/* * Copyright (C) 2008 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 static android.Manifest.permission.MANAGE_NETWORK_POLICY; import static android.Manifest.permission.RECEIVE_DATA_ACTIVITY_CHANGE; import static android.net.ConnectivityManager.CONNECTIVITY_ACTION; import static android.net.ConnectivityManager.CONNECTIVITY_ACTION_IMMEDIATE; import static android.net.ConnectivityManager.TYPE_BLUETOOTH; import static android.net.ConnectivityManager.TYPE_DUMMY; import static android.net.ConnectivityManager.TYPE_MOBILE; import static android.net.ConnectivityManager.TYPE_MOBILE_MMS; import static android.net.ConnectivityManager.TYPE_MOBILE_SUPL; import static android.net.ConnectivityManager.TYPE_MOBILE_DUN; import static android.net.ConnectivityManager.TYPE_MOBILE_FOTA; import static android.net.ConnectivityManager.TYPE_MOBILE_IMS; import static android.net.ConnectivityManager.TYPE_MOBILE_CBS; import static android.net.ConnectivityManager.TYPE_MOBILE_IA; import static android.net.ConnectivityManager.TYPE_MOBILE_HIPRI; import static android.net.ConnectivityManager.TYPE_NONE; import static android.net.ConnectivityManager.TYPE_WIFI; import static android.net.ConnectivityManager.TYPE_WIMAX; import static android.net.ConnectivityManager.TYPE_PROXY; import static android.net.ConnectivityManager.getNetworkTypeName; import static android.net.ConnectivityManager.isNetworkTypeValid; import static android.net.NetworkPolicyManager.RULE_ALLOW_ALL; import static android.net.NetworkPolicyManager.RULE_REJECT_METERED; import android.app.AlarmManager; import android.app.Notification; import android.app.NotificationManager; import android.app.PendingIntent; import android.content.ActivityNotFoundException; import android.content.BroadcastReceiver; import android.content.ContentResolver; import android.content.Context; import android.content.ContextWrapper; import android.content.Intent; import android.content.IntentFilter; import android.content.pm.PackageManager; import android.content.res.Configuration; import android.content.res.Resources; import android.database.ContentObserver; import android.net.CaptivePortalTracker; import android.net.ConnectivityManager; import android.net.IConnectivityManager; import android.net.INetworkManagementEventObserver; import android.net.INetworkPolicyListener; import android.net.INetworkPolicyManager; import android.net.INetworkStatsService; import android.net.LinkAddress; import android.net.LinkProperties; import android.net.LinkProperties.CompareResult; import android.net.LinkQualityInfo; import android.net.MobileDataStateTracker; import android.net.Network; import android.net.NetworkAgent; import android.net.NetworkCapabilities; import android.net.NetworkConfig; import android.net.NetworkInfo; import android.net.NetworkInfo.DetailedState; import android.net.NetworkFactory; import android.net.NetworkMisc; import android.net.NetworkQuotaInfo; import android.net.NetworkRequest; import android.net.NetworkState; import android.net.NetworkStateTracker; import android.net.NetworkUtils; import android.net.Proxy; import android.net.ProxyDataTracker; import android.net.ProxyInfo; import android.net.RouteInfo; import android.net.SamplingDataTracker; import android.net.UidRange; import android.net.Uri; import android.net.wimax.WimaxManagerConstants; import android.os.AsyncTask; import android.os.Binder; import android.os.Build; import android.os.FileUtils; import android.os.Handler; import android.os.HandlerThread; import android.os.IBinder; import android.os.INetworkManagementService; import android.os.Looper; import android.os.Message; import android.os.Messenger; import android.os.ParcelFileDescriptor; import android.os.PowerManager; import android.os.Process; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemClock; import android.os.SystemProperties; import android.os.UserHandle; import android.os.UserManager; import android.provider.Settings; import android.security.Credentials; import android.security.KeyStore; import android.telephony.TelephonyManager; import android.text.TextUtils; import android.util.Slog; import android.util.SparseArray; import android.util.SparseIntArray; import android.util.Xml; import com.android.internal.R; import com.android.internal.annotations.GuardedBy; import com.android.internal.net.LegacyVpnInfo; import com.android.internal.net.VpnConfig; import com.android.internal.net.VpnProfile; import com.android.internal.telephony.DctConstants; import com.android.internal.telephony.Phone; import com.android.internal.telephony.PhoneConstants; import com.android.internal.telephony.TelephonyIntents; import com.android.internal.util.AsyncChannel; import com.android.internal.util.IndentingPrintWriter; import com.android.internal.util.XmlUtils; import com.android.server.am.BatteryStatsService; import com.android.server.connectivity.DataConnectionStats; import com.android.server.connectivity.Nat464Xlat; import com.android.server.connectivity.NetworkAgentInfo; import com.android.server.connectivity.NetworkMonitor; import com.android.server.connectivity.PacManager; import com.android.server.connectivity.Tethering; import com.android.server.connectivity.Vpn; import com.android.server.net.BaseNetworkObserver; import com.android.server.net.LockdownVpnTracker; import com.google.android.collect.Lists; import com.google.android.collect.Sets; import dalvik.system.DexClassLoader; import org.xmlpull.v1.XmlPullParser; import org.xmlpull.v1.XmlPullParserException; import java.io.File; import java.io.FileDescriptor; import java.io.FileNotFoundException; import java.io.FileReader; import java.io.IOException; import java.io.PrintWriter; import java.lang.reflect.Constructor; import java.net.HttpURLConnection; import java.net.Inet4Address; import java.net.Inet6Address; import java.net.InetAddress; import java.net.URL; import java.net.UnknownHostException; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.GregorianCalendar; import java.util.HashMap; import java.util.HashSet; import java.util.List; import java.util.Map; import java.util.Random; import java.util.concurrent.atomic.AtomicBoolean; import java.util.concurrent.atomic.AtomicInteger; import javax.net.ssl.HostnameVerifier; import javax.net.ssl.HttpsURLConnection; import javax.net.ssl.SSLSession; /** * @hide */ public class ConnectivityService extends IConnectivityManager.Stub { private static final String TAG = "ConnectivityService"; private static final boolean DBG = true; private static final boolean VDBG = true; // STOPSHIP // network sampling debugging private static final boolean SAMPLE_DBG = false; private static final boolean LOGD_RULES = false; // TODO: create better separation between radio types and network types // how long to wait before switching back to a radio's default network private static final int RESTORE_DEFAULT_NETWORK_DELAY = 1 * 60 * 1000; // system property that can override the above value private static final String NETWORK_RESTORE_DELAY_PROP_NAME = "android.telephony.apn-restore"; // Default value if FAIL_FAST_TIME_MS is not set private static final int DEFAULT_FAIL_FAST_TIME_MS = 1 * 60 * 1000; // system property that can override DEFAULT_FAIL_FAST_TIME_MS private static final String FAIL_FAST_TIME_MS = "persist.radio.fail_fast_time_ms"; private static final String ACTION_PKT_CNT_SAMPLE_INTERVAL_ELAPSED = "android.net.ConnectivityService.action.PKT_CNT_SAMPLE_INTERVAL_ELAPSED"; private static final int SAMPLE_INTERVAL_ELAPSED_REQUEST_CODE = 0; private PendingIntent mSampleIntervalElapsedIntent; // Set network sampling interval at 12 minutes, this way, even if the timers get // aggregated, it will fire at around 15 minutes, which should allow us to // aggregate this timer with other timers (specially the socket keep alive timers) private static final int DEFAULT_SAMPLING_INTERVAL_IN_SECONDS = (SAMPLE_DBG ? 30 : 12 * 60); // start network sampling a minute after booting ... private static final int DEFAULT_START_SAMPLING_INTERVAL_IN_SECONDS = (SAMPLE_DBG ? 30 : 60); AlarmManager mAlarmManager; private Tethering mTethering; private KeyStore mKeyStore; @GuardedBy("mVpns") private final SparseArray mVpns = new SparseArray(); private boolean mLockdownEnabled; private LockdownVpnTracker mLockdownTracker; private Nat464Xlat mClat; /** Lock around {@link #mUidRules} and {@link #mMeteredIfaces}. */ private Object mRulesLock = new Object(); /** Currently active network rules by UID. */ private SparseIntArray mUidRules = new SparseIntArray(); /** Set of ifaces that are costly. */ private HashSet mMeteredIfaces = Sets.newHashSet(); /** * Sometimes we want to refer to the individual network state * trackers separately, and sometimes we just want to treat them * abstractly. */ private NetworkStateTracker mNetTrackers[]; /* * Handles captive portal check on a network. * Only set if device has {@link PackageManager#FEATURE_WIFI}. */ private CaptivePortalTracker mCaptivePortalTracker; /** * A per Net list of the PID's that requested access to the net * used both as a refcount and for per-PID DNS selection */ private List mNetRequestersPids[]; // priority order of the nettrackers // (excluding dynamically set mNetworkPreference) // TODO - move mNetworkTypePreference into this private int[] mPriorityList; private Context mContext; private int mNetworkPreference; private int mActiveDefaultNetwork = -1; // 0 is full bad, 100 is full good private int mDefaultInetCondition = 0; private int mDefaultInetConditionPublished = 0; private boolean mInetConditionChangeInFlight = false; private int mDefaultConnectionSequence = 0; private Object mDnsLock = new Object(); private int mNumDnsEntries; private boolean mTestMode; private static ConnectivityService sServiceInstance; private INetworkManagementService mNetd; private INetworkPolicyManager mPolicyManager; private static final int ENABLED = 1; private static final int DISABLED = 0; /** * used internally as a delayed event to make us switch back to the * default network */ private static final int EVENT_RESTORE_DEFAULT_NETWORK = 1; /** * used internally to change our mobile data enabled flag */ private static final int EVENT_CHANGE_MOBILE_DATA_ENABLED = 2; /** * used internally to synchronize inet condition reports * arg1 = networkType * arg2 = condition (0 bad, 100 good) */ private static final int EVENT_INET_CONDITION_CHANGE = 4; /** * used internally to mark the end of inet condition hold periods * arg1 = networkType */ private static final int EVENT_INET_CONDITION_HOLD_END = 5; /** * used internally to clear a wakelock when transitioning * from one net to another. Clear happens when we get a new * network - EVENT_EXPIRE_NET_TRANSITION_WAKELOCK happens * after a timeout if no network is found (typically 1 min). */ private static final int EVENT_CLEAR_NET_TRANSITION_WAKELOCK = 8; /** * used internally to reload global proxy settings */ private static final int EVENT_APPLY_GLOBAL_HTTP_PROXY = 9; /** * used internally to set external dependency met/unmet * arg1 = ENABLED (met) or DISABLED (unmet) * arg2 = NetworkType */ private static final int EVENT_SET_DEPENDENCY_MET = 10; /** * used internally to send a sticky broadcast delayed. */ private static final int EVENT_SEND_STICKY_BROADCAST_INTENT = 11; /** * Used internally to * {@link NetworkStateTracker#setPolicyDataEnable(boolean)}. */ private static final int EVENT_SET_POLICY_DATA_ENABLE = 12; /** * Used internally to disable fail fast of mobile data */ private static final int EVENT_ENABLE_FAIL_FAST_MOBILE_DATA = 14; /** * used internally to indicate that data sampling interval is up */ private static final int EVENT_SAMPLE_INTERVAL_ELAPSED = 15; /** * PAC manager has received new port. */ private static final int EVENT_PROXY_HAS_CHANGED = 16; /** * used internally when registering NetworkFactories * obj = NetworkFactoryInfo */ private static final int EVENT_REGISTER_NETWORK_FACTORY = 17; /** * used internally when registering NetworkAgents * obj = Messenger */ private static final int EVENT_REGISTER_NETWORK_AGENT = 18; /** * used to add a network request * includes a NetworkRequestInfo */ private static final int EVENT_REGISTER_NETWORK_REQUEST = 19; /** * indicates a timeout period is over - check if we had a network yet or not * and if not, call the timeout calback (but leave the request live until they * cancel it. * includes a NetworkRequestInfo */ private static final int EVENT_TIMEOUT_NETWORK_REQUEST = 20; /** * used to add a network listener - no request * includes a NetworkRequestInfo */ private static final int EVENT_REGISTER_NETWORK_LISTENER = 21; /** * used to remove a network request, either a listener or a real request * arg1 = UID of caller * obj = NetworkRequest */ private static final int EVENT_RELEASE_NETWORK_REQUEST = 22; /** * used internally when registering NetworkFactories * obj = Messenger */ private static final int EVENT_UNREGISTER_NETWORK_FACTORY = 23; /** * used internally to expire a wakelock when transitioning * from one net to another. Expire happens when we fail to find * a new network (typically after 1 minute) - * EVENT_CLEAR_NET_TRANSITION_WAKELOCK happens if we had found * a replacement network. */ private static final int EVENT_EXPIRE_NET_TRANSITION_WAKELOCK = 24; /** Handler used for internal events. */ final private InternalHandler mHandler; /** Handler used for incoming {@link NetworkStateTracker} events. */ final private NetworkStateTrackerHandler mTrackerHandler; // list of DeathRecipients used to make sure features are turned off when // a process dies private List mFeatureUsers; private boolean mSystemReady; private Intent mInitialBroadcast; private PowerManager.WakeLock mNetTransitionWakeLock; private String mNetTransitionWakeLockCausedBy = ""; private int mNetTransitionWakeLockSerialNumber; private int mNetTransitionWakeLockTimeout; private InetAddress mDefaultDns; // used in DBG mode to track inet condition reports private static final int INET_CONDITION_LOG_MAX_SIZE = 15; private ArrayList mInetLog; // track the current default http proxy - tell the world if we get a new one (real change) private ProxyInfo mDefaultProxy = null; private Object mProxyLock = new Object(); private boolean mDefaultProxyDisabled = false; // track the global proxy. private ProxyInfo mGlobalProxy = null; private PacManager mPacManager = null; private SettingsObserver mSettingsObserver; private UserManager mUserManager; NetworkConfig[] mNetConfigs; int mNetworksDefined; private static class RadioAttributes { public int mSimultaneity; public int mType; public RadioAttributes(String init) { String fragments[] = init.split(","); mType = Integer.parseInt(fragments[0]); mSimultaneity = Integer.parseInt(fragments[1]); } } RadioAttributes[] mRadioAttributes; // the set of network types that can only be enabled by system/sig apps List mProtectedNetworks; private DataConnectionStats mDataConnectionStats; private AtomicInteger mEnableFailFastMobileDataTag = new AtomicInteger(0); TelephonyManager mTelephonyManager; // sequence number for Networks private final static int MIN_NET_ID = 10; // some reserved marks private final static int MAX_NET_ID = 65535; private int mNextNetId = MIN_NET_ID; // sequence number of NetworkRequests private int mNextNetworkRequestId = 1; /** * Implements support for the legacy "one network per network type" model. * * We used to have a static array of NetworkStateTrackers, one for each * network type, but that doesn't work any more now that we can have, * for example, more that one wifi network. This class stores all the * NetworkAgentInfo objects that support a given type, but the legacy * API will only see the first one. * * It serves two main purposes: * * 1. Provide information about "the network for a given type" (since this * API only supports one). * 2. Send legacy connectivity change broadcasts. Broadcasts are sent if * the first network for a given type changes, or if the default network * changes. */ private class LegacyTypeTracker { /** * Array of lists, one per legacy network type (e.g., TYPE_MOBILE_MMS). * Each list holds references to all NetworkAgentInfos that are used to * satisfy requests for that network type. * * This array is built out at startup such that an unsupported network * doesn't get an ArrayList instance, making this a tristate: * unsupported, supported but not active and active. * * The actual lists are populated when we scan the network types that * are supported on this device. */ private ArrayList mTypeLists[]; public LegacyTypeTracker() { mTypeLists = (ArrayList[]) new ArrayList[ConnectivityManager.MAX_NETWORK_TYPE + 1]; } public void addSupportedType(int type) { if (mTypeLists[type] != null) { throw new IllegalStateException( "legacy list for type " + type + "already initialized"); } mTypeLists[type] = new ArrayList(); } private boolean isDefaultNetwork(NetworkAgentInfo nai) { return mNetworkForRequestId.get(mDefaultRequest.requestId) == nai; } public boolean isTypeSupported(int type) { return isNetworkTypeValid(type) && mTypeLists[type] != null; } public NetworkAgentInfo getNetworkForType(int type) { if (isTypeSupported(type) && !mTypeLists[type].isEmpty()) { return mTypeLists[type].get(0); } else { return null; } } public void add(int type, NetworkAgentInfo nai) { if (!isTypeSupported(type)) { return; // Invalid network type. } if (VDBG) log("Adding agent " + nai + " for legacy network type " + type); ArrayList list = mTypeLists[type]; if (list.contains(nai)) { loge("Attempting to register duplicate agent for type " + type + ": " + nai); return; } if (list.isEmpty() || isDefaultNetwork(nai)) { if (VDBG) log("Sending connected broadcast for type " + type + "isDefaultNetwork=" + isDefaultNetwork(nai)); sendLegacyNetworkBroadcast(nai, true, type); } list.add(nai); } public void remove(NetworkAgentInfo nai) { if (VDBG) log("Removing agent " + nai); for (int type = 0; type < mTypeLists.length; type++) { ArrayList list = mTypeLists[type]; if (list == null || list.isEmpty()) { continue; } boolean wasFirstNetwork = false; if (list.get(0).equals(nai)) { // This network was the first in the list. Send broadcast. wasFirstNetwork = true; } list.remove(nai); if (wasFirstNetwork || isDefaultNetwork(nai)) { if (VDBG) log("Sending disconnected broadcast for type " + type + "isDefaultNetwork=" + isDefaultNetwork(nai)); sendLegacyNetworkBroadcast(nai, false, type); } if (!list.isEmpty() && wasFirstNetwork) { if (VDBG) log("Other network available for type " + type + ", sending connected broadcast"); sendLegacyNetworkBroadcast(list.get(0), false, type); } } } } private LegacyTypeTracker mLegacyTypeTracker = new LegacyTypeTracker(); public ConnectivityService(Context context, INetworkManagementService netd, INetworkStatsService statsService, INetworkPolicyManager policyManager) { // Currently, omitting a NetworkFactory will create one internally // TODO: create here when we have cleaner WiMAX support this(context, netd, statsService, policyManager, null); } public ConnectivityService(Context context, INetworkManagementService netManager, INetworkStatsService statsService, INetworkPolicyManager policyManager, NetworkFactory netFactory) { if (DBG) log("ConnectivityService starting up"); NetworkCapabilities netCap = new NetworkCapabilities(); netCap.addCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET); netCap.addCapability(NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED); mDefaultRequest = new NetworkRequest(netCap, TYPE_NONE, nextNetworkRequestId()); NetworkRequestInfo nri = new NetworkRequestInfo(null, mDefaultRequest, new Binder(), NetworkRequestInfo.REQUEST); mNetworkRequests.put(mDefaultRequest, nri); HandlerThread handlerThread = new HandlerThread("ConnectivityServiceThread"); handlerThread.start(); mHandler = new InternalHandler(handlerThread.getLooper()); mTrackerHandler = new NetworkStateTrackerHandler(handlerThread.getLooper()); if (netFactory == null) { netFactory = new DefaultNetworkFactory(context, mTrackerHandler); } // setup our unique device name if (TextUtils.isEmpty(SystemProperties.get("net.hostname"))) { String id = Settings.Secure.getString(context.getContentResolver(), Settings.Secure.ANDROID_ID); if (id != null && id.length() > 0) { String name = new String("android-").concat(id); SystemProperties.set("net.hostname", name); } } // read our default dns server ip String dns = Settings.Global.getString(context.getContentResolver(), Settings.Global.DEFAULT_DNS_SERVER); if (dns == null || dns.length() == 0) { dns = context.getResources().getString( com.android.internal.R.string.config_default_dns_server); } try { mDefaultDns = NetworkUtils.numericToInetAddress(dns); } catch (IllegalArgumentException e) { loge("Error setting defaultDns using " + dns); } mContext = checkNotNull(context, "missing Context"); mNetd = checkNotNull(netManager, "missing INetworkManagementService"); mPolicyManager = checkNotNull(policyManager, "missing INetworkPolicyManager"); mKeyStore = KeyStore.getInstance(); mTelephonyManager = (TelephonyManager) mContext.getSystemService(Context.TELEPHONY_SERVICE); try { mPolicyManager.registerListener(mPolicyListener); } catch (RemoteException e) { // ouch, no rules updates means some processes may never get network loge("unable to register INetworkPolicyListener" + e.toString()); } final PowerManager powerManager = (PowerManager) context.getSystemService( Context.POWER_SERVICE); mNetTransitionWakeLock = powerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, TAG); mNetTransitionWakeLockTimeout = mContext.getResources().getInteger( com.android.internal.R.integer.config_networkTransitionTimeout); mNetTrackers = new NetworkStateTracker[ ConnectivityManager.MAX_NETWORK_TYPE+1]; mRadioAttributes = new RadioAttributes[ConnectivityManager.MAX_RADIO_TYPE+1]; mNetConfigs = new NetworkConfig[ConnectivityManager.MAX_NETWORK_TYPE+1]; // Load device network attributes from resources String[] raStrings = context.getResources().getStringArray( com.android.internal.R.array.radioAttributes); for (String raString : raStrings) { RadioAttributes r = new RadioAttributes(raString); if (VDBG) log("raString=" + raString + " r=" + r); if (r.mType > ConnectivityManager.MAX_RADIO_TYPE) { loge("Error in radioAttributes - ignoring attempt to define type " + r.mType); continue; } if (mRadioAttributes[r.mType] != null) { loge("Error in radioAttributes - ignoring attempt to redefine type " + r.mType); continue; } mRadioAttributes[r.mType] = r; } // TODO: What is the "correct" way to do determine if this is a wifi only device? boolean wifiOnly = SystemProperties.getBoolean("ro.radio.noril", false); log("wifiOnly=" + wifiOnly); String[] naStrings = context.getResources().getStringArray( com.android.internal.R.array.networkAttributes); for (String naString : naStrings) { try { NetworkConfig n = new NetworkConfig(naString); if (VDBG) log("naString=" + naString + " config=" + n); if (n.type > ConnectivityManager.MAX_NETWORK_TYPE) { loge("Error in networkAttributes - ignoring attempt to define type " + n.type); continue; } if (wifiOnly && ConnectivityManager.isNetworkTypeMobile(n.type)) { log("networkAttributes - ignoring mobile as this dev is wifiOnly " + n.type); continue; } if (mNetConfigs[n.type] != null) { loge("Error in networkAttributes - ignoring attempt to redefine type " + n.type); continue; } if (mRadioAttributes[n.radio] == null) { loge("Error in networkAttributes - ignoring attempt to use undefined " + "radio " + n.radio + " in network type " + n.type); continue; } mLegacyTypeTracker.addSupportedType(n.type); mNetConfigs[n.type] = n; mNetworksDefined++; } catch(Exception e) { // ignore it - leave the entry null } } if (VDBG) log("mNetworksDefined=" + mNetworksDefined); mProtectedNetworks = new ArrayList(); int[] protectedNetworks = context.getResources().getIntArray( com.android.internal.R.array.config_protectedNetworks); for (int p : protectedNetworks) { if ((mNetConfigs[p] != null) && (mProtectedNetworks.contains(p) == false)) { mProtectedNetworks.add(p); } else { if (DBG) loge("Ignoring protectedNetwork " + p); } } // high priority first mPriorityList = new int[mNetworksDefined]; { int insertionPoint = mNetworksDefined-1; int currentLowest = 0; int nextLowest = 0; while (insertionPoint > -1) { for (NetworkConfig na : mNetConfigs) { if (na == null) continue; if (na.priority < currentLowest) continue; if (na.priority > currentLowest) { if (na.priority < nextLowest || nextLowest == 0) { nextLowest = na.priority; } continue; } mPriorityList[insertionPoint--] = na.type; } currentLowest = nextLowest; nextLowest = 0; } } mNetRequestersPids = (List [])new ArrayList[ConnectivityManager.MAX_NETWORK_TYPE+1]; for (int i : mPriorityList) { mNetRequestersPids[i] = new ArrayList(); } mFeatureUsers = new ArrayList(); mTestMode = SystemProperties.get("cm.test.mode").equals("true") && SystemProperties.get("ro.build.type").equals("eng"); // Create and start trackers for hard-coded networks for (int targetNetworkType : mPriorityList) { final NetworkConfig config = mNetConfigs[targetNetworkType]; final NetworkStateTracker tracker; try { tracker = netFactory.createTracker(targetNetworkType, config); mNetTrackers[targetNetworkType] = tracker; } catch (IllegalArgumentException e) { Slog.e(TAG, "Problem creating " + getNetworkTypeName(targetNetworkType) + " tracker: " + e); continue; } tracker.startMonitoring(context, mTrackerHandler); if (config.isDefault()) { tracker.reconnect(); } } mTethering = new Tethering(mContext, mNetd, statsService, mHandler.getLooper()); //set up the listener for user state for creating user VPNs IntentFilter intentFilter = new IntentFilter(); intentFilter.addAction(Intent.ACTION_USER_STARTING); intentFilter.addAction(Intent.ACTION_USER_STOPPING); mContext.registerReceiverAsUser( mUserIntentReceiver, UserHandle.ALL, intentFilter, null, null); mClat = new Nat464Xlat(mContext, mNetd, this, mTrackerHandler); try { mNetd.registerObserver(mTethering); mNetd.registerObserver(mDataActivityObserver); mNetd.registerObserver(mClat); } catch (RemoteException e) { loge("Error registering observer :" + e); } if (DBG) { mInetLog = new ArrayList(); } mSettingsObserver = new SettingsObserver(mHandler, EVENT_APPLY_GLOBAL_HTTP_PROXY); mSettingsObserver.observe(mContext); mDataConnectionStats = new DataConnectionStats(mContext); mDataConnectionStats.startMonitoring(); mAlarmManager = (AlarmManager)mContext.getSystemService(Context.ALARM_SERVICE); IntentFilter filter = new IntentFilter(); filter.addAction(ACTION_PKT_CNT_SAMPLE_INTERVAL_ELAPSED); mContext.registerReceiver( new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { String action = intent.getAction(); if (action.equals(ACTION_PKT_CNT_SAMPLE_INTERVAL_ELAPSED)) { mHandler.sendMessage(mHandler.obtainMessage (EVENT_SAMPLE_INTERVAL_ELAPSED)); } } }, new IntentFilter(filter)); mPacManager = new PacManager(mContext, mHandler, EVENT_PROXY_HAS_CHANGED); filter = new IntentFilter(); filter.addAction(CONNECTED_TO_PROVISIONING_NETWORK_ACTION); mContext.registerReceiver(mProvisioningReceiver, filter); mUserManager = (UserManager) context.getSystemService(Context.USER_SERVICE); } private synchronized int nextNetworkRequestId() { return mNextNetworkRequestId++; } private synchronized int nextNetId() { int netId = mNextNetId; if (++mNextNetId > MAX_NET_ID) mNextNetId = MIN_NET_ID; return netId; } /** * Factory that creates {@link NetworkStateTracker} instances using given * {@link NetworkConfig}. * * TODO - this is obsolete and will be deleted. It's replaced by the * registerNetworkFactory call and protocol. * @Deprecated in favor of registerNetworkFactory dynamic bindings */ public interface NetworkFactory { public NetworkStateTracker createTracker(int targetNetworkType, NetworkConfig config); } private static class DefaultNetworkFactory implements NetworkFactory { private final Context mContext; private final Handler mTrackerHandler; public DefaultNetworkFactory(Context context, Handler trackerHandler) { mContext = context; mTrackerHandler = trackerHandler; } @Override public NetworkStateTracker createTracker(int targetNetworkType, NetworkConfig config) { switch (config.radio) { case TYPE_WIMAX: return makeWimaxStateTracker(mContext, mTrackerHandler); case TYPE_PROXY: return new ProxyDataTracker(); default: throw new IllegalArgumentException( "Trying to create a NetworkStateTracker for an unknown radio type: " + config.radio); } } } /** * Loads external WiMAX library and registers as system service, returning a * {@link NetworkStateTracker} for WiMAX. Caller is still responsible for * invoking {@link NetworkStateTracker#startMonitoring(Context, Handler)}. */ private static NetworkStateTracker makeWimaxStateTracker( Context context, Handler trackerHandler) { // Initialize Wimax DexClassLoader wimaxClassLoader; Class wimaxStateTrackerClass = null; Class wimaxServiceClass = null; Class wimaxManagerClass; String wimaxJarLocation; String wimaxLibLocation; String wimaxManagerClassName; String wimaxServiceClassName; String wimaxStateTrackerClassName; NetworkStateTracker wimaxStateTracker = null; boolean isWimaxEnabled = context.getResources().getBoolean( com.android.internal.R.bool.config_wimaxEnabled); if (isWimaxEnabled) { try { wimaxJarLocation = context.getResources().getString( com.android.internal.R.string.config_wimaxServiceJarLocation); wimaxLibLocation = context.getResources().getString( com.android.internal.R.string.config_wimaxNativeLibLocation); wimaxManagerClassName = context.getResources().getString( com.android.internal.R.string.config_wimaxManagerClassname); wimaxServiceClassName = context.getResources().getString( com.android.internal.R.string.config_wimaxServiceClassname); wimaxStateTrackerClassName = context.getResources().getString( com.android.internal.R.string.config_wimaxStateTrackerClassname); if (DBG) log("wimaxJarLocation: " + wimaxJarLocation); wimaxClassLoader = new DexClassLoader(wimaxJarLocation, new ContextWrapper(context).getCacheDir().getAbsolutePath(), wimaxLibLocation, ClassLoader.getSystemClassLoader()); try { wimaxManagerClass = wimaxClassLoader.loadClass(wimaxManagerClassName); wimaxStateTrackerClass = wimaxClassLoader.loadClass(wimaxStateTrackerClassName); wimaxServiceClass = wimaxClassLoader.loadClass(wimaxServiceClassName); } catch (ClassNotFoundException ex) { loge("Exception finding Wimax classes: " + ex.toString()); return null; } } catch(Resources.NotFoundException ex) { loge("Wimax Resources does not exist!!! "); return null; } try { if (DBG) log("Starting Wimax Service... "); Constructor wmxStTrkrConst = wimaxStateTrackerClass.getConstructor (new Class[] {Context.class, Handler.class}); wimaxStateTracker = (NetworkStateTracker) wmxStTrkrConst.newInstance( context, trackerHandler); Constructor wmxSrvConst = wimaxServiceClass.getDeclaredConstructor (new Class[] {Context.class, wimaxStateTrackerClass}); wmxSrvConst.setAccessible(true); IBinder svcInvoker = (IBinder)wmxSrvConst.newInstance(context, wimaxStateTracker); wmxSrvConst.setAccessible(false); ServiceManager.addService(WimaxManagerConstants.WIMAX_SERVICE, svcInvoker); } catch(Exception ex) { loge("Exception creating Wimax classes: " + ex.toString()); return null; } } else { loge("Wimax is not enabled or not added to the network attributes!!! "); return null; } return wimaxStateTracker; } private int getConnectivityChangeDelay() { final ContentResolver cr = mContext.getContentResolver(); /** Check system properties for the default value then use secure settings value, if any. */ int defaultDelay = SystemProperties.getInt( "conn." + Settings.Global.CONNECTIVITY_CHANGE_DELAY, ConnectivityManager.CONNECTIVITY_CHANGE_DELAY_DEFAULT); return Settings.Global.getInt(cr, Settings.Global.CONNECTIVITY_CHANGE_DELAY, defaultDelay); } private boolean teardown(NetworkStateTracker netTracker) { if (netTracker.teardown()) { netTracker.setTeardownRequested(true); return true; } else { return false; } } /** * Check if UID should be blocked from using the network represented by the * given {@link NetworkStateTracker}. */ private boolean isNetworkBlocked(int networkType, int uid) { final boolean networkCostly; final int uidRules; LinkProperties lp = getLinkPropertiesForType(networkType); final String iface = (lp == null ? "" : lp.getInterfaceName()); synchronized (mRulesLock) { networkCostly = mMeteredIfaces.contains(iface); uidRules = mUidRules.get(uid, RULE_ALLOW_ALL); } if (networkCostly && (uidRules & RULE_REJECT_METERED) != 0) { return true; } // no restrictive rules; network is visible return false; } /** * Return a filtered {@link NetworkInfo}, potentially marked * {@link DetailedState#BLOCKED} based on * {@link #isNetworkBlocked}. */ private NetworkInfo getFilteredNetworkInfo(int networkType, int uid) { NetworkInfo info = getNetworkInfoForType(networkType); return getFilteredNetworkInfo(info, networkType, uid); } private NetworkInfo getFilteredNetworkInfo(NetworkInfo info, int networkType, int uid) { if (isNetworkBlocked(networkType, uid)) { // network is blocked; clone and override state info = new NetworkInfo(info); info.setDetailedState(DetailedState.BLOCKED, null, null); } if (mLockdownTracker != null) { info = mLockdownTracker.augmentNetworkInfo(info); } return info; } /** * Return NetworkInfo for the active (i.e., connected) network interface. * It is assumed that at most one network is active at a time. If more * than one is active, it is indeterminate which will be returned. * @return the info for the active network, or {@code null} if none is * active */ @Override public NetworkInfo getActiveNetworkInfo() { enforceAccessPermission(); final int uid = Binder.getCallingUid(); return getNetworkInfo(mActiveDefaultNetwork, uid); } // only called when the default request is satisfied private void updateActiveDefaultNetwork(NetworkAgentInfo nai) { if (nai != null) { mActiveDefaultNetwork = nai.networkInfo.getType(); } else { mActiveDefaultNetwork = TYPE_NONE; } } /** * Find the first Provisioning network. * * @return NetworkInfo or null if none. */ private NetworkInfo getProvisioningNetworkInfo() { enforceAccessPermission(); // Find the first Provisioning Network NetworkInfo provNi = null; for (NetworkInfo ni : getAllNetworkInfo()) { if (ni.isConnectedToProvisioningNetwork()) { provNi = ni; break; } } if (DBG) log("getProvisioningNetworkInfo: X provNi=" + provNi); return provNi; } /** * Find the first Provisioning network or the ActiveDefaultNetwork * if there is no Provisioning network * * @return NetworkInfo or null if none. */ @Override public NetworkInfo getProvisioningOrActiveNetworkInfo() { enforceAccessPermission(); NetworkInfo provNi = getProvisioningNetworkInfo(); if (provNi == null) { final int uid = Binder.getCallingUid(); provNi = getNetworkInfo(mActiveDefaultNetwork, uid); } if (DBG) log("getProvisioningOrActiveNetworkInfo: X provNi=" + provNi); return provNi; } public NetworkInfo getActiveNetworkInfoUnfiltered() { enforceAccessPermission(); if (isNetworkTypeValid(mActiveDefaultNetwork)) { return getNetworkInfoForType(mActiveDefaultNetwork); } return null; } @Override public NetworkInfo getActiveNetworkInfoForUid(int uid) { enforceConnectivityInternalPermission(); return getNetworkInfo(mActiveDefaultNetwork, uid); } @Override public NetworkInfo getNetworkInfo(int networkType) { enforceAccessPermission(); final int uid = Binder.getCallingUid(); return getNetworkInfo(networkType, uid); } private NetworkInfo getNetworkInfo(int networkType, int uid) { NetworkInfo info = null; if (isNetworkTypeValid(networkType)) { if (getNetworkInfoForType(networkType) != null) { info = getFilteredNetworkInfo(networkType, uid); } } return info; } @Override public NetworkInfo getNetworkInfoForNetwork(Network network) { enforceAccessPermission(); if (network == null) return null; final int uid = Binder.getCallingUid(); NetworkAgentInfo nai = null; synchronized (mNetworkForNetId) { nai = mNetworkForNetId.get(network.netId); } if (nai == null) return null; synchronized (nai) { if (nai.networkInfo == null) return null; return getFilteredNetworkInfo(nai.networkInfo, nai.networkInfo.getType(), uid); } } @Override public NetworkInfo[] getAllNetworkInfo() { enforceAccessPermission(); final int uid = Binder.getCallingUid(); final ArrayList result = Lists.newArrayList(); synchronized (mRulesLock) { for (int networkType = 0; networkType <= ConnectivityManager.MAX_NETWORK_TYPE; networkType++) { if (getNetworkInfoForType(networkType) != null) { result.add(getFilteredNetworkInfo(networkType, uid)); } } } return result.toArray(new NetworkInfo[result.size()]); } @Override public Network[] getAllNetworks() { enforceAccessPermission(); final ArrayList result = new ArrayList(); synchronized (mNetworkForNetId) { for (int i = 0; i < mNetworkForNetId.size(); i++) { result.add(new Network(mNetworkForNetId.valueAt(i).network)); } } return result.toArray(new Network[result.size()]); } @Override public boolean isNetworkSupported(int networkType) { enforceAccessPermission(); return (isNetworkTypeValid(networkType) && (getNetworkInfoForType(networkType) != null)); } /** * Return LinkProperties for the active (i.e., connected) default * network interface. It is assumed that at most one default network * is active at a time. If more than one is active, it is indeterminate * which will be returned. * @return the ip properties for the active network, or {@code null} if * none is active */ @Override public LinkProperties getActiveLinkProperties() { return getLinkPropertiesForType(mActiveDefaultNetwork); } @Override public LinkProperties getLinkPropertiesForType(int networkType) { enforceAccessPermission(); if (isNetworkTypeValid(networkType)) { return getLinkPropertiesForTypeInternal(networkType); } return null; } // TODO - this should be ALL networks @Override public LinkProperties getLinkProperties(Network network) { enforceAccessPermission(); NetworkAgentInfo nai = null; synchronized (mNetworkForNetId) { nai = mNetworkForNetId.get(network.netId); } if (nai != null) { synchronized (nai) { return new LinkProperties(nai.linkProperties); } } return null; } @Override public NetworkCapabilities getNetworkCapabilities(Network network) { enforceAccessPermission(); NetworkAgentInfo nai = null; synchronized (mNetworkForNetId) { nai = mNetworkForNetId.get(network.netId); } if (nai != null) { synchronized (nai) { return new NetworkCapabilities(nai.networkCapabilities); } } return null; } @Override public NetworkState[] getAllNetworkState() { enforceAccessPermission(); final int uid = Binder.getCallingUid(); final ArrayList result = Lists.newArrayList(); synchronized (mRulesLock) { for (int networkType = 0; networkType <= ConnectivityManager.MAX_NETWORK_TYPE; networkType++) { if (getNetworkInfoForType(networkType) != null) { final NetworkInfo info = getFilteredNetworkInfo(networkType, uid); final LinkProperties lp = getLinkPropertiesForTypeInternal(networkType); final NetworkCapabilities netcap = getNetworkCapabilitiesForType(networkType); result.add(new NetworkState(info, lp, netcap)); } } } return result.toArray(new NetworkState[result.size()]); } private NetworkState getNetworkStateUnchecked(int networkType) { if (isNetworkTypeValid(networkType)) { NetworkInfo info = getNetworkInfoForType(networkType); if (info != null) { return new NetworkState(info, getLinkPropertiesForTypeInternal(networkType), getNetworkCapabilitiesForType(networkType)); } } return null; } @Override public NetworkQuotaInfo getActiveNetworkQuotaInfo() { enforceAccessPermission(); final long token = Binder.clearCallingIdentity(); try { final NetworkState state = getNetworkStateUnchecked(mActiveDefaultNetwork); if (state != null) { try { return mPolicyManager.getNetworkQuotaInfo(state); } catch (RemoteException e) { } } return null; } finally { Binder.restoreCallingIdentity(token); } } @Override public boolean isActiveNetworkMetered() { enforceAccessPermission(); final long token = Binder.clearCallingIdentity(); try { return isNetworkMeteredUnchecked(mActiveDefaultNetwork); } finally { Binder.restoreCallingIdentity(token); } } private boolean isNetworkMeteredUnchecked(int networkType) { final NetworkState state = getNetworkStateUnchecked(networkType); if (state != null) { try { return mPolicyManager.isNetworkMetered(state); } catch (RemoteException e) { } } return false; } private INetworkManagementEventObserver mDataActivityObserver = new BaseNetworkObserver() { @Override public void interfaceClassDataActivityChanged(String label, boolean active, long tsNanos) { int deviceType = Integer.parseInt(label); sendDataActivityBroadcast(deviceType, active, tsNanos); } }; /** * Used to notice when the calling process dies so we can self-expire * * Also used to know if the process has cleaned up after itself when * our auto-expire timer goes off. The timer has a link to an object. * */ private class FeatureUser implements IBinder.DeathRecipient { int mNetworkType; String mFeature; IBinder mBinder; int mPid; int mUid; long mCreateTime; FeatureUser(int type, String feature, IBinder binder) { super(); mNetworkType = type; mFeature = feature; mBinder = binder; mPid = getCallingPid(); mUid = getCallingUid(); mCreateTime = System.currentTimeMillis(); try { mBinder.linkToDeath(this, 0); } catch (RemoteException e) { binderDied(); } } void unlinkDeathRecipient() { mBinder.unlinkToDeath(this, 0); } public void binderDied() { log("ConnectivityService FeatureUser binderDied(" + mNetworkType + ", " + mFeature + ", " + mBinder + "), created " + (System.currentTimeMillis() - mCreateTime) + " mSec ago"); stopUsingNetworkFeature(this, false); } public void expire() { if (VDBG) { log("ConnectivityService FeatureUser expire(" + mNetworkType + ", " + mFeature + ", " + mBinder +"), created " + (System.currentTimeMillis() - mCreateTime) + " mSec ago"); } stopUsingNetworkFeature(this, false); } public boolean isSameUser(FeatureUser u) { if (u == null) return false; return isSameUser(u.mPid, u.mUid, u.mNetworkType, u.mFeature); } public boolean isSameUser(int pid, int uid, int networkType, String feature) { if ((mPid == pid) && (mUid == uid) && (mNetworkType == networkType) && TextUtils.equals(mFeature, feature)) { return true; } return false; } public String toString() { return "FeatureUser("+mNetworkType+","+mFeature+","+mPid+","+mUid+"), created " + (System.currentTimeMillis() - mCreateTime) + " mSec ago"; } } // javadoc from interface public int startUsingNetworkFeature(int networkType, String feature, IBinder binder) { long startTime = 0; if (DBG) { startTime = SystemClock.elapsedRealtime(); } if (VDBG) { log("startUsingNetworkFeature for net " + networkType + ": " + feature + ", uid=" + Binder.getCallingUid()); } enforceChangePermission(); try { if (!ConnectivityManager.isNetworkTypeValid(networkType) || mNetConfigs[networkType] == null) { return PhoneConstants.APN_REQUEST_FAILED; } FeatureUser f = new FeatureUser(networkType, feature, binder); // TODO - move this into individual networktrackers int usedNetworkType = convertFeatureToNetworkType(networkType, feature); if (mLockdownEnabled) { // Since carrier APNs usually aren't available from VPN // endpoint, mark them as unavailable. return PhoneConstants.APN_TYPE_NOT_AVAILABLE; } if (mProtectedNetworks.contains(usedNetworkType)) { enforceConnectivityInternalPermission(); } // if UID is restricted, don't allow them to bring up metered APNs final boolean networkMetered = isNetworkMeteredUnchecked(usedNetworkType); final int uidRules; synchronized (mRulesLock) { uidRules = mUidRules.get(Binder.getCallingUid(), RULE_ALLOW_ALL); } if (networkMetered && (uidRules & RULE_REJECT_METERED) != 0) { return PhoneConstants.APN_REQUEST_FAILED; } NetworkStateTracker network = mNetTrackers[usedNetworkType]; if (network != null) { Integer currentPid = new Integer(getCallingPid()); if (usedNetworkType != networkType) { NetworkInfo ni = network.getNetworkInfo(); if (ni.isAvailable() == false) { if (!TextUtils.equals(feature,Phone.FEATURE_ENABLE_DUN_ALWAYS)) { if (DBG) log("special network not available ni=" + ni.getTypeName()); return PhoneConstants.APN_TYPE_NOT_AVAILABLE; } else { // else make the attempt anyway - probably giving REQUEST_STARTED below if (DBG) { log("special network not available, but try anyway ni=" + ni.getTypeName()); } } } int restoreTimer = getRestoreDefaultNetworkDelay(usedNetworkType); synchronized(this) { boolean addToList = true; if (restoreTimer < 0) { // In case there is no timer is specified for the feature, // make sure we don't add duplicate entry with the same request. for (FeatureUser u : mFeatureUsers) { if (u.isSameUser(f)) { // Duplicate user is found. Do not add. addToList = false; break; } } } if (addToList) mFeatureUsers.add(f); if (!mNetRequestersPids[usedNetworkType].contains(currentPid)) { // this gets used for per-pid dns when connected mNetRequestersPids[usedNetworkType].add(currentPid); } } if (restoreTimer >= 0) { mHandler.sendMessageDelayed(mHandler.obtainMessage( EVENT_RESTORE_DEFAULT_NETWORK, f), restoreTimer); } if ((ni.isConnectedOrConnecting() == true) && !network.isTeardownRequested()) { if (ni.isConnected() == true) { final long token = Binder.clearCallingIdentity(); try { // add the pid-specific dns handleDnsConfigurationChange(usedNetworkType); if (VDBG) log("special network already active"); } finally { Binder.restoreCallingIdentity(token); } return PhoneConstants.APN_ALREADY_ACTIVE; } if (VDBG) log("special network already connecting"); return PhoneConstants.APN_REQUEST_STARTED; } // check if the radio in play can make another contact // assume if cannot for now if (DBG) { log("startUsingNetworkFeature reconnecting to " + networkType + ": " + feature); } if (network.reconnect()) { if (DBG) log("startUsingNetworkFeature X: return APN_REQUEST_STARTED"); return PhoneConstants.APN_REQUEST_STARTED; } else { if (DBG) log("startUsingNetworkFeature X: return APN_REQUEST_FAILED"); return PhoneConstants.APN_REQUEST_FAILED; } } else { // need to remember this unsupported request so we respond appropriately on stop synchronized(this) { mFeatureUsers.add(f); if (!mNetRequestersPids[usedNetworkType].contains(currentPid)) { // this gets used for per-pid dns when connected mNetRequestersPids[usedNetworkType].add(currentPid); } } if (DBG) log("startUsingNetworkFeature X: return -1 unsupported feature."); return -1; } } if (DBG) log("startUsingNetworkFeature X: return APN_TYPE_NOT_AVAILABLE"); return PhoneConstants.APN_TYPE_NOT_AVAILABLE; } finally { if (DBG) { final long execTime = SystemClock.elapsedRealtime() - startTime; if (execTime > 250) { loge("startUsingNetworkFeature took too long: " + execTime + "ms"); } else { if (VDBG) log("startUsingNetworkFeature took " + execTime + "ms"); } } } } // javadoc from interface public int stopUsingNetworkFeature(int networkType, String feature) { enforceChangePermission(); int pid = getCallingPid(); int uid = getCallingUid(); FeatureUser u = null; boolean found = false; synchronized(this) { for (FeatureUser x : mFeatureUsers) { if (x.isSameUser(pid, uid, networkType, feature)) { u = x; found = true; break; } } } if (found && u != null) { if (VDBG) log("stopUsingNetworkFeature: X"); // stop regardless of how many other time this proc had called start return stopUsingNetworkFeature(u, true); } else { // none found! if (VDBG) log("stopUsingNetworkFeature: X not a live request, ignoring"); return 1; } } private int stopUsingNetworkFeature(FeatureUser u, boolean ignoreDups) { int networkType = u.mNetworkType; String feature = u.mFeature; int pid = u.mPid; int uid = u.mUid; NetworkStateTracker tracker = null; boolean callTeardown = false; // used to carry our decision outside of sync block if (VDBG) { log("stopUsingNetworkFeature: net " + networkType + ": " + feature); } if (!ConnectivityManager.isNetworkTypeValid(networkType)) { if (DBG) { log("stopUsingNetworkFeature: net " + networkType + ": " + feature + ", net is invalid"); } return -1; } // need to link the mFeatureUsers list with the mNetRequestersPids state in this // sync block synchronized(this) { // check if this process still has an outstanding start request if (!mFeatureUsers.contains(u)) { if (VDBG) { log("stopUsingNetworkFeature: this process has no outstanding requests" + ", ignoring"); } return 1; } u.unlinkDeathRecipient(); mFeatureUsers.remove(mFeatureUsers.indexOf(u)); // If we care about duplicate requests, check for that here. // // This is done to support the extension of a request - the app // can request we start the network feature again and renew the // auto-shutoff delay. Normal "stop" calls from the app though // do not pay attention to duplicate requests - in effect the // API does not refcount and a single stop will counter multiple starts. if (ignoreDups == false) { for (FeatureUser x : mFeatureUsers) { if (x.isSameUser(u)) { if (VDBG) log("stopUsingNetworkFeature: dup is found, ignoring"); return 1; } } } // TODO - move to individual network trackers int usedNetworkType = convertFeatureToNetworkType(networkType, feature); tracker = mNetTrackers[usedNetworkType]; if (tracker == null) { if (DBG) { log("stopUsingNetworkFeature: net " + networkType + ": " + feature + " no known tracker for used net type " + usedNetworkType); } return -1; } if (usedNetworkType != networkType) { Integer currentPid = new Integer(pid); mNetRequestersPids[usedNetworkType].remove(currentPid); final long token = Binder.clearCallingIdentity(); try { reassessPidDns(pid, true); } finally { Binder.restoreCallingIdentity(token); } flushVmDnsCache(); if (mNetRequestersPids[usedNetworkType].size() != 0) { if (VDBG) { log("stopUsingNetworkFeature: net " + networkType + ": " + feature + " others still using it"); } return 1; } callTeardown = true; } else { if (DBG) { log("stopUsingNetworkFeature: net " + networkType + ": " + feature + " not a known feature - dropping"); } } } if (callTeardown) { if (DBG) { log("stopUsingNetworkFeature: teardown net " + networkType + ": " + feature); } tracker.teardown(); return 1; } else { return -1; } } /** * Ensure that a network route exists to deliver traffic to the specified * host via the specified network interface. * @param networkType the type of the network over which traffic to the * specified host is to be routed * @param hostAddress the IP address of the host to which the route is * desired * @return {@code true} on success, {@code false} on failure */ public boolean requestRouteToHostAddress(int networkType, byte[] hostAddress) { enforceChangePermission(); if (mProtectedNetworks.contains(networkType)) { enforceConnectivityInternalPermission(); } InetAddress addr; try { addr = InetAddress.getByAddress(hostAddress); } catch (UnknownHostException e) { if (DBG) log("requestRouteToHostAddress got " + e.toString()); return false; } if (!ConnectivityManager.isNetworkTypeValid(networkType)) { if (DBG) log("requestRouteToHostAddress on invalid network: " + networkType); return false; } NetworkAgentInfo nai = mLegacyTypeTracker.getNetworkForType(networkType); if (nai == null) { if (mLegacyTypeTracker.isTypeSupported(networkType) == false) { if (DBG) log("requestRouteToHostAddress on unsupported network: " + networkType); } else { if (DBG) log("requestRouteToHostAddress on down network: " + networkType); } return false; } DetailedState netState; synchronized (nai) { netState = nai.networkInfo.getDetailedState(); } if (netState != DetailedState.CONNECTED && netState != DetailedState.CAPTIVE_PORTAL_CHECK) { if (VDBG) { log("requestRouteToHostAddress on down network " + "(" + networkType + ") - dropped" + " netState=" + netState); } return false; } final int uid = Binder.getCallingUid(); final long token = Binder.clearCallingIdentity(); try { LinkProperties lp; int netId; synchronized (nai) { lp = nai.linkProperties; netId = nai.network.netId; } boolean ok = addLegacyRouteToHost(lp, addr, netId, uid); if (DBG) log("requestRouteToHostAddress ok=" + ok); return ok; } finally { Binder.restoreCallingIdentity(token); } } private boolean addLegacyRouteToHost(LinkProperties lp, InetAddress addr, int netId, int uid) { RouteInfo bestRoute = RouteInfo.selectBestRoute(lp.getAllRoutes(), addr); if (bestRoute == null) { bestRoute = RouteInfo.makeHostRoute(addr, lp.getInterfaceName()); } else { String iface = bestRoute.getInterface(); if (bestRoute.getGateway().equals(addr)) { // if there is no better route, add the implied hostroute for our gateway bestRoute = RouteInfo.makeHostRoute(addr, iface); } else { // if we will connect to this through another route, add a direct route // to it's gateway bestRoute = RouteInfo.makeHostRoute(addr, bestRoute.getGateway(), iface); } } if (VDBG) log("Adding " + bestRoute + " for interface " + bestRoute.getInterface()); try { mNetd.addLegacyRouteForNetId(netId, bestRoute, uid); } catch (Exception e) { // never crash - catch them all if (DBG) loge("Exception trying to add a route: " + e); return false; } return true; } public void setDataDependency(int networkType, boolean met) { enforceConnectivityInternalPermission(); mHandler.sendMessage(mHandler.obtainMessage(EVENT_SET_DEPENDENCY_MET, (met ? ENABLED : DISABLED), networkType)); } private void handleSetDependencyMet(int networkType, boolean met) { if (mNetTrackers[networkType] != null) { if (DBG) { log("handleSetDependencyMet(" + networkType + ", " + met + ")"); } mNetTrackers[networkType].setDependencyMet(met); } } private INetworkPolicyListener mPolicyListener = new INetworkPolicyListener.Stub() { @Override public void onUidRulesChanged(int uid, int uidRules) { // caller is NPMS, since we only register with them if (LOGD_RULES) { log("onUidRulesChanged(uid=" + uid + ", uidRules=" + uidRules + ")"); } synchronized (mRulesLock) { // skip update when we've already applied rules final int oldRules = mUidRules.get(uid, RULE_ALLOW_ALL); if (oldRules == uidRules) return; mUidRules.put(uid, uidRules); } // TODO: notify UID when it has requested targeted updates } @Override public void onMeteredIfacesChanged(String[] meteredIfaces) { // caller is NPMS, since we only register with them if (LOGD_RULES) { log("onMeteredIfacesChanged(ifaces=" + Arrays.toString(meteredIfaces) + ")"); } synchronized (mRulesLock) { mMeteredIfaces.clear(); for (String iface : meteredIfaces) { mMeteredIfaces.add(iface); } } } @Override public void onRestrictBackgroundChanged(boolean restrictBackground) { // caller is NPMS, since we only register with them if (LOGD_RULES) { log("onRestrictBackgroundChanged(restrictBackground=" + restrictBackground + ")"); } // kick off connectivity change broadcast for active network, since // global background policy change is radical. final int networkType = mActiveDefaultNetwork; if (isNetworkTypeValid(networkType)) { final NetworkStateTracker tracker = mNetTrackers[networkType]; if (tracker != null) { final NetworkInfo info = tracker.getNetworkInfo(); if (info != null && info.isConnected()) { sendConnectedBroadcast(info); } } } } }; @Override public void setPolicyDataEnable(int networkType, boolean enabled) { // only someone like NPMS should only be calling us mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG); mHandler.sendMessage(mHandler.obtainMessage( EVENT_SET_POLICY_DATA_ENABLE, networkType, (enabled ? ENABLED : DISABLED))); } private void handleSetPolicyDataEnable(int networkType, boolean enabled) { // TODO - handle this passing to factories // if (isNetworkTypeValid(networkType)) { // final NetworkStateTracker tracker = mNetTrackers[networkType]; // if (tracker != null) { // tracker.setPolicyDataEnable(enabled); // } // } } private void enforceAccessPermission() { mContext.enforceCallingOrSelfPermission( android.Manifest.permission.ACCESS_NETWORK_STATE, "ConnectivityService"); } private void enforceChangePermission() { mContext.enforceCallingOrSelfPermission( android.Manifest.permission.CHANGE_NETWORK_STATE, "ConnectivityService"); } // TODO Make this a special check when it goes public private void enforceTetherChangePermission() { mContext.enforceCallingOrSelfPermission( android.Manifest.permission.CHANGE_NETWORK_STATE, "ConnectivityService"); } private void enforceTetherAccessPermission() { mContext.enforceCallingOrSelfPermission( android.Manifest.permission.ACCESS_NETWORK_STATE, "ConnectivityService"); } private void enforceConnectivityInternalPermission() { mContext.enforceCallingOrSelfPermission( android.Manifest.permission.CONNECTIVITY_INTERNAL, "ConnectivityService"); } /** * Handle a {@code DISCONNECTED} event. If this pertains to the non-active * network, we ignore it. If it is for the active network, we send out a * broadcast. But first, we check whether it might be possible to connect * to a different network. * @param info the {@code NetworkInfo} for the network */ private void handleDisconnect(NetworkInfo info) { int prevNetType = info.getType(); mNetTrackers[prevNetType].setTeardownRequested(false); int thisNetId = mNetTrackers[prevNetType].getNetwork().netId; // Remove idletimer previously setup in {@code handleConnect} // Already in place in new function. This is dead code. // if (mNetConfigs[prevNetType].isDefault()) { // removeDataActivityTracking(prevNetType); // } /* * If the disconnected network is not the active one, then don't report * this as a loss of connectivity. What probably happened is that we're * getting the disconnect for a network that we explicitly disabled * in accordance with network preference policies. */ if (!mNetConfigs[prevNetType].isDefault()) { List pids = mNetRequestersPids[prevNetType]; for (Integer pid : pids) { // will remove them because the net's no longer connected // need to do this now as only now do we know the pids and // can properly null things that are no longer referenced. reassessPidDns(pid.intValue(), false); } } Intent intent = new Intent(ConnectivityManager.CONNECTIVITY_ACTION); intent.putExtra(ConnectivityManager.EXTRA_NETWORK_INFO, new NetworkInfo(info)); intent.putExtra(ConnectivityManager.EXTRA_NETWORK_TYPE, info.getType()); if (info.isFailover()) { intent.putExtra(ConnectivityManager.EXTRA_IS_FAILOVER, true); info.setFailover(false); } if (info.getReason() != null) { intent.putExtra(ConnectivityManager.EXTRA_REASON, info.getReason()); } if (info.getExtraInfo() != null) { intent.putExtra(ConnectivityManager.EXTRA_EXTRA_INFO, info.getExtraInfo()); } if (mNetConfigs[prevNetType].isDefault()) { tryFailover(prevNetType); if (mActiveDefaultNetwork != -1) { NetworkInfo switchTo = mNetTrackers[mActiveDefaultNetwork].getNetworkInfo(); intent.putExtra(ConnectivityManager.EXTRA_OTHER_NETWORK_INFO, switchTo); } else { mDefaultInetConditionPublished = 0; // we're not connected anymore intent.putExtra(ConnectivityManager.EXTRA_NO_CONNECTIVITY, true); } } intent.putExtra(ConnectivityManager.EXTRA_INET_CONDITION, mDefaultInetConditionPublished); // Reset interface if no other connections are using the same interface boolean doReset = true; LinkProperties linkProperties = mNetTrackers[prevNetType].getLinkProperties(); if (linkProperties != null) { String oldIface = linkProperties.getInterfaceName(); if (TextUtils.isEmpty(oldIface) == false) { for (NetworkStateTracker networkStateTracker : mNetTrackers) { if (networkStateTracker == null) continue; NetworkInfo networkInfo = networkStateTracker.getNetworkInfo(); if (networkInfo.isConnected() && networkInfo.getType() != prevNetType) { LinkProperties l = networkStateTracker.getLinkProperties(); if (l == null) continue; if (oldIface.equals(l.getInterfaceName())) { doReset = false; break; } } } } } // do this before we broadcast the change // Already done in new function. This is dead code. // handleConnectivityChange(prevNetType, doReset); final Intent immediateIntent = new Intent(intent); immediateIntent.setAction(CONNECTIVITY_ACTION_IMMEDIATE); sendStickyBroadcast(immediateIntent); sendStickyBroadcastDelayed(intent, getConnectivityChangeDelay()); /* * If the failover network is already connected, then immediately send * out a followup broadcast indicating successful failover */ if (mActiveDefaultNetwork != -1) { sendConnectedBroadcastDelayed(mNetTrackers[mActiveDefaultNetwork].getNetworkInfo(), getConnectivityChangeDelay()); } try { // mNetd.removeNetwork(thisNetId); } catch (Exception e) { loge("Exception removing network: " + e); } finally { // mNetTrackers[prevNetType].setNetId(INVALID_NET_ID); } } private void tryFailover(int prevNetType) { /* * If this is a default network, check if other defaults are available. * Try to reconnect on all available and let them hash it out when * more than one connects. */ if (mNetConfigs[prevNetType].isDefault()) { if (mActiveDefaultNetwork == prevNetType) { if (DBG) { log("tryFailover: set mActiveDefaultNetwork=-1, prevNetType=" + prevNetType); } mActiveDefaultNetwork = -1; try { mNetd.clearDefaultNetId(); } catch (Exception e) { loge("Exception clearing default network :" + e); } } // don't signal a reconnect for anything lower or equal priority than our // current connected default // TODO - don't filter by priority now - nice optimization but risky // int currentPriority = -1; // if (mActiveDefaultNetwork != -1) { // currentPriority = mNetConfigs[mActiveDefaultNetwork].mPriority; // } for (int checkType=0; checkType <= ConnectivityManager.MAX_NETWORK_TYPE; checkType++) { if (checkType == prevNetType) continue; if (mNetConfigs[checkType] == null) continue; if (!mNetConfigs[checkType].isDefault()) continue; if (mNetTrackers[checkType] == null) continue; // Enabling the isAvailable() optimization caused mobile to not get // selected if it was in the middle of error handling. Specifically // a moble connection that took 30 seconds to complete the DEACTIVATE_DATA_CALL // would not be available and we wouldn't get connected to anything. // So removing the isAvailable() optimization below for now. TODO: This // optimization should work and we need to investigate why it doesn't work. // This could be related to how DEACTIVATE_DATA_CALL is reporting its // complete before it is really complete. // if (!mNetTrackers[checkType].isAvailable()) continue; // if (currentPriority >= mNetConfigs[checkType].mPriority) continue; NetworkStateTracker checkTracker = mNetTrackers[checkType]; NetworkInfo checkInfo = checkTracker.getNetworkInfo(); if (!checkInfo.isConnectedOrConnecting() || checkTracker.isTeardownRequested()) { checkInfo.setFailover(true); checkTracker.reconnect(); } if (DBG) log("Attempting to switch to " + checkInfo.getTypeName()); } } } public void sendConnectedBroadcast(NetworkInfo info) { enforceConnectivityInternalPermission(); sendGeneralBroadcast(info, CONNECTIVITY_ACTION_IMMEDIATE); sendGeneralBroadcast(info, CONNECTIVITY_ACTION); } private void sendConnectedBroadcastDelayed(NetworkInfo info, int delayMs) { sendGeneralBroadcast(info, CONNECTIVITY_ACTION_IMMEDIATE); sendGeneralBroadcastDelayed(info, CONNECTIVITY_ACTION, delayMs); } private void sendInetConditionBroadcast(NetworkInfo info) { sendGeneralBroadcast(info, ConnectivityManager.INET_CONDITION_ACTION); } private Intent makeGeneralIntent(NetworkInfo info, String bcastType) { if (mLockdownTracker != null) { info = mLockdownTracker.augmentNetworkInfo(info); } Intent intent = new Intent(bcastType); intent.putExtra(ConnectivityManager.EXTRA_NETWORK_INFO, new NetworkInfo(info)); intent.putExtra(ConnectivityManager.EXTRA_NETWORK_TYPE, info.getType()); if (info.isFailover()) { intent.putExtra(ConnectivityManager.EXTRA_IS_FAILOVER, true); info.setFailover(false); } if (info.getReason() != null) { intent.putExtra(ConnectivityManager.EXTRA_REASON, info.getReason()); } if (info.getExtraInfo() != null) { intent.putExtra(ConnectivityManager.EXTRA_EXTRA_INFO, info.getExtraInfo()); } intent.putExtra(ConnectivityManager.EXTRA_INET_CONDITION, mDefaultInetConditionPublished); return intent; } private void sendGeneralBroadcast(NetworkInfo info, String bcastType) { sendStickyBroadcast(makeGeneralIntent(info, bcastType)); } private void sendGeneralBroadcastDelayed(NetworkInfo info, String bcastType, int delayMs) { sendStickyBroadcastDelayed(makeGeneralIntent(info, bcastType), delayMs); } private void sendDataActivityBroadcast(int deviceType, boolean active, long tsNanos) { Intent intent = new Intent(ConnectivityManager.ACTION_DATA_ACTIVITY_CHANGE); intent.putExtra(ConnectivityManager.EXTRA_DEVICE_TYPE, deviceType); intent.putExtra(ConnectivityManager.EXTRA_IS_ACTIVE, active); intent.putExtra(ConnectivityManager.EXTRA_REALTIME_NS, tsNanos); final long ident = Binder.clearCallingIdentity(); try { mContext.sendOrderedBroadcastAsUser(intent, UserHandle.ALL, RECEIVE_DATA_ACTIVITY_CHANGE, null, null, 0, null, null); } finally { Binder.restoreCallingIdentity(ident); } } private void sendStickyBroadcast(Intent intent) { synchronized(this) { if (!mSystemReady) { mInitialBroadcast = new Intent(intent); } intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT); if (VDBG) { log("sendStickyBroadcast: action=" + intent.getAction()); } final long ident = Binder.clearCallingIdentity(); try { mContext.sendStickyBroadcastAsUser(intent, UserHandle.ALL); } finally { Binder.restoreCallingIdentity(ident); } } } private void sendStickyBroadcastDelayed(Intent intent, int delayMs) { if (delayMs <= 0) { sendStickyBroadcast(intent); } else { if (VDBG) { log("sendStickyBroadcastDelayed: delayMs=" + delayMs + ", action=" + intent.getAction()); } mHandler.sendMessageDelayed(mHandler.obtainMessage( EVENT_SEND_STICKY_BROADCAST_INTENT, intent), delayMs); } } void systemReady() { // start network sampling .. Intent intent = new Intent(ACTION_PKT_CNT_SAMPLE_INTERVAL_ELAPSED); intent.setPackage(mContext.getPackageName()); mSampleIntervalElapsedIntent = PendingIntent.getBroadcast(mContext, SAMPLE_INTERVAL_ELAPSED_REQUEST_CODE, intent, 0); setAlarm(DEFAULT_START_SAMPLING_INTERVAL_IN_SECONDS * 1000, mSampleIntervalElapsedIntent); if (mContext.getPackageManager().hasSystemFeature(PackageManager.FEATURE_WIFI)) { mCaptivePortalTracker = CaptivePortalTracker.makeCaptivePortalTracker(mContext, this); } loadGlobalProxy(); synchronized(this) { mSystemReady = true; if (mInitialBroadcast != null) { mContext.sendStickyBroadcastAsUser(mInitialBroadcast, UserHandle.ALL); mInitialBroadcast = null; } } // load the global proxy at startup mHandler.sendMessage(mHandler.obtainMessage(EVENT_APPLY_GLOBAL_HTTP_PROXY)); // Try bringing up tracker, but if KeyStore isn't ready yet, wait // for user to unlock device. if (!updateLockdownVpn()) { final IntentFilter filter = new IntentFilter(Intent.ACTION_USER_PRESENT); mContext.registerReceiver(mUserPresentReceiver, filter); } } private BroadcastReceiver mUserPresentReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { // Try creating lockdown tracker, since user present usually means // unlocked keystore. if (updateLockdownVpn()) { mContext.unregisterReceiver(this); } } }; private boolean isNewNetTypePreferredOverCurrentNetType(int type) { if (((type != mNetworkPreference) && (mNetConfigs[mActiveDefaultNetwork].priority > mNetConfigs[type].priority)) || (mNetworkPreference == mActiveDefaultNetwork)) { return false; } return true; } private void handleConnect(NetworkInfo info) { final int newNetType = info.getType(); // snapshot isFailover, because sendConnectedBroadcast() resets it boolean isFailover = info.isFailover(); final NetworkStateTracker thisNet = mNetTrackers[newNetType]; final String thisIface = thisNet.getLinkProperties().getInterfaceName(); if (VDBG) { log("handleConnect: E newNetType=" + newNetType + " thisIface=" + thisIface + " isFailover" + isFailover); } // if this is a default net and other default is running // kill the one not preferred if (mNetConfigs[newNetType].isDefault()) { if (mActiveDefaultNetwork != -1 && mActiveDefaultNetwork != newNetType) { if (isNewNetTypePreferredOverCurrentNetType(newNetType)) { String teardownPolicy = SystemProperties.get("net.teardownPolicy"); if (TextUtils.equals(teardownPolicy, "keep") == false) { // tear down the other NetworkStateTracker otherNet = mNetTrackers[mActiveDefaultNetwork]; if (DBG) { log("Policy requires " + otherNet.getNetworkInfo().getTypeName() + " teardown"); } if (!teardown(otherNet)) { loge("Network declined teardown request"); teardown(thisNet); return; } } else { //TODO - remove loge("network teardown skipped due to net.teardownPolicy setting"); } } else { // don't accept this one if (VDBG) { log("Not broadcasting CONNECT_ACTION " + "to torn down network " + info.getTypeName()); } teardown(thisNet); return; } } int thisNetId = nextNetId(); thisNet.setNetId(thisNetId); try { // mNetd.createNetwork(thisNetId, thisIface); } catch (Exception e) { loge("Exception creating network :" + e); teardown(thisNet); return; } // Already in place in new function. This is dead code. // setupDataActivityTracking(newNetType); synchronized (ConnectivityService.this) { // have a new default network, release the transition wakelock in a second // if it's held. The second pause is to allow apps to reconnect over the // new network if (mNetTransitionWakeLock.isHeld()) { mHandler.sendMessageDelayed(mHandler.obtainMessage( EVENT_CLEAR_NET_TRANSITION_WAKELOCK, mNetTransitionWakeLockSerialNumber, 0), 1000); } } mActiveDefaultNetwork = newNetType; try { mNetd.setDefaultNetId(thisNetId); } catch (Exception e) { loge("Exception setting default network :" + e); } // this will cause us to come up initially as unconnected and switching // to connected after our normal pause unless somebody reports us as reall // disconnected mDefaultInetConditionPublished = 0; mDefaultConnectionSequence++; mInetConditionChangeInFlight = false; // Don't do this - if we never sign in stay, grey //reportNetworkCondition(mActiveDefaultNetwork, 100); updateNetworkSettings(thisNet); } else { int thisNetId = nextNetId(); thisNet.setNetId(thisNetId); try { // mNetd.createNetwork(thisNetId, thisIface); } catch (Exception e) { loge("Exception creating network :" + e); teardown(thisNet); return; } } thisNet.setTeardownRequested(false); // Already in place in new function. This is dead code. // updateMtuSizeSettings(thisNet); // handleConnectivityChange(newNetType, false); sendConnectedBroadcastDelayed(info, getConnectivityChangeDelay()); // notify battery stats service about this network if (thisIface != null) { try { BatteryStatsService.getService().noteNetworkInterfaceType(thisIface, newNetType); } catch (RemoteException e) { // ignored; service lives in system_server } } } /** @hide */ @Override public void captivePortalCheckCompleted(NetworkInfo info, boolean isCaptivePortal) { enforceConnectivityInternalPermission(); if (DBG) log("captivePortalCheckCompleted: ni=" + info + " captive=" + isCaptivePortal); // mNetTrackers[info.getType()].captivePortalCheckCompleted(isCaptivePortal); } /** * Setup data activity tracking for the given network. * * Every {@code setupDataActivityTracking} should be paired with a * {@link #removeDataActivityTracking} for cleanup. */ private void setupDataActivityTracking(NetworkAgentInfo networkAgent) { final String iface = networkAgent.linkProperties.getInterfaceName(); final int timeout; int type = ConnectivityManager.TYPE_NONE; if (networkAgent.networkCapabilities.hasTransport( NetworkCapabilities.TRANSPORT_CELLULAR)) { timeout = Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.DATA_ACTIVITY_TIMEOUT_MOBILE, 5); type = ConnectivityManager.TYPE_MOBILE; } else if (networkAgent.networkCapabilities.hasTransport( NetworkCapabilities.TRANSPORT_WIFI)) { timeout = Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.DATA_ACTIVITY_TIMEOUT_WIFI, 0); type = ConnectivityManager.TYPE_WIFI; } else { // do not track any other networks timeout = 0; } if (timeout > 0 && iface != null && type != ConnectivityManager.TYPE_NONE) { try { mNetd.addIdleTimer(iface, timeout, type); } catch (Exception e) { // You shall not crash! loge("Exception in setupDataActivityTracking " + e); } } } /** * Remove data activity tracking when network disconnects. */ private void removeDataActivityTracking(NetworkAgentInfo networkAgent) { final String iface = networkAgent.linkProperties.getInterfaceName(); final NetworkCapabilities caps = networkAgent.networkCapabilities; if (iface != null && (caps.hasTransport(NetworkCapabilities.TRANSPORT_CELLULAR) || caps.hasTransport(NetworkCapabilities.TRANSPORT_WIFI))) { try { // the call fails silently if no idletimer setup for this interface mNetd.removeIdleTimer(iface); } catch (Exception e) { loge("Exception in removeDataActivityTracking " + e); } } } /** * After a change in the connectivity state of a network. We're mainly * concerned with making sure that the list of DNS servers is set up * according to which networks are connected, and ensuring that the * right routing table entries exist. * * TODO - delete when we're sure all this functionallity is captured. */ /* private void handleConnectivityChange(int netType, LinkProperties curLp, boolean doReset) { int resetMask = doReset ? NetworkUtils.RESET_ALL_ADDRESSES : 0; boolean exempt = ConnectivityManager.isNetworkTypeExempt(netType); if (VDBG) { log("handleConnectivityChange: netType=" + netType + " doReset=" + doReset + " resetMask=" + resetMask); } // If a non-default network is enabled, add the host routes that // will allow it's DNS servers to be accessed. handleDnsConfigurationChange(netType); LinkProperties newLp = null; if (mNetTrackers[netType].getNetworkInfo().isConnected()) { newLp = mNetTrackers[netType].getLinkProperties(); if (VDBG) { log("handleConnectivityChange: changed linkProperty[" + netType + "]:" + " doReset=" + doReset + " resetMask=" + resetMask + "\n curLp=" + curLp + "\n newLp=" + newLp); } if (curLp != null) { if (curLp.isIdenticalInterfaceName(newLp)) { CompareResult car = curLp.compareAddresses(newLp); if ((car.removed.size() != 0) || (car.added.size() != 0)) { for (LinkAddress linkAddr : car.removed) { if (linkAddr.getAddress() instanceof Inet4Address) { resetMask |= NetworkUtils.RESET_IPV4_ADDRESSES; } if (linkAddr.getAddress() instanceof Inet6Address) { resetMask |= NetworkUtils.RESET_IPV6_ADDRESSES; } } if (DBG) { log("handleConnectivityChange: addresses changed" + " linkProperty[" + netType + "]:" + " resetMask=" + resetMask + "\n car=" + car); } } else { if (VDBG) { log("handleConnectivityChange: addresses are the same reset per" + " doReset linkProperty[" + netType + "]:" + " resetMask=" + resetMask); } } } else { resetMask = NetworkUtils.RESET_ALL_ADDRESSES; if (DBG) { log("handleConnectivityChange: interface not not equivalent reset both" + " linkProperty[" + netType + "]:" + " resetMask=" + resetMask); } } } if (mNetConfigs[netType].isDefault()) { handleApplyDefaultProxy(newLp.getHttpProxy()); } } else { if (VDBG) { log("handleConnectivityChange: changed linkProperty[" + netType + "]:" + " doReset=" + doReset + " resetMask=" + resetMask + "\n curLp=" + curLp + "\n newLp= null"); } } mCurrentLinkProperties[netType] = newLp; boolean resetDns = updateRoutes(newLp, curLp, mNetConfigs[netType].isDefault(), exempt, mNetTrackers[netType].getNetwork().netId); if (resetMask != 0 || resetDns) { if (VDBG) log("handleConnectivityChange: resetting"); if (curLp != null) { if (VDBG) log("handleConnectivityChange: resetting curLp=" + curLp); for (String iface : curLp.getAllInterfaceNames()) { if (TextUtils.isEmpty(iface) == false) { if (resetMask != 0) { if (DBG) log("resetConnections(" + iface + ", " + resetMask + ")"); NetworkUtils.resetConnections(iface, resetMask); // Tell VPN the interface is down. It is a temporary // but effective fix to make VPN aware of the change. if ((resetMask & NetworkUtils.RESET_IPV4_ADDRESSES) != 0) { synchronized(mVpns) { for (int i = 0; i < mVpns.size(); i++) { mVpns.valueAt(i).interfaceStatusChanged(iface, false); } } } } } else { loge("Can't reset connection for type "+netType); } } if (resetDns) { flushVmDnsCache(); if (VDBG) log("resetting DNS cache for type " + netType); try { mNetd.flushNetworkDnsCache(mNetTrackers[netType].getNetwork().netId); } catch (Exception e) { // never crash - catch them all if (DBG) loge("Exception resetting dns cache: " + e); } } } } // TODO: Temporary notifying upstread change to Tethering. // @see bug/4455071 // Notify TetheringService if interface name has been changed. if (TextUtils.equals(mNetTrackers[netType].getNetworkInfo().getReason(), PhoneConstants.REASON_LINK_PROPERTIES_CHANGED)) { if (isTetheringSupported()) { mTethering.handleTetherIfaceChange(); } } } */ /** * Add and remove routes using the old properties (null if not previously connected), * new properties (null if becoming disconnected). May even be double null, which * is a noop. * Uses isLinkDefault to determine if default routes should be set or conversely if * host routes should be set to the dns servers * returns a boolean indicating the routes changed */ /* private boolean updateRoutes(LinkProperties newLp, LinkProperties curLp, boolean isLinkDefault, boolean exempt, int netId) { Collection routesToAdd = null; CompareResult dnsDiff = new CompareResult(); CompareResult routeDiff = new CompareResult(); if (curLp != null) { // check for the delta between the current set and the new routeDiff = curLp.compareAllRoutes(newLp); dnsDiff = curLp.compareDnses(newLp); } else if (newLp != null) { routeDiff.added = newLp.getAllRoutes(); dnsDiff.added = newLp.getDnsServers(); } boolean routesChanged = (routeDiff.removed.size() != 0 || routeDiff.added.size() != 0); for (RouteInfo r : routeDiff.removed) { if (isLinkDefault || ! r.isDefaultRoute()) { if (VDBG) log("updateRoutes: default remove route r=" + r); removeRoute(curLp, r, TO_DEFAULT_TABLE, netId); } if (isLinkDefault == false) { // remove from a secondary route table removeRoute(curLp, r, TO_SECONDARY_TABLE, netId); } } for (RouteInfo r : routeDiff.added) { if (isLinkDefault || ! r.isDefaultRoute()) { addRoute(newLp, r, TO_DEFAULT_TABLE, exempt, netId); } else { // add to a secondary route table addRoute(newLp, r, TO_SECONDARY_TABLE, UNEXEMPT, netId); // many radios add a default route even when we don't want one. // remove the default route unless somebody else has asked for it String ifaceName = newLp.getInterfaceName(); synchronized (mRoutesLock) { if (!TextUtils.isEmpty(ifaceName) && !mAddedRoutes.contains(r)) { if (VDBG) log("Removing " + r + " for interface " + ifaceName); try { mNetd.removeRoute(netId, r); } catch (Exception e) { // never crash - catch them all if (DBG) loge("Exception trying to remove a route: " + e); } } } } } return routesChanged; } */ /** * Reads the network specific MTU size from reources. * and set it on it's iface. */ private void updateMtu(LinkProperties newLp, LinkProperties oldLp) { final String iface = newLp.getInterfaceName(); final int mtu = newLp.getMtu(); if (oldLp != null && newLp.isIdenticalMtu(oldLp)) { if (VDBG) log("identical MTU - not setting"); return; } if (mtu < 68 || mtu > 10000) { loge("Unexpected mtu value: " + mtu + ", " + iface); return; } try { if (VDBG) log("Setting MTU size: " + iface + ", " + mtu); mNetd.setMtu(iface, mtu); } catch (Exception e) { Slog.e(TAG, "exception in setMtu()" + e); } } /** * Reads the network specific TCP buffer sizes from SystemProperties * net.tcp.buffersize.[default|wifi|umts|edge|gprs] and set them for system * wide use */ private void updateNetworkSettings(NetworkStateTracker nt) { String key = nt.getTcpBufferSizesPropName(); String bufferSizes = key == null ? null : SystemProperties.get(key); if (TextUtils.isEmpty(bufferSizes)) { if (VDBG) log(key + " not found in system properties. Using defaults"); // Setting to default values so we won't be stuck to previous values key = "net.tcp.buffersize.default"; bufferSizes = SystemProperties.get(key); } // Set values in kernel if (bufferSizes.length() != 0) { if (VDBG) { log("Setting TCP values: [" + bufferSizes + "] which comes from [" + key + "]"); } setBufferSize(bufferSizes); } final String defaultRwndKey = "net.tcp.default_init_rwnd"; int defaultRwndValue = SystemProperties.getInt(defaultRwndKey, 0); Integer rwndValue = Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.TCP_DEFAULT_INIT_RWND, defaultRwndValue); final String sysctlKey = "sys.sysctl.tcp_def_init_rwnd"; if (rwndValue != 0) { SystemProperties.set(sysctlKey, rwndValue.toString()); } } /** * Writes TCP buffer sizes to /sys/kernel/ipv4/tcp_[r/w]mem_[min/def/max] * which maps to /proc/sys/net/ipv4/tcp_rmem and tcpwmem * * @param bufferSizes in the format of "readMin, readInitial, readMax, * writeMin, writeInitial, writeMax" */ private void setBufferSize(String bufferSizes) { try { String[] values = bufferSizes.split(","); if (values.length == 6) { final String prefix = "/sys/kernel/ipv4/tcp_"; FileUtils.stringToFile(prefix + "rmem_min", values[0]); FileUtils.stringToFile(prefix + "rmem_def", values[1]); FileUtils.stringToFile(prefix + "rmem_max", values[2]); FileUtils.stringToFile(prefix + "wmem_min", values[3]); FileUtils.stringToFile(prefix + "wmem_def", values[4]); FileUtils.stringToFile(prefix + "wmem_max", values[5]); } else { loge("Invalid buffersize string: " + bufferSizes); } } catch (IOException e) { loge("Can't set tcp buffer sizes:" + e); } } /** * Adjust the per-process dns entries (net.dns.) based * on the highest priority active net which this process requested. * If there aren't any, clear it out */ private void reassessPidDns(int pid, boolean doBump) { if (VDBG) log("reassessPidDns for pid " + pid); Integer myPid = new Integer(pid); for(int i : mPriorityList) { if (mNetConfigs[i].isDefault()) { continue; } NetworkStateTracker nt = mNetTrackers[i]; if (nt.getNetworkInfo().isConnected() && !nt.isTeardownRequested()) { LinkProperties p = nt.getLinkProperties(); if (p == null) continue; if (mNetRequestersPids[i].contains(myPid)) { try { // TODO: Reimplement this via local variable in bionic. // mNetd.setDnsNetworkForPid(nt.getNetwork().netId, pid); } catch (Exception e) { Slog.e(TAG, "exception reasseses pid dns: " + e); } return; } } } // nothing found - delete try { // TODO: Reimplement this via local variable in bionic. // mNetd.clearDnsNetworkForPid(pid); } catch (Exception e) { Slog.e(TAG, "exception clear interface from pid: " + e); } } private void flushVmDnsCache() { /* * Tell the VMs to toss their DNS caches */ Intent intent = new Intent(Intent.ACTION_CLEAR_DNS_CACHE); intent.addFlags(Intent.FLAG_RECEIVER_REPLACE_PENDING); /* * Connectivity events can happen before boot has completed ... */ intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT); final long ident = Binder.clearCallingIdentity(); try { mContext.sendBroadcastAsUser(intent, UserHandle.ALL); } finally { Binder.restoreCallingIdentity(ident); } } // Caller must grab mDnsLock. private void updateDnsLocked(String network, int netId, Collection dnses, String domains) { int last = 0; if (dnses.size() == 0 && mDefaultDns != null) { dnses = new ArrayList(); dnses.add(mDefaultDns); if (DBG) { loge("no dns provided for " + network + " - using " + mDefaultDns.getHostAddress()); } } try { mNetd.setDnsServersForNetwork(netId, NetworkUtils.makeStrings(dnses), domains); for (InetAddress dns : dnses) { ++last; String key = "net.dns" + last; String value = dns.getHostAddress(); SystemProperties.set(key, value); } for (int i = last + 1; i <= mNumDnsEntries; ++i) { String key = "net.dns" + i; SystemProperties.set(key, ""); } mNumDnsEntries = last; } catch (Exception e) { loge("exception setting default dns interface: " + e); } } private void handleDnsConfigurationChange(int netType) { // add default net's dns entries NetworkStateTracker nt = mNetTrackers[netType]; if (nt != null && nt.getNetworkInfo().isConnected() && !nt.isTeardownRequested()) { LinkProperties p = nt.getLinkProperties(); if (p == null) return; Collection dnses = p.getDnsServers(); int netId = nt.getNetwork().netId; if (mNetConfigs[netType].isDefault()) { String network = nt.getNetworkInfo().getTypeName(); synchronized (mDnsLock) { updateDnsLocked(network, netId, dnses, p.getDomains()); } } else { try { mNetd.setDnsServersForNetwork(netId, NetworkUtils.makeStrings(dnses), p.getDomains()); } catch (Exception e) { if (DBG) loge("exception setting dns servers: " + e); } // set per-pid dns for attached secondary nets List pids = mNetRequestersPids[netType]; for (Integer pid : pids) { try { // TODO: Reimplement this via local variable in bionic. // mNetd.setDnsNetworkForPid(netId, pid); } catch (Exception e) { Slog.e(TAG, "exception setting interface for pid: " + e); } } } flushVmDnsCache(); } } @Override public int getRestoreDefaultNetworkDelay(int networkType) { String restoreDefaultNetworkDelayStr = SystemProperties.get( NETWORK_RESTORE_DELAY_PROP_NAME); if(restoreDefaultNetworkDelayStr != null && restoreDefaultNetworkDelayStr.length() != 0) { try { return Integer.valueOf(restoreDefaultNetworkDelayStr); } catch (NumberFormatException e) { } } // if the system property isn't set, use the value for the apn type int ret = RESTORE_DEFAULT_NETWORK_DELAY; if ((networkType <= ConnectivityManager.MAX_NETWORK_TYPE) && (mNetConfigs[networkType] != null)) { ret = mNetConfigs[networkType].restoreTime; } return ret; } @Override protected void dump(FileDescriptor fd, PrintWriter writer, String[] args) { final IndentingPrintWriter pw = new IndentingPrintWriter(writer, " "); if (mContext.checkCallingOrSelfPermission( android.Manifest.permission.DUMP) != PackageManager.PERMISSION_GRANTED) { pw.println("Permission Denial: can't dump ConnectivityService " + "from from pid=" + Binder.getCallingPid() + ", uid=" + Binder.getCallingUid()); return; } pw.println("NetworkFactories for:"); pw.increaseIndent(); for (NetworkFactoryInfo nfi : mNetworkFactoryInfos.values()) { pw.println(nfi.name); } pw.decreaseIndent(); pw.println(); NetworkAgentInfo defaultNai = mNetworkForRequestId.get(mDefaultRequest.requestId); pw.print("Active default network: "); if (defaultNai == null) { pw.println("none"); } else { pw.println(defaultNai.network.netId); } pw.println(); pw.println("Current Networks:"); pw.increaseIndent(); for (NetworkAgentInfo nai : mNetworkAgentInfos.values()) { pw.println(nai.toString()); pw.increaseIndent(); pw.println("Requests:"); pw.increaseIndent(); for (int i = 0; i < nai.networkRequests.size(); i++) { pw.println(nai.networkRequests.valueAt(i).toString()); } pw.decreaseIndent(); pw.println("Lingered:"); pw.increaseIndent(); for (NetworkRequest nr : nai.networkLingered) pw.println(nr.toString()); pw.decreaseIndent(); pw.decreaseIndent(); } pw.decreaseIndent(); pw.println(); pw.println("Network Requests:"); pw.increaseIndent(); for (NetworkRequestInfo nri : mNetworkRequests.values()) { pw.println(nri.toString()); } pw.println(); pw.decreaseIndent(); synchronized (this) { pw.println("NetworkTranstionWakeLock is currently " + (mNetTransitionWakeLock.isHeld() ? "" : "not ") + "held."); pw.println("It was last requested for "+mNetTransitionWakeLockCausedBy); } pw.println(); mTethering.dump(fd, pw, args); if (mInetLog != null) { pw.println(); pw.println("Inet condition reports:"); pw.increaseIndent(); for(int i = 0; i < mInetLog.size(); i++) { pw.println(mInetLog.get(i)); } pw.decreaseIndent(); } } // must be stateless - things change under us. private class NetworkStateTrackerHandler extends Handler { public NetworkStateTrackerHandler(Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { NetworkInfo info; switch (msg.what) { case AsyncChannel.CMD_CHANNEL_HALF_CONNECTED: { handleAsyncChannelHalfConnect(msg); break; } case AsyncChannel.CMD_CHANNEL_DISCONNECT: { NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo); if (nai != null) nai.asyncChannel.disconnect(); break; } case AsyncChannel.CMD_CHANNEL_DISCONNECTED: { handleAsyncChannelDisconnected(msg); break; } case NetworkAgent.EVENT_NETWORK_CAPABILITIES_CHANGED: { NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo); if (nai == null) { loge("EVENT_NETWORK_CAPABILITIES_CHANGED from unknown NetworkAgent"); } else { updateCapabilities(nai, (NetworkCapabilities)msg.obj); } break; } case NetworkAgent.EVENT_NETWORK_PROPERTIES_CHANGED: { NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo); if (nai == null) { loge("NetworkAgent not found for EVENT_NETWORK_PROPERTIES_CHANGED"); } else { if (VDBG) log("Update of Linkproperties for " + nai.name()); LinkProperties oldLp = nai.linkProperties; synchronized (nai) { nai.linkProperties = (LinkProperties)msg.obj; } updateLinkProperties(nai, oldLp); } break; } case NetworkAgent.EVENT_NETWORK_INFO_CHANGED: { NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo); if (nai == null) { loge("EVENT_NETWORK_INFO_CHANGED from unknown NetworkAgent"); break; } info = (NetworkInfo) msg.obj; updateNetworkInfo(nai, info); break; } case NetworkAgent.EVENT_NETWORK_SCORE_CHANGED: { NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo); if (nai == null) { loge("EVENT_NETWORK_SCORE_CHANGED from unknown NetworkAgent"); break; } Integer score = (Integer) msg.obj; if (score != null) updateNetworkScore(nai, score.intValue()); break; } case NetworkAgent.EVENT_UID_RANGES_ADDED: { NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo); if (nai == null) { loge("EVENT_UID_RANGES_ADDED from unknown NetworkAgent"); break; } try { mNetd.addVpnUidRanges(nai.network.netId, (UidRange[])msg.obj); } catch (RemoteException e) { } break; } case NetworkAgent.EVENT_UID_RANGES_REMOVED: { NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo); if (nai == null) { loge("EVENT_UID_RANGES_REMOVED from unknown NetworkAgent"); break; } try { mNetd.removeVpnUidRanges(nai.network.netId, (UidRange[])msg.obj); } catch (RemoteException e) { } break; } case NetworkMonitor.EVENT_NETWORK_VALIDATED: { NetworkAgentInfo nai = (NetworkAgentInfo)msg.obj; handleConnectionValidated(nai); break; } case NetworkMonitor.EVENT_NETWORK_LINGER_COMPLETE: { NetworkAgentInfo nai = (NetworkAgentInfo)msg.obj; handleLingerComplete(nai); break; } case NetworkMonitor.EVENT_PROVISIONING_NOTIFICATION: { if (msg.arg1 == 0) { setProvNotificationVisibleIntent(false, msg.arg2, 0, null, null); } else { NetworkAgentInfo nai = mNetworkForNetId.get(msg.arg2); if (nai == null) { loge("EVENT_PROVISIONING_NOTIFICATION from unknown NetworkMonitor"); break; } setProvNotificationVisibleIntent(true, msg.arg2, nai.networkInfo.getType(), nai.networkInfo.getExtraInfo(), (PendingIntent)msg.obj); } break; } case NetworkStateTracker.EVENT_STATE_CHANGED: { info = (NetworkInfo) msg.obj; NetworkInfo.State state = info.getState(); if (VDBG || (state == NetworkInfo.State.CONNECTED) || (state == NetworkInfo.State.DISCONNECTED) || (state == NetworkInfo.State.SUSPENDED)) { log("ConnectivityChange for " + info.getTypeName() + ": " + state + "/" + info.getDetailedState()); } // Since mobile has the notion of a network/apn that can be used for // provisioning we need to check every time we're connected as // CaptiveProtalTracker won't detected it because DCT doesn't report it // as connected as ACTION_ANY_DATA_CONNECTION_STATE_CHANGED instead its // reported as ACTION_DATA_CONNECTION_CONNECTED_TO_PROVISIONING_APN. Which // is received by MDST and sent here as EVENT_STATE_CHANGED. if (ConnectivityManager.isNetworkTypeMobile(info.getType()) && (0 != Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.DEVICE_PROVISIONED, 0)) && (((state == NetworkInfo.State.CONNECTED) && (info.getType() == ConnectivityManager.TYPE_MOBILE)) || info.isConnectedToProvisioningNetwork())) { log("ConnectivityChange checkMobileProvisioning for" + " TYPE_MOBILE or ProvisioningNetwork"); checkMobileProvisioning(CheckMp.MAX_TIMEOUT_MS); } EventLogTags.writeConnectivityStateChanged( info.getType(), info.getSubtype(), info.getDetailedState().ordinal()); if (info.isConnectedToProvisioningNetwork()) { /** * TODO: Create ConnectivityManager.TYPE_MOBILE_PROVISIONING * for now its an in between network, its a network that * is actually a default network but we don't want it to be * announced as such to keep background applications from * trying to use it. It turns out that some still try so we * take the additional step of clearing any default routes * to the link that may have incorrectly setup by the lower * levels. */ LinkProperties lp = getLinkPropertiesForTypeInternal(info.getType()); if (DBG) { log("EVENT_STATE_CHANGED: connected to provisioning network, lp=" + lp); } // Clear any default routes setup by the radio so // any activity by applications trying to use this // connection will fail until the provisioning network // is enabled. /* for (RouteInfo r : lp.getRoutes()) { removeRoute(lp, r, TO_DEFAULT_TABLE, mNetTrackers[info.getType()].getNetwork().netId); } */ } else if (state == NetworkInfo.State.DISCONNECTED) { } else if (state == NetworkInfo.State.SUSPENDED) { } else if (state == NetworkInfo.State.CONNECTED) { // handleConnect(info); } if (mLockdownTracker != null) { mLockdownTracker.onNetworkInfoChanged(info); } break; } case NetworkStateTracker.EVENT_CONFIGURATION_CHANGED: { info = (NetworkInfo) msg.obj; // TODO: Temporary allowing network configuration // change not resetting sockets. // @see bug/4455071 /* handleConnectivityChange(info.getType(), mCurrentLinkProperties[info.getType()], false); */ break; } case NetworkStateTracker.EVENT_NETWORK_SUBTYPE_CHANGED: { info = (NetworkInfo) msg.obj; int type = info.getType(); if (mNetConfigs[type].isDefault()) updateNetworkSettings(mNetTrackers[type]); break; } } } } private void handleAsyncChannelHalfConnect(Message msg) { AsyncChannel ac = (AsyncChannel) msg.obj; if (mNetworkFactoryInfos.containsKey(msg.replyTo)) { if (msg.arg1 == AsyncChannel.STATUS_SUCCESSFUL) { if (VDBG) log("NetworkFactory connected"); // A network factory has connected. Send it all current NetworkRequests. for (NetworkRequestInfo nri : mNetworkRequests.values()) { if (nri.isRequest == false) continue; NetworkAgentInfo nai = mNetworkForRequestId.get(nri.request.requestId); ac.sendMessage(android.net.NetworkFactory.CMD_REQUEST_NETWORK, (nai != null ? nai.currentScore : 0), 0, nri.request); } } else { loge("Error connecting NetworkFactory"); mNetworkFactoryInfos.remove(msg.obj); } } else if (mNetworkAgentInfos.containsKey(msg.replyTo)) { if (msg.arg1 == AsyncChannel.STATUS_SUCCESSFUL) { if (VDBG) log("NetworkAgent connected"); // A network agent has requested a connection. Establish the connection. mNetworkAgentInfos.get(msg.replyTo).asyncChannel. sendMessage(AsyncChannel.CMD_CHANNEL_FULL_CONNECTION); } else { loge("Error connecting NetworkAgent"); NetworkAgentInfo nai = mNetworkAgentInfos.remove(msg.replyTo); if (nai != null) { synchronized (mNetworkForNetId) { mNetworkForNetId.remove(nai.network.netId); } mLegacyTypeTracker.remove(nai); } } } } private void handleAsyncChannelDisconnected(Message msg) { NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo); if (nai != null) { if (DBG) { log(nai.name() + " got DISCONNECTED, was satisfying " + nai.networkRequests.size()); } // A network agent has disconnected. // Tell netd to clean up the configuration for this network // (routing rules, DNS, etc). try { mNetd.removeNetwork(nai.network.netId); } catch (Exception e) { loge("Exception removing network: " + e); } // TODO - if we move the logic to the network agent (have them disconnect // because they lost all their requests or because their score isn't good) // then they would disconnect organically, report their new state and then // disconnect the channel. if (nai.networkInfo.isConnected()) { nai.networkInfo.setDetailedState(NetworkInfo.DetailedState.DISCONNECTED, null, null); } notifyNetworkCallbacks(nai, ConnectivityManager.CALLBACK_LOST); nai.networkMonitor.sendMessage(NetworkMonitor.CMD_NETWORK_DISCONNECTED); mNetworkAgentInfos.remove(msg.replyTo); updateClat(null, nai.linkProperties, nai); mLegacyTypeTracker.remove(nai); synchronized (mNetworkForNetId) { mNetworkForNetId.remove(nai.network.netId); } // Since we've lost the network, go through all the requests that // it was satisfying and see if any other factory can satisfy them. final ArrayList toActivate = new ArrayList(); for (int i = 0; i < nai.networkRequests.size(); i++) { NetworkRequest request = nai.networkRequests.valueAt(i); NetworkAgentInfo currentNetwork = mNetworkForRequestId.get(request.requestId); if (VDBG) { log(" checking request " + request + ", currentNetwork = " + (currentNetwork != null ? currentNetwork.name() : "null")); } if (currentNetwork != null && currentNetwork.network.netId == nai.network.netId) { mNetworkForRequestId.remove(request.requestId); sendUpdatedScoreToFactories(request, 0); NetworkAgentInfo alternative = null; for (Map.Entry entry : mNetworkAgentInfos.entrySet()) { NetworkAgentInfo existing = (NetworkAgentInfo)entry.getValue(); if (existing.networkInfo.isConnected() && request.networkCapabilities.satisfiedByNetworkCapabilities( existing.networkCapabilities) && (alternative == null || alternative.currentScore < existing.currentScore)) { alternative = existing; } } if (alternative != null && !toActivate.contains(alternative)) { toActivate.add(alternative); } } } if (nai.networkRequests.get(mDefaultRequest.requestId) != null) { removeDataActivityTracking(nai); mActiveDefaultNetwork = ConnectivityManager.TYPE_NONE; requestNetworkTransitionWakelock(nai.name()); } for (NetworkAgentInfo networkToActivate : toActivate) { networkToActivate.networkMonitor.sendMessage(NetworkMonitor.CMD_NETWORK_CONNECTED); } } } private void handleRegisterNetworkRequest(Message msg) { final NetworkRequestInfo nri = (NetworkRequestInfo) (msg.obj); final NetworkCapabilities newCap = nri.request.networkCapabilities; int score = 0; // Check for the best currently alive network that satisfies this request NetworkAgentInfo bestNetwork = null; for (NetworkAgentInfo network : mNetworkAgentInfos.values()) { if (VDBG) log("handleRegisterNetworkRequest checking " + network.name()); if (newCap.satisfiedByNetworkCapabilities(network.networkCapabilities)) { if (VDBG) log("apparently satisfied. currentScore=" + network.currentScore); if ((bestNetwork == null) || bestNetwork.currentScore < network.currentScore) { bestNetwork = network; } } } if (bestNetwork != null) { if (VDBG) log("using " + bestNetwork.name()); if (nri.isRequest && bestNetwork.networkInfo.isConnected()) { // Cancel any lingering so the linger timeout doesn't teardown this network // even though we have a request for it. bestNetwork.networkLingered.clear(); bestNetwork.networkMonitor.sendMessage(NetworkMonitor.CMD_NETWORK_CONNECTED); } bestNetwork.addRequest(nri.request); mNetworkForRequestId.put(nri.request.requestId, bestNetwork); int legacyType = nri.request.legacyType; if (legacyType != TYPE_NONE) { mLegacyTypeTracker.add(legacyType, bestNetwork); } notifyNetworkCallback(bestNetwork, nri); score = bestNetwork.currentScore; } mNetworkRequests.put(nri.request, nri); if (msg.what == EVENT_REGISTER_NETWORK_REQUEST) { if (DBG) log("sending new NetworkRequest to factories"); for (NetworkFactoryInfo nfi : mNetworkFactoryInfos.values()) { nfi.asyncChannel.sendMessage(android.net.NetworkFactory.CMD_REQUEST_NETWORK, score, 0, nri.request); } } } private void handleReleaseNetworkRequest(NetworkRequest request, int callingUid) { NetworkRequestInfo nri = mNetworkRequests.get(request); if (nri != null) { if (nri.mUid != callingUid) { if (DBG) log("Attempt to release unowned NetworkRequest " + request); return; } if (DBG) log("releasing NetworkRequest " + request); mNetworkRequests.remove(request); // tell the network currently servicing this that it's no longer interested NetworkAgentInfo affectedNetwork = mNetworkForRequestId.get(nri.request.requestId); if (affectedNetwork != null) { mNetworkForRequestId.remove(nri.request.requestId); affectedNetwork.networkRequests.remove(nri.request.requestId); if (VDBG) { log(" Removing from current network " + affectedNetwork.name() + ", leaving " + affectedNetwork.networkRequests.size() + " requests."); } } if (nri.isRequest) { for (NetworkFactoryInfo nfi : mNetworkFactoryInfos.values()) { nfi.asyncChannel.sendMessage(android.net.NetworkFactory.CMD_CANCEL_REQUEST, nri.request); } if (affectedNetwork != null) { // check if this network still has live requests - otherwise, tear down // TODO - probably push this to the NF/NA boolean keep = affectedNetwork.isVPN(); for (int i = 0; i < affectedNetwork.networkRequests.size() && !keep; i++) { NetworkRequest r = affectedNetwork.networkRequests.valueAt(i); if (mNetworkRequests.get(r).isRequest) { keep = true; } } if (keep == false) { if (DBG) log("no live requests for " + affectedNetwork.name() + "; disconnecting"); affectedNetwork.asyncChannel.disconnect(); } } } callCallbackForRequest(nri, null, ConnectivityManager.CALLBACK_RELEASED); } } private class InternalHandler extends Handler { public InternalHandler(Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { NetworkInfo info; switch (msg.what) { case EVENT_EXPIRE_NET_TRANSITION_WAKELOCK: case EVENT_CLEAR_NET_TRANSITION_WAKELOCK: { String causedBy = null; synchronized (ConnectivityService.this) { if (msg.arg1 == mNetTransitionWakeLockSerialNumber && mNetTransitionWakeLock.isHeld()) { mNetTransitionWakeLock.release(); causedBy = mNetTransitionWakeLockCausedBy; } else { break; } } if (msg.what == EVENT_EXPIRE_NET_TRANSITION_WAKELOCK) { log("Failed to find a new network - expiring NetTransition Wakelock"); } else { log("NetTransition Wakelock (" + (causedBy == null ? "unknown" : causedBy) + " cleared because we found a replacement network"); } break; } case EVENT_RESTORE_DEFAULT_NETWORK: { FeatureUser u = (FeatureUser)msg.obj; u.expire(); break; } case EVENT_INET_CONDITION_CHANGE: { int netType = msg.arg1; int condition = msg.arg2; handleInetConditionChange(netType, condition); break; } case EVENT_INET_CONDITION_HOLD_END: { int netType = msg.arg1; int sequence = msg.arg2; handleInetConditionHoldEnd(netType, sequence); break; } case EVENT_APPLY_GLOBAL_HTTP_PROXY: { handleDeprecatedGlobalHttpProxy(); break; } case EVENT_SET_DEPENDENCY_MET: { boolean met = (msg.arg1 == ENABLED); handleSetDependencyMet(msg.arg2, met); break; } case EVENT_SEND_STICKY_BROADCAST_INTENT: { Intent intent = (Intent)msg.obj; sendStickyBroadcast(intent); break; } case EVENT_SET_POLICY_DATA_ENABLE: { final int networkType = msg.arg1; final boolean enabled = msg.arg2 == ENABLED; handleSetPolicyDataEnable(networkType, enabled); break; } case EVENT_ENABLE_FAIL_FAST_MOBILE_DATA: { int tag = mEnableFailFastMobileDataTag.get(); if (msg.arg1 == tag) { MobileDataStateTracker mobileDst = (MobileDataStateTracker) mNetTrackers[ConnectivityManager.TYPE_MOBILE]; if (mobileDst != null) { mobileDst.setEnableFailFastMobileData(msg.arg2); } } else { log("EVENT_ENABLE_FAIL_FAST_MOBILE_DATA: stale arg1:" + msg.arg1 + " != tag:" + tag); } break; } case EVENT_SAMPLE_INTERVAL_ELAPSED: { handleNetworkSamplingTimeout(); break; } case EVENT_PROXY_HAS_CHANGED: { handleApplyDefaultProxy((ProxyInfo)msg.obj); break; } case EVENT_REGISTER_NETWORK_FACTORY: { handleRegisterNetworkFactory((NetworkFactoryInfo)msg.obj); break; } case EVENT_UNREGISTER_NETWORK_FACTORY: { handleUnregisterNetworkFactory((Messenger)msg.obj); break; } case EVENT_REGISTER_NETWORK_AGENT: { handleRegisterNetworkAgent((NetworkAgentInfo)msg.obj); break; } case EVENT_REGISTER_NETWORK_REQUEST: case EVENT_REGISTER_NETWORK_LISTENER: { handleRegisterNetworkRequest(msg); break; } case EVENT_RELEASE_NETWORK_REQUEST: { handleReleaseNetworkRequest((NetworkRequest) msg.obj, msg.arg1); break; } } } } // javadoc from interface public int tether(String iface) { enforceTetherChangePermission(); if (isTetheringSupported()) { return mTethering.tether(iface); } else { return ConnectivityManager.TETHER_ERROR_UNSUPPORTED; } } // javadoc from interface public int untether(String iface) { enforceTetherChangePermission(); if (isTetheringSupported()) { return mTethering.untether(iface); } else { return ConnectivityManager.TETHER_ERROR_UNSUPPORTED; } } // javadoc from interface public int getLastTetherError(String iface) { enforceTetherAccessPermission(); if (isTetheringSupported()) { return mTethering.getLastTetherError(iface); } else { return ConnectivityManager.TETHER_ERROR_UNSUPPORTED; } } // TODO - proper iface API for selection by property, inspection, etc public String[] getTetherableUsbRegexs() { enforceTetherAccessPermission(); if (isTetheringSupported()) { return mTethering.getTetherableUsbRegexs(); } else { return new String[0]; } } public String[] getTetherableWifiRegexs() { enforceTetherAccessPermission(); if (isTetheringSupported()) { return mTethering.getTetherableWifiRegexs(); } else { return new String[0]; } } public String[] getTetherableBluetoothRegexs() { enforceTetherAccessPermission(); if (isTetheringSupported()) { return mTethering.getTetherableBluetoothRegexs(); } else { return new String[0]; } } public int setUsbTethering(boolean enable) { enforceTetherChangePermission(); if (isTetheringSupported()) { return mTethering.setUsbTethering(enable); } else { return ConnectivityManager.TETHER_ERROR_UNSUPPORTED; } } // TODO - move iface listing, queries, etc to new module // javadoc from interface public String[] getTetherableIfaces() { enforceTetherAccessPermission(); return mTethering.getTetherableIfaces(); } public String[] getTetheredIfaces() { enforceTetherAccessPermission(); return mTethering.getTetheredIfaces(); } public String[] getTetheringErroredIfaces() { enforceTetherAccessPermission(); return mTethering.getErroredIfaces(); } public String[] getTetheredDhcpRanges() { enforceConnectivityInternalPermission(); return mTethering.getTetheredDhcpRanges(); } // if ro.tether.denied = true we default to no tethering // gservices could set the secure setting to 1 though to enable it on a build where it // had previously been turned off. public boolean isTetheringSupported() { enforceTetherAccessPermission(); int defaultVal = (SystemProperties.get("ro.tether.denied").equals("true") ? 0 : 1); boolean tetherEnabledInSettings = (Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.TETHER_SUPPORTED, defaultVal) != 0) && !mUserManager.hasUserRestriction(UserManager.DISALLOW_CONFIG_TETHERING); return tetherEnabledInSettings && ((mTethering.getTetherableUsbRegexs().length != 0 || mTethering.getTetherableWifiRegexs().length != 0 || mTethering.getTetherableBluetoothRegexs().length != 0) && mTethering.getUpstreamIfaceTypes().length != 0); } // Called when we lose the default network and have no replacement yet. // This will automatically be cleared after X seconds or a new default network // becomes CONNECTED, whichever happens first. The timer is started by the // first caller and not restarted by subsequent callers. private void requestNetworkTransitionWakelock(String forWhom) { int serialNum = 0; synchronized (this) { if (mNetTransitionWakeLock.isHeld()) return; serialNum = ++mNetTransitionWakeLockSerialNumber; mNetTransitionWakeLock.acquire(); mNetTransitionWakeLockCausedBy = forWhom; } mHandler.sendMessageDelayed(mHandler.obtainMessage( EVENT_EXPIRE_NET_TRANSITION_WAKELOCK, serialNum, 0), mNetTransitionWakeLockTimeout); return; } // 100 percent is full good, 0 is full bad. public void reportInetCondition(int networkType, int percentage) { if (VDBG) log("reportNetworkCondition(" + networkType + ", " + percentage + ")"); mContext.enforceCallingOrSelfPermission( android.Manifest.permission.STATUS_BAR, "ConnectivityService"); if (DBG) { int pid = getCallingPid(); int uid = getCallingUid(); String s = pid + "(" + uid + ") reports inet is " + (percentage > 50 ? "connected" : "disconnected") + " (" + percentage + ") on " + "network Type " + networkType + " at " + GregorianCalendar.getInstance().getTime(); mInetLog.add(s); while(mInetLog.size() > INET_CONDITION_LOG_MAX_SIZE) { mInetLog.remove(0); } } mHandler.sendMessage(mHandler.obtainMessage( EVENT_INET_CONDITION_CHANGE, networkType, percentage)); } public void reportBadNetwork(Network network) { //TODO } private void handleInetConditionChange(int netType, int condition) { if (mActiveDefaultNetwork == -1) { if (DBG) log("handleInetConditionChange: no active default network - ignore"); return; } if (mActiveDefaultNetwork != netType) { if (DBG) log("handleInetConditionChange: net=" + netType + " != default=" + mActiveDefaultNetwork + " - ignore"); return; } if (VDBG) { log("handleInetConditionChange: net=" + netType + ", condition=" + condition + ",mActiveDefaultNetwork=" + mActiveDefaultNetwork); } mDefaultInetCondition = condition; int delay; if (mInetConditionChangeInFlight == false) { if (VDBG) log("handleInetConditionChange: starting a change hold"); // setup a new hold to debounce this if (mDefaultInetCondition > 50) { delay = Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.INET_CONDITION_DEBOUNCE_UP_DELAY, 500); } else { delay = Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.INET_CONDITION_DEBOUNCE_DOWN_DELAY, 3000); } mInetConditionChangeInFlight = true; mHandler.sendMessageDelayed(mHandler.obtainMessage(EVENT_INET_CONDITION_HOLD_END, mActiveDefaultNetwork, mDefaultConnectionSequence), delay); } else { // we've set the new condition, when this hold ends that will get picked up if (VDBG) log("handleInetConditionChange: currently in hold - not setting new end evt"); } } private void handleInetConditionHoldEnd(int netType, int sequence) { if (DBG) { log("handleInetConditionHoldEnd: net=" + netType + ", condition=" + mDefaultInetCondition + ", published condition=" + mDefaultInetConditionPublished); } mInetConditionChangeInFlight = false; if (mActiveDefaultNetwork == -1) { if (DBG) log("handleInetConditionHoldEnd: no active default network - ignoring"); return; } if (mDefaultConnectionSequence != sequence) { if (DBG) log("handleInetConditionHoldEnd: event hold for obsolete network - ignoring"); return; } // TODO: Figure out why this optimization sometimes causes a // change in mDefaultInetCondition to be missed and the // UI to not be updated. //if (mDefaultInetConditionPublished == mDefaultInetCondition) { // if (DBG) log("no change in condition - aborting"); // return; //} NetworkInfo networkInfo = getNetworkInfoForType(mActiveDefaultNetwork); if (networkInfo.isConnected() == false) { if (DBG) log("handleInetConditionHoldEnd: default network not connected - ignoring"); return; } mDefaultInetConditionPublished = mDefaultInetCondition; sendInetConditionBroadcast(networkInfo); return; } public ProxyInfo getProxy() { // this information is already available as a world read/writable jvm property // so this API change wouldn't have a benifit. It also breaks the passing // of proxy info to all the JVMs. // enforceAccessPermission(); synchronized (mProxyLock) { ProxyInfo ret = mGlobalProxy; if ((ret == null) && !mDefaultProxyDisabled) ret = mDefaultProxy; return ret; } } public void setGlobalProxy(ProxyInfo proxyProperties) { enforceConnectivityInternalPermission(); synchronized (mProxyLock) { if (proxyProperties == mGlobalProxy) return; if (proxyProperties != null && proxyProperties.equals(mGlobalProxy)) return; if (mGlobalProxy != null && mGlobalProxy.equals(proxyProperties)) return; String host = ""; int port = 0; String exclList = ""; String pacFileUrl = ""; if (proxyProperties != null && (!TextUtils.isEmpty(proxyProperties.getHost()) || (proxyProperties.getPacFileUrl() != null))) { if (!proxyProperties.isValid()) { if (DBG) log("Invalid proxy properties, ignoring: " + proxyProperties.toString()); return; } mGlobalProxy = new ProxyInfo(proxyProperties); host = mGlobalProxy.getHost(); port = mGlobalProxy.getPort(); exclList = mGlobalProxy.getExclusionListAsString(); if (proxyProperties.getPacFileUrl() != null) { pacFileUrl = proxyProperties.getPacFileUrl().toString(); } } else { mGlobalProxy = null; } ContentResolver res = mContext.getContentResolver(); final long token = Binder.clearCallingIdentity(); try { Settings.Global.putString(res, Settings.Global.GLOBAL_HTTP_PROXY_HOST, host); Settings.Global.putInt(res, Settings.Global.GLOBAL_HTTP_PROXY_PORT, port); Settings.Global.putString(res, Settings.Global.GLOBAL_HTTP_PROXY_EXCLUSION_LIST, exclList); Settings.Global.putString(res, Settings.Global.GLOBAL_HTTP_PROXY_PAC, pacFileUrl); } finally { Binder.restoreCallingIdentity(token); } } if (mGlobalProxy == null) { proxyProperties = mDefaultProxy; } sendProxyBroadcast(proxyProperties); } private void loadGlobalProxy() { ContentResolver res = mContext.getContentResolver(); String host = Settings.Global.getString(res, Settings.Global.GLOBAL_HTTP_PROXY_HOST); int port = Settings.Global.getInt(res, Settings.Global.GLOBAL_HTTP_PROXY_PORT, 0); String exclList = Settings.Global.getString(res, Settings.Global.GLOBAL_HTTP_PROXY_EXCLUSION_LIST); String pacFileUrl = Settings.Global.getString(res, Settings.Global.GLOBAL_HTTP_PROXY_PAC); if (!TextUtils.isEmpty(host) || !TextUtils.isEmpty(pacFileUrl)) { ProxyInfo proxyProperties; if (!TextUtils.isEmpty(pacFileUrl)) { proxyProperties = new ProxyInfo(pacFileUrl); } else { proxyProperties = new ProxyInfo(host, port, exclList); } if (!proxyProperties.isValid()) { if (DBG) log("Invalid proxy properties, ignoring: " + proxyProperties.toString()); return; } synchronized (mProxyLock) { mGlobalProxy = proxyProperties; } } } public ProxyInfo getGlobalProxy() { // this information is already available as a world read/writable jvm property // so this API change wouldn't have a benifit. It also breaks the passing // of proxy info to all the JVMs. // enforceAccessPermission(); synchronized (mProxyLock) { return mGlobalProxy; } } private void handleApplyDefaultProxy(ProxyInfo proxy) { if (proxy != null && TextUtils.isEmpty(proxy.getHost()) && (proxy.getPacFileUrl() == null)) { proxy = null; } synchronized (mProxyLock) { if (mDefaultProxy != null && mDefaultProxy.equals(proxy)) return; if (mDefaultProxy == proxy) return; // catches repeated nulls if (proxy != null && !proxy.isValid()) { if (DBG) log("Invalid proxy properties, ignoring: " + proxy.toString()); return; } // This call could be coming from the PacManager, containing the port of the local // proxy. If this new proxy matches the global proxy then copy this proxy to the // global (to get the correct local port), and send a broadcast. // TODO: Switch PacManager to have its own message to send back rather than // reusing EVENT_HAS_CHANGED_PROXY and this call to handleApplyDefaultProxy. if ((mGlobalProxy != null) && (proxy != null) && (proxy.getPacFileUrl() != null) && proxy.getPacFileUrl().equals(mGlobalProxy.getPacFileUrl())) { mGlobalProxy = proxy; sendProxyBroadcast(mGlobalProxy); return; } mDefaultProxy = proxy; if (mGlobalProxy != null) return; if (!mDefaultProxyDisabled) { sendProxyBroadcast(proxy); } } } private void handleDeprecatedGlobalHttpProxy() { String proxy = Settings.Global.getString(mContext.getContentResolver(), Settings.Global.HTTP_PROXY); if (!TextUtils.isEmpty(proxy)) { String data[] = proxy.split(":"); if (data.length == 0) { return; } String proxyHost = data[0]; int proxyPort = 8080; if (data.length > 1) { try { proxyPort = Integer.parseInt(data[1]); } catch (NumberFormatException e) { return; } } ProxyInfo p = new ProxyInfo(data[0], proxyPort, ""); setGlobalProxy(p); } } private void sendProxyBroadcast(ProxyInfo proxy) { if (proxy == null) proxy = new ProxyInfo("", 0, ""); if (mPacManager.setCurrentProxyScriptUrl(proxy)) return; if (DBG) log("sending Proxy Broadcast for " + proxy); Intent intent = new Intent(Proxy.PROXY_CHANGE_ACTION); intent.addFlags(Intent.FLAG_RECEIVER_REPLACE_PENDING | Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT); intent.putExtra(Proxy.EXTRA_PROXY_INFO, proxy); final long ident = Binder.clearCallingIdentity(); try { mContext.sendStickyBroadcastAsUser(intent, UserHandle.ALL); } finally { Binder.restoreCallingIdentity(ident); } } private static class SettingsObserver extends ContentObserver { private int mWhat; private Handler mHandler; SettingsObserver(Handler handler, int what) { super(handler); mHandler = handler; mWhat = what; } void observe(Context context) { ContentResolver resolver = context.getContentResolver(); resolver.registerContentObserver(Settings.Global.getUriFor( Settings.Global.HTTP_PROXY), false, this); } @Override public void onChange(boolean selfChange) { mHandler.obtainMessage(mWhat).sendToTarget(); } } private static void log(String s) { Slog.d(TAG, s); } private static void loge(String s) { Slog.e(TAG, s); } int convertFeatureToNetworkType(int networkType, String feature) { int usedNetworkType = networkType; if(networkType == ConnectivityManager.TYPE_MOBILE) { if (TextUtils.equals(feature, Phone.FEATURE_ENABLE_MMS)) { usedNetworkType = ConnectivityManager.TYPE_MOBILE_MMS; } else if (TextUtils.equals(feature, Phone.FEATURE_ENABLE_SUPL)) { usedNetworkType = ConnectivityManager.TYPE_MOBILE_SUPL; } else if (TextUtils.equals(feature, Phone.FEATURE_ENABLE_DUN) || TextUtils.equals(feature, Phone.FEATURE_ENABLE_DUN_ALWAYS)) { usedNetworkType = ConnectivityManager.TYPE_MOBILE_DUN; } else if (TextUtils.equals(feature, Phone.FEATURE_ENABLE_HIPRI)) { usedNetworkType = ConnectivityManager.TYPE_MOBILE_HIPRI; } else if (TextUtils.equals(feature, Phone.FEATURE_ENABLE_FOTA)) { usedNetworkType = ConnectivityManager.TYPE_MOBILE_FOTA; } else if (TextUtils.equals(feature, Phone.FEATURE_ENABLE_IMS)) { usedNetworkType = ConnectivityManager.TYPE_MOBILE_IMS; } else if (TextUtils.equals(feature, Phone.FEATURE_ENABLE_CBS)) { usedNetworkType = ConnectivityManager.TYPE_MOBILE_CBS; } else if (TextUtils.equals(feature, Phone.FEATURE_ENABLE_EMERGENCY)) { usedNetworkType = ConnectivityManager.TYPE_MOBILE_EMERGENCY; } else { Slog.e(TAG, "Can't match any mobile netTracker!"); } } else if (networkType == ConnectivityManager.TYPE_WIFI) { if (TextUtils.equals(feature, "p2p")) { usedNetworkType = ConnectivityManager.TYPE_WIFI_P2P; } else { Slog.e(TAG, "Can't match any wifi netTracker!"); } } else { Slog.e(TAG, "Unexpected network type"); } return usedNetworkType; } private static T checkNotNull(T value, String message) { if (value == null) { throw new NullPointerException(message); } return value; } /** * Prepare for a VPN application. This method is used by VpnDialogs * and not available in ConnectivityManager. Permissions are checked * in Vpn class. * @hide */ @Override public boolean prepareVpn(String oldPackage, String newPackage) { throwIfLockdownEnabled(); int user = UserHandle.getUserId(Binder.getCallingUid()); synchronized(mVpns) { return mVpns.get(user).prepare(oldPackage, newPackage); } } /** * Configure a TUN interface and return its file descriptor. Parameters * are encoded and opaque to this class. This method is used by VpnBuilder * and not available in ConnectivityManager. Permissions are checked in * Vpn class. * @hide */ @Override public ParcelFileDescriptor establishVpn(VpnConfig config) { throwIfLockdownEnabled(); int user = UserHandle.getUserId(Binder.getCallingUid()); synchronized(mVpns) { return mVpns.get(user).establish(config); } } /** * Start legacy VPN, controlling native daemons as needed. Creates a * secondary thread to perform connection work, returning quickly. */ @Override public void startLegacyVpn(VpnProfile profile) { throwIfLockdownEnabled(); final LinkProperties egress = getActiveLinkProperties(); if (egress == null) { throw new IllegalStateException("Missing active network connection"); } int user = UserHandle.getUserId(Binder.getCallingUid()); synchronized(mVpns) { mVpns.get(user).startLegacyVpn(profile, mKeyStore, egress); } } /** * Return the information of the ongoing legacy VPN. This method is used * by VpnSettings and not available in ConnectivityManager. Permissions * are checked in Vpn class. * @hide */ @Override public LegacyVpnInfo getLegacyVpnInfo() { throwIfLockdownEnabled(); int user = UserHandle.getUserId(Binder.getCallingUid()); synchronized(mVpns) { return mVpns.get(user).getLegacyVpnInfo(); } } /** * Returns the information of the ongoing VPN. This method is used by VpnDialogs and * not available in ConnectivityManager. * Permissions are checked in Vpn class. * @hide */ @Override public VpnConfig getVpnConfig() { int user = UserHandle.getUserId(Binder.getCallingUid()); synchronized(mVpns) { return mVpns.get(user).getVpnConfig(); } } @Override public boolean updateLockdownVpn() { if (Binder.getCallingUid() != Process.SYSTEM_UID) { Slog.w(TAG, "Lockdown VPN only available to AID_SYSTEM"); return false; } // Tear down existing lockdown if profile was removed mLockdownEnabled = LockdownVpnTracker.isEnabled(); if (mLockdownEnabled) { if (!mKeyStore.isUnlocked()) { Slog.w(TAG, "KeyStore locked; unable to create LockdownTracker"); return false; } final String profileName = new String(mKeyStore.get(Credentials.LOCKDOWN_VPN)); final VpnProfile profile = VpnProfile.decode( profileName, mKeyStore.get(Credentials.VPN + profileName)); int user = UserHandle.getUserId(Binder.getCallingUid()); synchronized(mVpns) { setLockdownTracker(new LockdownVpnTracker(mContext, mNetd, this, mVpns.get(user), profile)); } } else { setLockdownTracker(null); } return true; } /** * Internally set new {@link LockdownVpnTracker}, shutting down any existing * {@link LockdownVpnTracker}. Can be {@code null} to disable lockdown. */ private void setLockdownTracker(LockdownVpnTracker tracker) { // Shutdown any existing tracker final LockdownVpnTracker existing = mLockdownTracker; mLockdownTracker = null; if (existing != null) { existing.shutdown(); } try { if (tracker != null) { mNetd.setFirewallEnabled(true); mNetd.setFirewallInterfaceRule("lo", true); mLockdownTracker = tracker; mLockdownTracker.init(); } else { mNetd.setFirewallEnabled(false); } } catch (RemoteException e) { // ignored; NMS lives inside system_server } } private void throwIfLockdownEnabled() { if (mLockdownEnabled) { throw new IllegalStateException("Unavailable in lockdown mode"); } } public void supplyMessenger(int networkType, Messenger messenger) { enforceConnectivityInternalPermission(); if (isNetworkTypeValid(networkType) && mNetTrackers[networkType] != null) { mNetTrackers[networkType].supplyMessenger(messenger); } } public int findConnectionTypeForIface(String iface) { enforceConnectivityInternalPermission(); if (TextUtils.isEmpty(iface)) return ConnectivityManager.TYPE_NONE; for (NetworkStateTracker tracker : mNetTrackers) { if (tracker != null) { LinkProperties lp = tracker.getLinkProperties(); if (lp != null && iface.equals(lp.getInterfaceName())) { return tracker.getNetworkInfo().getType(); } } } return ConnectivityManager.TYPE_NONE; } /** * Have mobile data fail fast if enabled. * * @param enabled DctConstants.ENABLED/DISABLED */ private void setEnableFailFastMobileData(int enabled) { int tag; if (enabled == DctConstants.ENABLED) { tag = mEnableFailFastMobileDataTag.incrementAndGet(); } else { tag = mEnableFailFastMobileDataTag.get(); } mHandler.sendMessage(mHandler.obtainMessage(EVENT_ENABLE_FAIL_FAST_MOBILE_DATA, tag, enabled)); } private boolean isMobileDataStateTrackerReady() { MobileDataStateTracker mdst = (MobileDataStateTracker) mNetTrackers[ConnectivityManager.TYPE_MOBILE_HIPRI]; return (mdst != null) && (mdst.isReady()); } /** * The ResultReceiver resultCode for checkMobileProvisioning (CMP_RESULT_CODE) */ /** * No connection was possible to the network. * This is NOT a warm sim. */ private static final int CMP_RESULT_CODE_NO_CONNECTION = 0; /** * A connection was made to the internet, all is well. * This is NOT a warm sim. */ private static final int CMP_RESULT_CODE_CONNECTABLE = 1; /** * A connection was made but no dns server was available to resolve a name to address. * This is NOT a warm sim since provisioning network is supported. */ private static final int CMP_RESULT_CODE_NO_DNS = 2; /** * A connection was made but could not open a TCP connection. * This is NOT a warm sim since provisioning network is supported. */ private static final int CMP_RESULT_CODE_NO_TCP_CONNECTION = 3; /** * A connection was made but there was a redirection, we appear to be in walled garden. * This is an indication of a warm sim on a mobile network such as T-Mobile. */ private static final int CMP_RESULT_CODE_REDIRECTED = 4; /** * The mobile network is a provisioning network. * This is an indication of a warm sim on a mobile network such as AT&T. */ private static final int CMP_RESULT_CODE_PROVISIONING_NETWORK = 5; /** * The mobile network is provisioning */ private static final int CMP_RESULT_CODE_IS_PROVISIONING = 6; private AtomicBoolean mIsProvisioningNetwork = new AtomicBoolean(false); private AtomicBoolean mIsStartingProvisioning = new AtomicBoolean(false); private AtomicBoolean mIsCheckingMobileProvisioning = new AtomicBoolean(false); @Override public int checkMobileProvisioning(int suggestedTimeOutMs) { int timeOutMs = -1; if (DBG) log("checkMobileProvisioning: E suggestedTimeOutMs=" + suggestedTimeOutMs); enforceConnectivityInternalPermission(); final long token = Binder.clearCallingIdentity(); try { timeOutMs = suggestedTimeOutMs; if (suggestedTimeOutMs > CheckMp.MAX_TIMEOUT_MS) { timeOutMs = CheckMp.MAX_TIMEOUT_MS; } // Check that mobile networks are supported if (!isNetworkSupported(ConnectivityManager.TYPE_MOBILE) || !isNetworkSupported(ConnectivityManager.TYPE_MOBILE_HIPRI)) { if (DBG) log("checkMobileProvisioning: X no mobile network"); return timeOutMs; } // If we're already checking don't do it again // TODO: Add a queue of results... if (mIsCheckingMobileProvisioning.getAndSet(true)) { if (DBG) log("checkMobileProvisioning: X already checking ignore for the moment"); return timeOutMs; } // Start off with mobile notification off setProvNotificationVisible(false, ConnectivityManager.TYPE_MOBILE_HIPRI, null, null); CheckMp checkMp = new CheckMp(mContext, this); CheckMp.CallBack cb = new CheckMp.CallBack() { @Override void onComplete(Integer result) { if (DBG) log("CheckMp.onComplete: result=" + result); NetworkInfo ni = mNetTrackers[ConnectivityManager.TYPE_MOBILE_HIPRI].getNetworkInfo(); switch(result) { case CMP_RESULT_CODE_CONNECTABLE: case CMP_RESULT_CODE_NO_CONNECTION: case CMP_RESULT_CODE_NO_DNS: case CMP_RESULT_CODE_NO_TCP_CONNECTION: { if (DBG) log("CheckMp.onComplete: ignore, connected or no connection"); break; } case CMP_RESULT_CODE_REDIRECTED: { if (DBG) log("CheckMp.onComplete: warm sim"); String url = getMobileProvisioningUrl(); if (TextUtils.isEmpty(url)) { url = getMobileRedirectedProvisioningUrl(); } if (TextUtils.isEmpty(url) == false) { if (DBG) log("CheckMp.onComplete: warm (redirected), url=" + url); setProvNotificationVisible(true, ConnectivityManager.TYPE_MOBILE_HIPRI, ni.getExtraInfo(), url); } else { if (DBG) log("CheckMp.onComplete: warm (redirected), no url"); } break; } case CMP_RESULT_CODE_PROVISIONING_NETWORK: { String url = getMobileProvisioningUrl(); if (TextUtils.isEmpty(url) == false) { if (DBG) log("CheckMp.onComplete: warm (no dns/tcp), url=" + url); setProvNotificationVisible(true, ConnectivityManager.TYPE_MOBILE_HIPRI, ni.getExtraInfo(), url); // Mark that we've got a provisioning network and // Disable Mobile Data until user actually starts provisioning. mIsProvisioningNetwork.set(true); MobileDataStateTracker mdst = (MobileDataStateTracker) mNetTrackers[ConnectivityManager.TYPE_MOBILE]; // Disable radio until user starts provisioning mdst.setRadio(false); } else { if (DBG) log("CheckMp.onComplete: warm (no dns/tcp), no url"); } break; } case CMP_RESULT_CODE_IS_PROVISIONING: { // FIXME: Need to know when provisioning is done. Probably we can // check the completion status if successful we're done if we // "timedout" or still connected to provisioning APN turn off data? if (DBG) log("CheckMp.onComplete: provisioning started"); mIsStartingProvisioning.set(false); break; } default: { loge("CheckMp.onComplete: ignore unexpected result=" + result); break; } } mIsCheckingMobileProvisioning.set(false); } }; CheckMp.Params params = new CheckMp.Params(checkMp.getDefaultUrl(), timeOutMs, cb); if (DBG) log("checkMobileProvisioning: params=" + params); // TODO: Reenable when calls to the now defunct // MobileDataStateTracker.isProvisioningNetwork() are removed. // This code should be moved to the Telephony code. // checkMp.execute(params); } finally { Binder.restoreCallingIdentity(token); if (DBG) log("checkMobileProvisioning: X"); } return timeOutMs; } static class CheckMp extends AsyncTask { private static final String CHECKMP_TAG = "CheckMp"; // adb shell setprop persist.checkmp.testfailures 1 to enable testing failures private static boolean mTestingFailures; // Choosing 4 loops as half of them will use HTTPS and the other half HTTP private static final int MAX_LOOPS = 4; // Number of milli-seconds to complete all of the retires public static final int MAX_TIMEOUT_MS = 60000; // The socket should retry only 5 seconds, the default is longer private static final int SOCKET_TIMEOUT_MS = 5000; // Sleep time for network errors private static final int NET_ERROR_SLEEP_SEC = 3; // Sleep time for network route establishment private static final int NET_ROUTE_ESTABLISHMENT_SLEEP_SEC = 3; // Short sleep time for polling :( private static final int POLLING_SLEEP_SEC = 1; private Context mContext; private ConnectivityService mCs; private TelephonyManager mTm; private Params mParams; /** * Parameters for AsyncTask.execute */ static class Params { private String mUrl; private long mTimeOutMs; private CallBack mCb; Params(String url, long timeOutMs, CallBack cb) { mUrl = url; mTimeOutMs = timeOutMs; mCb = cb; } @Override public String toString() { return "{" + " url=" + mUrl + " mTimeOutMs=" + mTimeOutMs + " mCb=" + mCb + "}"; } } // As explained to me by Brian Carlstrom and Kenny Root, Certificates can be // issued by name or ip address, for Google its by name so when we construct // this HostnameVerifier we'll pass the original Uri and use it to verify // the host. If the host name in the original uril fails we'll test the // hostname parameter just incase things change. static class CheckMpHostnameVerifier implements HostnameVerifier { Uri mOrgUri; CheckMpHostnameVerifier(Uri orgUri) { mOrgUri = orgUri; } @Override public boolean verify(String hostname, SSLSession session) { HostnameVerifier hv = HttpsURLConnection.getDefaultHostnameVerifier(); String orgUriHost = mOrgUri.getHost(); boolean retVal = hv.verify(orgUriHost, session) || hv.verify(hostname, session); if (DBG) { log("isMobileOk: hostnameVerify retVal=" + retVal + " hostname=" + hostname + " orgUriHost=" + orgUriHost); } return retVal; } } /** * The call back object passed in Params. onComplete will be called * on the main thread. */ abstract static class CallBack { // Called on the main thread. abstract void onComplete(Integer result); } public CheckMp(Context context, ConnectivityService cs) { if (Build.IS_DEBUGGABLE) { mTestingFailures = SystemProperties.getInt("persist.checkmp.testfailures", 0) == 1; } else { mTestingFailures = false; } mContext = context; mCs = cs; // Setup access to TelephonyService we'll be using. mTm = (TelephonyManager) mContext.getSystemService( Context.TELEPHONY_SERVICE); } /** * Get the default url to use for the test. */ public String getDefaultUrl() { // See http://go/clientsdns for usage approval String server = Settings.Global.getString(mContext.getContentResolver(), Settings.Global.CAPTIVE_PORTAL_SERVER); if (server == null) { server = "clients3.google.com"; } return "http://" + server + "/generate_204"; } /** * Detect if its possible to connect to the http url. DNS based detection techniques * do not work at all hotspots. The best way to check is to perform a request to * a known address that fetches the data we expect. */ private synchronized Integer isMobileOk(Params params) { Integer result = CMP_RESULT_CODE_NO_CONNECTION; Uri orgUri = Uri.parse(params.mUrl); Random rand = new Random(); mParams = params; if (mCs.isNetworkSupported(ConnectivityManager.TYPE_MOBILE) == false) { result = CMP_RESULT_CODE_NO_CONNECTION; log("isMobileOk: X not mobile capable result=" + result); return result; } if (mCs.mIsStartingProvisioning.get()) { result = CMP_RESULT_CODE_IS_PROVISIONING; log("isMobileOk: X is provisioning result=" + result); return result; } // See if we've already determined we've got a provisioning connection, // if so we don't need to do anything active. MobileDataStateTracker mdstDefault = (MobileDataStateTracker) mCs.mNetTrackers[ConnectivityManager.TYPE_MOBILE]; boolean isDefaultProvisioning = mdstDefault.isProvisioningNetwork(); log("isMobileOk: isDefaultProvisioning=" + isDefaultProvisioning); MobileDataStateTracker mdstHipri = (MobileDataStateTracker) mCs.mNetTrackers[ConnectivityManager.TYPE_MOBILE_HIPRI]; boolean isHipriProvisioning = mdstHipri.isProvisioningNetwork(); log("isMobileOk: isHipriProvisioning=" + isHipriProvisioning); if (isDefaultProvisioning || isHipriProvisioning) { result = CMP_RESULT_CODE_PROVISIONING_NETWORK; log("isMobileOk: X default || hipri is provisioning result=" + result); return result; } try { // Continue trying to connect until time has run out long endTime = SystemClock.elapsedRealtime() + params.mTimeOutMs; if (!mCs.isMobileDataStateTrackerReady()) { // Wait for MobileDataStateTracker to be ready. if (DBG) log("isMobileOk: mdst is not ready"); while(SystemClock.elapsedRealtime() < endTime) { if (mCs.isMobileDataStateTrackerReady()) { // Enable fail fast as we'll do retries here and use a // hipri connection so the default connection stays active. if (DBG) log("isMobileOk: mdst ready, enable fail fast of mobile data"); mCs.setEnableFailFastMobileData(DctConstants.ENABLED); break; } sleep(POLLING_SLEEP_SEC); } } log("isMobileOk: start hipri url=" + params.mUrl); // First wait until we can start using hipri Binder binder = new Binder(); while(SystemClock.elapsedRealtime() < endTime) { int ret = mCs.startUsingNetworkFeature(ConnectivityManager.TYPE_MOBILE, Phone.FEATURE_ENABLE_HIPRI, binder); if ((ret == PhoneConstants.APN_ALREADY_ACTIVE) || (ret == PhoneConstants.APN_REQUEST_STARTED)) { log("isMobileOk: hipri started"); break; } if (VDBG) log("isMobileOk: hipri not started yet"); result = CMP_RESULT_CODE_NO_CONNECTION; sleep(POLLING_SLEEP_SEC); } // Continue trying to connect until time has run out while(SystemClock.elapsedRealtime() < endTime) { try { // Wait for hipri to connect. // TODO: Don't poll and handle situation where hipri fails // because default is retrying. See b/9569540 NetworkInfo.State state = mCs .getNetworkInfo(ConnectivityManager.TYPE_MOBILE_HIPRI).getState(); if (state != NetworkInfo.State.CONNECTED) { if (true/*VDBG*/) { log("isMobileOk: not connected ni=" + mCs.getNetworkInfo(ConnectivityManager.TYPE_MOBILE_HIPRI)); } sleep(POLLING_SLEEP_SEC); result = CMP_RESULT_CODE_NO_CONNECTION; continue; } // Hipri has started check if this is a provisioning url MobileDataStateTracker mdst = (MobileDataStateTracker) mCs.mNetTrackers[ConnectivityManager.TYPE_MOBILE_HIPRI]; if (mdst.isProvisioningNetwork()) { result = CMP_RESULT_CODE_PROVISIONING_NETWORK; if (DBG) log("isMobileOk: X isProvisioningNetwork result=" + result); return result; } else { if (DBG) log("isMobileOk: isProvisioningNetwork is false, continue"); } // Get of the addresses associated with the url host. We need to use the // address otherwise HttpURLConnection object will use the name to get // the addresses and will try every address but that will bypass the // route to host we setup and the connection could succeed as the default // interface might be connected to the internet via wifi or other interface. InetAddress[] addresses; try { addresses = InetAddress.getAllByName(orgUri.getHost()); } catch (UnknownHostException e) { result = CMP_RESULT_CODE_NO_DNS; log("isMobileOk: X UnknownHostException result=" + result); return result; } log("isMobileOk: addresses=" + inetAddressesToString(addresses)); // Get the type of addresses supported by this link LinkProperties lp = mCs.getLinkPropertiesForTypeInternal( ConnectivityManager.TYPE_MOBILE_HIPRI); boolean linkHasIpv4 = lp.hasIPv4Address(); boolean linkHasIpv6 = lp.hasGlobalIPv6Address(); log("isMobileOk: linkHasIpv4=" + linkHasIpv4 + " linkHasIpv6=" + linkHasIpv6); final ArrayList validAddresses = new ArrayList(addresses.length); for (InetAddress addr : addresses) { if (((addr instanceof Inet4Address) && linkHasIpv4) || ((addr instanceof Inet6Address) && linkHasIpv6)) { validAddresses.add(addr); } } if (validAddresses.size() == 0) { return CMP_RESULT_CODE_NO_CONNECTION; } int addrTried = 0; while (true) { // Loop through at most MAX_LOOPS valid addresses or until // we run out of time if (addrTried++ >= MAX_LOOPS) { log("isMobileOk: too many loops tried - giving up"); break; } if (SystemClock.elapsedRealtime() >= endTime) { log("isMobileOk: spend too much time - giving up"); break; } InetAddress hostAddr = validAddresses.get(rand.nextInt( validAddresses.size())); // Make a route to host so we check the specific interface. if (mCs.requestRouteToHostAddress(ConnectivityManager.TYPE_MOBILE_HIPRI, hostAddr.getAddress())) { // Wait a short time to be sure the route is established ?? log("isMobileOk:" + " wait to establish route to hostAddr=" + hostAddr); sleep(NET_ROUTE_ESTABLISHMENT_SLEEP_SEC); } else { log("isMobileOk:" + " could not establish route to hostAddr=" + hostAddr); // Wait a short time before the next attempt sleep(NET_ERROR_SLEEP_SEC); continue; } // Rewrite the url to have numeric address to use the specific route // using http for half the attempts and https for the other half. // Doing https first and http second as on a redirected walled garden // such as t-mobile uses we get a SocketTimeoutException: "SSL // handshake timed out" which we declare as // CMP_RESULT_CODE_NO_TCP_CONNECTION. We could change this, but by // having http second we will be using logic used for some time. URL newUrl; String scheme = (addrTried <= (MAX_LOOPS/2)) ? "https" : "http"; newUrl = new URL(scheme, hostAddr.getHostAddress(), orgUri.getPath()); log("isMobileOk: newUrl=" + newUrl); HttpURLConnection urlConn = null; try { // Open the connection set the request headers and get the response urlConn = (HttpURLConnection)newUrl.openConnection( java.net.Proxy.NO_PROXY); if (scheme.equals("https")) { ((HttpsURLConnection)urlConn).setHostnameVerifier( new CheckMpHostnameVerifier(orgUri)); } urlConn.setInstanceFollowRedirects(false); urlConn.setConnectTimeout(SOCKET_TIMEOUT_MS); urlConn.setReadTimeout(SOCKET_TIMEOUT_MS); urlConn.setUseCaches(false); urlConn.setAllowUserInteraction(false); // Set the "Connection" to "Close" as by default "Keep-Alive" // is used which is useless in this case. urlConn.setRequestProperty("Connection", "close"); int responseCode = urlConn.getResponseCode(); // For debug display the headers Map> headers = urlConn.getHeaderFields(); log("isMobileOk: headers=" + headers); // Close the connection urlConn.disconnect(); urlConn = null; if (mTestingFailures) { // Pretend no connection, this tests using http and https result = CMP_RESULT_CODE_NO_CONNECTION; log("isMobileOk: TESTING_FAILURES, pretend no connction"); continue; } if (responseCode == 204) { // Return result = CMP_RESULT_CODE_CONNECTABLE; log("isMobileOk: X got expected responseCode=" + responseCode + " result=" + result); return result; } else { // Retry to be sure this was redirected, we've gotten // occasions where a server returned 200 even though // the device didn't have a "warm" sim. log("isMobileOk: not expected responseCode=" + responseCode); // TODO - it would be nice in the single-address case to do // another DNS resolve here, but flushing the cache is a bit // heavy-handed. result = CMP_RESULT_CODE_REDIRECTED; } } catch (Exception e) { log("isMobileOk: HttpURLConnection Exception" + e); result = CMP_RESULT_CODE_NO_TCP_CONNECTION; if (urlConn != null) { urlConn.disconnect(); urlConn = null; } sleep(NET_ERROR_SLEEP_SEC); continue; } } log("isMobileOk: X loops|timed out result=" + result); return result; } catch (Exception e) { log("isMobileOk: Exception e=" + e); continue; } } log("isMobileOk: timed out"); } finally { log("isMobileOk: F stop hipri"); mCs.setEnableFailFastMobileData(DctConstants.DISABLED); mCs.stopUsingNetworkFeature(ConnectivityManager.TYPE_MOBILE, Phone.FEATURE_ENABLE_HIPRI); // Wait for hipri to disconnect. long endTime = SystemClock.elapsedRealtime() + 5000; while(SystemClock.elapsedRealtime() < endTime) { NetworkInfo.State state = mCs .getNetworkInfo(ConnectivityManager.TYPE_MOBILE_HIPRI).getState(); if (state != NetworkInfo.State.DISCONNECTED) { if (VDBG) { log("isMobileOk: connected ni=" + mCs.getNetworkInfo(ConnectivityManager.TYPE_MOBILE_HIPRI)); } sleep(POLLING_SLEEP_SEC); continue; } } log("isMobileOk: X result=" + result); } return result; } @Override protected Integer doInBackground(Params... params) { return isMobileOk(params[0]); } @Override protected void onPostExecute(Integer result) { log("onPostExecute: result=" + result); if ((mParams != null) && (mParams.mCb != null)) { mParams.mCb.onComplete(result); } } private String inetAddressesToString(InetAddress[] addresses) { StringBuffer sb = new StringBuffer(); boolean firstTime = true; for(InetAddress addr : addresses) { if (firstTime) { firstTime = false; } else { sb.append(","); } sb.append(addr); } return sb.toString(); } private void printNetworkInfo() { boolean hasIccCard = mTm.hasIccCard(); int simState = mTm.getSimState(); log("hasIccCard=" + hasIccCard + " simState=" + simState); NetworkInfo[] ni = mCs.getAllNetworkInfo(); if (ni != null) { log("ni.length=" + ni.length); for (NetworkInfo netInfo: ni) { log("netInfo=" + netInfo.toString()); } } else { log("no network info ni=null"); } } /** * Sleep for a few seconds then return. * @param seconds */ private static void sleep(int seconds) { long stopTime = System.nanoTime() + (seconds * 1000000000); long sleepTime; while ((sleepTime = stopTime - System.nanoTime()) > 0) { try { Thread.sleep(sleepTime / 1000000); } catch (InterruptedException ignored) { } } } private static void log(String s) { Slog.d(ConnectivityService.TAG, "[" + CHECKMP_TAG + "] " + s); } } // TODO: Move to ConnectivityManager and make public? private static final String CONNECTED_TO_PROVISIONING_NETWORK_ACTION = "com.android.server.connectivityservice.CONNECTED_TO_PROVISIONING_NETWORK_ACTION"; private BroadcastReceiver mProvisioningReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { if (intent.getAction().equals(CONNECTED_TO_PROVISIONING_NETWORK_ACTION)) { handleMobileProvisioningAction(intent.getStringExtra("EXTRA_URL")); } } }; private void handleMobileProvisioningAction(String url) { // Mark notification as not visible setProvNotificationVisible(false, ConnectivityManager.TYPE_MOBILE_HIPRI, null, null); // Check airplane mode boolean isAirplaneModeOn = Settings.System.getInt(mContext.getContentResolver(), Settings.Global.AIRPLANE_MODE_ON, 0) == 1; // If provisioning network and not in airplane mode handle as a special case, // otherwise launch browser with the intent directly. if (mIsProvisioningNetwork.get() && !isAirplaneModeOn) { if (DBG) log("handleMobileProvisioningAction: on prov network enable then launch"); mIsProvisioningNetwork.set(false); // mIsStartingProvisioning.set(true); // MobileDataStateTracker mdst = (MobileDataStateTracker) // mNetTrackers[ConnectivityManager.TYPE_MOBILE]; // Radio was disabled on CMP_RESULT_CODE_PROVISIONING_NETWORK, enable it here // mdst.setRadio(true); // mdst.setEnableFailFastMobileData(DctConstants.ENABLED); // mdst.enableMobileProvisioning(url); } else { if (DBG) log("handleMobileProvisioningAction: not prov network"); mIsProvisioningNetwork.set(false); // Check for apps that can handle provisioning first Intent provisioningIntent = new Intent(TelephonyIntents.ACTION_CARRIER_SETUP); provisioningIntent.addCategory(TelephonyIntents.CATEGORY_MCCMNC_PREFIX + mTelephonyManager.getSimOperator()); if (mContext.getPackageManager().resolveActivity(provisioningIntent, 0 /* flags */) != null) { provisioningIntent.setFlags(Intent.FLAG_ACTIVITY_BROUGHT_TO_FRONT | Intent.FLAG_ACTIVITY_NEW_TASK); mContext.startActivity(provisioningIntent); } else { // If no apps exist, use standard URL ACTION_VIEW method Intent newIntent = Intent.makeMainSelectorActivity(Intent.ACTION_MAIN, Intent.CATEGORY_APP_BROWSER); newIntent.setData(Uri.parse(url)); newIntent.setFlags(Intent.FLAG_ACTIVITY_BROUGHT_TO_FRONT | Intent.FLAG_ACTIVITY_NEW_TASK); try { mContext.startActivity(newIntent); } catch (ActivityNotFoundException e) { loge("handleMobileProvisioningAction: startActivity failed" + e); } } } } private static final String NOTIFICATION_ID = "CaptivePortal.Notification"; private volatile boolean mIsNotificationVisible = false; private void setProvNotificationVisible(boolean visible, int networkType, String extraInfo, String url) { if (DBG) { log("setProvNotificationVisible: E visible=" + visible + " networkType=" + networkType + " extraInfo=" + extraInfo + " url=" + url); } Intent intent = null; PendingIntent pendingIntent = null; if (visible) { switch (networkType) { case ConnectivityManager.TYPE_WIFI: intent = new Intent(Intent.ACTION_VIEW, Uri.parse(url)); intent.setFlags(Intent.FLAG_ACTIVITY_BROUGHT_TO_FRONT | Intent.FLAG_ACTIVITY_NEW_TASK); pendingIntent = PendingIntent.getActivity(mContext, 0, intent, 0); break; case ConnectivityManager.TYPE_MOBILE: case ConnectivityManager.TYPE_MOBILE_HIPRI: intent = new Intent(CONNECTED_TO_PROVISIONING_NETWORK_ACTION); intent.putExtra("EXTRA_URL", url); intent.setFlags(0); pendingIntent = PendingIntent.getBroadcast(mContext, 0, intent, 0); break; default: intent = new Intent(Intent.ACTION_VIEW, Uri.parse(url)); intent.setFlags(Intent.FLAG_ACTIVITY_BROUGHT_TO_FRONT | Intent.FLAG_ACTIVITY_NEW_TASK); pendingIntent = PendingIntent.getActivity(mContext, 0, intent, 0); break; } } // Concatenate the range of types onto the range of NetIDs. int id = MAX_NET_ID + 1 + (networkType - ConnectivityManager.TYPE_NONE); setProvNotificationVisibleIntent(visible, id, networkType, extraInfo, pendingIntent); } /** * Show or hide network provisioning notificaitons. * * @param id an identifier that uniquely identifies this notification. This must match * between show and hide calls. We use the NetID value but for legacy callers * we concatenate the range of types with the range of NetIDs. */ private void setProvNotificationVisibleIntent(boolean visible, int id, int networkType, String extraInfo, PendingIntent intent) { if (DBG) { log("setProvNotificationVisibleIntent: E visible=" + visible + " networkType=" + networkType + " extraInfo=" + extraInfo); } Resources r = Resources.getSystem(); NotificationManager notificationManager = (NotificationManager) mContext .getSystemService(Context.NOTIFICATION_SERVICE); if (visible) { CharSequence title; CharSequence details; int icon; Notification notification = new Notification(); switch (networkType) { case ConnectivityManager.TYPE_WIFI: title = r.getString(R.string.wifi_available_sign_in, 0); details = r.getString(R.string.network_available_sign_in_detailed, extraInfo); icon = R.drawable.stat_notify_wifi_in_range; break; case ConnectivityManager.TYPE_MOBILE: case ConnectivityManager.TYPE_MOBILE_HIPRI: title = r.getString(R.string.network_available_sign_in, 0); // TODO: Change this to pull from NetworkInfo once a printable // name has been added to it details = mTelephonyManager.getNetworkOperatorName(); icon = R.drawable.stat_notify_rssi_in_range; break; default: title = r.getString(R.string.network_available_sign_in, 0); details = r.getString(R.string.network_available_sign_in_detailed, extraInfo); icon = R.drawable.stat_notify_rssi_in_range; break; } notification.when = 0; notification.icon = icon; notification.flags = Notification.FLAG_AUTO_CANCEL; notification.tickerText = title; notification.setLatestEventInfo(mContext, title, details, notification.contentIntent); notification.contentIntent = intent; try { notificationManager.notify(NOTIFICATION_ID, id, notification); } catch (NullPointerException npe) { loge("setNotificaitionVisible: visible notificationManager npe=" + npe); npe.printStackTrace(); } } else { try { notificationManager.cancel(NOTIFICATION_ID, id); } catch (NullPointerException npe) { loge("setNotificaitionVisible: cancel notificationManager npe=" + npe); npe.printStackTrace(); } } mIsNotificationVisible = visible; } /** Location to an updatable file listing carrier provisioning urls. * An example: * * * * http://myserver.com/foo?mdn=%3$s&iccid=%1$s&imei=%2$s * http://www.google.com * */ private static final String PROVISIONING_URL_PATH = "/data/misc/radio/provisioning_urls.xml"; private final File mProvisioningUrlFile = new File(PROVISIONING_URL_PATH); /** XML tag for root element. */ private static final String TAG_PROVISIONING_URLS = "provisioningUrls"; /** XML tag for individual url */ private static final String TAG_PROVISIONING_URL = "provisioningUrl"; /** XML tag for redirected url */ private static final String TAG_REDIRECTED_URL = "redirectedUrl"; /** XML attribute for mcc */ private static final String ATTR_MCC = "mcc"; /** XML attribute for mnc */ private static final String ATTR_MNC = "mnc"; private static final int REDIRECTED_PROVISIONING = 1; private static final int PROVISIONING = 2; private String getProvisioningUrlBaseFromFile(int type) { FileReader fileReader = null; XmlPullParser parser = null; Configuration config = mContext.getResources().getConfiguration(); String tagType; switch (type) { case PROVISIONING: tagType = TAG_PROVISIONING_URL; break; case REDIRECTED_PROVISIONING: tagType = TAG_REDIRECTED_URL; break; default: throw new RuntimeException("getProvisioningUrlBaseFromFile: Unexpected parameter " + type); } try { fileReader = new FileReader(mProvisioningUrlFile); parser = Xml.newPullParser(); parser.setInput(fileReader); XmlUtils.beginDocument(parser, TAG_PROVISIONING_URLS); while (true) { XmlUtils.nextElement(parser); String element = parser.getName(); if (element == null) break; if (element.equals(tagType)) { String mcc = parser.getAttributeValue(null, ATTR_MCC); try { if (mcc != null && Integer.parseInt(mcc) == config.mcc) { String mnc = parser.getAttributeValue(null, ATTR_MNC); if (mnc != null && Integer.parseInt(mnc) == config.mnc) { parser.next(); if (parser.getEventType() == XmlPullParser.TEXT) { return parser.getText(); } } } } catch (NumberFormatException e) { loge("NumberFormatException in getProvisioningUrlBaseFromFile: " + e); } } } return null; } catch (FileNotFoundException e) { loge("Carrier Provisioning Urls file not found"); } catch (XmlPullParserException e) { loge("Xml parser exception reading Carrier Provisioning Urls file: " + e); } catch (IOException e) { loge("I/O exception reading Carrier Provisioning Urls file: " + e); } finally { if (fileReader != null) { try { fileReader.close(); } catch (IOException e) {} } } return null; } @Override public String getMobileRedirectedProvisioningUrl() { enforceConnectivityInternalPermission(); String url = getProvisioningUrlBaseFromFile(REDIRECTED_PROVISIONING); if (TextUtils.isEmpty(url)) { url = mContext.getResources().getString(R.string.mobile_redirected_provisioning_url); } return url; } @Override public String getMobileProvisioningUrl() { enforceConnectivityInternalPermission(); String url = getProvisioningUrlBaseFromFile(PROVISIONING); if (TextUtils.isEmpty(url)) { url = mContext.getResources().getString(R.string.mobile_provisioning_url); log("getMobileProvisioningUrl: mobile_provisioining_url from resource =" + url); } else { log("getMobileProvisioningUrl: mobile_provisioning_url from File =" + url); } // populate the iccid, imei and phone number in the provisioning url. if (!TextUtils.isEmpty(url)) { String phoneNumber = mTelephonyManager.getLine1Number(); if (TextUtils.isEmpty(phoneNumber)) { phoneNumber = "0000000000"; } url = String.format(url, mTelephonyManager.getSimSerialNumber() /* ICCID */, mTelephonyManager.getDeviceId() /* IMEI */, phoneNumber /* Phone numer */); } return url; } @Override public void setProvisioningNotificationVisible(boolean visible, int networkType, String extraInfo, String url) { enforceConnectivityInternalPermission(); setProvNotificationVisible(visible, networkType, extraInfo, url); } @Override public void setAirplaneMode(boolean enable) { enforceConnectivityInternalPermission(); final long ident = Binder.clearCallingIdentity(); try { final ContentResolver cr = mContext.getContentResolver(); Settings.Global.putInt(cr, Settings.Global.AIRPLANE_MODE_ON, enable ? 1 : 0); Intent intent = new Intent(Intent.ACTION_AIRPLANE_MODE_CHANGED); intent.putExtra("state", enable); mContext.sendBroadcast(intent); } finally { Binder.restoreCallingIdentity(ident); } } private void onUserStart(int userId) { synchronized(mVpns) { Vpn userVpn = mVpns.get(userId); if (userVpn != null) { loge("Starting user already has a VPN"); return; } userVpn = new Vpn(mHandler.getLooper(), mContext, mNetd, this, userId); mVpns.put(userId, userVpn); } } private void onUserStop(int userId) { synchronized(mVpns) { Vpn userVpn = mVpns.get(userId); if (userVpn == null) { loge("Stopping user has no VPN"); return; } mVpns.delete(userId); } } private BroadcastReceiver mUserIntentReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { final String action = intent.getAction(); final int userId = intent.getIntExtra(Intent.EXTRA_USER_HANDLE, UserHandle.USER_NULL); if (userId == UserHandle.USER_NULL) return; if (Intent.ACTION_USER_STARTING.equals(action)) { onUserStart(userId); } else if (Intent.ACTION_USER_STOPPING.equals(action)) { onUserStop(userId); } } }; @Override public LinkQualityInfo getLinkQualityInfo(int networkType) { enforceAccessPermission(); if (isNetworkTypeValid(networkType) && mNetTrackers[networkType] != null) { return mNetTrackers[networkType].getLinkQualityInfo(); } else { return null; } } @Override public LinkQualityInfo getActiveLinkQualityInfo() { enforceAccessPermission(); if (isNetworkTypeValid(mActiveDefaultNetwork) && mNetTrackers[mActiveDefaultNetwork] != null) { return mNetTrackers[mActiveDefaultNetwork].getLinkQualityInfo(); } else { return null; } } @Override public LinkQualityInfo[] getAllLinkQualityInfo() { enforceAccessPermission(); final ArrayList result = Lists.newArrayList(); for (NetworkStateTracker tracker : mNetTrackers) { if (tracker != null) { LinkQualityInfo li = tracker.getLinkQualityInfo(); if (li != null) { result.add(li); } } } return result.toArray(new LinkQualityInfo[result.size()]); } /* Infrastructure for network sampling */ private void handleNetworkSamplingTimeout() { log("Sampling interval elapsed, updating statistics .."); // initialize list of interfaces .. Map mapIfaceToSample = new HashMap(); for (NetworkStateTracker tracker : mNetTrackers) { if (tracker != null) { String ifaceName = tracker.getNetworkInterfaceName(); if (ifaceName != null) { mapIfaceToSample.put(ifaceName, null); } } } // Read samples for all interfaces SamplingDataTracker.getSamplingSnapshots(mapIfaceToSample); // process samples for all networks for (NetworkStateTracker tracker : mNetTrackers) { if (tracker != null) { String ifaceName = tracker.getNetworkInterfaceName(); SamplingDataTracker.SamplingSnapshot ss = mapIfaceToSample.get(ifaceName); if (ss != null) { // end the previous sampling cycle tracker.stopSampling(ss); // start a new sampling cycle .. tracker.startSampling(ss); } } } log("Done."); int samplingIntervalInSeconds = Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.CONNECTIVITY_SAMPLING_INTERVAL_IN_SECONDS, DEFAULT_SAMPLING_INTERVAL_IN_SECONDS); if (DBG) log("Setting timer for " + String.valueOf(samplingIntervalInSeconds) + "seconds"); setAlarm(samplingIntervalInSeconds * 1000, mSampleIntervalElapsedIntent); } /** * Sets a network sampling alarm. */ void setAlarm(int timeoutInMilliseconds, PendingIntent intent) { long wakeupTime = SystemClock.elapsedRealtime() + timeoutInMilliseconds; int alarmType; if (Resources.getSystem().getBoolean( R.bool.config_networkSamplingWakesDevice)) { alarmType = AlarmManager.ELAPSED_REALTIME_WAKEUP; } else { alarmType = AlarmManager.ELAPSED_REALTIME; } mAlarmManager.set(alarmType, wakeupTime, intent); } private final HashMap mNetworkFactoryInfos = new HashMap(); private final HashMap mNetworkRequests = new HashMap(); private static class NetworkFactoryInfo { public final String name; public final Messenger messenger; public final AsyncChannel asyncChannel; public NetworkFactoryInfo(String name, Messenger messenger, AsyncChannel asyncChannel) { this.name = name; this.messenger = messenger; this.asyncChannel = asyncChannel; } } private class NetworkRequestInfo implements IBinder.DeathRecipient { static final boolean REQUEST = true; static final boolean LISTEN = false; final NetworkRequest request; IBinder mBinder; final int mPid; final int mUid; final Messenger messenger; final boolean isRequest; NetworkRequestInfo(Messenger m, NetworkRequest r, IBinder binder, boolean isRequest) { super(); messenger = m; request = r; mBinder = binder; mPid = getCallingPid(); mUid = getCallingUid(); this.isRequest = isRequest; try { mBinder.linkToDeath(this, 0); } catch (RemoteException e) { binderDied(); } } void unlinkDeathRecipient() { mBinder.unlinkToDeath(this, 0); } public void binderDied() { log("ConnectivityService NetworkRequestInfo binderDied(" + request + ", " + mBinder + ")"); releaseNetworkRequest(request); } public String toString() { return (isRequest ? "Request" : "Listen") + " from uid/pid:" + mUid + "/" + mPid + " for " + request; } } @Override public NetworkRequest requestNetwork(NetworkCapabilities networkCapabilities, Messenger messenger, int timeoutMs, IBinder binder, int legacyType) { if (networkCapabilities.hasCapability(NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED) == false) { enforceConnectivityInternalPermission(); } else { enforceChangePermission(); } if (timeoutMs < 0 || timeoutMs > ConnectivityManager.MAX_NETWORK_REQUEST_TIMEOUT_MS) { throw new IllegalArgumentException("Bad timeout specified"); } NetworkRequest networkRequest = new NetworkRequest(new NetworkCapabilities( networkCapabilities), legacyType, nextNetworkRequestId()); if (DBG) log("requestNetwork for " + networkRequest); NetworkRequestInfo nri = new NetworkRequestInfo(messenger, networkRequest, binder, NetworkRequestInfo.REQUEST); mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_REQUEST, nri)); if (timeoutMs > 0) { mHandler.sendMessageDelayed(mHandler.obtainMessage(EVENT_TIMEOUT_NETWORK_REQUEST, nri), timeoutMs); } return networkRequest; } @Override public NetworkRequest pendingRequestForNetwork(NetworkCapabilities networkCapabilities, PendingIntent operation) { // TODO return null; } @Override public NetworkRequest listenForNetwork(NetworkCapabilities networkCapabilities, Messenger messenger, IBinder binder) { enforceAccessPermission(); NetworkRequest networkRequest = new NetworkRequest(new NetworkCapabilities( networkCapabilities), TYPE_NONE, nextNetworkRequestId()); if (DBG) log("listenForNetwork for " + networkRequest); NetworkRequestInfo nri = new NetworkRequestInfo(messenger, networkRequest, binder, NetworkRequestInfo.LISTEN); mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_LISTENER, nri)); return networkRequest; } @Override public void pendingListenForNetwork(NetworkCapabilities networkCapabilities, PendingIntent operation) { } @Override public void releaseNetworkRequest(NetworkRequest networkRequest) { mHandler.sendMessage(mHandler.obtainMessage(EVENT_RELEASE_NETWORK_REQUEST, getCallingUid(), 0, networkRequest)); } @Override public void registerNetworkFactory(Messenger messenger, String name) { enforceConnectivityInternalPermission(); NetworkFactoryInfo nfi = new NetworkFactoryInfo(name, messenger, new AsyncChannel()); mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_FACTORY, nfi)); } private void handleRegisterNetworkFactory(NetworkFactoryInfo nfi) { if (VDBG) log("Got NetworkFactory Messenger for " + nfi.name); mNetworkFactoryInfos.put(nfi.messenger, nfi); nfi.asyncChannel.connect(mContext, mTrackerHandler, nfi.messenger); } @Override public void unregisterNetworkFactory(Messenger messenger) { enforceConnectivityInternalPermission(); mHandler.sendMessage(mHandler.obtainMessage(EVENT_UNREGISTER_NETWORK_FACTORY, messenger)); } private void handleUnregisterNetworkFactory(Messenger messenger) { NetworkFactoryInfo nfi = mNetworkFactoryInfos.remove(messenger); if (nfi == null) { if (VDBG) log("Failed to find Messenger in unregisterNetworkFactory"); return; } if (VDBG) log("unregisterNetworkFactory for " + nfi.name); } /** * NetworkAgentInfo supporting a request by requestId. * These have already been vetted (their Capabilities satisfy the request) * and the are the highest scored network available. * the are keyed off the Requests requestId. */ private final SparseArray mNetworkForRequestId = new SparseArray(); private final SparseArray mNetworkForNetId = new SparseArray(); // NetworkAgentInfo keyed off its connecting messenger // TODO - eval if we can reduce the number of lists/hashmaps/sparsearrays private final HashMap mNetworkAgentInfos = new HashMap(); private final NetworkRequest mDefaultRequest; public void registerNetworkAgent(Messenger messenger, NetworkInfo networkInfo, LinkProperties linkProperties, NetworkCapabilities networkCapabilities, int currentScore, NetworkMisc networkMisc) { enforceConnectivityInternalPermission(); NetworkAgentInfo nai = new NetworkAgentInfo(messenger, new AsyncChannel(), nextNetId(), new NetworkInfo(networkInfo), new LinkProperties(linkProperties), new NetworkCapabilities(networkCapabilities), currentScore, mContext, mTrackerHandler, networkMisc); if (VDBG) log("registerNetworkAgent " + nai); mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_AGENT, nai)); } private void handleRegisterNetworkAgent(NetworkAgentInfo na) { if (VDBG) log("Got NetworkAgent Messenger"); mNetworkAgentInfos.put(na.messenger, na); synchronized (mNetworkForNetId) { mNetworkForNetId.put(na.network.netId, na); } na.asyncChannel.connect(mContext, mTrackerHandler, na.messenger); NetworkInfo networkInfo = na.networkInfo; na.networkInfo = null; updateNetworkInfo(na, networkInfo); } private void updateLinkProperties(NetworkAgentInfo networkAgent, LinkProperties oldLp) { LinkProperties newLp = networkAgent.linkProperties; int netId = networkAgent.network.netId; updateInterfaces(newLp, oldLp, netId); updateMtu(newLp, oldLp); // TODO - figure out what to do for clat // for (LinkProperties lp : newLp.getStackedLinks()) { // updateMtu(lp, null); // } updateRoutes(newLp, oldLp, netId); updateDnses(newLp, oldLp, netId); updateClat(newLp, oldLp, networkAgent); } private void updateClat(LinkProperties newLp, LinkProperties oldLp, NetworkAgentInfo na) { // Update 464xlat state. if (mClat.requiresClat(na)) { // If the connection was previously using clat, but is not using it now, stop the clat // daemon. Normally, this happens automatically when the connection disconnects, but if // the disconnect is not reported, or if the connection's LinkProperties changed for // some other reason (e.g., handoff changes the IP addresses on the link), it would // still be running. If it's not running, then stopping it is a no-op. if (Nat464Xlat.isRunningClat(oldLp) && !Nat464Xlat.isRunningClat(newLp)) { mClat.stopClat(); } // If the link requires clat to be running, then start the daemon now. if (na.networkInfo.isConnected()) { mClat.startClat(na); } else { mClat.stopClat(); } } } private void updateInterfaces(LinkProperties newLp, LinkProperties oldLp, int netId) { CompareResult interfaceDiff = new CompareResult(); if (oldLp != null) { interfaceDiff = oldLp.compareAllInterfaceNames(newLp); } else if (newLp != null) { interfaceDiff.added = newLp.getAllInterfaceNames(); } for (String iface : interfaceDiff.added) { try { mNetd.addInterfaceToNetwork(iface, netId); } catch (Exception e) { loge("Exception adding interface: " + e); } } for (String iface : interfaceDiff.removed) { try { mNetd.removeInterfaceFromNetwork(iface, netId); } catch (Exception e) { loge("Exception removing interface: " + e); } } } private void updateRoutes(LinkProperties newLp, LinkProperties oldLp, int netId) { CompareResult routeDiff = new CompareResult(); if (oldLp != null) { routeDiff = oldLp.compareAllRoutes(newLp); } else if (newLp != null) { routeDiff.added = newLp.getAllRoutes(); } // add routes before removing old in case it helps with continuous connectivity // do this twice, adding non-nexthop routes first, then routes they are dependent on for (RouteInfo route : routeDiff.added) { if (route.hasGateway()) continue; try { mNetd.addRoute(netId, route); } catch (Exception e) { loge("Exception in addRoute for non-gateway: " + e); } } for (RouteInfo route : routeDiff.added) { if (route.hasGateway() == false) continue; try { mNetd.addRoute(netId, route); } catch (Exception e) { loge("Exception in addRoute for gateway: " + e); } } for (RouteInfo route : routeDiff.removed) { try { mNetd.removeRoute(netId, route); } catch (Exception e) { loge("Exception in removeRoute: " + e); } } } private void updateDnses(LinkProperties newLp, LinkProperties oldLp, int netId) { if (oldLp == null || (newLp.isIdenticalDnses(oldLp) == false)) { Collection dnses = newLp.getDnsServers(); if (dnses.size() == 0 && mDefaultDns != null) { dnses = new ArrayList(); dnses.add(mDefaultDns); if (DBG) { loge("no dns provided for netId " + netId + ", so using defaults"); } } try { mNetd.setDnsServersForNetwork(netId, NetworkUtils.makeStrings(dnses), newLp.getDomains()); } catch (Exception e) { loge("Exception in setDnsServersForNetwork: " + e); } NetworkAgentInfo defaultNai = mNetworkForRequestId.get(mDefaultRequest.requestId); if (defaultNai != null && defaultNai.network.netId == netId) { setDefaultDnsSystemProperties(dnses); } } } private void setDefaultDnsSystemProperties(Collection dnses) { int last = 0; for (InetAddress dns : dnses) { ++last; String key = "net.dns" + last; String value = dns.getHostAddress(); SystemProperties.set(key, value); } for (int i = last + 1; i <= mNumDnsEntries; ++i) { String key = "net.dns" + i; SystemProperties.set(key, ""); } mNumDnsEntries = last; } private void updateCapabilities(NetworkAgentInfo networkAgent, NetworkCapabilities networkCapabilities) { // TODO - what else here? Verify still satisfies everybody? // Check if satisfies somebody new? call callbacks? synchronized (networkAgent) { networkAgent.networkCapabilities = networkCapabilities; } } private void sendUpdatedScoreToFactories(NetworkRequest networkRequest, int score) { if (VDBG) log("sending new Min Network Score(" + score + "): " + networkRequest.toString()); for (NetworkFactoryInfo nfi : mNetworkFactoryInfos.values()) { nfi.asyncChannel.sendMessage(android.net.NetworkFactory.CMD_REQUEST_NETWORK, score, 0, networkRequest); } } private void callCallbackForRequest(NetworkRequestInfo nri, NetworkAgentInfo networkAgent, int notificationType) { if (nri.messenger == null) return; // Default request has no msgr Object o; int a1 = 0; int a2 = 0; switch (notificationType) { case ConnectivityManager.CALLBACK_LOSING: a1 = 30 * 1000; // TODO - read this from NetworkMonitor // fall through case ConnectivityManager.CALLBACK_PRECHECK: case ConnectivityManager.CALLBACK_AVAILABLE: case ConnectivityManager.CALLBACK_LOST: case ConnectivityManager.CALLBACK_CAP_CHANGED: case ConnectivityManager.CALLBACK_IP_CHANGED: { o = new NetworkRequest(nri.request); a2 = networkAgent.network.netId; break; } case ConnectivityManager.CALLBACK_UNAVAIL: case ConnectivityManager.CALLBACK_RELEASED: { o = new NetworkRequest(nri.request); break; } default: { loge("Unknown notificationType " + notificationType); return; } } Message msg = Message.obtain(); msg.arg1 = a1; msg.arg2 = a2; msg.obj = o; msg.what = notificationType; try { if (VDBG) log("sending notification " + notificationType + " for " + nri.request); nri.messenger.send(msg); } catch (RemoteException e) { // may occur naturally in the race of binder death. loge("RemoteException caught trying to send a callback msg for " + nri.request); } } private void handleLingerComplete(NetworkAgentInfo oldNetwork) { if (oldNetwork == null) { loge("Unknown NetworkAgentInfo in handleLingerComplete"); return; } if (DBG) log("handleLingerComplete for " + oldNetwork.name()); if (DBG) { if (oldNetwork.networkRequests.size() != 0) { loge("Dead network still had " + oldNetwork.networkRequests.size() + " requests"); } } oldNetwork.asyncChannel.disconnect(); } private void makeDefault(NetworkAgentInfo newNetwork) { if (VDBG) log("Switching to new default network: " + newNetwork); setupDataActivityTracking(newNetwork); try { mNetd.setDefaultNetId(newNetwork.network.netId); } catch (Exception e) { loge("Exception setting default network :" + e); } handleApplyDefaultProxy(newNetwork.linkProperties.getHttpProxy()); } private void handleConnectionValidated(NetworkAgentInfo newNetwork) { if (newNetwork == null) { loge("Unknown NetworkAgentInfo in handleConnectionValidated"); return; } boolean keep = newNetwork.isVPN(); boolean isNewDefault = false; if (DBG) log("handleConnectionValidated for "+newNetwork.name()); // check if any NetworkRequest wants this NetworkAgent ArrayList affectedNetworks = new ArrayList(); if (VDBG) log(" new Network has: " + newNetwork.networkCapabilities); for (NetworkRequestInfo nri : mNetworkRequests.values()) { NetworkAgentInfo currentNetwork = mNetworkForRequestId.get(nri.request.requestId); if (newNetwork == currentNetwork) { if (VDBG) log("Network " + newNetwork.name() + " was already satisfying" + " request " + nri.request.requestId + ". No change."); keep = true; continue; } // check if it satisfies the NetworkCapabilities if (VDBG) log(" checking if request is satisfied: " + nri.request); if (nri.request.networkCapabilities.satisfiedByNetworkCapabilities( newNetwork.networkCapabilities)) { // next check if it's better than any current network we're using for // this request if (VDBG) { log("currentScore = " + (currentNetwork != null ? currentNetwork.currentScore : 0) + ", newScore = " + newNetwork.currentScore); } if (currentNetwork == null || currentNetwork.currentScore < newNetwork.currentScore) { if (currentNetwork != null) { if (VDBG) log(" accepting network in place of " + currentNetwork.name()); currentNetwork.networkRequests.remove(nri.request.requestId); currentNetwork.networkLingered.add(nri.request); affectedNetworks.add(currentNetwork); } else { if (VDBG) log(" accepting network in place of null"); } mNetworkForRequestId.put(nri.request.requestId, newNetwork); newNetwork.addRequest(nri.request); int legacyType = nri.request.legacyType; if (legacyType != TYPE_NONE) { mLegacyTypeTracker.add(legacyType, newNetwork); } keep = true; // TODO - this could get expensive if we have alot of requests for this // network. Think about if there is a way to reduce this. Push // netid->request mapping to each factory? sendUpdatedScoreToFactories(nri.request, newNetwork.currentScore); if (mDefaultRequest.requestId == nri.request.requestId) { isNewDefault = true; updateActiveDefaultNetwork(newNetwork); if (newNetwork.linkProperties != null) { setDefaultDnsSystemProperties( newNetwork.linkProperties.getDnsServers()); } else { setDefaultDnsSystemProperties(new ArrayList()); } mLegacyTypeTracker.add(newNetwork.networkInfo.getType(), newNetwork); } } } } for (NetworkAgentInfo nai : affectedNetworks) { boolean teardown = !nai.isVPN(); for (int i = 0; i < nai.networkRequests.size() && teardown; i++) { NetworkRequest nr = nai.networkRequests.valueAt(i); try { if (mNetworkRequests.get(nr).isRequest) { teardown = false; } } catch (Exception e) { loge("Request " + nr + " not found in mNetworkRequests."); loge(" it came from request list of " + nai.name()); } } if (teardown) { nai.networkMonitor.sendMessage(NetworkMonitor.CMD_NETWORK_LINGER); notifyNetworkCallbacks(nai, ConnectivityManager.CALLBACK_LOSING); } else { // not going to linger, so kill the list of linger networks.. only // notify them of linger if it happens as the result of gaining another, // but if they transition and old network stays up, don't tell them of linger // or very delayed loss nai.networkLingered.clear(); if (VDBG) log("Lingered for " + nai.name() + " cleared"); } } if (keep) { if (isNewDefault) { makeDefault(newNetwork); synchronized (ConnectivityService.this) { // have a new default network, release the transition wakelock in // a second if it's held. The second pause is to allow apps // to reconnect over the new network if (mNetTransitionWakeLock.isHeld()) { mHandler.sendMessageDelayed(mHandler.obtainMessage( EVENT_CLEAR_NET_TRANSITION_WAKELOCK, mNetTransitionWakeLockSerialNumber, 0), 1000); } } // this will cause us to come up initially as unconnected and switching // to connected after our normal pause unless somebody reports us as // really disconnected mDefaultInetConditionPublished = 0; mDefaultConnectionSequence++; mInetConditionChangeInFlight = false; // TODO - read the tcp buffer size config string from somewhere // updateNetworkSettings(); } // notify battery stats service about this network try { BatteryStatsService.getService().noteNetworkInterfaceType( newNetwork.linkProperties.getInterfaceName(), newNetwork.networkInfo.getType()); } catch (RemoteException e) { } notifyNetworkCallbacks(newNetwork, ConnectivityManager.CALLBACK_AVAILABLE); } else { if (DBG && newNetwork.networkRequests.size() != 0) { loge("tearing down network with live requests:"); for (int i=0; i < newNetwork.networkRequests.size(); i++) { loge(" " + newNetwork.networkRequests.valueAt(i)); } } if (VDBG) log("Validated network turns out to be unwanted. Tear it down."); newNetwork.asyncChannel.disconnect(); } } private void updateNetworkInfo(NetworkAgentInfo networkAgent, NetworkInfo newInfo) { NetworkInfo.State state = newInfo.getState(); NetworkInfo oldInfo = null; synchronized (networkAgent) { oldInfo = networkAgent.networkInfo; networkAgent.networkInfo = newInfo; } if (networkAgent.isVPN() && mLockdownTracker != null) { mLockdownTracker.onVpnStateChanged(newInfo); } if (oldInfo != null && oldInfo.getState() == state) { if (VDBG) log("ignoring duplicate network state non-change"); return; } if (DBG) { log(networkAgent.name() + " EVENT_NETWORK_INFO_CHANGED, going from " + (oldInfo == null ? "null" : oldInfo.getState()) + " to " + state); } if (state == NetworkInfo.State.CONNECTED) { try { // This is likely caused by the fact that this network already // exists. An example is when a network goes from CONNECTED to // CONNECTING and back (like wifi on DHCP renew). // TODO: keep track of which networks we've created, or ask netd // to tell us whether we've already created this network or not. if (networkAgent.isVPN()) { mNetd.createVirtualNetwork(networkAgent.network.netId, !networkAgent.linkProperties.getDnsServers().isEmpty(), (networkAgent.networkMisc == null || !networkAgent.networkMisc.allowBypass)); } else { mNetd.createPhysicalNetwork(networkAgent.network.netId); } } catch (Exception e) { loge("Error creating network " + networkAgent.network.netId + ": " + e.getMessage()); return; } updateLinkProperties(networkAgent, null); notifyNetworkCallbacks(networkAgent, ConnectivityManager.CALLBACK_PRECHECK); networkAgent.networkMonitor.sendMessage(NetworkMonitor.CMD_NETWORK_CONNECTED); if (networkAgent.isVPN()) { // Temporarily disable the default proxy (not global). synchronized (mProxyLock) { if (!mDefaultProxyDisabled) { mDefaultProxyDisabled = true; if (mGlobalProxy == null && mDefaultProxy != null) { sendProxyBroadcast(null); } } } // TODO: support proxy per network. } // Make default network if we have no default. Any network is better than no network. if (mNetworkForRequestId.get(mDefaultRequest.requestId) == null && networkAgent.isVPN() == false && mDefaultRequest.networkCapabilities.satisfiedByNetworkCapabilities( networkAgent.networkCapabilities)) { makeDefault(networkAgent); } } else if (state == NetworkInfo.State.DISCONNECTED || state == NetworkInfo.State.SUSPENDED) { networkAgent.asyncChannel.disconnect(); if (networkAgent.isVPN()) { synchronized (mProxyLock) { if (mDefaultProxyDisabled) { mDefaultProxyDisabled = false; if (mGlobalProxy == null && mDefaultProxy != null) { sendProxyBroadcast(mDefaultProxy); } } } } } } private void updateNetworkScore(NetworkAgentInfo nai, int score) { if (DBG) log("updateNetworkScore for " + nai.name() + " to " + score); nai.currentScore = score; // TODO - This will not do the right thing if this network is lowering // its score and has requests that can be served by other // currently-active networks, or if the network is increasing its // score and other networks have requests that can be better served // by this network. // // Really we want to see if any of our requests migrate to other // active/lingered networks and if any other requests migrate to us (depending // on increasing/decreasing currentScore. That's a bit of work and probably our // score checking/network allocation code needs to be modularized so we can understand // (see handleConnectionValided for an example). // // As a first order approx, lets just advertise the new score to factories. If // somebody can beat it they will nominate a network and our normal net replacement // code will fire. for (int i = 0; i < nai.networkRequests.size(); i++) { NetworkRequest nr = nai.networkRequests.valueAt(i); sendUpdatedScoreToFactories(nr, score); } } // notify only this one new request of the current state protected void notifyNetworkCallback(NetworkAgentInfo nai, NetworkRequestInfo nri) { int notifyType = ConnectivityManager.CALLBACK_AVAILABLE; // TODO - read state from monitor to decide what to send. // if (nai.networkMonitor.isLingering()) { // notifyType = NetworkCallbacks.LOSING; // } else if (nai.networkMonitor.isEvaluating()) { // notifyType = NetworkCallbacks.callCallbackForRequest(request, nai, notifyType); // } callCallbackForRequest(nri, nai, notifyType); } private void sendLegacyNetworkBroadcast(NetworkAgentInfo nai, boolean connected, int type) { if (connected) { NetworkInfo info = new NetworkInfo(nai.networkInfo); info.setType(type); sendConnectedBroadcastDelayed(info, getConnectivityChangeDelay()); } else { NetworkInfo info = new NetworkInfo(nai.networkInfo); info.setType(type); Intent intent = new Intent(ConnectivityManager.CONNECTIVITY_ACTION); intent.putExtra(ConnectivityManager.EXTRA_NETWORK_INFO, info); intent.putExtra(ConnectivityManager.EXTRA_NETWORK_TYPE, info.getType()); if (info.isFailover()) { intent.putExtra(ConnectivityManager.EXTRA_IS_FAILOVER, true); nai.networkInfo.setFailover(false); } if (info.getReason() != null) { intent.putExtra(ConnectivityManager.EXTRA_REASON, info.getReason()); } if (info.getExtraInfo() != null) { intent.putExtra(ConnectivityManager.EXTRA_EXTRA_INFO, info.getExtraInfo()); } NetworkAgentInfo newDefaultAgent = null; if (nai.networkRequests.get(mDefaultRequest.requestId) != null) { newDefaultAgent = mNetworkForRequestId.get(mDefaultRequest.requestId); if (newDefaultAgent != null) { intent.putExtra(ConnectivityManager.EXTRA_OTHER_NETWORK_INFO, newDefaultAgent.networkInfo); } else { intent.putExtra(ConnectivityManager.EXTRA_NO_CONNECTIVITY, true); } } intent.putExtra(ConnectivityManager.EXTRA_INET_CONDITION, mDefaultInetConditionPublished); final Intent immediateIntent = new Intent(intent); immediateIntent.setAction(CONNECTIVITY_ACTION_IMMEDIATE); sendStickyBroadcast(immediateIntent); sendStickyBroadcastDelayed(intent, getConnectivityChangeDelay()); if (newDefaultAgent != null) { sendConnectedBroadcastDelayed(newDefaultAgent.networkInfo, getConnectivityChangeDelay()); } } } protected void notifyNetworkCallbacks(NetworkAgentInfo networkAgent, int notifyType) { if (VDBG) log("notifyType " + notifyType + " for " + networkAgent.name()); for (int i = 0; i < networkAgent.networkRequests.size(); i++) { NetworkRequest nr = networkAgent.networkRequests.valueAt(i); NetworkRequestInfo nri = mNetworkRequests.get(nr); if (VDBG) log(" sending notification for " + nr); callCallbackForRequest(nri, networkAgent, notifyType); } } private LinkProperties getLinkPropertiesForTypeInternal(int networkType) { NetworkAgentInfo nai = mLegacyTypeTracker.getNetworkForType(networkType); if (nai != null) { synchronized (nai) { return new LinkProperties(nai.linkProperties); } } return new LinkProperties(); } private NetworkInfo getNetworkInfoForType(int networkType) { if (!mLegacyTypeTracker.isTypeSupported(networkType)) return null; NetworkAgentInfo nai = mLegacyTypeTracker.getNetworkForType(networkType); if (nai != null) { NetworkInfo result = new NetworkInfo(nai.networkInfo); result.setType(networkType); return result; } else { return new NetworkInfo(networkType, 0, "Unknown", ""); } } private NetworkCapabilities getNetworkCapabilitiesForType(int networkType) { NetworkAgentInfo nai = mLegacyTypeTracker.getNetworkForType(networkType); if (nai != null) { synchronized (nai) { return new NetworkCapabilities(nai.networkCapabilities); } } return new NetworkCapabilities(); } }