* mNetworkScoringUiEnabled */)) { updated = true; } } if (updated) { Collections.sort(mInternalAccessPoints); mMainHandler.sendEmptyMessage(MainHandler.MSG_ACCESS_POINT_CHANGED); } } } private void updateWifiState(int state) { mWorkHandler.obtainMessage(WorkHandler.MSG_UPDATE_WIFI_STATE, state, 0).sendToTarget(); } public static List getCurrentAccessPoints(Context context, boolean includeSaved, boolean includeScans, boolean includePasspoints) { WifiTracker tracker = new WifiTracker(context, null, null, includeSaved, includeScans, includePasspoints); tracker.forceUpdate(); tracker.copyAndNotifyListeners(false /*notifyListeners*/); return tracker.getAccessPoints(); } @VisibleForTesting final BroadcastReceiver mReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { String action = intent.getAction(); if (WifiManager.SCAN_RESULTS_AVAILABLE_ACTION.equals(action)) { mStaleScanResults = false; } if (WifiManager.WIFI_STATE_CHANGED_ACTION.equals(action)) { updateWifiState(intent.getIntExtra(WifiManager.EXTRA_WIFI_STATE, WifiManager.WIFI_STATE_UNKNOWN)); } else if (WifiManager.SCAN_RESULTS_AVAILABLE_ACTION.equals(action) || WifiManager.CONFIGURED_NETWORKS_CHANGED_ACTION.equals(action) || WifiManager.LINK_CONFIGURATION_CHANGED_ACTION.equals(action)) { mWorkHandler.sendEmptyMessage(WorkHandler.MSG_UPDATE_ACCESS_POINTS); } else if (WifiManager.NETWORK_STATE_CHANGED_ACTION.equals(action)) { NetworkInfo info = (NetworkInfo) intent.getParcelableExtra( WifiManager.EXTRA_NETWORK_INFO); mConnected.set(info.isConnected()); mMainHandler.sendEmptyMessage(MainHandler.MSG_CONNECTED_CHANGED); mWorkHandler.obtainMessage(WorkHandler.MSG_UPDATE_NETWORK_INFO, info) .sendToTarget(); mWorkHandler.sendEmptyMessage(WorkHandler.MSG_UPDATE_ACCESS_POINTS); } else if (WifiManager.RSSI_CHANGED_ACTION.equals(action)) { NetworkInfo info = mConnectivityManager.getNetworkInfo(mWifiManager.getCurrentNetwork()); mWorkHandler.obtainMessage(WorkHandler.MSG_UPDATE_NETWORK_INFO, info) .sendToTarget(); } } }; private final class WifiTrackerNetworkCallback extends ConnectivityManager.NetworkCallback { public void onCapabilitiesChanged(Network network, NetworkCapabilities nc) { if (network.equals(mWifiManager.getCurrentNetwork())) { // We don't send a NetworkInfo object along with this message, because even if we // fetch one from ConnectivityManager, it might be older than the most recent // NetworkInfo message we got via a WIFI_STATE_CHANGED broadcast. mWorkHandler.sendEmptyMessage(WorkHandler.MSG_UPDATE_NETWORK_INFO); } } } @VisibleForTesting final class MainHandler extends Handler { @VisibleForTesting static final int MSG_CONNECTED_CHANGED = 0; @VisibleForTesting static final int MSG_WIFI_STATE_CHANGED = 1; @VisibleForTesting static final int MSG_ACCESS_POINT_CHANGED = 2; private static final int MSG_RESUME_SCANNING = 3; private static final int MSG_PAUSE_SCANNING = 4; public MainHandler(Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { if (mListener == null) { return; } switch (msg.what) { case MSG_CONNECTED_CHANGED: mListener.onConnectedChanged(); break; case MSG_WIFI_STATE_CHANGED: mListener.onWifiStateChanged(msg.arg1); break; case MSG_ACCESS_POINT_CHANGED: copyAndNotifyListeners(true /*notifyListeners*/); mListener.onAccessPointsChanged(); break; case MSG_RESUME_SCANNING: if (mScanner != null) { mScanner.resume(); } break; case MSG_PAUSE_SCANNING: if (mScanner != null) { mScanner.pause(); } break; } } void removePendingMessages() { removeMessages(MSG_ACCESS_POINT_CHANGED); removeMessages(MSG_CONNECTED_CHANGED); removeMessages(MSG_WIFI_STATE_CHANGED); removeMessages(MSG_PAUSE_SCANNING); removeMessages(MSG_RESUME_SCANNING); } } private final class WorkHandler extends Handler { private static final int MSG_UPDATE_ACCESS_POINTS = 0; private static final int MSG_UPDATE_NETWORK_INFO = 1; private static final int MSG_RESUME = 2; private static final int MSG_UPDATE_WIFI_STATE = 3; public WorkHandler(Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { synchronized (mLock) { processMessage(msg); } } @GuardedBy("mLock") private void processMessage(Message msg) { if (!mRegistered) return; switch (msg.what) { case MSG_UPDATE_ACCESS_POINTS: if (!mStaleScanResults) { updateAccessPointsLocked(); } break; case MSG_UPDATE_NETWORK_INFO: updateNetworkInfo((NetworkInfo) msg.obj); break; case MSG_RESUME: handleResume(); break; case MSG_UPDATE_WIFI_STATE: if (msg.arg1 == WifiManager.WIFI_STATE_ENABLED) { if (mScanner != null) { // We only need to resume if mScanner isn't null because // that means we want to be scanning. mScanner.resume(); } } else { mLastInfo = null; mLastNetworkInfo = null; if (mScanner != null) { mScanner.pause(); } } mMainHandler.obtainMessage(MainHandler.MSG_WIFI_STATE_CHANGED, msg.arg1, 0) .sendToTarget(); break; } } private void removePendingMessages() { removeMessages(MSG_UPDATE_ACCESS_POINTS); removeMessages(MSG_UPDATE_NETWORK_INFO); removeMessages(MSG_RESUME); removeMessages(MSG_UPDATE_WIFI_STATE); } } @VisibleForTesting class Scanner extends Handler { static final int MSG_SCAN = 0; private int mRetry = 0; void resume() { if (!hasMessages(MSG_SCAN)) { sendEmptyMessage(MSG_SCAN); } } void forceScan() { removeMessages(MSG_SCAN); sendEmptyMessage(MSG_SCAN); } void pause() { mRetry = 0; removeMessages(MSG_SCAN); } @VisibleForTesting boolean isScanning() { return hasMessages(MSG_SCAN); } @Override public void handleMessage(Message message) { if (message.what != MSG_SCAN) return; if (mWifiManager.startScan()) { mRetry = 0; } else if (++mRetry >= 3) { mRetry = 0; if (mContext != null) { Toast.makeText(mContext, R.string.wifi_fail_to_scan, Toast.LENGTH_LONG).show(); } return; } sendEmptyMessageDelayed(0, WIFI_RESCAN_INTERVAL_MS); } } /** A restricted multimap for use in constructAccessPoints */ private static class Multimap { private final HashMap> store = new HashMap>(); /** retrieve a non-null list of values with key K */ List getAll(K key) { List values = store.get(key); return values != null ? values : Collections.emptyList(); } void put(K key, V val) { List curVals = store.get(key); if (curVals == null) { curVals = new ArrayList(3); store.put(key, curVals); } curVals.add(val); } } public interface WifiListener { /** * Called when the state of Wifi has changed, the state will be one of * the following. * *

  • {@link WifiManager#WIFI_STATE_DISABLED}
    • *
  • {@link WifiManager#WIFI_STATE_ENABLED}
    • *
  • {@link WifiManager#WIFI_STATE_DISABLING}
    • *
  • {@link WifiManager#WIFI_STATE_ENABLING}
    • *
  • {@link WifiManager#WIFI_STATE_UNKNOWN}
    • *

    * * @param state The new state of wifi. */ void onWifiStateChanged(int state); /** * Called when the connection state of wifi has changed and isConnected * should be called to get the updated state. */ void onConnectedChanged(); /** * Called to indicate the list of AccessPoints has been updated and * getAccessPoints should be called to get the latest information. */ void onAccessPointsChanged(); } /** * Helps capture notifications that were generated during AccessPoint modification. Used later * on by {@link #copyAndNotifyListeners(boolean)} to send notifications. */ private static class AccessPointListenerAdapter implements AccessPoint.AccessPointListener { static final int AP_CHANGED = 1; static final int LEVEL_CHANGED = 2; final SparseIntArray mPendingNotifications = new SparseIntArray(); @Override public void onAccessPointChanged(AccessPoint accessPoint) { int type = mPendingNotifications.get(accessPoint.mId); mPendingNotifications.put(accessPoint.mId, type | AP_CHANGED); } @Override public void onLevelChanged(AccessPoint accessPoint) { int type = mPendingNotifications.get(accessPoint.mId); mPendingNotifications.put(accessPoint.mId, type | LEVEL_CHANGED); } } /** * Responsible for copying access points from {@link #mInternalAccessPoints} and notifying * accesspoint listeners. * * @param notifyListeners if true, accesspoint listeners are notified, otherwise notifications * dropped. */ @MainThread private void copyAndNotifyListeners(boolean notifyListeners) { // Need to watch out for memory allocations on main thread. SparseArray oldAccessPoints = new SparseArray<>(); SparseIntArray notificationMap = null; List updatedAccessPoints = new ArrayList<>(); for (AccessPoint accessPoint : mAccessPoints) { oldAccessPoints.put(accessPoint.mId, accessPoint); } if (DBG) { Log.d(TAG, "Starting to copy AP items on the MainHandler"); } synchronized (mLock) { if (notifyListeners) { notificationMap = mAccessPointListenerAdapter.mPendingNotifications.clone(); } mAccessPointListenerAdapter.mPendingNotifications.clear(); for (AccessPoint internalAccessPoint : mInternalAccessPoints) { AccessPoint accessPoint = oldAccessPoints.get(internalAccessPoint.mId); if (accessPoint == null) { accessPoint = new AccessPoint(mContext, internalAccessPoint); } else { accessPoint.copyFrom(internalAccessPoint); } updatedAccessPoints.add(accessPoint); } } mAccessPoints.clear(); mAccessPoints.addAll(updatedAccessPoints); if (notificationMap != null && notificationMap.size() > 0) { for (AccessPoint accessPoint : updatedAccessPoints) { int notificationType = notificationMap.get(accessPoint.mId); AccessPoint.AccessPointListener listener = accessPoint.mAccessPointListener; if (notificationType == 0 || listener == null) { continue; } if ((notificationType & AccessPointListenerAdapter.AP_CHANGED) != 0) { listener.onAccessPointChanged(accessPoint); } if ((notificationType & AccessPointListenerAdapter.LEVEL_CHANGED) != 0) { listener.onLevelChanged(accessPoint); } } } } }