Java程序
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6007行
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250.7 KB
/*
* 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.RECEIVE_DATA_ACTIVITY_CHANGE;
import static android.content.pm.PackageManager.PERMISSION_GRANTED;
import static android.net.ConnectivityManager.CONNECTIVITY_ACTION;
import static android.net.ConnectivityManager.NETID_UNSET;
import static android.net.ConnectivityManager.TYPE_ETHERNET;
import static android.net.ConnectivityManager.TYPE_NONE;
import static android.net.ConnectivityManager.TYPE_VPN;
import static android.net.ConnectivityManager.getNetworkTypeName;
import static android.net.ConnectivityManager.isNetworkTypeValid;
import static android.net.NetworkCapabilities.NET_CAPABILITY_CAPTIVE_PORTAL;
import static android.net.NetworkCapabilities.NET_CAPABILITY_FOREGROUND;
import static android.net.NetworkCapabilities.NET_CAPABILITY_INTERNET;
import static android.net.NetworkCapabilities.NET_CAPABILITY_NOT_METERED;
import static android.net.NetworkCapabilities.NET_CAPABILITY_NOT_RESTRICTED;
import static android.net.NetworkCapabilities.NET_CAPABILITY_NOT_ROAMING;
import static android.net.NetworkCapabilities.NET_CAPABILITY_NOT_SUSPENDED;
import static android.net.NetworkCapabilities.NET_CAPABILITY_NOT_VPN;
import static android.net.NetworkCapabilities.NET_CAPABILITY_VALIDATED;
import static android.net.NetworkCapabilities.TRANSPORT_VPN;
import static com.android.internal.util.Preconditions.checkNotNull;
import android.annotation.Nullable;
import android.app.BroadcastOptions;
import android.app.NotificationManager;
import android.app.PendingIntent;
import android.content.BroadcastReceiver;
import android.content.ContentResolver;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.res.Configuration;
import android.database.ContentObserver;
import android.net.ConnectivityManager;
import android.net.ConnectivityManager.PacketKeepalive;
import android.net.IConnectivityManager;
import android.net.IIpConnectivityMetrics;
import android.net.INetdEventCallback;
import android.net.INetworkManagementEventObserver;
import android.net.INetworkPolicyListener;
import android.net.INetworkPolicyManager;
import android.net.INetworkStatsService;
import android.net.LinkProperties;
import android.net.LinkProperties.CompareResult;
import android.net.MatchAllNetworkSpecifier;
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.NetworkMisc;
import android.net.NetworkPolicyManager;
import android.net.NetworkQuotaInfo;
import android.net.NetworkRequest;
import android.net.NetworkSpecifier;
import android.net.NetworkState;
import android.net.NetworkUtils;
import android.net.NetworkWatchlistManager;
import android.net.Proxy;
import android.net.ProxyInfo;
import android.net.RouteInfo;
import android.net.UidRange;
import android.net.Uri;
import android.net.VpnService;
import android.net.metrics.IpConnectivityLog;
import android.net.metrics.NetworkEvent;
import android.net.util.MultinetworkPolicyTracker;
import android.os.Binder;
import android.os.Build;
import android.os.Bundle;
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.Parcelable;
import android.os.PowerManager;
import android.os.Process;
import android.os.RemoteException;
import android.os.ResultReceiver;
import android.os.ServiceManager;
import android.os.ServiceSpecificException;
import android.os.ShellCallback;
import android.os.ShellCommand;
import android.os.SystemClock;
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.ArraySet;
import android.util.LocalLog;
import android.util.LocalLog.ReadOnlyLocalLog;
import android.util.Log;
import android.util.Slog;
import android.util.SparseArray;
import android.util.SparseBooleanArray;
import android.util.SparseIntArray;
import android.util.Xml;
import com.android.internal.R;
import com.android.internal.annotations.GuardedBy;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.app.IBatteryStats;
import com.android.internal.net.LegacyVpnInfo;
import com.android.internal.net.NetworkStatsFactory;
import com.android.internal.net.VpnConfig;
import com.android.internal.net.VpnInfo;
import com.android.internal.net.VpnProfile;
import com.android.internal.util.ArrayUtils;
import com.android.internal.util.AsyncChannel;
import com.android.internal.util.DumpUtils;
import com.android.internal.util.IndentingPrintWriter;
import com.android.internal.util.MessageUtils;
import com.android.internal.util.WakeupMessage;
import com.android.internal.util.XmlUtils;
import com.android.server.am.BatteryStatsService;
import com.android.server.connectivity.DataConnectionStats;
import com.android.server.connectivity.DnsManager;
import com.android.server.connectivity.DnsManager.PrivateDnsConfig;
import com.android.server.connectivity.DnsManager.PrivateDnsValidationUpdate;
import com.android.server.connectivity.IpConnectivityMetrics;
import com.android.server.connectivity.KeepaliveTracker;
import com.android.server.connectivity.LingerMonitor;
import com.android.server.connectivity.MockableSystemProperties;
import com.android.server.connectivity.MultipathPolicyTracker;
import com.android.server.connectivity.NetworkAgentInfo;
import com.android.server.connectivity.NetworkDiagnostics;
import com.android.server.connectivity.NetworkMonitor;
import com.android.server.connectivity.NetworkNotificationManager;
import com.android.server.connectivity.NetworkNotificationManager.NotificationType;
import com.android.server.connectivity.PacManager;
import com.android.server.connectivity.PermissionMonitor;
import com.android.server.connectivity.Tethering;
import com.android.server.connectivity.Vpn;
import com.android.server.connectivity.tethering.TetheringDependencies;
import com.android.server.net.BaseNetdEventCallback;
import com.android.server.net.BaseNetworkObserver;
import com.android.server.net.LockdownVpnTracker;
import com.android.server.net.NetworkPolicyManagerInternal;
import com.android.server.utils.PriorityDump;
import com.google.android.collect.Lists;
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.net.Inet4Address;
import java.net.InetAddress;
import java.net.UnknownHostException;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.SortedSet;
import java.util.TreeSet;
/**
* @hide
*/
public class ConnectivityService extends IConnectivityManager.Stub
implements PendingIntent.OnFinished {
private static final String TAG = ConnectivityService.class.getSimpleName();
public static final String DIAG_ARG = "--diag";
public static final String SHORT_ARG = "--short";
public static final String TETHERING_ARG = "tethering";
private static final boolean DBG = true;
private static final boolean VDBG = false;
private static final boolean LOGD_RULES = false;
private static final boolean LOGD_BLOCKED_NETWORKINFO = true;
// 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";
// How long to wait before putting up a "This network doesn't have an Internet connection,
// connect anyway?" dialog after the user selects a network that doesn't validate.
private static final int PROMPT_UNVALIDATED_DELAY_MS = 8 * 1000;
// Default to 30s linger time-out. Modifiable only for testing.
private static final String LINGER_DELAY_PROPERTY = "persist.netmon.linger";
private static final int DEFAULT_LINGER_DELAY_MS = 30_000;
@VisibleForTesting
protected int mLingerDelayMs; // Can't be final, or test subclass constructors can't change it.
// How long to delay to removal of a pending intent based request.
// See Settings.Secure.CONNECTIVITY_RELEASE_PENDING_INTENT_DELAY_MS
private final int mReleasePendingIntentDelayMs;
private MockableSystemProperties mSystemProperties;
private Tethering mTethering;
private final PermissionMonitor mPermissionMonitor;
private KeyStore mKeyStore;
@VisibleForTesting
@GuardedBy("mVpns")
protected final SparseArray<Vpn> mVpns = new SparseArray<Vpn>();
// TODO: investigate if mLockdownEnabled can be removed and replaced everywhere by
// a direct call to LockdownVpnTracker.isEnabled().
@GuardedBy("mVpns")
private boolean mLockdownEnabled;
@GuardedBy("mVpns")
private LockdownVpnTracker mLockdownTracker;
final private Context mContext;
private int mNetworkPreference;
// 0 is full bad, 100 is full good
private int mDefaultInetConditionPublished = 0;
private boolean mTestMode;
private static ConnectivityService sServiceInstance;
private INetworkManagementService mNetd;
private INetworkStatsService mStatsService;
private INetworkPolicyManager mPolicyManager;
private NetworkPolicyManagerInternal mPolicyManagerInternal;
private IIpConnectivityMetrics mIpConnectivityMetrics;
private String mCurrentTcpBufferSizes;
private static final int ENABLED = 1;
private static final int DISABLED = 0;
private static final SparseArray<String> sMagicDecoderRing = MessageUtils.findMessageNames(
new Class[] { AsyncChannel.class, ConnectivityService.class, NetworkAgent.class,
NetworkAgentInfo.class });
private enum ReapUnvalidatedNetworks {
// Tear down networks that have no chance (e.g. even if validated) of becoming
// the highest scoring network satisfying a NetworkRequest. This should be passed when
// all networks have been rematched against all NetworkRequests.
REAP,
// Don't reap networks. This should be passed when some networks have not yet been
// rematched against all NetworkRequests.
DONT_REAP
};
private enum UnneededFor {
LINGER, // Determine whether this network is unneeded and should be lingered.
TEARDOWN, // Determine whether this network is unneeded and should be torn down.
}
/**
* used internally to change our mobile data enabled flag
*/
private static final int EVENT_CHANGE_MOBILE_DATA_ENABLED = 2;
/**
* 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;
/**
* 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 callback (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;
/**
* Used internally to indicate the system is ready.
*/
private static final int EVENT_SYSTEM_READY = 25;
/**
* used to add a network request with a pending intent
* obj = NetworkRequestInfo
*/
private static final int EVENT_REGISTER_NETWORK_REQUEST_WITH_INTENT = 26;
/**
* used to remove a pending intent and its associated network request.
* arg1 = UID of caller
* obj = PendingIntent
*/
private static final int EVENT_RELEASE_NETWORK_REQUEST_WITH_INTENT = 27;
/**
* used to specify whether a network should be used even if unvalidated.
* arg1 = whether to accept the network if it's unvalidated (1 or 0)
* arg2 = whether to remember this choice in the future (1 or 0)
* obj = network
*/
private static final int EVENT_SET_ACCEPT_UNVALIDATED = 28;
/**
* used to ask the user to confirm a connection to an unvalidated network.
* obj = network
*/
private static final int EVENT_PROMPT_UNVALIDATED = 29;
/**
* used internally to (re)configure mobile data always-on settings.
*/
private static final int EVENT_CONFIGURE_MOBILE_DATA_ALWAYS_ON = 30;
/**
* used to add a network listener with a pending intent
* obj = NetworkRequestInfo
*/
private static final int EVENT_REGISTER_NETWORK_LISTENER_WITH_INTENT = 31;
/**
* used to specify whether a network should not be penalized when it becomes unvalidated.
*/
private static final int EVENT_SET_AVOID_UNVALIDATED = 35;
/**
* used to trigger revalidation of a network.
*/
private static final int EVENT_REVALIDATE_NETWORK = 36;
// Handle changes in Private DNS settings.
private static final int EVENT_PRIVATE_DNS_SETTINGS_CHANGED = 37;
// Handle private DNS validation status updates.
private static final int EVENT_PRIVATE_DNS_VALIDATION_UPDATE = 38;
private static String eventName(int what) {
return sMagicDecoderRing.get(what, Integer.toString(what));
}
/** Handler thread used for both of the handlers below. */
@VisibleForTesting
protected final HandlerThread mHandlerThread;
/** Handler used for internal events. */
final private InternalHandler mHandler;
/** Handler used for incoming {@link NetworkStateTracker} events. */
final private NetworkStateTrackerHandler mTrackerHandler;
private final DnsManager mDnsManager;
private boolean mSystemReady;
private Intent mInitialBroadcast;
private PowerManager.WakeLock mNetTransitionWakeLock;
private int mNetTransitionWakeLockTimeout;
private final PowerManager.WakeLock mPendingIntentWakeLock;
// track the current default http proxy - tell the world if we get a new one (real change)
private volatile ProxyInfo mDefaultProxy = null;
private Object mProxyLock = new Object();
private boolean mDefaultProxyDisabled = false;
// track the global proxy.
private ProxyInfo mGlobalProxy = null;
private PacManager mPacManager = null;
final private SettingsObserver mSettingsObserver;
private UserManager mUserManager;
NetworkConfig[] mNetConfigs;
int mNetworksDefined;
// the set of network types that can only be enabled by system/sig apps
List mProtectedNetworks;
private DataConnectionStats mDataConnectionStats;
TelephonyManager mTelephonyManager;
private KeepaliveTracker mKeepaliveTracker;
private NetworkNotificationManager mNotifier;
private LingerMonitor mLingerMonitor;
// sequence number for Networks; keep in sync with system/netd/NetworkController.cpp
private static final int MIN_NET_ID = 100; // some reserved marks
private static final int MAX_NET_ID = 65535 - 0x0400; // Top 1024 bits reserved by IpSecService
private int mNextNetId = MIN_NET_ID;
// sequence number of NetworkRequests
private int mNextNetworkRequestId = 1;
// NetworkRequest activity String log entries.
private static final int MAX_NETWORK_REQUEST_LOGS = 20;
private final LocalLog mNetworkRequestInfoLogs = new LocalLog(MAX_NETWORK_REQUEST_LOGS);
// NetworkInfo blocked and unblocked String log entries
private static final int MAX_NETWORK_INFO_LOGS = 40;
private final LocalLog mNetworkInfoBlockingLogs = new LocalLog(MAX_NETWORK_INFO_LOGS);
private static final int MAX_WAKELOCK_LOGS = 20;
private final LocalLog mWakelockLogs = new LocalLog(MAX_WAKELOCK_LOGS);
private int mTotalWakelockAcquisitions = 0;
private int mTotalWakelockReleases = 0;
private long mTotalWakelockDurationMs = 0;
private long mMaxWakelockDurationMs = 0;
private long mLastWakeLockAcquireTimestamp = 0;
// Array of <Network,ReadOnlyLocalLogs> tracking network validation and results
private static final int MAX_VALIDATION_LOGS = 10;
private static class ValidationLog {
final Network mNetwork;
final String mName;
final ReadOnlyLocalLog mLog;
ValidationLog(Network network, String name, ReadOnlyLocalLog log) {
mNetwork = network;
mName = name;
mLog = log;
}
}
private final ArrayDeque<ValidationLog> mValidationLogs =
new ArrayDeque<ValidationLog>(MAX_VALIDATION_LOGS);
private void addValidationLogs(ReadOnlyLocalLog log, Network network, String name) {
synchronized (mValidationLogs) {
while (mValidationLogs.size() >= MAX_VALIDATION_LOGS) {
mValidationLogs.removeLast();
}
mValidationLogs.addFirst(new ValidationLog(network, name, log));
}
}
private final IpConnectivityLog mMetricsLog;
@VisibleForTesting
final MultinetworkPolicyTracker mMultinetworkPolicyTracker;
@VisibleForTesting
final MultipathPolicyTracker mMultipathPolicyTracker;
/**
* 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 {
private static final boolean DBG = true;
private static final boolean VDBG = false;
/**
* 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.
*
* Threading model:
* - addSupportedType() is only called in the constructor
* - add(), update(), remove() are only called from the ConnectivityService handler thread.
* They are therefore not thread-safe with respect to each other.
* - getNetworkForType() can be called at any time on binder threads. It is synchronized
* on mTypeLists to be thread-safe with respect to a concurrent remove call.
* - dump is thread-safe with respect to concurrent add and remove calls.
*/
private final ArrayList<NetworkAgentInfo> mTypeLists[];
public LegacyTypeTracker() {
mTypeLists = (ArrayList<NetworkAgentInfo>[])
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<NetworkAgentInfo>();
}
public boolean isTypeSupported(int type) {
return isNetworkTypeValid(type) && mTypeLists[type] != null;
}
public NetworkAgentInfo getNetworkForType(int type) {
synchronized (mTypeLists) {
if (isTypeSupported(type) && !mTypeLists[type].isEmpty()) {
return mTypeLists[type].get(0);
}
}
return null;
}
private void maybeLogBroadcast(NetworkAgentInfo nai, DetailedState state, int type,
boolean isDefaultNetwork) {
if (DBG) {
log("Sending " + state +
" broadcast for type " + type + " " + nai.name() +
" isDefaultNetwork=" + isDefaultNetwork);
}
}
/** Adds the given network to the specified legacy type list. */
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<NetworkAgentInfo> list = mTypeLists[type];
if (list.contains(nai)) {
return;
}
synchronized (mTypeLists) {
list.add(nai);
}
// Send a broadcast if this is the first network of its type or if it's the default.
final boolean isDefaultNetwork = isDefaultNetwork(nai);
if ((list.size() == 1) || isDefaultNetwork) {
maybeLogBroadcast(nai, DetailedState.CONNECTED, type, isDefaultNetwork);
sendLegacyNetworkBroadcast(nai, DetailedState.CONNECTED, type);
}
}
/** Removes the given network from the specified legacy type list. */
public void remove(int type, NetworkAgentInfo nai, boolean wasDefault) {
ArrayList<NetworkAgentInfo> list = mTypeLists[type];
if (list == null || list.isEmpty()) {
return;
}
final boolean wasFirstNetwork = list.get(0).equals(nai);
synchronized (mTypeLists) {
if (!list.remove(nai)) {
return;
}
}
final DetailedState state = DetailedState.DISCONNECTED;
if (wasFirstNetwork || wasDefault) {
maybeLogBroadcast(nai, state, type, wasDefault);
sendLegacyNetworkBroadcast(nai, state, type);
}
if (!list.isEmpty() && wasFirstNetwork) {
if (DBG) log("Other network available for type " + type +
", sending connected broadcast");
final NetworkAgentInfo replacement = list.get(0);
maybeLogBroadcast(replacement, state, type, isDefaultNetwork(replacement));
sendLegacyNetworkBroadcast(replacement, state, type);
}
}
/** Removes the given network from all legacy type lists. */
public void remove(NetworkAgentInfo nai, boolean wasDefault) {
if (VDBG) log("Removing agent " + nai + " wasDefault=" + wasDefault);
for (int type = 0; type < mTypeLists.length; type++) {
remove(type, nai, wasDefault);
}
}
// send out another legacy broadcast - currently only used for suspend/unsuspend
// toggle
public void update(NetworkAgentInfo nai) {
final boolean isDefault = isDefaultNetwork(nai);
final DetailedState state = nai.networkInfo.getDetailedState();
for (int type = 0; type < mTypeLists.length; type++) {
final ArrayList<NetworkAgentInfo> list = mTypeLists[type];
final boolean contains = (list != null && list.contains(nai));
final boolean isFirst = contains && (nai == list.get(0));
if (isFirst || contains && isDefault) {
maybeLogBroadcast(nai, state, type, isDefault);
sendLegacyNetworkBroadcast(nai, state, type);
}
}
}
private String naiToString(NetworkAgentInfo nai) {
String name = (nai != null) ? nai.name() : "null";
String state = (nai.networkInfo != null) ?
nai.networkInfo.getState() + "/" + nai.networkInfo.getDetailedState() :
"???/???";
return name + " " + state;
}
public void dump(IndentingPrintWriter pw) {
pw.println("mLegacyTypeTracker:");
pw.increaseIndent();
pw.print("Supported types:");
for (int type = 0; type < mTypeLists.length; type++) {
if (mTypeLists[type] != null) pw.print(" " + type);
}
pw.println();
pw.println("Current state:");
pw.increaseIndent();
synchronized (mTypeLists) {
for (int type = 0; type < mTypeLists.length; type++) {
if (mTypeLists[type] == null || mTypeLists[type].isEmpty()) continue;
for (NetworkAgentInfo nai : mTypeLists[type]) {
pw.println(type + " " + naiToString(nai));
}
}
}
pw.decreaseIndent();
pw.decreaseIndent();
pw.println();
}
}
private LegacyTypeTracker mLegacyTypeTracker = new LegacyTypeTracker();
/**
* Helper class which parses out priority arguments and dumps sections according to their
* priority. If priority arguments are omitted, function calls the legacy dump command.
*/
private final PriorityDump.PriorityDumper mPriorityDumper = new PriorityDump.PriorityDumper() {
@Override
public void dumpHigh(FileDescriptor fd, PrintWriter pw, String[] args, boolean asProto) {
doDump(fd, pw, new String[] {DIAG_ARG}, asProto);
doDump(fd, pw, new String[] {SHORT_ARG}, asProto);
}
@Override
public void dumpNormal(FileDescriptor fd, PrintWriter pw, String[] args, boolean asProto) {
doDump(fd, pw, args, asProto);
}
@Override
public void dump(FileDescriptor fd, PrintWriter pw, String[] args, boolean asProto) {
doDump(fd, pw, args, asProto);
}
};
public ConnectivityService(Context context, INetworkManagementService netManager,
INetworkStatsService statsService, INetworkPolicyManager policyManager) {
this(context, netManager, statsService, policyManager, new IpConnectivityLog());
}
@VisibleForTesting
protected ConnectivityService(Context context, INetworkManagementService netManager,
INetworkStatsService statsService, INetworkPolicyManager policyManager,
IpConnectivityLog logger) {
if (DBG) log("ConnectivityService starting up");
mSystemProperties = getSystemProperties();
mMetricsLog = logger;
mDefaultRequest = createDefaultInternetRequestForTransport(-1, NetworkRequest.Type.REQUEST);
NetworkRequestInfo defaultNRI = new NetworkRequestInfo(null, mDefaultRequest, new Binder());
mNetworkRequests.put(mDefaultRequest, defaultNRI);
mNetworkRequestInfoLogs.log("REGISTER " + defaultNRI);
mDefaultMobileDataRequest = createDefaultInternetRequestForTransport(
NetworkCapabilities.TRANSPORT_CELLULAR, NetworkRequest.Type.BACKGROUND_REQUEST);
mHandlerThread = new HandlerThread("ConnectivityServiceThread");
mHandlerThread.start();
mHandler = new InternalHandler(mHandlerThread.getLooper());
mTrackerHandler = new NetworkStateTrackerHandler(mHandlerThread.getLooper());
mReleasePendingIntentDelayMs = Settings.Secure.getInt(context.getContentResolver(),
Settings.Secure.CONNECTIVITY_RELEASE_PENDING_INTENT_DELAY_MS, 5_000);
mLingerDelayMs = mSystemProperties.getInt(LINGER_DELAY_PROPERTY, DEFAULT_LINGER_DELAY_MS);
mContext = checkNotNull(context, "missing Context");
mNetd = checkNotNull(netManager, "missing INetworkManagementService");
mStatsService = checkNotNull(statsService, "missing INetworkStatsService");
mPolicyManager = checkNotNull(policyManager, "missing INetworkPolicyManager");
mPolicyManagerInternal = checkNotNull(
LocalServices.getService(NetworkPolicyManagerInternal.class),
"missing NetworkPolicyManagerInternal");
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);
}
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);
mPendingIntentWakeLock = powerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, TAG);
mNetConfigs = new NetworkConfig[ConnectivityManager.MAX_NETWORK_TYPE+1];
// TODO: What is the "correct" way to do determine if this is a wifi only device?
boolean wifiOnly = mSystemProperties.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;
}
mLegacyTypeTracker.addSupportedType(n.type);
mNetConfigs[n.type] = n;
mNetworksDefined++;
} catch(Exception e) {
// ignore it - leave the entry null
}
}
// Forcibly add TYPE_VPN as a supported type, if it has not already been added via config.
if (mNetConfigs[TYPE_VPN] == null) {
// mNetConfigs is used only for "restore time", which isn't applicable to VPNs, so we
// don't need to add TYPE_VPN to mNetConfigs.
mLegacyTypeTracker.addSupportedType(TYPE_VPN);
mNetworksDefined++; // used only in the log() statement below.
}
// Do the same for Ethernet, since it's often not specified in the configs, although many
// devices can use it via USB host adapters.
if (mNetConfigs[TYPE_ETHERNET] == null && hasService(Context.ETHERNET_SERVICE)) {
mLegacyTypeTracker.addSupportedType(TYPE_ETHERNET);
mNetworksDefined++;
}
if (VDBG) log("mNetworksDefined=" + mNetworksDefined);
mProtectedNetworks = new ArrayList<Integer>();
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);
}
}
mTestMode = mSystemProperties.get("cm.test.mode").equals("true")
&& mSystemProperties.get("ro.build.type").equals("eng");
mTethering = makeTethering();
mPermissionMonitor = new PermissionMonitor(mContext, mNetd);
//set up the listener for user state for creating user VPNs
IntentFilter intentFilter = new IntentFilter();
intentFilter.addAction(Intent.ACTION_USER_STARTED);
intentFilter.addAction(Intent.ACTION_USER_STOPPED);
intentFilter.addAction(Intent.ACTION_USER_ADDED);
intentFilter.addAction(Intent.ACTION_USER_REMOVED);
intentFilter.addAction(Intent.ACTION_USER_UNLOCKED);
mContext.registerReceiverAsUser(
mUserIntentReceiver, UserHandle.ALL, intentFilter, null, null);
mContext.registerReceiverAsUser(mUserPresentReceiver, UserHandle.SYSTEM,
new IntentFilter(Intent.ACTION_USER_PRESENT), null, null);
try {
mNetd.registerObserver(mTethering);
mNetd.registerObserver(mDataActivityObserver);
} catch (RemoteException e) {
loge("Error registering observer :" + e);
}
mSettingsObserver = new SettingsObserver(mContext, mHandler);
registerSettingsCallbacks();
mDataConnectionStats = new DataConnectionStats(mContext);
mDataConnectionStats.startMonitoring();
mPacManager = new PacManager(mContext, mHandler, EVENT_PROXY_HAS_CHANGED);
mUserManager = (UserManager) context.getSystemService(Context.USER_SERVICE);
mKeepaliveTracker = new KeepaliveTracker(mHandler);
mNotifier = new NetworkNotificationManager(mContext, mTelephonyManager,
mContext.getSystemService(NotificationManager.class));
final int dailyLimit = Settings.Global.getInt(mContext.getContentResolver(),
Settings.Global.NETWORK_SWITCH_NOTIFICATION_DAILY_LIMIT,
LingerMonitor.DEFAULT_NOTIFICATION_DAILY_LIMIT);
final long rateLimit = Settings.Global.getLong(mContext.getContentResolver(),
Settings.Global.NETWORK_SWITCH_NOTIFICATION_RATE_LIMIT_MILLIS,
LingerMonitor.DEFAULT_NOTIFICATION_RATE_LIMIT_MILLIS);
mLingerMonitor = new LingerMonitor(mContext, mNotifier, dailyLimit, rateLimit);
mMultinetworkPolicyTracker = createMultinetworkPolicyTracker(
mContext, mHandler, () -> rematchForAvoidBadWifiUpdate());
mMultinetworkPolicyTracker.start();
mMultipathPolicyTracker = new MultipathPolicyTracker(mContext, mHandler);
mDnsManager = new DnsManager(mContext, mNetd, mSystemProperties);
registerPrivateDnsSettingsCallbacks();
}
private Tethering makeTethering() {
// TODO: Move other elements into @Overridden getters.
final TetheringDependencies deps = new TetheringDependencies() {
@Override
public boolean isTetheringSupported() {
return ConnectivityService.this.isTetheringSupported();
}
};
return new Tethering(mContext, mNetd, mStatsService, mPolicyManager,
IoThread.get().getLooper(), new MockableSystemProperties(),
deps);
}
private static NetworkCapabilities createDefaultNetworkCapabilitiesForUid(int uid) {
final NetworkCapabilities netCap = new NetworkCapabilities();
netCap.addCapability(NET_CAPABILITY_INTERNET);
netCap.addCapability(NET_CAPABILITY_NOT_RESTRICTED);
netCap.removeCapability(NET_CAPABILITY_NOT_VPN);
netCap.setSingleUid(uid);
return netCap;
}
private NetworkRequest createDefaultInternetRequestForTransport(
int transportType, NetworkRequest.Type type) {
NetworkCapabilities netCap = new NetworkCapabilities();
netCap.addCapability(NET_CAPABILITY_INTERNET);
netCap.addCapability(NET_CAPABILITY_NOT_RESTRICTED);
if (transportType > -1) {
netCap.addTransportType(transportType);
}
return new NetworkRequest(netCap, TYPE_NONE, nextNetworkRequestId(), type);
}
// Used only for testing.
// TODO: Delete this and either:
// 1. Give FakeSettingsProvider the ability to send settings change notifications (requires
// changing ContentResolver to make registerContentObserver non-final).
// 2. Give FakeSettingsProvider an alternative notification mechanism and have the test use it
// by subclassing SettingsObserver.
@VisibleForTesting
void updateMobileDataAlwaysOn() {
mHandler.sendEmptyMessage(EVENT_CONFIGURE_MOBILE_DATA_ALWAYS_ON);
}
// See FakeSettingsProvider comment above.
@VisibleForTesting
void updatePrivateDnsSettings() {
mHandler.sendEmptyMessage(EVENT_PRIVATE_DNS_SETTINGS_CHANGED);
}
private void handleMobileDataAlwaysOn() {
final boolean enable = toBool(Settings.Global.getInt(
mContext.getContentResolver(), Settings.Global.MOBILE_DATA_ALWAYS_ON, 1));
final boolean isEnabled = (mNetworkRequests.get(mDefaultMobileDataRequest) != null);
if (enable == isEnabled) {
return; // Nothing to do.
}
if (enable) {
handleRegisterNetworkRequest(new NetworkRequestInfo(
null, mDefaultMobileDataRequest, new Binder()));
} else {
handleReleaseNetworkRequest(mDefaultMobileDataRequest, Process.SYSTEM_UID);
}
}
private void registerSettingsCallbacks() {
// Watch for global HTTP proxy changes.
mSettingsObserver.observe(
Settings.Global.getUriFor(Settings.Global.HTTP_PROXY),
EVENT_APPLY_GLOBAL_HTTP_PROXY);
// Watch for whether or not to keep mobile data always on.
mSettingsObserver.observe(
Settings.Global.getUriFor(Settings.Global.MOBILE_DATA_ALWAYS_ON),
EVENT_CONFIGURE_MOBILE_DATA_ALWAYS_ON);
}
private void registerPrivateDnsSettingsCallbacks() {
for (Uri uri : DnsManager.getPrivateDnsSettingsUris()) {
mSettingsObserver.observe(uri, EVENT_PRIVATE_DNS_SETTINGS_CHANGED);
}
}
private synchronized int nextNetworkRequestId() {
return mNextNetworkRequestId++;
}
@VisibleForTesting
protected int reserveNetId() {
synchronized (mNetworkForNetId) {
for (int i = MIN_NET_ID; i <= MAX_NET_ID; i++) {
int netId = mNextNetId;
if (++mNextNetId > MAX_NET_ID) mNextNetId = MIN_NET_ID;
// Make sure NetID unused. http://b/16815182
if (!mNetIdInUse.get(netId)) {
mNetIdInUse.put(netId, true);
return netId;
}
}
}
throw new IllegalStateException("No free netIds");
}
private NetworkState getFilteredNetworkState(int networkType, int uid, boolean ignoreBlocked) {
if (mLegacyTypeTracker.isTypeSupported(networkType)) {
final NetworkAgentInfo nai = mLegacyTypeTracker.getNetworkForType(networkType);
final NetworkState state;
if (nai != null) {
state = nai.getNetworkState();
state.networkInfo.setType(networkType);
} else {
final NetworkInfo info = new NetworkInfo(networkType, 0,
getNetworkTypeName(networkType), "");
info.setDetailedState(NetworkInfo.DetailedState.DISCONNECTED, null, null);
info.setIsAvailable(true);
final NetworkCapabilities capabilities = new NetworkCapabilities();
capabilities.setCapability(NetworkCapabilities.NET_CAPABILITY_NOT_ROAMING,
!info.isRoaming());
state = new NetworkState(info, new LinkProperties(), capabilities,
null, null, null);
}
filterNetworkStateForUid(state, uid, ignoreBlocked);
return state;
} else {
return NetworkState.EMPTY;
}
}
private NetworkAgentInfo getNetworkAgentInfoForNetwork(Network network) {
if (network == null) {
return null;
}
return getNetworkAgentInfoForNetId(network.netId);
}
private NetworkAgentInfo getNetworkAgentInfoForNetId(int netId) {
synchronized (mNetworkForNetId) {
return mNetworkForNetId.get(netId);
}
}
private Network[] getVpnUnderlyingNetworks(int uid) {
synchronized (mVpns) {
if (!mLockdownEnabled) {
int user = UserHandle.getUserId(uid);
Vpn vpn = mVpns.get(user);
if (vpn != null && vpn.appliesToUid(uid)) {
return vpn.getUnderlyingNetworks();
}
}
}
return null;
}
private NetworkState getUnfilteredActiveNetworkState(int uid) {
NetworkAgentInfo nai = getDefaultNetwork();
final Network[] networks = getVpnUnderlyingNetworks(uid);
if (networks != null) {
// getUnderlyingNetworks() returns:
// null => there was no VPN, or the VPN didn't specify anything, so we use the default.
// empty array => the VPN explicitly said "no default network".
// non-empty array => the VPN specified one or more default networks; we use the
// first one.
if (networks.length > 0) {
nai = getNetworkAgentInfoForNetwork(networks[0]);
} else {
nai = null;
}
}
if (nai != null) {
return nai.getNetworkState();
} else {
return NetworkState.EMPTY;
}
}
/**
* Check if UID should be blocked from using the network with the given LinkProperties.
*/
private boolean isNetworkWithLinkPropertiesBlocked(LinkProperties lp, int uid,
boolean ignoreBlocked) {
// Networks aren't blocked when ignoring blocked status
if (ignoreBlocked) {
return false;
}
// Networks are never blocked for system services
// TODO: consider moving this check to NetworkPolicyManagerInternal.isUidNetworkingBlocked.
if (isSystem(uid)) {
return false;
}
synchronized (mVpns) {
final Vpn vpn = mVpns.get(UserHandle.getUserId(uid));
if (vpn != null && vpn.isBlockingUid(uid)) {
return true;
}
}
final String iface = (lp == null ? "" : lp.getInterfaceName());
return mPolicyManagerInternal.isUidNetworkingBlocked(uid, iface);
}
private void maybeLogBlockedNetworkInfo(NetworkInfo ni, int uid) {
if (ni == null || !LOGD_BLOCKED_NETWORKINFO) {
return;
}
final boolean blocked;
synchronized (mBlockedAppUids) {
if (ni.getDetailedState() == DetailedState.BLOCKED && mBlockedAppUids.add(uid)) {
blocked = true;
} else if (ni.isConnected() && mBlockedAppUids.remove(uid)) {
blocked = false;
} else {
return;
}
}
String action = blocked ? "BLOCKED" : "UNBLOCKED";
log(String.format("Returning %s NetworkInfo to uid=%d", action, uid));
mNetworkInfoBlockingLogs.log(action + " " + uid);
}
/**
* Apply any relevant filters to {@link NetworkState} for the given UID. For
* example, this may mark the network as {@link DetailedState#BLOCKED} based
* on {@link #isNetworkWithLinkPropertiesBlocked}.
*/
private void filterNetworkStateForUid(NetworkState state, int uid, boolean ignoreBlocked) {
if (state == null || state.networkInfo == null || state.linkProperties == null) return;
if (isNetworkWithLinkPropertiesBlocked(state.linkProperties, uid, ignoreBlocked)) {
state.networkInfo.setDetailedState(DetailedState.BLOCKED, null, null);
}
synchronized (mVpns) {
if (mLockdownTracker != null) {
mLockdownTracker.augmentNetworkInfo(state.networkInfo);
}
}
}
/**
* 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();
final NetworkState state = getUnfilteredActiveNetworkState(uid);
filterNetworkStateForUid(state, uid, false);
maybeLogBlockedNetworkInfo(state.networkInfo, uid);
return state.networkInfo;
}
@Override
public Network getActiveNetwork() {
enforceAccessPermission();
return getActiveNetworkForUidInternal(Binder.getCallingUid(), false);
}
@Override
public Network getActiveNetworkForUid(int uid, boolean ignoreBlocked) {
enforceConnectivityInternalPermission();
return getActiveNetworkForUidInternal(uid, ignoreBlocked);
}
private Network getActiveNetworkForUidInternal(final int uid, boolean ignoreBlocked) {
final int user = UserHandle.getUserId(uid);
int vpnNetId = NETID_UNSET;
synchronized (mVpns) {
final Vpn vpn = mVpns.get(user);
// TODO : now that capabilities contain the UID, the appliesToUid test should
// be removed as the satisfying test below should be enough.
if (vpn != null && vpn.appliesToUid(uid)) vpnNetId = vpn.getNetId();
}
NetworkAgentInfo nai;
if (vpnNetId != NETID_UNSET) {
nai = getNetworkAgentInfoForNetId(vpnNetId);
if (nai != null) {
final NetworkCapabilities requiredCaps =
createDefaultNetworkCapabilitiesForUid(uid);
if (requiredCaps.satisfiedByNetworkCapabilities(nai.networkCapabilities)) {
return nai.network;
}
}
}
nai = getDefaultNetwork();
if (nai != null
&& isNetworkWithLinkPropertiesBlocked(nai.linkProperties, uid, ignoreBlocked)) {
nai = null;
}
return nai != null ? nai.network : null;
}
// Public because it's used by mLockdownTracker.
public NetworkInfo getActiveNetworkInfoUnfiltered() {
enforceAccessPermission();
final int uid = Binder.getCallingUid();
NetworkState state = getUnfilteredActiveNetworkState(uid);
return state.networkInfo;
}
@Override
public NetworkInfo getActiveNetworkInfoForUid(int uid, boolean ignoreBlocked) {
enforceConnectivityInternalPermission();
final NetworkState state = getUnfilteredActiveNetworkState(uid);
filterNetworkStateForUid(state, uid, ignoreBlocked);
return state.networkInfo;
}
@Override
public NetworkInfo getNetworkInfo(int networkType) {
enforceAccessPermission();
final int uid = Binder.getCallingUid();
if (getVpnUnderlyingNetworks(uid) != null) {
// A VPN is active, so we may need to return one of its underlying networks. This
// information is not available in LegacyTypeTracker, so we have to get it from
// getUnfilteredActiveNetworkState.
final NetworkState state = getUnfilteredActiveNetworkState(uid);
if (state.networkInfo != null && state.networkInfo.getType() == networkType) {
filterNetworkStateForUid(state, uid, false);
return state.networkInfo;
}
}
final NetworkState state = getFilteredNetworkState(networkType, uid, false);
return state.networkInfo;
}
@Override
public NetworkInfo getNetworkInfoForUid(Network network, int uid, boolean ignoreBlocked) {
enforceAccessPermission();
final NetworkAgentInfo nai = getNetworkAgentInfoForNetwork(network);
if (nai != null) {
final NetworkState state = nai.getNetworkState();
filterNetworkStateForUid(state, uid, ignoreBlocked);
return state.networkInfo;
} else {
return null;
}
}
@Override
public NetworkInfo[] getAllNetworkInfo() {
enforceAccessPermission();
final ArrayList<NetworkInfo> result = Lists.newArrayList();
for (int networkType = 0; networkType <= ConnectivityManager.MAX_NETWORK_TYPE;
networkType++) {
NetworkInfo info = getNetworkInfo(networkType);
if (info != null) {
result.add(info);
}
}
return result.toArray(new NetworkInfo[result.size()]);
}
@Override
public Network getNetworkForType(int networkType) {
enforceAccessPermission();
final int uid = Binder.getCallingUid();
NetworkState state = getFilteredNetworkState(networkType, uid, false);
if (!isNetworkWithLinkPropertiesBlocked(state.linkProperties, uid, false)) {
return state.network;
}
return null;
}
@Override
public Network[] getAllNetworks() {
enforceAccessPermission();
synchronized (mNetworkForNetId) {
final Network[] result = new Network[mNetworkForNetId.size()];
for (int i = 0; i < mNetworkForNetId.size(); i++) {
result[i] = mNetworkForNetId.valueAt(i).network;
}
return result;
}
}
@Override
public NetworkCapabilities[] getDefaultNetworkCapabilitiesForUser(int userId) {
// The basic principle is: if an app's traffic could possibly go over a
// network, without the app doing anything multinetwork-specific,
// (hence, by "default"), then include that network's capabilities in
// the array.
//
// In the normal case, app traffic only goes over the system's default
// network connection, so that's the only network returned.
//
// With a VPN in force, some app traffic may go into the VPN, and thus
// over whatever underlying networks the VPN specifies, while other app
// traffic may go over the system default network (e.g.: a split-tunnel
// VPN, or an app disallowed by the VPN), so the set of networks
// returned includes the VPN's underlying networks and the system
// default.
enforceAccessPermission();
HashMap<Network, NetworkCapabilities> result = new HashMap<Network, NetworkCapabilities>();
NetworkAgentInfo nai = getDefaultNetwork();
NetworkCapabilities nc = getNetworkCapabilitiesInternal(nai);
if (nc != null) {
result.put(nai.network, nc);
}
synchronized (mVpns) {
if (!mLockdownEnabled) {
Vpn vpn = mVpns.get(userId);
if (vpn != null) {
Network[] networks = vpn.getUnderlyingNetworks();
if (networks != null) {
for (Network network : networks) {
nai = getNetworkAgentInfoForNetwork(network);
nc = getNetworkCapabilitiesInternal(nai);
if (nc != null) {
result.put(network, nc);
}
}
}
}
}
}
NetworkCapabilities[] out = new NetworkCapabilities[result.size()];
out = result.values().toArray(out);
return out;
}
@Override
public boolean isNetworkSupported(int networkType) {
enforceAccessPermission();
return mLegacyTypeTracker.isTypeSupported(networkType);
}
/**
* 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() {
enforceAccessPermission();
final int uid = Binder.getCallingUid();
NetworkState state = getUnfilteredActiveNetworkState(uid);
return state.linkProperties;
}
@Override
public LinkProperties getLinkPropertiesForType(int networkType) {
enforceAccessPermission();
NetworkAgentInfo nai = mLegacyTypeTracker.getNetworkForType(networkType);
if (nai != null) {
synchronized (nai) {
return new LinkProperties(nai.linkProperties);
}
}
return null;
}
// TODO - this should be ALL networks
@Override
public LinkProperties getLinkProperties(Network network) {
enforceAccessPermission();
return getLinkProperties(getNetworkAgentInfoForNetwork(network));
}
private LinkProperties getLinkProperties(NetworkAgentInfo nai) {
if (nai == null) {
return null;
}
synchronized (nai) {
return new LinkProperties(nai.linkProperties);
}
}
private NetworkCapabilities getNetworkCapabilitiesInternal(NetworkAgentInfo nai) {
if (nai != null) {
synchronized (nai) {
if (nai.networkCapabilities != null) {
return networkCapabilitiesRestrictedForCallerPermissions(
nai.networkCapabilities,
Binder.getCallingPid(), Binder.getCallingUid());
}
}
}
return null;
}
@Override
public NetworkCapabilities getNetworkCapabilities(Network network) {
enforceAccessPermission();
return getNetworkCapabilitiesInternal(getNetworkAgentInfoForNetwork(network));
}
private NetworkCapabilities networkCapabilitiesRestrictedForCallerPermissions(
NetworkCapabilities nc, int callerPid, int callerUid) {
final NetworkCapabilities newNc = new NetworkCapabilities(nc);
if (!checkSettingsPermission(callerPid, callerUid)) {
newNc.setUids(null);
newNc.setSSID(null);
}
return newNc;
}
private void restrictRequestUidsForCaller(NetworkCapabilities nc) {
if (!checkSettingsPermission()) {
nc.setSingleUid(Binder.getCallingUid());
}
}
private void restrictBackgroundRequestForCaller(NetworkCapabilities nc) {
if (!mPermissionMonitor.hasUseBackgroundNetworksPermission(Binder.getCallingUid())) {
nc.addCapability(NET_CAPABILITY_FOREGROUND);
}
}
@Override
public NetworkState[] getAllNetworkState() {
// Require internal since we're handing out IMSI details
enforceConnectivityInternalPermission();
final ArrayList<NetworkState> result = Lists.newArrayList();
for (Network network : getAllNetworks()) {
final NetworkAgentInfo nai = getNetworkAgentInfoForNetwork(network);
if (nai != null) {
// TODO (b/73321673) : NetworkState contains a copy of the
// NetworkCapabilities, which may contain UIDs of apps to which the
// network applies. Should the UIDs be cleared so as not to leak or
// interfere ?
result.add(nai.getNetworkState());
}
}
return result.toArray(new NetworkState[result.size()]);
}
@Override
@Deprecated
public NetworkQuotaInfo getActiveNetworkQuotaInfo() {
Log.w(TAG, "Shame on UID " + Binder.getCallingUid()
+ " for calling the hidden API getNetworkQuotaInfo(). Shame!");
return new NetworkQuotaInfo();
}
@Override
public boolean isActiveNetworkMetered() {
enforceAccessPermission();
final int uid = Binder.getCallingUid();
final NetworkCapabilities caps = getUnfilteredActiveNetworkState(uid).networkCapabilities;
if (caps != null) {
return !caps.hasCapability(NetworkCapabilities.NET_CAPABILITY_NOT_METERED);
} else {
// Always return the most conservative value
return true;
}
}
private INetworkManagementEventObserver mDataActivityObserver = new BaseNetworkObserver() {
@Override
public void interfaceClassDataActivityChanged(String label, boolean active, long tsNanos) {
int deviceType = Integer.parseInt(label);
sendDataActivityBroadcast(deviceType, active, tsNanos);
}
};
/**
* 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
*/
@Override
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 (DBG) log("Adding legacy route " + bestRoute +
" for UID/PID " + uid + "/" + Binder.getCallingPid());
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;
}
@VisibleForTesting
protected final INetdEventCallback mNetdEventCallback = new BaseNetdEventCallback() {
@Override
public void onPrivateDnsValidationEvent(int netId, String ipAddress,
String hostname, boolean validated) {
try {
mHandler.sendMessage(mHandler.obtainMessage(
EVENT_PRIVATE_DNS_VALIDATION_UPDATE,
new PrivateDnsValidationUpdate(netId,
InetAddress.parseNumericAddress(ipAddress),
hostname, validated)));
} catch (IllegalArgumentException e) {
loge("Error parsing ip address in validation event");
}
}
};
@VisibleForTesting
protected void registerNetdEventCallback() {
mIpConnectivityMetrics =
(IIpConnectivityMetrics) IIpConnectivityMetrics.Stub.asInterface(
ServiceManager.getService(IpConnectivityLog.SERVICE_NAME));
if (mIpConnectivityMetrics == null) {
Slog.wtf(TAG, "Missing IIpConnectivityMetrics");
}
try {
mIpConnectivityMetrics.addNetdEventCallback(
INetdEventCallback.CALLBACK_CALLER_CONNECTIVITY_SERVICE,
mNetdEventCallback);
} catch (Exception e) {
loge("Error registering netd callback: " + e);
}
}
private final INetworkPolicyListener mPolicyListener = new NetworkPolicyManager.Listener() {
@Override
public void onUidRulesChanged(int uid, int uidRules) {
// TODO: notify UID when it has requested targeted updates
}
@Override
public void onRestrictBackgroundChanged(boolean restrictBackground) {
// TODO: relocate this specific callback in Tethering.
if (restrictBackground) {
log("onRestrictBackgroundChanged(true): disabling tethering");
mTethering.untetherAll();
}
}
};
/**
* Require that the caller is either in the same user or has appropriate permission to interact
* across users.
*
* @param userId Target user for whatever operation the current IPC is supposed to perform.
*/
private void enforceCrossUserPermission(int userId) {
if (userId == UserHandle.getCallingUserId()) {
// Not a cross-user call.
return;
}
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL,
"ConnectivityService");
}
private void enforceInternetPermission() {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERNET,
"ConnectivityService");
}
private void enforceAccessPermission() {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.ACCESS_NETWORK_STATE,
"ConnectivityService");
}
private void enforceChangePermission() {
ConnectivityManager.enforceChangePermission(mContext);
}
private void enforceSettingsPermission() {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.NETWORK_SETTINGS,
"ConnectivityService");
}
private boolean checkSettingsPermission() {
return PERMISSION_GRANTED == mContext.checkCallingOrSelfPermission(
android.Manifest.permission.NETWORK_SETTINGS);
}
private boolean checkSettingsPermission(int pid, int uid) {
return PERMISSION_GRANTED == mContext.checkPermission(
android.Manifest.permission.NETWORK_SETTINGS, pid, uid);
}
private void enforceTetherAccessPermission() {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.ACCESS_NETWORK_STATE,
"ConnectivityService");
}
private void enforceConnectivityInternalPermission() {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.CONNECTIVITY_INTERNAL,
"ConnectivityService");
}
private void enforceConnectivityRestrictedNetworksPermission() {
try {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.CONNECTIVITY_USE_RESTRICTED_NETWORKS,
"ConnectivityService");
return;
} catch (SecurityException e) { /* fallback to ConnectivityInternalPermission */ }
enforceConnectivityInternalPermission();
}
private void enforceKeepalivePermission() {
mContext.enforceCallingOrSelfPermission(KeepaliveTracker.PERMISSION, "ConnectivityService");
}
// Public because it's used by mLockdownTracker.
public void sendConnectedBroadcast(NetworkInfo info) {
enforceConnectivityInternalPermission();
sendGeneralBroadcast(info, CONNECTIVITY_ACTION);
}
private void sendInetConditionBroadcast(NetworkInfo info) {
sendGeneralBroadcast(info, ConnectivityManager.INET_CONDITION_ACTION);
}
private Intent makeGeneralIntent(NetworkInfo info, String bcastType) {
synchronized (mVpns) {
if (mLockdownTracker != null) {
info = new NetworkInfo(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 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());
}
Bundle options = null;
final long ident = Binder.clearCallingIdentity();
if (ConnectivityManager.CONNECTIVITY_ACTION.equals(intent.getAction())) {
final NetworkInfo ni = intent.getParcelableExtra(
ConnectivityManager.EXTRA_NETWORK_INFO);
if (ni.getType() == ConnectivityManager.TYPE_MOBILE_SUPL) {
intent.setAction(ConnectivityManager.CONNECTIVITY_ACTION_SUPL);
intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY);
} else {
BroadcastOptions opts = BroadcastOptions.makeBasic();
opts.setMaxManifestReceiverApiLevel(Build.VERSION_CODES.M);
options = opts.toBundle();
}
final IBatteryStats bs = BatteryStatsService.getService();
try {
bs.noteConnectivityChanged(intent.getIntExtra(
ConnectivityManager.EXTRA_NETWORK_TYPE, ConnectivityManager.TYPE_NONE),
ni != null ? ni.getState().toString() : "?");
} catch (RemoteException e) {
}
intent.addFlags(Intent.FLAG_RECEIVER_VISIBLE_TO_INSTANT_APPS);
}
try {
mContext.sendStickyBroadcastAsUser(intent, UserHandle.ALL, options);
} finally {
Binder.restoreCallingIdentity(ident);
}
}
}
void systemReady() {
loadGlobalProxy();
registerNetdEventCallback();
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 KeyStore won't be ready yet for secondary users so wait
// for user to unlock device too.
updateLockdownVpn();
// Configure whether mobile data is always on.
mHandler.sendMessage(mHandler.obtainMessage(EVENT_CONFIGURE_MOBILE_DATA_ALWAYS_ON));
mHandler.sendMessage(mHandler.obtainMessage(EVENT_SYSTEM_READY));
mPermissionMonitor.startMonitoring();
}
/**
* 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,
10);
type = ConnectivityManager.TYPE_MOBILE;
} else if (networkAgent.networkCapabilities.hasTransport(
NetworkCapabilities.TRANSPORT_WIFI)) {
timeout = Settings.Global.getInt(mContext.getContentResolver(),
Settings.Global.DATA_ACTIVITY_TIMEOUT_WIFI,
15);
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);
}
}
}
/**
* 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 && mtu == 0) {
// Silently ignore unset MTU value.
return;
}
if (oldLp != null && newLp.isIdenticalMtu(oldLp)) {
if (VDBG) log("identical MTU - not setting");
return;
}
if (LinkProperties.isValidMtu(mtu, newLp.hasGlobalIPv6Address()) == false) {
if (mtu != 0) loge("Unexpected mtu value: " + mtu + ", " + iface);
return;
}
// Cannot set MTU without interface name
if (TextUtils.isEmpty(iface)) {
loge("Setting MTU size with null 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);
}
}
private static final String DEFAULT_TCP_BUFFER_SIZES = "4096,87380,110208,4096,16384,110208";
private static final String DEFAULT_TCP_RWND_KEY = "net.tcp.default_init_rwnd";
// Overridden for testing purposes to avoid writing to SystemProperties.
@VisibleForTesting
protected MockableSystemProperties getSystemProperties() {
return new MockableSystemProperties();
}
private void updateTcpBufferSizes(NetworkAgentInfo nai) {
if (isDefaultNetwork(nai) == false) {
return;
}
String tcpBufferSizes = nai.linkProperties.getTcpBufferSizes();
String[] values = null;
if (tcpBufferSizes != null) {
values = tcpBufferSizes.split(",");
}
if (values == null || values.length != 6) {
if (DBG) log("Invalid tcpBufferSizes string: " + tcpBufferSizes +", using defaults");
tcpBufferSizes = DEFAULT_TCP_BUFFER_SIZES;
values = tcpBufferSizes.split(",");
}
if (tcpBufferSizes.equals(mCurrentTcpBufferSizes)) return;
try {
if (VDBG) Slog.d(TAG, "Setting tx/rx TCP buffers to " + tcpBufferSizes);
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]);
mCurrentTcpBufferSizes = tcpBufferSizes;
} catch (IOException e) {
loge("Can't set TCP buffer sizes:" + e);
}
Integer rwndValue = Settings.Global.getInt(mContext.getContentResolver(),
Settings.Global.TCP_DEFAULT_INIT_RWND,
mSystemProperties.getInt("net.tcp.default_init_rwnd", 0));
final String sysctlKey = "sys.sysctl.tcp_def_init_rwnd";
if (rwndValue != 0) {
mSystemProperties.set(sysctlKey, rwndValue.toString());
}
}
@Override
public int getRestoreDefaultNetworkDelay(int networkType) {
String restoreDefaultNetworkDelayStr = mSystemProperties.get(
NETWORK_RESTORE_DELAY_PROP_NAME);
if(restoreDefaultNetworkDelayStr != null &&
restoreDefaultNetworkDelayStr.length() != 0) {
try {
return Integer.parseInt(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;
}
private void dumpNetworkDiagnostics(IndentingPrintWriter pw) {
final List<NetworkDiagnostics> netDiags = new ArrayList<NetworkDiagnostics>();
final long DIAG_TIME_MS = 5000;
for (NetworkAgentInfo nai : mNetworkAgentInfos.values()) {
// Start gathering diagnostic information.
netDiags.add(new NetworkDiagnostics(
nai.network,
new LinkProperties(nai.linkProperties), // Must be a copy.
DIAG_TIME_MS));
}
for (NetworkDiagnostics netDiag : netDiags) {
pw.println();
netDiag.waitForMeasurements();
netDiag.dump(pw);
}
}
@Override
protected void dump(FileDescriptor fd, PrintWriter writer, String[] args) {
PriorityDump.dump(mPriorityDumper, fd, writer, args);
}
private void doDump(FileDescriptor fd, PrintWriter writer, String[] args, boolean asProto) {
final IndentingPrintWriter pw = new IndentingPrintWriter(writer, " ");
if (!DumpUtils.checkDumpPermission(mContext, TAG, pw)) return;
if (asProto) return;
if (ArrayUtils.contains(args, DIAG_ARG)) {
dumpNetworkDiagnostics(pw);
return;
} else if (ArrayUtils.contains(args, TETHERING_ARG)) {
mTethering.dump(fd, pw, args);
return;
}
pw.print("NetworkFactories for:");
for (NetworkFactoryInfo nfi : mNetworkFactoryInfos.values()) {
pw.print(" " + nfi.name);
}
pw.println();
pw.println();
final NetworkAgentInfo defaultNai = getDefaultNetwork();
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(String.format(
"Requests: REQUEST:%d LISTEN:%d BACKGROUND_REQUEST:%d total:%d",
nai.numForegroundNetworkRequests(),
nai.numNetworkRequests() - nai.numRequestNetworkRequests(),
nai.numBackgroundNetworkRequests(),
nai.numNetworkRequests()));
pw.increaseIndent();
for (int i = 0; i < nai.numNetworkRequests(); i++) {
pw.println(nai.requestAt(i).toString());
}
pw.decreaseIndent();
pw.println("Lingered:");
pw.increaseIndent();
nai.dumpLingerTimers(pw);
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();
mLegacyTypeTracker.dump(pw);
pw.println();
mTethering.dump(fd, pw, args);
pw.println();
mKeepaliveTracker.dump(pw);
pw.println();
dumpAvoidBadWifiSettings(pw);
pw.println();
mMultipathPolicyTracker.dump(pw);
if (ArrayUtils.contains(args, SHORT_ARG) == false) {
pw.println();
synchronized (mValidationLogs) {
pw.println("mValidationLogs (most recent first):");
for (ValidationLog p : mValidationLogs) {
pw.println(p.mNetwork + " - " + p.mName);
pw.increaseIndent();
p.mLog.dump(fd, pw, args);
pw.decreaseIndent();
}
}
pw.println();
pw.println("mNetworkRequestInfoLogs (most recent first):");
pw.increaseIndent();
mNetworkRequestInfoLogs.reverseDump(fd, pw, args);
pw.decreaseIndent();
pw.println();
pw.println("mNetworkInfoBlockingLogs (most recent first):");
pw.increaseIndent();
mNetworkInfoBlockingLogs.reverseDump(fd, pw, args);
pw.decreaseIndent();
pw.println();
pw.println("NetTransition WakeLock activity (most recent first):");
pw.increaseIndent();
pw.println("total acquisitions: " + mTotalWakelockAcquisitions);
pw.println("total releases: " + mTotalWakelockReleases);
pw.println("cumulative duration: " + (mTotalWakelockDurationMs / 1000) + "s");
pw.println("longest duration: " + (mMaxWakelockDurationMs / 1000) + "s");
if (mTotalWakelockAcquisitions > mTotalWakelockReleases) {
long duration = SystemClock.elapsedRealtime() - mLastWakeLockAcquireTimestamp;
pw.println("currently holding WakeLock for: " + (duration / 1000) + "s");
}
mWakelockLogs.reverseDump(fd, pw, args);
pw.decreaseIndent();
}
}
private boolean isLiveNetworkAgent(NetworkAgentInfo nai, int what) {
if (nai.network == null) return false;
final NetworkAgentInfo officialNai = getNetworkAgentInfoForNetwork(nai.network);
if (officialNai != null && officialNai.equals(nai)) return true;
if (officialNai != null || VDBG) {
loge(eventName(what) + " - isLiveNetworkAgent found mismatched netId: " + officialNai +
" - " + nai);
}
return false;
}
// must be stateless - things change under us.
private class NetworkStateTrackerHandler extends Handler {
public NetworkStateTrackerHandler(Looper looper) {
super(looper);
}
private boolean maybeHandleAsyncChannelMessage(Message msg) {
switch (msg.what) {
default:
return false;
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;
}
}
return true;
}
private void maybeHandleNetworkAgentMessage(Message msg) {
NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo);
if (nai == null) {
if (VDBG) {
log(String.format("%s from unknown NetworkAgent", eventName(msg.what)));
}
return;
}
switch (msg.what) {
case NetworkAgent.EVENT_NETWORK_CAPABILITIES_CHANGED: {
final NetworkCapabilities networkCapabilities = (NetworkCapabilities) msg.obj;
if (networkCapabilities.hasCapability(NET_CAPABILITY_CAPTIVE_PORTAL) ||
networkCapabilities.hasCapability(NET_CAPABILITY_VALIDATED) ||
networkCapabilities.hasCapability(NET_CAPABILITY_FOREGROUND)) {
Slog.wtf(TAG, "BUG: " + nai + " has CS-managed capability.");
}
updateCapabilities(nai.getCurrentScore(), nai, networkCapabilities);
break;
}
case NetworkAgent.EVENT_NETWORK_PROPERTIES_CHANGED: {
handleUpdateLinkProperties(nai, (LinkProperties) msg.obj);
break;
}
case NetworkAgent.EVENT_NETWORK_INFO_CHANGED: {
NetworkInfo info = (NetworkInfo) msg.obj;
updateNetworkInfo(nai, info);
break;
}
case NetworkAgent.EVENT_NETWORK_SCORE_CHANGED: {
Integer score = (Integer) msg.obj;
if (score != null) updateNetworkScore(nai, score.intValue());
break;
}
case NetworkAgent.EVENT_SET_EXPLICITLY_SELECTED: {
if (nai.everConnected && !nai.networkMisc.explicitlySelected) {
loge("ERROR: already-connected network explicitly selected.");
}
nai.networkMisc.explicitlySelected = true;
nai.networkMisc.acceptUnvalidated = (boolean) msg.obj;
break;
}
case NetworkAgent.EVENT_PACKET_KEEPALIVE: {
mKeepaliveTracker.handleEventPacketKeepalive(nai, msg);
break;
}
}
}
private boolean maybeHandleNetworkMonitorMessage(Message msg) {
switch (msg.what) {
default:
return false;
case NetworkMonitor.EVENT_NETWORK_TESTED: {
final NetworkAgentInfo nai = getNetworkAgentInfoForNetId(msg.arg2);
if (nai == null) break;
final boolean valid = (msg.arg1 == NetworkMonitor.NETWORK_TEST_RESULT_VALID);
final boolean wasValidated = nai.lastValidated;
final boolean wasDefault = isDefaultNetwork(nai);
final String redirectUrl = (msg.obj instanceof String) ? (String) msg.obj : "";
if (DBG) {
final String logMsg = !TextUtils.isEmpty(redirectUrl)
? " with redirect to " + redirectUrl
: "";
log(nai.name() + " validation " + (valid ? "passed" : "failed") + logMsg);
}
if (valid != nai.lastValidated) {
if (wasDefault) {
metricsLogger().defaultNetworkMetrics().logDefaultNetworkValidity(
SystemClock.elapsedRealtime(), valid);
}
final int oldScore = nai.getCurrentScore();
nai.lastValidated = valid;
nai.everValidated |= valid;
updateCapabilities(oldScore, nai, nai.networkCapabilities);
// If score has changed, rebroadcast to NetworkFactories. b/17726566
if (oldScore != nai.getCurrentScore()) sendUpdatedScoreToFactories(nai);
}
updateInetCondition(nai);
// Let the NetworkAgent know the state of its network
Bundle redirectUrlBundle = new Bundle();
redirectUrlBundle.putString(NetworkAgent.REDIRECT_URL_KEY, redirectUrl);
nai.asyncChannel.sendMessage(
NetworkAgent.CMD_REPORT_NETWORK_STATUS,
(valid ? NetworkAgent.VALID_NETWORK : NetworkAgent.INVALID_NETWORK),
0, redirectUrlBundle);
if (wasValidated && !nai.lastValidated) {
handleNetworkUnvalidated(nai);
}
break;
}
case NetworkMonitor.EVENT_PROVISIONING_NOTIFICATION: {
final int netId = msg.arg2;
final boolean visible = toBool(msg.arg1);
final NetworkAgentInfo nai = getNetworkAgentInfoForNetId(netId);
// If captive portal status has changed, update capabilities or disconnect.
if (nai != null && (visible != nai.lastCaptivePortalDetected)) {
final int oldScore = nai.getCurrentScore();
nai.lastCaptivePortalDetected = visible;
nai.everCaptivePortalDetected |= visible;
if (nai.lastCaptivePortalDetected &&
Settings.Global.CAPTIVE_PORTAL_MODE_AVOID == getCaptivePortalMode()) {
if (DBG) log("Avoiding captive portal network: " + nai.name());
nai.asyncChannel.sendMessage(
NetworkAgent.CMD_PREVENT_AUTOMATIC_RECONNECT);
teardownUnneededNetwork(nai);
break;
}
updateCapabilities(oldScore, nai, nai.networkCapabilities);
}
if (!visible) {
mNotifier.clearNotification(netId);
} else {
if (nai == null) {
loge("EVENT_PROVISIONING_NOTIFICATION from unknown NetworkMonitor");
break;
}
if (!nai.networkMisc.provisioningNotificationDisabled) {
mNotifier.showNotification(netId, NotificationType.SIGN_IN, nai, null,
(PendingIntent) msg.obj, nai.networkMisc.explicitlySelected);
}
}
break;
}
case NetworkMonitor.EVENT_PRIVATE_DNS_CONFIG_RESOLVED: {
final NetworkAgentInfo nai = getNetworkAgentInfoForNetId(msg.arg2);
if (nai == null) break;
updatePrivateDns(nai, (PrivateDnsConfig) msg.obj);
break;
}
}
return true;
}
private int getCaptivePortalMode() {
return Settings.Global.getInt(mContext.getContentResolver(),
Settings.Global.CAPTIVE_PORTAL_MODE,
Settings.Global.CAPTIVE_PORTAL_MODE_PROMPT);
}
private boolean maybeHandleNetworkAgentInfoMessage(Message msg) {
switch (msg.what) {
default:
return false;
case NetworkAgentInfo.EVENT_NETWORK_LINGER_COMPLETE: {
NetworkAgentInfo nai = (NetworkAgentInfo) msg.obj;
if (nai != null && isLiveNetworkAgent(nai, msg.what)) {
handleLingerComplete(nai);
}
break;
}
}
return true;
}
@Override
public void handleMessage(Message msg) {
if (!maybeHandleAsyncChannelMessage(msg) &&
!maybeHandleNetworkMonitorMessage(msg) &&
!maybeHandleNetworkAgentInfoMessage(msg)) {
maybeHandleNetworkAgentMessage(msg);
}
}
}
private boolean networkRequiresValidation(NetworkAgentInfo nai) {
return NetworkMonitor.isValidationRequired(
mDefaultRequest.networkCapabilities, nai.networkCapabilities);
}
private void handlePrivateDnsSettingsChanged() {
final PrivateDnsConfig cfg = mDnsManager.getPrivateDnsConfig();
for (NetworkAgentInfo nai : mNetworkAgentInfos.values()) {
handlePerNetworkPrivateDnsConfig(nai, cfg);
if (networkRequiresValidation(nai)) {
handleUpdateLinkProperties(nai, new LinkProperties(nai.linkProperties));
}
}
}
private void handlePerNetworkPrivateDnsConfig(NetworkAgentInfo nai, PrivateDnsConfig cfg) {
// Private DNS only ever applies to networks that might provide
// Internet access and therefore also require validation.
if (!networkRequiresValidation(nai)) return;
// Notify the NetworkMonitor thread in case it needs to cancel or
// schedule DNS resolutions. If a DNS resolution is required the
// result will be sent back to us.
nai.networkMonitor.notifyPrivateDnsSettingsChanged(cfg);
// With Private DNS bypass support, we can proceed to update the
// Private DNS config immediately, even if we're in strict mode
// and have not yet resolved the provider name into a set of IPs.
updatePrivateDns(nai, cfg);
}
private void updatePrivateDns(NetworkAgentInfo nai, PrivateDnsConfig newCfg) {
mDnsManager.updatePrivateDns(nai.network, newCfg);
updateDnses(nai.linkProperties, null, nai.network.netId);
}
private void handlePrivateDnsValidationUpdate(PrivateDnsValidationUpdate update) {
NetworkAgentInfo nai = getNetworkAgentInfoForNetId(update.netId);
if (nai == null) {
return;
}
mDnsManager.updatePrivateDnsValidation(update);
handleUpdateLinkProperties(nai, new LinkProperties(nai.linkProperties));
}
private void updateLingerState(NetworkAgentInfo nai, long now) {
// 1. Update the linger timer. If it's changed, reschedule or cancel the alarm.
// 2. If the network was lingering and there are now requests, unlinger it.
// 3. If this network is unneeded (which implies it is not lingering), and there is at least
// one lingered request, start lingering.
nai.updateLingerTimer();
if (nai.isLingering() && nai.numForegroundNetworkRequests() > 0) {
if (DBG) log("Unlingering " + nai.name());
nai.unlinger();
logNetworkEvent(nai, NetworkEvent.NETWORK_UNLINGER);
} else if (unneeded(nai, UnneededFor.LINGER) && nai.getLingerExpiry() > 0) {
int lingerTime = (int) (nai.getLingerExpiry() - now);
if (DBG) log("Lingering " + nai.name() + " for " + lingerTime + "ms");
nai.linger();
logNetworkEvent(nai, NetworkEvent.NETWORK_LINGER);
notifyNetworkCallbacks(nai, ConnectivityManager.CALLBACK_LOSING, lingerTime);
}
}
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.request.isListen()) continue;
NetworkAgentInfo nai = getNetworkForRequest(nri.request.requestId);
ac.sendMessage(android.net.NetworkFactory.CMD_REQUEST_NETWORK,
(nai != null ? nai.getCurrentScore() : 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) {
final boolean wasDefault = isDefaultNetwork(nai);
synchronized (mNetworkForNetId) {
mNetworkForNetId.remove(nai.network.netId);
mNetIdInUse.delete(nai.network.netId);
}
// Just in case.
mLegacyTypeTracker.remove(nai, wasDefault);
}
}
}
}
// This is a no-op if it's called with a message designating a network that has
// already been destroyed, because its reference will not be found in the relevant
// maps.
private void handleAsyncChannelDisconnected(Message msg) {
NetworkAgentInfo nai = mNetworkAgentInfos.get(msg.replyTo);
if (nai != null) {
disconnectAndDestroyNetwork(nai);
} else {
NetworkFactoryInfo nfi = mNetworkFactoryInfos.remove(msg.replyTo);
if (DBG && nfi != null) log("unregisterNetworkFactory for " + nfi.name);
}
}
// Destroys a network, remove references to it from the internal state managed by
// ConnectivityService, free its interfaces and clean up.
// Must be called on the Handler thread.
private void disconnectAndDestroyNetwork(NetworkAgentInfo nai) {
if (DBG) {
log(nai.name() + " got DISCONNECTED, was satisfying " + nai.numNetworkRequests());
}
// A network agent has disconnected.
// 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);
}
final boolean wasDefault = isDefaultNetwork(nai);
if (wasDefault) {
mDefaultInetConditionPublished = 0;
// Log default network disconnection before required book-keeping.
// Let rematchAllNetworksAndRequests() below record a new default network event
// if there is a fallback. Taken together, the two form a X -> 0, 0 -> Y sequence
// whose timestamps tell how long it takes to recover a default network.
long now = SystemClock.elapsedRealtime();
metricsLogger().defaultNetworkMetrics().logDefaultNetworkEvent(now, null, nai);
}
notifyIfacesChangedForNetworkStats();
// TODO - we shouldn't send CALLBACK_LOST to requests that can be satisfied
// by other networks that are already connected. Perhaps that can be done by
// sending all CALLBACK_LOST messages (for requests, not listens) at the end
// of rematchAllNetworksAndRequests
notifyNetworkCallbacks(nai, ConnectivityManager.CALLBACK_LOST);
mKeepaliveTracker.handleStopAllKeepalives(nai,
ConnectivityManager.PacketKeepalive.ERROR_INVALID_NETWORK);
for (String iface : nai.linkProperties.getAllInterfaceNames()) {
// Disable wakeup packet monitoring for each interface.
wakeupModifyInterface(iface, nai.networkCapabilities, false);
}
nai.networkMonitor.sendMessage(NetworkMonitor.CMD_NETWORK_DISCONNECTED);
mNetworkAgentInfos.remove(nai.messenger);
nai.maybeStopClat();
synchronized (mNetworkForNetId) {
// Remove the NetworkAgent, but don't mark the netId as
// available until we've told netd to delete it below.
mNetworkForNetId.remove(nai.network.netId);
}
// Remove all previously satisfied requests.
for (int i = 0; i < nai.numNetworkRequests(); i++) {
NetworkRequest request = nai.requestAt(i);
NetworkAgentInfo currentNetwork = getNetworkForRequest(request.requestId);
if (currentNetwork != null && currentNetwork.network.netId == nai.network.netId) {
clearNetworkForRequest(request.requestId);
sendUpdatedScoreToFactories(request, 0);
}
}
nai.clearLingerState();
if (nai.isSatisfyingRequest(mDefaultRequest.requestId)) {
removeDataActivityTracking(nai);
notifyLockdownVpn(nai);
ensureNetworkTransitionWakelock(nai.name());
}
mLegacyTypeTracker.remove(nai, wasDefault);
if (!nai.networkCapabilities.hasTransport(TRANSPORT_VPN)) {
updateAllVpnsCapabilities();
}
rematchAllNetworksAndRequests(null, 0);
mLingerMonitor.noteDisconnect(nai);
if (nai.created) {
// Tell netd to clean up the configuration for this network
// (routing rules, DNS, etc).
// This may be slow as it requires a lot of netd shelling out to ip and
// ip[6]tables to flush routes and remove the incoming packet mark rule, so do it
// after we've rematched networks with requests which should make a potential
// fallback network the default or requested a new network from the
// NetworkFactories, so network traffic isn't interrupted for an unnecessarily
// long time.
try {
mNetd.removeNetwork(nai.network.netId);
} catch (Exception e) {
loge("Exception removing network: " + e);
}
mDnsManager.removeNetwork(nai.network);
}
synchronized (mNetworkForNetId) {
mNetIdInUse.delete(nai.network.netId);
}
}
// If this method proves to be too slow then we can maintain a separate
// pendingIntent => NetworkRequestInfo map.
// This method assumes that every non-null PendingIntent maps to exactly 1 NetworkRequestInfo.
private NetworkRequestInfo findExistingNetworkRequestInfo(PendingIntent pendingIntent) {
Intent intent = pendingIntent.getIntent();
for (Map.Entry<NetworkRequest, NetworkRequestInfo> entry : mNetworkRequests.entrySet()) {
PendingIntent existingPendingIntent = entry.getValue().mPendingIntent;
if (existingPendingIntent != null &&
existingPendingIntent.getIntent().filterEquals(intent)) {
return entry.getValue();
}
}
return null;
}
private void handleRegisterNetworkRequestWithIntent(Message msg) {
final NetworkRequestInfo nri = (NetworkRequestInfo) (msg.obj);
NetworkRequestInfo existingRequest = findExistingNetworkRequestInfo(nri.mPendingIntent);
if (existingRequest != null) { // remove the existing request.
if (DBG) log("Replacing " + existingRequest.request + " with "
+ nri.request + " because their intents matched.");
handleReleaseNetworkRequest(existingRequest.request, getCallingUid());
}
handleRegisterNetworkRequest(nri);
}
private void handleRegisterNetworkRequest(NetworkRequestInfo nri) {
mNetworkRequests.put(nri.request, nri);
mNetworkRequestInfoLogs.log("REGISTER " + nri);
if (nri.request.isListen()) {
for (NetworkAgentInfo network : mNetworkAgentInfos.values()) {
if (nri.request.networkCapabilities.hasSignalStrength() &&
network.satisfiesImmutableCapabilitiesOf(nri.request)) {
updateSignalStrengthThresholds(network, "REGISTER", nri.request);
}
}
}
rematchAllNetworksAndRequests(null, 0);
if (nri.request.isRequest() && getNetworkForRequest(nri.request.requestId) == null) {
sendUpdatedScoreToFactories(nri.request, 0);
}
}
private void handleReleaseNetworkRequestWithIntent(PendingIntent pendingIntent,
int callingUid) {
NetworkRequestInfo nri = findExistingNetworkRequestInfo(pendingIntent);
if (nri != null) {
handleReleaseNetworkRequest(nri.request, callingUid);
}
}
// Determines whether the network is the best (or could become the best, if it validated), for
// none of a particular type of NetworkRequests. The type of NetworkRequests considered depends
// on the value of reason:
//
// - UnneededFor.TEARDOWN: non-listen NetworkRequests. If a network is unneeded for this reason,
// then it should be torn down.
// - UnneededFor.LINGER: foreground NetworkRequests. If a network is unneeded for this reason,
// then it should be lingered.
private boolean unneeded(NetworkAgentInfo nai, UnneededFor reason) {
final int numRequests;
switch (reason) {
case TEARDOWN:
numRequests = nai.numRequestNetworkRequests();
break;
case LINGER:
numRequests = nai.numForegroundNetworkRequests();
break;
default:
Slog.wtf(TAG, "Invalid reason. Cannot happen.");
return true;
}
if (!nai.everConnected || nai.isVPN() || nai.isLingering() || numRequests > 0) {
return false;
}
for (NetworkRequestInfo nri : mNetworkRequests.values()) {
if (reason == UnneededFor.LINGER && nri.request.isBackgroundRequest()) {
// Background requests don't affect lingering.
continue;
}
// If this Network is already the highest scoring Network for a request, or if
// there is hope for it to become one if it validated, then it is needed.
if (nri.request.isRequest() && nai.satisfies(nri.request) &&
(nai.isSatisfyingRequest(nri.request.requestId) ||
// Note that this catches two important cases:
// 1. Unvalidated cellular will not be reaped when unvalidated WiFi
// is currently satisfying the request. This is desirable when
// cellular ends up validating but WiFi does not.
// 2. Unvalidated WiFi will not be reaped when validated cellular
// is currently satisfying the request. This is desirable when
// WiFi ends up validating and out scoring cellular.
getNetworkForRequest(nri.request.requestId).getCurrentScore() <
nai.getCurrentScoreAsValidated())) {
return false;
}
}
return true;
}
private NetworkRequestInfo getNriForAppRequest(
NetworkRequest request, int callingUid, String requestedOperation) {
final NetworkRequestInfo nri = mNetworkRequests.get(request);
if (nri != null) {
if (Process.SYSTEM_UID != callingUid && nri.mUid != callingUid) {
log(String.format("UID %d attempted to %s for unowned request %s",
callingUid, requestedOperation, nri));
return null;
}
}
return nri;
}
private void handleTimedOutNetworkRequest(final NetworkRequestInfo nri) {
if (mNetworkRequests.get(nri.request) == null) {
return;
}
if (getNetworkForRequest(nri.request.requestId) != null) {
return;
}
if (VDBG || (DBG && nri.request.isRequest())) {
log("releasing " + nri.request + " (timeout)");
}
handleRemoveNetworkRequest(nri);
callCallbackForRequest(nri, null, ConnectivityManager.CALLBACK_UNAVAIL, 0);
}
private void handleReleaseNetworkRequest(NetworkRequest request, int callingUid) {
final NetworkRequestInfo nri =
getNriForAppRequest(request, callingUid, "release NetworkRequest");
if (nri == null) {
return;
}
if (VDBG || (DBG && nri.request.isRequest())) {
log("releasing " + nri.request + " (release request)");
}
handleRemoveNetworkRequest(nri);
}
private void handleRemoveNetworkRequest(final NetworkRequestInfo nri) {
nri.unlinkDeathRecipient();
mNetworkRequests.remove(nri.request);
synchronized (mUidToNetworkRequestCount) {
int requests = mUidToNetworkRequestCount.get(nri.mUid, 0);
if (requests < 1) {
Slog.wtf(TAG, "BUG: too small request count " + requests + " for UID " +
nri.mUid);
} else if (requests == 1) {
mUidToNetworkRequestCount.removeAt(
mUidToNetworkRequestCount.indexOfKey(nri.mUid));
} else {
mUidToNetworkRequestCount.put(nri.mUid, requests - 1);
}
}
mNetworkRequestInfoLogs.log("RELEASE " + nri);
if (nri.request.isRequest()) {
boolean wasKept = false;
NetworkAgentInfo nai = getNetworkForRequest(nri.request.requestId);
if (nai != null) {
boolean wasBackgroundNetwork = nai.isBackgroundNetwork();
nai.removeRequest(nri.request.requestId);
if (VDBG) {
log(" Removing from current network " + nai.name() +
", leaving " + nai.numNetworkRequests() + " requests.");
}
// If there are still lingered requests on this network, don't tear it down,
// but resume lingering instead.
updateLingerState(nai, SystemClock.elapsedRealtime());
if (unneeded(nai, UnneededFor.TEARDOWN)) {
if (DBG) log("no live requests for " + nai.name() + "; disconnecting");
teardownUnneededNetwork(nai);
} else {
wasKept = true;
}
clearNetworkForRequest(nri.request.requestId);
if (!wasBackgroundNetwork && nai.isBackgroundNetwork()) {
// Went from foreground to background.
updateCapabilities(nai.getCurrentScore(), nai, nai.networkCapabilities);
}
}
// TODO: remove this code once we know that the Slog.wtf is never hit.
//
// Find all networks that are satisfying this request and remove the request
// from their request lists.
// TODO - it's my understanding that for a request there is only a single
// network satisfying it, so this loop is wasteful
for (NetworkAgentInfo otherNai : mNetworkAgentInfos.values()) {
if (otherNai.isSatisfyingRequest(nri.request.requestId) && otherNai != nai) {
Slog.wtf(TAG, "Request " + nri.request + " satisfied by " +
otherNai.name() + ", but mNetworkAgentInfos says " +
(nai != null ? nai.name() : "null"));
}
}
// Maintain the illusion. When this request arrived, we might have pretended
// that a network connected to serve it, even though the network was already
// connected. Now that this request has gone away, we might have to pretend
// that the network disconnected. LegacyTypeTracker will generate that
// phantom disconnect for this type.
if (nri.request.legacyType != TYPE_NONE && nai != null) {
boolean doRemove = true;
if (wasKept) {
// check if any of the remaining requests for this network are for the
// same legacy type - if so, don't remove the nai
for (int i = 0; i < nai.numNetworkRequests(); i++) {
NetworkRequest otherRequest = nai.requestAt(i);
if (otherRequest.legacyType == nri.request.legacyType &&
otherRequest.isRequest()) {
if (DBG) log(" still have other legacy request - leaving");
doRemove = false;
}
}
}
if (doRemove) {
mLegacyTypeTracker.remove(nri.request.legacyType, nai, false);
}
}
for (NetworkFactoryInfo nfi : mNetworkFactoryInfos.values()) {
nfi.asyncChannel.sendMessage(android.net.NetworkFactory.CMD_CANCEL_REQUEST,
nri.request);
}
} else {
// listens don't have a singular affectedNetwork. Check all networks to see
// if this listen request applies and remove it.
for (NetworkAgentInfo nai : mNetworkAgentInfos.values()) {
nai.removeRequest(nri.request.requestId);
if (nri.request.networkCapabilities.hasSignalStrength() &&
nai.satisfiesImmutableCapabilitiesOf(nri.request)) {
updateSignalStrengthThresholds(nai, "RELEASE", nri.request);
}
}
}
}
@Override
public void setAcceptUnvalidated(Network network, boolean accept, boolean always) {
enforceConnectivityInternalPermission();
mHandler.sendMessage(mHandler.obtainMessage(EVENT_SET_ACCEPT_UNVALIDATED,
encodeBool(accept), encodeBool(always), network));
}
@Override
public void setAvoidUnvalidated(Network network) {
enforceConnectivityInternalPermission();
mHandler.sendMessage(mHandler.obtainMessage(EVENT_SET_AVOID_UNVALIDATED, network));
}
private void handleSetAcceptUnvalidated(Network network, boolean accept, boolean always) {
if (DBG) log("handleSetAcceptUnvalidated network=" + network +
" accept=" + accept + " always=" + always);
NetworkAgentInfo nai = getNetworkAgentInfoForNetwork(network);
if (nai == null) {
// Nothing to do.
return;
}
if (nai.everValidated) {
// The network validated while the dialog box was up. Take no action.
return;
}
if (!nai.networkMisc.explicitlySelected) {
Slog.wtf(TAG, "BUG: setAcceptUnvalidated non non-explicitly selected network");
}
if (accept != nai.networkMisc.acceptUnvalidated) {
int oldScore = nai.getCurrentScore();
nai.networkMisc.acceptUnvalidated = accept;
rematchAllNetworksAndRequests(nai, oldScore);
sendUpdatedScoreToFactories(nai);
}
if (always) {
nai.asyncChannel.sendMessage(
NetworkAgent.CMD_SAVE_ACCEPT_UNVALIDATED, encodeBool(accept));
}
if (!accept) {
// Tell the NetworkAgent to not automatically reconnect to the network.
nai.asyncChannel.sendMessage(NetworkAgent.CMD_PREVENT_AUTOMATIC_RECONNECT);
// Teardown the nework.
teardownUnneededNetwork(nai);
}
}
private void handleSetAvoidUnvalidated(Network network) {
NetworkAgentInfo nai = getNetworkAgentInfoForNetwork(network);
if (nai == null || nai.lastValidated) {
// Nothing to do. The network either disconnected or revalidated.
return;
}
if (!nai.avoidUnvalidated) {
int oldScore = nai.getCurrentScore();
nai.avoidUnvalidated = true;
rematchAllNetworksAndRequests(nai, oldScore);
sendUpdatedScoreToFactories(nai);
}
}
private void scheduleUnvalidatedPrompt(NetworkAgentInfo nai) {
if (VDBG) log("scheduleUnvalidatedPrompt " + nai.network);
mHandler.sendMessageDelayed(
mHandler.obtainMessage(EVENT_PROMPT_UNVALIDATED, nai.network),
PROMPT_UNVALIDATED_DELAY_MS);
}
@Override
public void startCaptivePortalApp(Network network) {
enforceConnectivityInternalPermission();
mHandler.post(() -> {
NetworkAgentInfo nai = getNetworkAgentInfoForNetwork(network);
if (nai == null) return;
if (!nai.networkCapabilities.hasCapability(NET_CAPABILITY_CAPTIVE_PORTAL)) return;
nai.networkMonitor.sendMessage(NetworkMonitor.CMD_LAUNCH_CAPTIVE_PORTAL_APP);
});
}
public boolean avoidBadWifi() {
return mMultinetworkPolicyTracker.getAvoidBadWifi();
}
private void rematchForAvoidBadWifiUpdate() {
rematchAllNetworksAndRequests(null, 0);
for (NetworkAgentInfo nai: mNetworkAgentInfos.values()) {
if (nai.networkCapabilities.hasTransport(NetworkCapabilities.TRANSPORT_WIFI)) {
sendUpdatedScoreToFactories(nai);
}
}
}
// TODO: Evaluate whether this is of interest to other consumers of
// MultinetworkPolicyTracker and worth moving out of here.
private void dumpAvoidBadWifiSettings(IndentingPrintWriter pw) {
final boolean configRestrict = mMultinetworkPolicyTracker.configRestrictsAvoidBadWifi();
if (!configRestrict) {
pw.println("Bad Wi-Fi avoidance: unrestricted");
return;
}
pw.println("Bad Wi-Fi avoidance: " + avoidBadWifi());
pw.increaseIndent();
pw.println("Config restrict: " + configRestrict);
final String value = mMultinetworkPolicyTracker.getAvoidBadWifiSetting();
String description;
// Can't use a switch statement because strings are legal case labels, but null is not.
if ("0".equals(value)) {
description = "get stuck";
} else if (value == null) {
description = "prompt";
} else if ("1".equals(value)) {
description = "avoid";
} else {
description = value + " (?)";
}
pw.println("User setting: " + description);
pw.println("Network overrides:");
pw.increaseIndent();
for (NetworkAgentInfo nai : mNetworkAgentInfos.values()) {
if (nai.avoidUnvalidated) {
pw.println(nai.name());
}
}
pw.decreaseIndent();
pw.decreaseIndent();
}
private void showValidationNotification(NetworkAgentInfo nai, NotificationType type) {
final String action;
switch (type) {
case NO_INTERNET:
action = ConnectivityManager.ACTION_PROMPT_UNVALIDATED;
break;
case LOST_INTERNET:
action = ConnectivityManager.ACTION_PROMPT_LOST_VALIDATION;
break;
default:
Slog.wtf(TAG, "Unknown notification type " + type);
return;
}
Intent intent = new Intent(action);
intent.setData(Uri.fromParts("netId", Integer.toString(nai.network.netId), null));
intent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
intent.setClassName("com.android.settings",
"com.android.settings.wifi.WifiNoInternetDialog");
PendingIntent pendingIntent = PendingIntent.getActivityAsUser(
mContext, 0, intent, PendingIntent.FLAG_CANCEL_CURRENT, null, UserHandle.CURRENT);
mNotifier.showNotification(nai.network.netId, type, nai, null, pendingIntent, true);
}
private void handlePromptUnvalidated(Network network) {
if (VDBG) log("handlePromptUnvalidated " + network);
NetworkAgentInfo nai = getNetworkAgentInfoForNetwork(network);
// Only prompt if the network is unvalidated and was explicitly selected by the user, and if
// we haven't already been told to switch to it regardless of whether it validated or not.
// Also don't prompt on captive portals because we're already prompting the user to sign in.
if (nai == null || nai.everValidated || nai.everCaptivePortalDetected ||
!nai.networkMisc.explicitlySelected || nai.networkMisc.acceptUnvalidated) {
return;
}
showValidationNotification(nai, NotificationType.NO_INTERNET);
}
private void handleNetworkUnvalidated(NetworkAgentInfo nai) {
NetworkCapabilities nc = nai.networkCapabilities;
if (DBG) log("handleNetworkUnvalidated " + nai.name() + " cap=" + nc);
if (nc.hasTransport(NetworkCapabilities.TRANSPORT_WIFI) &&
mMultinetworkPolicyTracker.shouldNotifyWifiUnvalidated()) {
showValidationNotification(nai, NotificationType.LOST_INTERNET);
}
}
@Override
public int getMultipathPreference(Network network) {
enforceAccessPermission();
NetworkAgentInfo nai = getNetworkAgentInfoForNetwork(network);
if (nai != null && nai.networkCapabilities
.hasCapability(NetworkCapabilities.NET_CAPABILITY_NOT_METERED)) {
return ConnectivityManager.MULTIPATH_PREFERENCE_UNMETERED;
}
Integer networkPreference = mMultipathPolicyTracker.getMultipathPreference(network);
if (networkPreference != null) {
return networkPreference;
}
return mMultinetworkPolicyTracker.getMeteredMultipathPreference();
}
private class InternalHandler extends Handler {
public InternalHandler(Looper looper) {
super(looper);
}
@Override
public void handleMessage(Message msg) {
switch (msg.what) {
case EVENT_EXPIRE_NET_TRANSITION_WAKELOCK:
case EVENT_CLEAR_NET_TRANSITION_WAKELOCK: {
handleReleaseNetworkTransitionWakelock(msg.what);
break;
}
case EVENT_APPLY_GLOBAL_HTTP_PROXY: {
handleDeprecatedGlobalHttpProxy();
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((NetworkRequestInfo) msg.obj);
break;
}
case EVENT_REGISTER_NETWORK_REQUEST_WITH_INTENT:
case EVENT_REGISTER_NETWORK_LISTENER_WITH_INTENT: {
handleRegisterNetworkRequestWithIntent(msg);
break;
}
case EVENT_TIMEOUT_NETWORK_REQUEST: {
NetworkRequestInfo nri = (NetworkRequestInfo) msg.obj;
handleTimedOutNetworkRequest(nri);
break;
}
case EVENT_RELEASE_NETWORK_REQUEST_WITH_INTENT: {
handleReleaseNetworkRequestWithIntent((PendingIntent) msg.obj, msg.arg1);
break;
}
case EVENT_RELEASE_NETWORK_REQUEST: {
handleReleaseNetworkRequest((NetworkRequest) msg.obj, msg.arg1);
break;
}
case EVENT_SET_ACCEPT_UNVALIDATED: {
Network network = (Network) msg.obj;
handleSetAcceptUnvalidated(network, toBool(msg.arg1), toBool(msg.arg2));
break;
}
case EVENT_SET_AVOID_UNVALIDATED: {
handleSetAvoidUnvalidated((Network) msg.obj);
break;
}
case EVENT_PROMPT_UNVALIDATED: {
handlePromptUnvalidated((Network) msg.obj);
break;
}
case EVENT_CONFIGURE_MOBILE_DATA_ALWAYS_ON: {
handleMobileDataAlwaysOn();
break;
}
// Sent by KeepaliveTracker to process an app request on the state machine thread.
case NetworkAgent.CMD_START_PACKET_KEEPALIVE: {
mKeepaliveTracker.handleStartKeepalive(msg);
break;
}
// Sent by KeepaliveTracker to process an app request on the state machine thread.
case NetworkAgent.CMD_STOP_PACKET_KEEPALIVE: {
NetworkAgentInfo nai = getNetworkAgentInfoForNetwork((Network) msg.obj);
int slot = msg.arg1;
int reason = msg.arg2;
mKeepaliveTracker.handleStopKeepalive(nai, slot, reason);
break;
}
case EVENT_SYSTEM_READY: {
for (NetworkAgentInfo nai : mNetworkAgentInfos.values()) {
nai.networkMonitor.systemReady = true;
}
mMultipathPolicyTracker.start();
break;
}
case EVENT_REVALIDATE_NETWORK: {
handleReportNetworkConnectivity((Network) msg.obj, msg.arg1, toBool(msg.arg2));
break;
}
case EVENT_PRIVATE_DNS_SETTINGS_CHANGED:
handlePrivateDnsSettingsChanged();
break;
case EVENT_PRIVATE_DNS_VALIDATION_UPDATE:
handlePrivateDnsValidationUpdate(
(PrivateDnsValidationUpdate) msg.obj);
break;
}
}
}
// javadoc from interface
@Override
public int tether(String iface, String callerPkg) {
ConnectivityManager.enforceTetherChangePermission(mContext, callerPkg);
if (isTetheringSupported()) {
final int status = mTethering.tether(iface);
return status;
} else {
return ConnectivityManager.TETHER_ERROR_UNSUPPORTED;
}
}
// javadoc from interface
@Override
public int untether(String iface, String callerPkg) {
ConnectivityManager.enforceTetherChangePermission(mContext, callerPkg);
if (isTetheringSupported()) {
final int status = mTethering.untether(iface);
return status;
} else {
return ConnectivityManager.TETHER_ERROR_UNSUPPORTED;
}
}
// javadoc from interface
@Override
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
@Override
public String[] getTetherableUsbRegexs() {
enforceTetherAccessPermission();
if (isTetheringSupported()) {
return mTethering.getTetherableUsbRegexs();
} else {
return new String[0];
}
}
@Override
public String[] getTetherableWifiRegexs() {
enforceTetherAccessPermission();
if (isTetheringSupported()) {
return mTethering.getTetherableWifiRegexs();
} else {
return new String[0];
}
}
@Override
public String[] getTetherableBluetoothRegexs() {
enforceTetherAccessPermission();
if (isTetheringSupported()) {
return mTethering.getTetherableBluetoothRegexs();
} else {
return new String[0];
}
}
@Override
public int setUsbTethering(boolean enable, String callerPkg) {
ConnectivityManager.enforceTetherChangePermission(mContext, callerPkg);
if (isTetheringSupported()) {
return mTethering.setUsbTethering(enable);
} else {
return ConnectivityManager.TETHER_ERROR_UNSUPPORTED;
}
}
// TODO - move iface listing, queries, etc to new module
// javadoc from interface
@Override
public String[] getTetherableIfaces() {
enforceTetherAccessPermission();
return mTethering.getTetherableIfaces();
}
@Override
public String[] getTetheredIfaces() {
enforceTetherAccessPermission();
return mTethering.getTetheredIfaces();
}
@Override
public String[] getTetheringErroredIfaces() {
enforceTetherAccessPermission();
return mTethering.getErroredIfaces();
}
@Override
public String[] getTetheredDhcpRanges() {
enforceConnectivityInternalPermission();
return mTethering.getTetheredDhcpRanges();
}
@Override
public boolean isTetheringSupported(String callerPkg) {
ConnectivityManager.enforceTetherChangePermission(mContext, callerPkg);
return isTetheringSupported();
}
// 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.
private boolean isTetheringSupported() {
int defaultVal = encodeBool(!mSystemProperties.get("ro.tether.denied").equals("true"));
boolean tetherSupported = toBool(Settings.Global.getInt(mContext.getContentResolver(),
Settings.Global.TETHER_SUPPORTED, defaultVal));
boolean tetherEnabledInSettings = tetherSupported
&& !mUserManager.hasUserRestriction(UserManager.DISALLOW_CONFIG_TETHERING);
// Elevate to system UID to avoid caller requiring MANAGE_USERS permission.
boolean adminUser = false;
final long token = Binder.clearCallingIdentity();
try {
adminUser = mUserManager.isAdminUser();
} finally {
Binder.restoreCallingIdentity(token);
}
return tetherEnabledInSettings && adminUser && mTethering.hasTetherableConfiguration();
}
@Override
public void startTethering(int type, ResultReceiver receiver, boolean showProvisioningUi,
String callerPkg) {
ConnectivityManager.enforceTetherChangePermission(mContext, callerPkg);
if (!isTetheringSupported()) {
receiver.send(ConnectivityManager.TETHER_ERROR_UNSUPPORTED, null);
return;
}
mTethering.startTethering(type, receiver, showProvisioningUi);
}
@Override
public void stopTethering(int type, String callerPkg) {
ConnectivityManager.enforceTetherChangePermission(mContext, callerPkg);
mTethering.stopTethering(type);
}
// 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 ensureNetworkTransitionWakelock(String forWhom) {
synchronized (this) {
if (mNetTransitionWakeLock.isHeld()) {
return;
}
mNetTransitionWakeLock.acquire();
mLastWakeLockAcquireTimestamp = SystemClock.elapsedRealtime();
mTotalWakelockAcquisitions++;
}
mWakelockLogs.log("ACQUIRE for " + forWhom);
Message msg = mHandler.obtainMessage(EVENT_EXPIRE_NET_TRANSITION_WAKELOCK);
mHandler.sendMessageDelayed(msg, mNetTransitionWakeLockTimeout);
}
// Called when we gain a new default network to release the network transition wakelock in a
// second, to allow a grace period for apps to reconnect over the new network. Pending expiry
// message is cancelled.
private void scheduleReleaseNetworkTransitionWakelock() {
synchronized (this) {
if (!mNetTransitionWakeLock.isHeld()) {
return; // expiry message released the lock first.
}
}
// Cancel self timeout on wakelock hold.
mHandler.removeMessages(EVENT_EXPIRE_NET_TRANSITION_WAKELOCK);
Message msg = mHandler.obtainMessage(EVENT_CLEAR_NET_TRANSITION_WAKELOCK);
mHandler.sendMessageDelayed(msg, 1000);
}
// Called when either message of ensureNetworkTransitionWakelock or
// scheduleReleaseNetworkTransitionWakelock is processed.
private void handleReleaseNetworkTransitionWakelock(int eventId) {
String event = eventName(eventId);
synchronized (this) {
if (!mNetTransitionWakeLock.isHeld()) {
mWakelockLogs.log(String.format("RELEASE: already released (%s)", event));
Slog.w(TAG, "expected Net Transition WakeLock to be held");
return;
}
mNetTransitionWakeLock.release();
long lockDuration = SystemClock.elapsedRealtime() - mLastWakeLockAcquireTimestamp;
mTotalWakelockDurationMs += lockDuration;
mMaxWakelockDurationMs = Math.max(mMaxWakelockDurationMs, lockDuration);
mTotalWakelockReleases++;
}
mWakelockLogs.log(String.format("RELEASE (%s)", event));
}
// 100 percent is full good, 0 is full bad.
@Override
public void reportInetCondition(int networkType, int percentage) {
NetworkAgentInfo nai = mLegacyTypeTracker.getNetworkForType(networkType);
if (nai == null) return;
reportNetworkConnectivity(nai.network, percentage > 50);
}
@Override
public void reportNetworkConnectivity(Network network, boolean hasConnectivity) {
enforceAccessPermission();
enforceInternetPermission();
final int uid = Binder.getCallingUid();
final int connectivityInfo = encodeBool(hasConnectivity);
mHandler.sendMessage(
mHandler.obtainMessage(EVENT_REVALIDATE_NETWORK, uid, connectivityInfo, network));
}
private void handleReportNetworkConnectivity(
Network network, int uid, boolean hasConnectivity) {
final NetworkAgentInfo nai;
if (network == null) {
nai = getDefaultNetwork();
} else {
nai = getNetworkAgentInfoForNetwork(network);
}
if (nai == null || nai.networkInfo.getState() == NetworkInfo.State.DISCONNECTING ||
nai.networkInfo.getState() == NetworkInfo.State.DISCONNECTED) {
return;
}
// Revalidate if the app report does not match our current validated state.
if (hasConnectivity == nai.lastValidated) {
return;
}
if (DBG) {
int netid = nai.network.netId;
log("reportNetworkConnectivity(" + netid + ", " + hasConnectivity + ") by " + uid);
}
// Validating a network that has not yet connected could result in a call to
// rematchNetworkAndRequests() which is not meant to work on such networks.
if (!nai.everConnected) {
return;
}
LinkProperties lp = getLinkProperties(nai);
if (isNetworkWithLinkPropertiesBlocked(lp, uid, false)) {
return;
}
nai.networkMonitor.forceReevaluation(uid);
}
private ProxyInfo getDefaultProxy() {
// 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;
}
}
@Override
public ProxyInfo getProxyForNetwork(Network network) {
if (network == null) return getDefaultProxy();
final ProxyInfo globalProxy = getGlobalProxy();
if (globalProxy != null) return globalProxy;
if (!NetworkUtils.queryUserAccess(Binder.getCallingUid(), network.netId)) return null;
// Don't call getLinkProperties() as it requires ACCESS_NETWORK_STATE permission, which
// caller may not have.
final NetworkAgentInfo nai = getNetworkAgentInfoForNetwork(network);
if (nai == null) return null;
synchronized (nai) {
final ProxyInfo proxyInfo = nai.linkProperties.getHttpProxy();
if (proxyInfo == null) return null;
return new ProxyInfo(proxyInfo);
}
}
// Convert empty ProxyInfo's to null as null-checks are used to determine if proxies are present
// (e.g. if mGlobalProxy==null fall back to network-specific proxy, if network-specific
// proxy is null then there is no proxy in place).
private ProxyInfo canonicalizeProxyInfo(ProxyInfo proxy) {
if (proxy != null && TextUtils.isEmpty(proxy.getHost())
&& (proxy.getPacFileUrl() == null || Uri.EMPTY.equals(proxy.getPacFileUrl()))) {
proxy = null;
}
return proxy;
}
// ProxyInfo equality function with a couple modifications over ProxyInfo.equals() to make it
// better for determining if a new proxy broadcast is necessary:
// 1. Canonicalize empty ProxyInfos to null so an empty proxy compares equal to null so as to
// avoid unnecessary broadcasts.
// 2. Make sure all parts of the ProxyInfo's compare true, including the host when a PAC URL
// is in place. This is important so legacy PAC resolver (see com.android.proxyhandler)
// changes aren't missed. The legacy PAC resolver pretends to be a simple HTTP proxy but
// actually uses the PAC to resolve; this results in ProxyInfo's with PAC URL, host and port
// all set.
private boolean proxyInfoEqual(ProxyInfo a, ProxyInfo b) {
a = canonicalizeProxyInfo(a);
b = canonicalizeProxyInfo(b);
// ProxyInfo.equals() doesn't check hosts when PAC URLs are present, but we need to check
// hosts even when PAC URLs are present to account for the legacy PAC resolver.
return Objects.equals(a, b) && (a == null || Objects.equals(a.getHost(), b.getHost()));
}
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()) ||
!Uri.EMPTY.equals(proxyProperties.getPacFileUrl()))) {
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 (!Uri.EMPTY.equals(proxyProperties.getPacFileUrl())) {
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())
&& Uri.EMPTY.equals(proxy.getPacFileUrl())) {
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)
&& (!Uri.EMPTY.equals(proxy.getPacFileUrl()))
&& proxy.getPacFileUrl().equals(mGlobalProxy.getPacFileUrl())) {
mGlobalProxy = proxy;
sendProxyBroadcast(mGlobalProxy);
return;
}
mDefaultProxy = proxy;
if (mGlobalProxy != null) return;
if (!mDefaultProxyDisabled) {
sendProxyBroadcast(proxy);
}
}
}
// If the proxy has changed from oldLp to newLp, resend proxy broadcast with default proxy.
// This method gets called when any network changes proxy, but the broadcast only ever contains
// the default proxy (even if it hasn't changed).
// TODO: Deprecate the broadcast extras as they aren't necessarily applicable in a multi-network
// world where an app might be bound to a non-default network.
private void updateProxy(LinkProperties newLp, LinkProperties oldLp, NetworkAgentInfo nai) {
ProxyInfo newProxyInfo = newLp == null ? null : newLp.getHttpProxy();
ProxyInfo oldProxyInfo = oldLp == null ? null : oldLp.getHttpProxy();
if (!proxyInfoEqual(newProxyInfo, oldProxyInfo)) {
sendProxyBroadcast(getDefaultProxy());
}
}
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 {
final private HashMap<Uri, Integer> mUriEventMap;
final private Context mContext;
final private Handler mHandler;
SettingsObserver(Context context, Handler handler) {
super(null);
mUriEventMap = new HashMap<Uri, Integer>();
mContext = context;
mHandler = handler;
}
void observe(Uri uri, int what) {
mUriEventMap.put(uri, what);
final ContentResolver resolver = mContext.getContentResolver();
resolver.registerContentObserver(uri, false, this);
}
@Override
public void onChange(boolean selfChange) {
Slog.wtf(TAG, "Should never be reached.");
}
@Override
public void onChange(boolean selfChange, Uri uri) {
final Integer what = mUriEventMap.get(uri);
if (what != null) {
mHandler.obtainMessage(what.intValue()).sendToTarget();
} else {
loge("No matching event to send for URI=" + uri);
}
}
}
private static void log(String s) {
Slog.d(TAG, s);
}
private static void loge(String s) {
Slog.e(TAG, s);
}
private static void loge(String s, Throwable t) {
Slog.e(TAG, s, t);
}
/**
* Prepare for a VPN application.
* VPN permissions are checked in the {@link Vpn} class. If the caller is not {@code userId},
* {@link android.Manifest.permission.INTERACT_ACROSS_USERS_FULL} permission is required.
*
* @param oldPackage Package name of the application which currently controls VPN, which will
* be replaced. If there is no such application, this should should either be
* {@code null} or {@link VpnConfig.LEGACY_VPN}.
* @param newPackage Package name of the application which should gain control of VPN, or
* {@code null} to disable.
* @param userId User for whom to prepare the new VPN.
*
* @hide
*/
@Override
public boolean prepareVpn(@Nullable String oldPackage, @Nullable String newPackage,
int userId) {
enforceCrossUserPermission(userId);
synchronized (mVpns) {
throwIfLockdownEnabled();
Vpn vpn = mVpns.get(userId);
if (vpn != null) {
return vpn.prepare(oldPackage, newPackage);
} else {
return false;
}
}
}
/**
* Set whether the VPN package has the ability to launch VPNs without user intervention.
* This method is used by system-privileged apps.
* VPN permissions are checked in the {@link Vpn} class. If the caller is not {@code userId},
* {@link android.Manifest.permission.INTERACT_ACROSS_USERS_FULL} permission is required.
*
* @param packageName The package for which authorization state should change.
* @param userId User for whom {@code packageName} is installed.
* @param authorized {@code true} if this app should be able to start a VPN connection without
* explicit user approval, {@code false} if not.
*
* @hide
*/
@Override
public void setVpnPackageAuthorization(String packageName, int userId, boolean authorized) {
enforceCrossUserPermission(userId);
synchronized (mVpns) {
Vpn vpn = mVpns.get(userId);
if (vpn != null) {
vpn.setPackageAuthorization(packageName, authorized);
}
}
}
/**
* 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) {
int user = UserHandle.getUserId(Binder.getCallingUid());
synchronized (mVpns) {
throwIfLockdownEnabled();
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) {
int user = UserHandle.getUserId(Binder.getCallingUid());
final LinkProperties egress = getActiveLinkProperties();
if (egress == null) {
throw new IllegalStateException("Missing active network connection");
}
synchronized (mVpns) {
throwIfLockdownEnabled();
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.
*/
@Override
public LegacyVpnInfo getLegacyVpnInfo(int userId) {
enforceCrossUserPermission(userId);
synchronized (mVpns) {
return mVpns.get(userId).getLegacyVpnInfo();
}
}
/**
* Return the information of all ongoing VPNs. This method is used by NetworkStatsService
* and not available in ConnectivityManager.
*/
@Override
public VpnInfo[] getAllVpnInfo() {
enforceConnectivityInternalPermission();
synchronized (mVpns) {
if (mLockdownEnabled) {
return new VpnInfo[0];
}
List<VpnInfo> infoList = new ArrayList<>();
for (int i = 0; i < mVpns.size(); i++) {
VpnInfo info = createVpnInfo(mVpns.valueAt(i));
if (info != null) {
infoList.add(info);
}
}
return infoList.toArray(new VpnInfo[infoList.size()]);
}
}
/**
* @return VPN information for accounting, or null if we can't retrieve all required
* information, e.g primary underlying iface.
*/
@Nullable
private VpnInfo createVpnInfo(Vpn vpn) {
VpnInfo info = vpn.getVpnInfo();
if (info == null) {
return null;
}
Network[] underlyingNetworks = vpn.getUnderlyingNetworks();
// see VpnService.setUnderlyingNetworks()'s javadoc about how to interpret
// the underlyingNetworks list.
if (underlyingNetworks == null) {
NetworkAgentInfo defaultNetwork = getDefaultNetwork();
if (defaultNetwork != null && defaultNetwork.linkProperties != null) {
info.primaryUnderlyingIface = getDefaultNetwork().linkProperties.getInterfaceName();
}
} else if (underlyingNetworks.length > 0) {
LinkProperties linkProperties = getLinkProperties(underlyingNetworks[0]);
if (linkProperties != null) {
info.primaryUnderlyingIface = linkProperties.getInterfaceName();
}
}
return info.primaryUnderlyingIface == null ? null : info;
}
/**
* Returns the information of the ongoing VPN for {@code userId}. This method is used by
* VpnDialogs and not available in ConnectivityManager.
* Permissions are checked in Vpn class.
* @hide
*/
@Override
public VpnConfig getVpnConfig(int userId) {
enforceCrossUserPermission(userId);
synchronized (mVpns) {
Vpn vpn = mVpns.get(userId);
if (vpn != null) {
return vpn.getVpnConfig();
} else {
return null;
}
}
}
/**
* Ask all VPN objects to recompute and update their capabilities.
*
* When underlying networks change, VPNs may have to update capabilities to reflect things
* like the metered bit, their transports, and so on. This asks the VPN objects to update
* their capabilities, and as this will cause them to send messages to the ConnectivityService
* handler thread through their agent, this is asynchronous. When the capabilities objects
* are computed they will be up-to-date as they are computed synchronously from here and
* this is running on the ConnectivityService thread.
* TODO : Fix this and call updateCapabilities inline to remove out-of-order events.
*/
private void updateAllVpnsCapabilities() {
synchronized (mVpns) {
for (int i = 0; i < mVpns.size(); i++) {
final Vpn vpn = mVpns.valueAt(i);
vpn.updateCapabilities();
}
}
}
@Override
public boolean updateLockdownVpn() {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
Slog.w(TAG, "Lockdown VPN only available to AID_SYSTEM");
return false;
}
synchronized (mVpns) {
// Tear down existing lockdown if profile was removed
mLockdownEnabled = LockdownVpnTracker.isEnabled();
if (mLockdownEnabled) {
byte[] profileTag = mKeyStore.get(Credentials.LOCKDOWN_VPN);
if (profileTag == null) {
Slog.e(TAG, "Lockdown VPN configured but cannot be read from keystore");
return false;
}
String profileName = new String(profileTag);
final VpnProfile profile = VpnProfile.decode(
profileName, mKeyStore.get(Credentials.VPN + profileName));
if (profile == null) {
Slog.e(TAG, "Lockdown VPN configured invalid profile " + profileName);
setLockdownTracker(null);
return true;
}
int user = UserHandle.getUserId(Binder.getCallingUid());
Vpn vpn = mVpns.get(user);
if (vpn == null) {
Slog.w(TAG, "VPN for user " + user + " not ready yet. Skipping lockdown");
return false;
}
setLockdownTracker(new LockdownVpnTracker(mContext, mNetd, this, vpn, profile));
} else {
setLockdownTracker(null);
}
}
return true;
}
/**
* Internally set new {@link LockdownVpnTracker}, shutting down any existing
* {@link LockdownVpnTracker}. Can be {@code null} to disable lockdown.
*/
@GuardedBy("mVpns")
private void setLockdownTracker(LockdownVpnTracker tracker) {
// Shutdown any existing tracker
final LockdownVpnTracker existing = mLockdownTracker;
mLockdownTracker = null;
if (existing != null) {
existing.shutdown();
}
if (tracker != null) {
mLockdownTracker = tracker;
mLockdownTracker.init();
}
}
@GuardedBy("mVpns")
private void throwIfLockdownEnabled() {
if (mLockdownEnabled) {
throw new IllegalStateException("Unavailable in lockdown mode");
}
}
/**
* Starts the always-on VPN {@link VpnService} for user {@param userId}, which should perform
* some setup and then call {@code establish()} to connect.
*
* @return {@code true} if the service was started, the service was already connected, or there
* was no always-on VPN to start. {@code false} otherwise.
*/
private boolean startAlwaysOnVpn(int userId) {
synchronized (mVpns) {
Vpn vpn = mVpns.get(userId);
if (vpn == null) {
// Shouldn't happen as all codepaths that point here should have checked the Vpn
// exists already.
Slog.wtf(TAG, "User " + userId + " has no Vpn configuration");
return false;
}
return vpn.startAlwaysOnVpn();
}
}
@Override
public boolean isAlwaysOnVpnPackageSupported(int userId, String packageName) {
enforceSettingsPermission();
enforceCrossUserPermission(userId);
synchronized (mVpns) {
Vpn vpn = mVpns.get(userId);
if (vpn == null) {
Slog.w(TAG, "User " + userId + " has no Vpn configuration");
return false;
}
return vpn.isAlwaysOnPackageSupported(packageName);
}
}
@Override
public boolean setAlwaysOnVpnPackage(int userId, String packageName, boolean lockdown) {
enforceConnectivityInternalPermission();
enforceCrossUserPermission(userId);
synchronized (mVpns) {
// Can't set always-on VPN if legacy VPN is already in lockdown mode.
if (LockdownVpnTracker.isEnabled()) {
return false;
}
Vpn vpn = mVpns.get(userId);
if (vpn == null) {
Slog.w(TAG, "User " + userId + " has no Vpn configuration");
return false;
}
if (!vpn.setAlwaysOnPackage(packageName, lockdown)) {
return false;
}
if (!startAlwaysOnVpn(userId)) {
vpn.setAlwaysOnPackage(null, false);
return false;
}
}
return true;
}
@Override
public String getAlwaysOnVpnPackage(int userId) {
enforceConnectivityInternalPermission();
enforceCrossUserPermission(userId);
synchronized (mVpns) {
Vpn vpn = mVpns.get(userId);
if (vpn == null) {
Slog.w(TAG, "User " + userId + " has no Vpn configuration");
return null;
}
return vpn.getAlwaysOnPackage();
}
}
@Override
public int checkMobileProvisioning(int suggestedTimeOutMs) {
// TODO: Remove? Any reason to trigger a provisioning check?
return -1;
}
/** Location to an updatable file listing carrier provisioning urls.
* An example:
*
* <?xml version="1.0" encoding="utf-8"?>
* <provisioningUrls>
* <provisioningUrl mcc="310" mnc="4">http://myserver.com/foo?mdn=%3$s&iccid=%1$s&imei=%2$s</provisioningUrl>
* </provisioningUrls>
*/
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 attribute for mcc */
private static final String ATTR_MCC = "mcc";
/** XML attribute for mnc */
private static final String ATTR_MNC = "mnc";
private String getProvisioningUrlBaseFromFile() {
FileReader fileReader = null;
XmlPullParser parser = null;
Configuration config = mContext.getResources().getConfiguration();
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(TAG_PROVISIONING_URL)) {
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 getMobileProvisioningUrl() {
enforceConnectivityInternalPermission();
String url = getProvisioningUrlBaseFromFile();
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 action) {
enforceConnectivityInternalPermission();
if (!ConnectivityManager.isNetworkTypeValid(networkType)) {
return;
}
final long ident = Binder.clearCallingIdentity();
try {
// Concatenate the range of types onto the range of NetIDs.
int id = MAX_NET_ID + 1 + (networkType - ConnectivityManager.TYPE_NONE);
mNotifier.setProvNotificationVisible(visible, id, action);
} finally {
Binder.restoreCallingIdentity(ident);
}
}
@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, encodeBool(enable));
Intent intent = new Intent(Intent.ACTION_AIRPLANE_MODE_CHANGED);
intent.putExtra("state", enable);
mContext.sendBroadcastAsUser(intent, UserHandle.ALL);
} 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, userId);
mVpns.put(userId, userVpn);
if (mUserManager.getUserInfo(userId).isPrimary() && LockdownVpnTracker.isEnabled()) {
updateLockdownVpn();
}
}
}
private void onUserStop(int userId) {
synchronized (mVpns) {
Vpn userVpn = mVpns.get(userId);
if (userVpn == null) {
loge("Stopped user has no VPN");
return;
}
userVpn.onUserStopped();
mVpns.delete(userId);
}
}
private void onUserAdded(int userId) {
synchronized (mVpns) {
final int vpnsSize = mVpns.size();
for (int i = 0; i < vpnsSize; i++) {
Vpn vpn = mVpns.valueAt(i);
vpn.onUserAdded(userId);
}
}
}
private void onUserRemoved(int userId) {
synchronized (mVpns) {
final int vpnsSize = mVpns.size();
for (int i = 0; i < vpnsSize; i++) {
Vpn vpn = mVpns.valueAt(i);
vpn.onUserRemoved(userId);
}
}
}
private void onUserUnlocked(int userId) {
synchronized (mVpns) {
// User present may be sent because of an unlock, which might mean an unlocked keystore.
if (mUserManager.getUserInfo(userId).isPrimary() && LockdownVpnTracker.isEnabled()) {
updateLockdownVpn();
} else {
startAlwaysOnVpn(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_STARTED.equals(action)) {
onUserStart(userId);
} else if (Intent.ACTION_USER_STOPPED.equals(action)) {
onUserStop(userId);
} else if (Intent.ACTION_USER_ADDED.equals(action)) {
onUserAdded(userId);
} else if (Intent.ACTION_USER_REMOVED.equals(action)) {
onUserRemoved(userId);
} else if (Intent.ACTION_USER_UNLOCKED.equals(action)) {
onUserUnlocked(userId);
}
}
};
private BroadcastReceiver mUserPresentReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// Try creating lockdown tracker, since user present usually means
// unlocked keystore.
updateLockdownVpn();
mContext.unregisterReceiver(this);
}
};
private final HashMap<Messenger, NetworkFactoryInfo> mNetworkFactoryInfos =
new HashMap<Messenger, NetworkFactoryInfo>();
private final HashMap<NetworkRequest, NetworkRequestInfo> mNetworkRequests =
new HashMap<NetworkRequest, NetworkRequestInfo>();
private static final int MAX_NETWORK_REQUESTS_PER_UID = 100;
// Map from UID to number of NetworkRequests that UID has filed.
@GuardedBy("mUidToNetworkRequestCount")
private final SparseIntArray mUidToNetworkRequestCount = new SparseIntArray();
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 void ensureNetworkRequestHasType(NetworkRequest request) {
if (request.type == NetworkRequest.Type.NONE) {
throw new IllegalArgumentException(
"All NetworkRequests in ConnectivityService must have a type");
}
}
/**
* Tracks info about the requester.
* Also used to notice when the calling process dies so we can self-expire
*/
private class NetworkRequestInfo implements IBinder.DeathRecipient {
final NetworkRequest request;
final PendingIntent mPendingIntent;
boolean mPendingIntentSent;
private final IBinder mBinder;
final int mPid;
final int mUid;
final Messenger messenger;
NetworkRequestInfo(NetworkRequest r, PendingIntent pi) {
request = r;
ensureNetworkRequestHasType(request);
mPendingIntent = pi;
messenger = null;
mBinder = null;
mPid = getCallingPid();
mUid = getCallingUid();
enforceRequestCountLimit();
}
NetworkRequestInfo(Messenger m, NetworkRequest r, IBinder binder) {
super();
messenger = m;
request = r;
ensureNetworkRequestHasType(request);
mBinder = binder;
mPid = getCallingPid();
mUid = getCallingUid();
mPendingIntent = null;
enforceRequestCountLimit();
try {
mBinder.linkToDeath(this, 0);
} catch (RemoteException e) {
binderDied();
}
}
private void enforceRequestCountLimit() {
synchronized (mUidToNetworkRequestCount) {
int networkRequests = mUidToNetworkRequestCount.get(mUid, 0) + 1;
if (networkRequests >= MAX_NETWORK_REQUESTS_PER_UID) {
throw new ServiceSpecificException(
ConnectivityManager.Errors.TOO_MANY_REQUESTS);
}
mUidToNetworkRequestCount.put(mUid, networkRequests);
}
}
void unlinkDeathRecipient() {
if (mBinder != null) {
mBinder.unlinkToDeath(this, 0);
}
}
public void binderDied() {
log("ConnectivityService NetworkRequestInfo binderDied(" +
request + ", " + mBinder + ")");
releaseNetworkRequest(request);
}
public String toString() {
return "uid/pid:" + mUid + "/" + mPid + " " + request +
(mPendingIntent == null ? "" : " to trigger " + mPendingIntent);
}
}
private void ensureRequestableCapabilities(NetworkCapabilities networkCapabilities) {
final String badCapability = networkCapabilities.describeFirstNonRequestableCapability();
if (badCapability != null) {
throw new IllegalArgumentException("Cannot request network with " + badCapability);
}
}
// This checks that the passed capabilities either do not request a specific SSID, or the
// calling app has permission to do so.
private void ensureSufficientPermissionsForRequest(NetworkCapabilities nc,
int callerPid, int callerUid) {
if (null != nc.getSSID() && !checkSettingsPermission(callerPid, callerUid)) {
throw new SecurityException("Insufficient permissions to request a specific SSID");
}
}
private ArrayList<Integer> getSignalStrengthThresholds(NetworkAgentInfo nai) {
final SortedSet<Integer> thresholds = new TreeSet();
synchronized (nai) {
for (NetworkRequestInfo nri : mNetworkRequests.values()) {
if (nri.request.networkCapabilities.hasSignalStrength() &&
nai.satisfiesImmutableCapabilitiesOf(nri.request)) {
thresholds.add(nri.request.networkCapabilities.getSignalStrength());
}
}
}
return new ArrayList<Integer>(thresholds);
}
private void updateSignalStrengthThresholds(
NetworkAgentInfo nai, String reason, NetworkRequest request) {
ArrayList<Integer> thresholdsArray = getSignalStrengthThresholds(nai);
Bundle thresholds = new Bundle();
thresholds.putIntegerArrayList("thresholds", thresholdsArray);
if (VDBG || (DBG && !"CONNECT".equals(reason))) {
String detail;
if (request != null && request.networkCapabilities.hasSignalStrength()) {
detail = reason + " " + request.networkCapabilities.getSignalStrength();
} else {
detail = reason;
}
log(String.format("updateSignalStrengthThresholds: %s, sending %s to %s",
detail, Arrays.toString(thresholdsArray.toArray()), nai.name()));
}
nai.asyncChannel.sendMessage(
android.net.NetworkAgent.CMD_SET_SIGNAL_STRENGTH_THRESHOLDS,
0, 0, thresholds);
}
private void ensureValidNetworkSpecifier(NetworkCapabilities nc) {
if (nc == null) {
return;
}
NetworkSpecifier ns = nc.getNetworkSpecifier();
if (ns == null) {
return;
}
MatchAllNetworkSpecifier.checkNotMatchAllNetworkSpecifier(ns);
ns.assertValidFromUid(Binder.getCallingUid());
}
@Override
public NetworkRequest requestNetwork(NetworkCapabilities networkCapabilities,
Messenger messenger, int timeoutMs, IBinder binder, int legacyType) {
final NetworkRequest.Type type = (networkCapabilities == null)
? NetworkRequest.Type.TRACK_DEFAULT
: NetworkRequest.Type.REQUEST;
// If the requested networkCapabilities is null, take them instead from
// the default network request. This allows callers to keep track of
// the system default network.
if (type == NetworkRequest.Type.TRACK_DEFAULT) {
networkCapabilities = createDefaultNetworkCapabilitiesForUid(Binder.getCallingUid());
enforceAccessPermission();
} else {
networkCapabilities = new NetworkCapabilities(networkCapabilities);
enforceNetworkRequestPermissions(networkCapabilities);
// TODO: this is incorrect. We mark the request as metered or not depending on the state
// of the app when the request is filed, but we never change the request if the app
// changes network state. http://b/29964605
enforceMeteredApnPolicy(networkCapabilities);
}
ensureRequestableCapabilities(networkCapabilities);
ensureSufficientPermissionsForRequest(networkCapabilities,
Binder.getCallingPid(), Binder.getCallingUid());
// Set the UID range for this request to the single UID of the requester, or to an empty
// set of UIDs if the caller has the appropriate permission and UIDs have not been set.
// This will overwrite any allowed UIDs in the requested capabilities. Though there
// are no visible methods to set the UIDs, an app could use reflection to try and get
// networks for other apps so it's essential that the UIDs are overwritten.
restrictRequestUidsForCaller(networkCapabilities);
if (timeoutMs < 0) {
throw new IllegalArgumentException("Bad timeout specified");
}
ensureValidNetworkSpecifier(networkCapabilities);
NetworkRequest networkRequest = new NetworkRequest(networkCapabilities, legacyType,
nextNetworkRequestId(), type);
NetworkRequestInfo nri = new NetworkRequestInfo(messenger, networkRequest, binder);
if (DBG) log("requestNetwork for " + nri);
mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_REQUEST, nri));
if (timeoutMs > 0) {
mHandler.sendMessageDelayed(mHandler.obtainMessage(EVENT_TIMEOUT_NETWORK_REQUEST,
nri), timeoutMs);
}
return networkRequest;
}
private void enforceNetworkRequestPermissions(NetworkCapabilities networkCapabilities) {
if (networkCapabilities.hasCapability(NET_CAPABILITY_NOT_RESTRICTED) == false) {
enforceConnectivityRestrictedNetworksPermission();
} else {
enforceChangePermission();
}
}
@Override
public boolean requestBandwidthUpdate(Network network) {
enforceAccessPermission();
NetworkAgentInfo nai = null;
if (network == null) {
return false;
}
synchronized (mNetworkForNetId) {
nai = mNetworkForNetId.get(network.netId);
}
if (nai != null) {
nai.asyncChannel.sendMessage(android.net.NetworkAgent.CMD_REQUEST_BANDWIDTH_UPDATE);
return true;
}
return false;
}
private boolean isSystem(int uid) {
return uid < Process.FIRST_APPLICATION_UID;
}
private void enforceMeteredApnPolicy(NetworkCapabilities networkCapabilities) {
final int uid = Binder.getCallingUid();
if (isSystem(uid)) {
// Exemption for system uid.
return;
}
if (networkCapabilities.hasCapability(NET_CAPABILITY_NOT_METERED)) {
// Policy already enforced.
return;
}
if (mPolicyManagerInternal.isUidRestrictedOnMeteredNetworks(uid)) {
// If UID is restricted, don't allow them to bring up metered APNs.
networkCapabilities.addCapability(NET_CAPABILITY_NOT_METERED);
}
}
@Override
public NetworkRequest pendingRequestForNetwork(NetworkCapabilities networkCapabilities,
PendingIntent operation) {
checkNotNull(operation, "PendingIntent cannot be null.");
networkCapabilities = new NetworkCapabilities(networkCapabilities);
enforceNetworkRequestPermissions(networkCapabilities);
enforceMeteredApnPolicy(networkCapabilities);
ensureRequestableCapabilities(networkCapabilities);
ensureSufficientPermissionsForRequest(networkCapabilities,
Binder.getCallingPid(), Binder.getCallingUid());
ensureValidNetworkSpecifier(networkCapabilities);
restrictRequestUidsForCaller(networkCapabilities);
NetworkRequest networkRequest = new NetworkRequest(networkCapabilities, TYPE_NONE,
nextNetworkRequestId(), NetworkRequest.Type.REQUEST);
NetworkRequestInfo nri = new NetworkRequestInfo(networkRequest, operation);
if (DBG) log("pendingRequest for " + nri);
mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_REQUEST_WITH_INTENT,
nri));
return networkRequest;
}
private void releasePendingNetworkRequestWithDelay(PendingIntent operation) {
mHandler.sendMessageDelayed(
mHandler.obtainMessage(EVENT_RELEASE_NETWORK_REQUEST_WITH_INTENT,
getCallingUid(), 0, operation), mReleasePendingIntentDelayMs);
}
@Override
public void releasePendingNetworkRequest(PendingIntent operation) {
checkNotNull(operation, "PendingIntent cannot be null.");
mHandler.sendMessage(mHandler.obtainMessage(EVENT_RELEASE_NETWORK_REQUEST_WITH_INTENT,
getCallingUid(), 0, operation));
}
// In order to implement the compatibility measure for pre-M apps that call
// WifiManager.enableNetwork(..., true) without also binding to that network explicitly,
// WifiManager registers a network listen for the purpose of calling setProcessDefaultNetwork.
// This ensures it has permission to do so.
private boolean hasWifiNetworkListenPermission(NetworkCapabilities nc) {
if (nc == null) {
return false;
}
int[] transportTypes = nc.getTransportTypes();
if (transportTypes.length != 1 || transportTypes[0] != NetworkCapabilities.TRANSPORT_WIFI) {
return false;
}
try {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.ACCESS_WIFI_STATE,
"ConnectivityService");
} catch (SecurityException e) {
return false;
}
return true;
}
@Override
public NetworkRequest listenForNetwork(NetworkCapabilities networkCapabilities,
Messenger messenger, IBinder binder) {
if (!hasWifiNetworkListenPermission(networkCapabilities)) {
enforceAccessPermission();
}
NetworkCapabilities nc = new NetworkCapabilities(networkCapabilities);
ensureSufficientPermissionsForRequest(networkCapabilities,
Binder.getCallingPid(), Binder.getCallingUid());
restrictRequestUidsForCaller(nc);
// Apps without the CHANGE_NETWORK_STATE permission can't use background networks, so
// make all their listens include NET_CAPABILITY_FOREGROUND. That way, they will get
// onLost and onAvailable callbacks when networks move in and out of the background.
// There is no need to do this for requests because an app without CHANGE_NETWORK_STATE
// can't request networks.
restrictBackgroundRequestForCaller(nc);
ensureValidNetworkSpecifier(nc);
NetworkRequest networkRequest = new NetworkRequest(nc, TYPE_NONE, nextNetworkRequestId(),
NetworkRequest.Type.LISTEN);
NetworkRequestInfo nri = new NetworkRequestInfo(messenger, networkRequest, binder);
if (VDBG) log("listenForNetwork for " + nri);
mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_LISTENER, nri));
return networkRequest;
}
@Override
public void pendingListenForNetwork(NetworkCapabilities networkCapabilities,
PendingIntent operation) {
checkNotNull(operation, "PendingIntent cannot be null.");
if (!hasWifiNetworkListenPermission(networkCapabilities)) {
enforceAccessPermission();
}
ensureValidNetworkSpecifier(networkCapabilities);
ensureSufficientPermissionsForRequest(networkCapabilities,
Binder.getCallingPid(), Binder.getCallingUid());
final NetworkCapabilities nc = new NetworkCapabilities(networkCapabilities);
restrictRequestUidsForCaller(nc);
NetworkRequest networkRequest = new NetworkRequest(nc, TYPE_NONE, nextNetworkRequestId(),
NetworkRequest.Type.LISTEN);
NetworkRequestInfo nri = new NetworkRequestInfo(networkRequest, operation);
if (VDBG) log("pendingListenForNetwork for " + nri);
mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_LISTENER, nri));
}
@Override
public void releaseNetworkRequest(NetworkRequest networkRequest) {
ensureNetworkRequestHasType(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 (DBG) 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) {
loge("Failed to find Messenger in unregisterNetworkFactory");
return;
}
if (DBG) 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.
*/
// NOTE: Accessed on multiple threads, must be synchronized on itself.
@GuardedBy("mNetworkForRequestId")
private final SparseArray<NetworkAgentInfo> mNetworkForRequestId =
new SparseArray<NetworkAgentInfo>();
// NOTE: Accessed on multiple threads, must be synchronized on itself.
@GuardedBy("mNetworkForNetId")
private final SparseArray<NetworkAgentInfo> mNetworkForNetId =
new SparseArray<NetworkAgentInfo>();
// NOTE: Accessed on multiple threads, synchronized with mNetworkForNetId.
// An entry is first added to mNetIdInUse, prior to mNetworkForNetId, so
// there may not be a strict 1:1 correlation between the two.
@GuardedBy("mNetworkForNetId")
private final SparseBooleanArray mNetIdInUse = new SparseBooleanArray();
// NetworkAgentInfo keyed off its connecting messenger
// TODO - eval if we can reduce the number of lists/hashmaps/sparsearrays
// NOTE: Only should be accessed on ConnectivityServiceThread, except dump().
private final HashMap<Messenger, NetworkAgentInfo> mNetworkAgentInfos =
new HashMap<Messenger, NetworkAgentInfo>();
@GuardedBy("mBlockedAppUids")
private final HashSet<Integer> mBlockedAppUids = new HashSet();
// Note: if mDefaultRequest is changed, NetworkMonitor needs to be updated.
private final NetworkRequest mDefaultRequest;
// Request used to optionally keep mobile data active even when higher
// priority networks like Wi-Fi are active.
private final NetworkRequest mDefaultMobileDataRequest;
private NetworkAgentInfo getNetworkForRequest(int requestId) {
synchronized (mNetworkForRequestId) {
return mNetworkForRequestId.get(requestId);
}
}
private void clearNetworkForRequest(int requestId) {
synchronized (mNetworkForRequestId) {
mNetworkForRequestId.remove(requestId);
}
}
private void setNetworkForRequest(int requestId, NetworkAgentInfo nai) {
synchronized (mNetworkForRequestId) {
mNetworkForRequestId.put(requestId, nai);
}
}
private NetworkAgentInfo getDefaultNetwork() {
return getNetworkForRequest(mDefaultRequest.requestId);
}
private boolean isDefaultNetwork(NetworkAgentInfo nai) {
return nai == getDefaultNetwork();
}
private boolean isDefaultRequest(NetworkRequestInfo nri) {
return nri.request.requestId == mDefaultRequest.requestId;
}
public int registerNetworkAgent(Messenger messenger, NetworkInfo networkInfo,
LinkProperties linkProperties, NetworkCapabilities networkCapabilities,
int currentScore, NetworkMisc networkMisc) {
enforceConnectivityInternalPermission();
LinkProperties lp = new LinkProperties(linkProperties);
lp.ensureDirectlyConnectedRoutes();
// TODO: Instead of passing mDefaultRequest, provide an API to determine whether a Network
// satisfies mDefaultRequest.
final NetworkCapabilities nc = new NetworkCapabilities(networkCapabilities);
final NetworkAgentInfo nai = new NetworkAgentInfo(messenger, new AsyncChannel(),
new Network(reserveNetId()), new NetworkInfo(networkInfo), lp, nc, currentScore,
mContext, mTrackerHandler, new NetworkMisc(networkMisc), mDefaultRequest, this);
// Make sure the network capabilities reflect what the agent info says.
nai.networkCapabilities = mixInCapabilities(nai, nc);
synchronized (this) {
nai.networkMonitor.systemReady = mSystemReady;
}
final String extraInfo = networkInfo.getExtraInfo();
final String name = TextUtils.isEmpty(extraInfo)
? nai.networkCapabilities.getSSID() : extraInfo;
addValidationLogs(nai.networkMonitor.getValidationLogs(), nai.network, name);
if (DBG) log("registerNetworkAgent " + nai);
mHandler.sendMessage(mHandler.obtainMessage(EVENT_REGISTER_NETWORK_AGENT, nai));
return nai.network.netId;
}
private void handleRegisterNetworkAgent(NetworkAgentInfo nai) {
if (VDBG) log("Got NetworkAgent Messenger");
mNetworkAgentInfos.put(nai.messenger, nai);
synchronized (mNetworkForNetId) {
mNetworkForNetId.put(nai.network.netId, nai);
}
nai.asyncChannel.connect(mContext, mTrackerHandler, nai.messenger);
NetworkInfo networkInfo = nai.networkInfo;
nai.networkInfo = null;
updateNetworkInfo(nai, networkInfo);
updateUids(nai, null, nai.networkCapabilities);
}
private void updateLinkProperties(NetworkAgentInfo networkAgent, LinkProperties oldLp) {
LinkProperties newLp = new LinkProperties(networkAgent.linkProperties);
int netId = networkAgent.network.netId;
// The NetworkAgentInfo does not know whether clatd is running on its network or not. Before
// we do anything else, make sure its LinkProperties are accurate.
if (networkAgent.clatd != null) {
networkAgent.clatd.fixupLinkProperties(oldLp, newLp);
}
updateInterfaces(newLp, oldLp, netId, networkAgent.networkCapabilities);
updateMtu(newLp, oldLp);
// TODO - figure out what to do for clat
// for (LinkProperties lp : newLp.getStackedLinks()) {
// updateMtu(lp, null);
// }
updateTcpBufferSizes(networkAgent);
updateRoutes(newLp, oldLp, netId);
updateDnses(newLp, oldLp, netId);
// Make sure LinkProperties represents the latest private DNS status.
// This does not need to be done before updateDnses because the
// LinkProperties are not the source of the private DNS configuration.
// updateDnses will fetch the private DNS configuration from DnsManager.
mDnsManager.updatePrivateDnsStatus(netId, newLp);
// Start or stop clat accordingly to network state.
networkAgent.updateClat(mNetd);
if (isDefaultNetwork(networkAgent)) {
handleApplyDefaultProxy(newLp.getHttpProxy());
} else {
updateProxy(newLp, oldLp, networkAgent);
}
// TODO - move this check to cover the whole function
if (!Objects.equals(newLp, oldLp)) {
synchronized (networkAgent) {
networkAgent.linkProperties = newLp;
}
notifyIfacesChangedForNetworkStats();
notifyNetworkCallbacks(networkAgent, ConnectivityManager.CALLBACK_IP_CHANGED);
}
mKeepaliveTracker.handleCheckKeepalivesStillValid(networkAgent);
}
private void wakeupModifyInterface(String iface, NetworkCapabilities caps, boolean add) {
// Marks are only available on WiFi interaces. Checking for
// marks on unsupported interfaces is harmless.
if (!caps.hasTransport(NetworkCapabilities.TRANSPORT_WIFI)) {
return;
}
int mark = mContext.getResources().getInteger(
com.android.internal.R.integer.config_networkWakeupPacketMark);
int mask = mContext.getResources().getInteger(
com.android.internal.R.integer.config_networkWakeupPacketMask);
// Mask/mark of zero will not detect anything interesting.
// Don't install rules unless both values are nonzero.
if (mark == 0 || mask == 0) {
return;
}
final String prefix = "iface:" + iface;
try {
if (add) {
mNetd.getNetdService().wakeupAddInterface(iface, prefix, mark, mask);
} else {
mNetd.getNetdService().wakeupDelInterface(iface, prefix, mark, mask);
}
} catch (Exception e) {
loge("Exception modifying wakeup packet monitoring: " + e);
}
}
private void updateInterfaces(LinkProperties newLp, LinkProperties oldLp, int netId,
NetworkCapabilities caps) {
CompareResult<String> interfaceDiff = new CompareResult<String>(
oldLp != null ? oldLp.getAllInterfaceNames() : null,
newLp != null ? newLp.getAllInterfaceNames() : null);
for (String iface : interfaceDiff.added) {
try {
if (DBG) log("Adding iface " + iface + " to network " + netId);
mNetd.addInterfaceToNetwork(iface, netId);
wakeupModifyInterface(iface, caps, true);
} catch (Exception e) {
loge("Exception adding interface: " + e);
}
}
for (String iface : interfaceDiff.removed) {
try {
if (DBG) log("Removing iface " + iface + " from network " + netId);
wakeupModifyInterface(iface, caps, false);
mNetd.removeInterfaceFromNetwork(iface, netId);
} catch (Exception e) {
loge("Exception removing interface: " + e);
}
}
}
/**
* Have netd update routes from oldLp to newLp.
* @return true if routes changed between oldLp and newLp
*/
private boolean updateRoutes(LinkProperties newLp, LinkProperties oldLp, int netId) {
// Compare the route diff to determine which routes should be added and removed.
CompareResult<RouteInfo> routeDiff = new CompareResult<RouteInfo>(
oldLp != null ? oldLp.getAllRoutes() : null,
newLp != null ? newLp.getAllRoutes() : null);
// 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;
if (VDBG) log("Adding Route [" + route + "] to network " + netId);
try {
mNetd.addRoute(netId, route);
} catch (Exception e) {
if ((route.getDestination().getAddress() instanceof Inet4Address) || VDBG) {
loge("Exception in addRoute for non-gateway: " + e);
}
}
}
for (RouteInfo route : routeDiff.added) {
if (route.hasGateway() == false) continue;
if (VDBG) log("Adding Route [" + route + "] to network " + netId);
try {
mNetd.addRoute(netId, route);
} catch (Exception e) {
if ((route.getGateway() instanceof Inet4Address) || VDBG) {
loge("Exception in addRoute for gateway: " + e);
}
}
}
for (RouteInfo route : routeDiff.removed) {
if (VDBG) log("Removing Route [" + route + "] from network " + netId);
try {
mNetd.removeRoute(netId, route);
} catch (Exception e) {
loge("Exception in removeRoute: " + e);
}
}
return !routeDiff.added.isEmpty() || !routeDiff.removed.isEmpty();
}
private void updateDnses(LinkProperties newLp, LinkProperties oldLp, int netId) {
if (oldLp != null && newLp.isIdenticalDnses(oldLp)) {
return; // no updating necessary
}
final NetworkAgentInfo defaultNai = getDefaultNetwork();
final boolean isDefaultNetwork = (defaultNai != null && defaultNai.network.netId == netId);
if (DBG) {
final Collection<InetAddress> dnses = newLp.getDnsServers();
log("Setting DNS servers for network " + netId + " to " + dnses);
}
try {
mDnsManager.setDnsConfigurationForNetwork(netId, newLp, isDefaultNetwork);
} catch (Exception e) {
loge("Exception in setDnsConfigurationForNetwork: " + e);
}
}
private String getNetworkPermission(NetworkCapabilities nc) {
// TODO: make these permission strings AIDL constants instead.
if (!nc.hasCapability(NET_CAPABILITY_NOT_RESTRICTED)) {
return NetworkManagementService.PERMISSION_SYSTEM;
}
if (!nc.hasCapability(NET_CAPABILITY_FOREGROUND)) {
return NetworkManagementService.PERMISSION_NETWORK;
}
return null;
}
/**
* Augments the NetworkCapabilities passed in by a NetworkAgent with capabilities that are
* maintained here that the NetworkAgent is not aware of (e.g., validated, captive portal,
* and foreground status).
*/
private NetworkCapabilities mixInCapabilities(NetworkAgentInfo nai, NetworkCapabilities nc) {
// Once a NetworkAgent is connected, complain if some immutable capabilities are removed.
// Don't complain for VPNs since they're not driven by requests and there is no risk of
// causing a connect/teardown loop.
// TODO: remove this altogether and make it the responsibility of the NetworkFactories to
// avoid connect/teardown loops.
if (nai.everConnected &&
!nai.isVPN() &&
!nai.networkCapabilities.satisfiedByImmutableNetworkCapabilities(nc)) {
// TODO: consider not complaining when a network agent degrades its capabilities if this
// does not cause any request (that is not a listen) currently matching that agent to
// stop being matched by the updated agent.
String diff = nai.networkCapabilities.describeImmutableDifferences(nc);
if (!TextUtils.isEmpty(diff)) {
Slog.wtf(TAG, "BUG: " + nai + " lost immutable capabilities:" + diff);
}
}
// Don't modify caller's NetworkCapabilities.
NetworkCapabilities newNc = new NetworkCapabilities(nc);
if (nai.lastValidated) {
newNc.addCapability(NET_CAPABILITY_VALIDATED);
} else {
newNc.removeCapability(NET_CAPABILITY_VALIDATED);
}
if (nai.lastCaptivePortalDetected) {
newNc.addCapability(NET_CAPABILITY_CAPTIVE_PORTAL);
} else {
newNc.removeCapability(NET_CAPABILITY_CAPTIVE_PORTAL);
}
if (nai.isBackgroundNetwork()) {
newNc.removeCapability(NET_CAPABILITY_FOREGROUND);
} else {
newNc.addCapability(NET_CAPABILITY_FOREGROUND);
}
if (nai.isSuspended()) {
newNc.removeCapability(NET_CAPABILITY_NOT_SUSPENDED);
} else {
newNc.addCapability(NET_CAPABILITY_NOT_SUSPENDED);
}
return newNc;
}
/**
* Update the NetworkCapabilities for {@code nai} to {@code nc}. Specifically:
*
* 1. Calls mixInCapabilities to merge the passed-in NetworkCapabilities {@code nc} with the
* capabilities we manage and store in {@code nai}, such as validated status and captive
* portal status)
* 2. Takes action on the result: changes network permissions, sends CAP_CHANGED callbacks, and
* potentially triggers rematches.
* 3. Directly informs other network stack components (NetworkStatsService, VPNs, etc. of the
* change.)
*
* @param oldScore score of the network before any of the changes that prompted us
* to call this function.
* @param nai the network having its capabilities updated.
* @param nc the new network capabilities.
*/
private void updateCapabilities(int oldScore, NetworkAgentInfo nai, NetworkCapabilities nc) {
NetworkCapabilities newNc = mixInCapabilities(nai, nc);
if (Objects.equals(nai.networkCapabilities, newNc)) return;
final String oldPermission = getNetworkPermission(nai.networkCapabilities);
final String newPermission = getNetworkPermission(newNc);
if (!Objects.equals(oldPermission, newPermission) && nai.created && !nai.isVPN()) {
try {
mNetd.setNetworkPermission(nai.network.netId, newPermission);
} catch (RemoteException e) {
loge("Exception in setNetworkPermission: " + e);
}
}
final NetworkCapabilities prevNc;
synchronized (nai) {
prevNc = nai.networkCapabilities;
nai.networkCapabilities = newNc;
}
updateUids(nai, prevNc, newNc);
if (nai.getCurrentScore() == oldScore && newNc.equalRequestableCapabilities(prevNc)) {
// If the requestable capabilities haven't changed, and the score hasn't changed, then
// the change we're processing can't affect any requests, it can only affect the listens
// on this network. We might have been called by rematchNetworkAndRequests when a
// network changed foreground state.
processListenRequests(nai, true);
} else {
// If the requestable capabilities have changed or the score changed, we can't have been
// called by rematchNetworkAndRequests, so it's safe to start a rematch.
rematchAllNetworksAndRequests(nai, oldScore);
notifyNetworkCallbacks(nai, ConnectivityManager.CALLBACK_CAP_CHANGED);
}
// Report changes that are interesting for network statistics tracking.
if (prevNc != null) {
final boolean meteredChanged = prevNc.hasCapability(NET_CAPABILITY_NOT_METERED) !=
newNc.hasCapability(NET_CAPABILITY_NOT_METERED);
final boolean roamingChanged = prevNc.hasCapability(NET_CAPABILITY_NOT_ROAMING) !=
newNc.hasCapability(NET_CAPABILITY_NOT_ROAMING);
if (meteredChanged || roamingChanged) {
notifyIfacesChangedForNetworkStats();
}
}
if (!newNc.hasTransport(TRANSPORT_VPN)) {
// Tell VPNs about updated capabilities, since they may need to
// bubble those changes through.
updateAllVpnsCapabilities();
}
}
private void updateUids(NetworkAgentInfo nai, NetworkCapabilities prevNc,
NetworkCapabilities newNc) {
Set<UidRange> prevRanges = null == prevNc ? null : prevNc.getUids();
Set<UidRange> newRanges = null == newNc ? null : newNc.getUids();
if (null == prevRanges) prevRanges = new ArraySet<>();
if (null == newRanges) newRanges = new ArraySet<>();
final Set<UidRange> prevRangesCopy = new ArraySet<>(prevRanges);
prevRanges.removeAll(newRanges);
newRanges.removeAll(prevRangesCopy);
try {
if (!newRanges.isEmpty()) {
final UidRange[] addedRangesArray = new UidRange[newRanges.size()];
newRanges.toArray(addedRangesArray);
mNetd.addVpnUidRanges(nai.network.netId, addedRangesArray);
}
if (!prevRanges.isEmpty()) {
final UidRange[] removedRangesArray = new UidRange[prevRanges.size()];
prevRanges.toArray(removedRangesArray);
mNetd.removeVpnUidRanges(nai.network.netId, removedRangesArray);
}
} catch (Exception e) {
// Never crash!
loge("Exception in updateUids: " + e);
}
}
public void handleUpdateLinkProperties(NetworkAgentInfo nai, LinkProperties newLp) {
if (getNetworkAgentInfoForNetId(nai.network.netId) != nai) {
// Ignore updates for disconnected networks
return;
}
// newLp is already a defensive copy.
newLp.ensureDirectlyConnectedRoutes();
if (VDBG) {
log("Update of LinkProperties for " + nai.name() +
"; created=" + nai.created +
"; everConnected=" + nai.everConnected);
}
LinkProperties oldLp = nai.linkProperties;
synchronized (nai) {
nai.linkProperties = newLp;
}
if (nai.everConnected) {
updateLinkProperties(nai, oldLp);
}
}
private void sendUpdatedScoreToFactories(NetworkAgentInfo nai) {
for (int i = 0; i < nai.numNetworkRequests(); i++) {
NetworkRequest nr = nai.requestAt(i);
// Don't send listening requests to factories. b/17393458
if (nr.isListen()) continue;
sendUpdatedScoreToFactories(nr, nai.getCurrentScore());
}
}
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 sendPendingIntentForRequest(NetworkRequestInfo nri, NetworkAgentInfo networkAgent,
int notificationType) {
if (notificationType == ConnectivityManager.CALLBACK_AVAILABLE && !nri.mPendingIntentSent) {
Intent intent = new Intent();
intent.putExtra(ConnectivityManager.EXTRA_NETWORK, networkAgent.network);
intent.putExtra(ConnectivityManager.EXTRA_NETWORK_REQUEST, nri.request);
nri.mPendingIntentSent = true;
sendIntent(nri.mPendingIntent, intent);
}
// else not handled
}
private void sendIntent(PendingIntent pendingIntent, Intent intent) {
mPendingIntentWakeLock.acquire();
try {
if (DBG) log("Sending " + pendingIntent);
pendingIntent.send(mContext, 0, intent, this /* onFinished */, null /* Handler */);
} catch (PendingIntent.CanceledException e) {
if (DBG) log(pendingIntent + " was not sent, it had been canceled.");
mPendingIntentWakeLock.release();
releasePendingNetworkRequest(pendingIntent);
}
// ...otherwise, mPendingIntentWakeLock.release() gets called by onSendFinished()
}
@Override
public void onSendFinished(PendingIntent pendingIntent, Intent intent, int resultCode,
String resultData, Bundle resultExtras) {
if (DBG) log("Finished sending " + pendingIntent);
mPendingIntentWakeLock.release();
// Release with a delay so the receiving client has an opportunity to put in its
// own request.
releasePendingNetworkRequestWithDelay(pendingIntent);
}
private void callCallbackForRequest(NetworkRequestInfo nri,
NetworkAgentInfo networkAgent, int notificationType, int arg1) {
if (nri.messenger == null) {
return; // Default request has no msgr
}
Bundle bundle = new Bundle();
// TODO: check if defensive copies of data is needed.
putParcelable(bundle, new NetworkRequest(nri.request));
Message msg = Message.obtain();
if (notificationType != ConnectivityManager.CALLBACK_UNAVAIL) {
putParcelable(bundle, networkAgent.network);
}
switch (notificationType) {
case ConnectivityManager.CALLBACK_AVAILABLE: {
putParcelable(bundle, new NetworkCapabilities(networkAgent.networkCapabilities));
putParcelable(bundle, new LinkProperties(networkAgent.linkProperties));
break;
}
case ConnectivityManager.CALLBACK_LOSING: {
msg.arg1 = arg1;
break;
}
case ConnectivityManager.CALLBACK_CAP_CHANGED: {
// networkAgent can't be null as it has been accessed a few lines above.
final NetworkCapabilities nc = networkCapabilitiesRestrictedForCallerPermissions(
networkAgent.networkCapabilities, nri.mPid, nri.mUid);
putParcelable(bundle, nc);
break;
}
case ConnectivityManager.CALLBACK_IP_CHANGED: {
putParcelable(bundle, new LinkProperties(networkAgent.linkProperties));
break;
}
}
msg.what = notificationType;
msg.setData(bundle);
try {
if (VDBG) {
String notification = ConnectivityManager.getCallbackName(notificationType);
log("sending notification " + notification + " 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 static <T extends Parcelable> void putParcelable(Bundle bundle, T t) {
bundle.putParcelable(t.getClass().getSimpleName(), t);
}
private void teardownUnneededNetwork(NetworkAgentInfo nai) {
if (nai.numRequestNetworkRequests() != 0) {
for (int i = 0; i < nai.numNetworkRequests(); i++) {
NetworkRequest nr = nai.requestAt(i);
// Ignore listening requests.
if (nr.isListen()) continue;
loge("Dead network still had at least " + nr);
break;
}
}
nai.asyncChannel.disconnect();
}
private void handleLingerComplete(NetworkAgentInfo oldNetwork) {
if (oldNetwork == null) {
loge("Unknown NetworkAgentInfo in handleLingerComplete");
return;
}
if (DBG) log("handleLingerComplete for " + oldNetwork.name());
// If we get here it means that the last linger timeout for this network expired. So there
// must be no other active linger timers, and we must stop lingering.
oldNetwork.clearLingerState();
if (unneeded(oldNetwork, UnneededFor.TEARDOWN)) {
// Tear the network down.
teardownUnneededNetwork(oldNetwork);
} else {
// Put the network in the background.
updateCapabilities(oldNetwork.getCurrentScore(), oldNetwork,
oldNetwork.networkCapabilities);
}
}
private void makeDefault(NetworkAgentInfo newNetwork) {
if (DBG) log("Switching to new default network: " + newNetwork);
setupDataActivityTracking(newNetwork);
try {
mNetd.setDefaultNetId(newNetwork.network.netId);
} catch (Exception e) {
loge("Exception setting default network :" + e);
}
notifyLockdownVpn(newNetwork);
handleApplyDefaultProxy(newNetwork.linkProperties.getHttpProxy());
updateTcpBufferSizes(newNetwork);
mDnsManager.setDefaultDnsSystemProperties(newNetwork.linkProperties.getDnsServers());
notifyIfacesChangedForNetworkStats();
}
private void processListenRequests(NetworkAgentInfo nai, boolean capabilitiesChanged) {
// For consistency with previous behaviour, send onLost callbacks before onAvailable.
for (NetworkRequestInfo nri : mNetworkRequests.values()) {
NetworkRequest nr = nri.request;
if (!nr.isListen()) continue;
if (nai.isSatisfyingRequest(nr.requestId) && !nai.satisfies(nr)) {
nai.removeRequest(nri.request.requestId);
callCallbackForRequest(nri, nai, ConnectivityManager.CALLBACK_LOST, 0);
}
}
if (capabilitiesChanged) {
notifyNetworkCallbacks(nai, ConnectivityManager.CALLBACK_CAP_CHANGED);
}
for (NetworkRequestInfo nri : mNetworkRequests.values()) {
NetworkRequest nr = nri.request;
if (!nr.isListen()) continue;
if (nai.satisfies(nr) && !nai.isSatisfyingRequest(nr.requestId)) {
nai.addRequest(nr);
notifyNetworkAvailable(nai, nri);
}
}
}
// Handles a network appearing or improving its score.
//
// - Evaluates all current NetworkRequests that can be
// satisfied by newNetwork, and reassigns to newNetwork
// any such requests for which newNetwork is the best.
//
// - Lingers any validated Networks that as a result are no longer
// needed. A network is needed if it is the best network for
// one or more NetworkRequests, or if it is a VPN.
//
// - Tears down newNetwork if it just became validated
// but turns out to be unneeded.
//
// - If reapUnvalidatedNetworks==REAP, tears down unvalidated
// networks that have no chance (i.e. even if validated)
// of becoming the highest scoring network.
//
// NOTE: This function only adds NetworkRequests that "newNetwork" could satisfy,
// it does not remove NetworkRequests that other Networks could better satisfy.
// If you need to handle decreases in score, use {@link rematchAllNetworksAndRequests}.
// This function should be used when possible instead of {@code rematchAllNetworksAndRequests}
// as it performs better by a factor of the number of Networks.
//
// @param newNetwork is the network to be matched against NetworkRequests.
// @param reapUnvalidatedNetworks indicates if an additional pass over all networks should be
// performed to tear down unvalidated networks that have no chance (i.e. even if
// validated) of becoming the highest scoring network.
private void rematchNetworkAndRequests(NetworkAgentInfo newNetwork,
ReapUnvalidatedNetworks reapUnvalidatedNetworks, long now) {
if (!newNetwork.everConnected) return;
boolean keep = newNetwork.isVPN();
boolean isNewDefault = false;
NetworkAgentInfo oldDefaultNetwork = null;
final boolean wasBackgroundNetwork = newNetwork.isBackgroundNetwork();
final int score = newNetwork.getCurrentScore();
if (VDBG) log("rematching " + newNetwork.name());
// Find and migrate to this Network any NetworkRequests for
// which this network is now the best.
ArrayList<NetworkAgentInfo> affectedNetworks = new ArrayList<NetworkAgentInfo>();
ArrayList<NetworkRequestInfo> addedRequests = new ArrayList<NetworkRequestInfo>();
NetworkCapabilities nc = newNetwork.networkCapabilities;
if (VDBG) log(" network has: " + nc);
for (NetworkRequestInfo nri : mNetworkRequests.values()) {
// Process requests in the first pass and listens in the second pass. This allows us to
// change a network's capabilities depending on which requests it has. This is only
// correct if the change in capabilities doesn't affect whether the network satisfies
// requests or not, and doesn't affect the network's score.
if (nri.request.isListen()) continue;
final NetworkAgentInfo currentNetwork = getNetworkForRequest(nri.request.requestId);
final boolean satisfies = newNetwork.satisfies(nri.request);
if (newNetwork == currentNetwork && satisfies) {
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 (satisfies) {
// next check if it's better than any current network we're using for
// this request
if (VDBG) {
log("currentScore = " +
(currentNetwork != null ? currentNetwork.getCurrentScore() : 0) +
", newScore = " + score);
}
if (currentNetwork == null || currentNetwork.getCurrentScore() < score) {
if (VDBG) log("rematch for " + newNetwork.name());
if (currentNetwork != null) {
if (VDBG) log(" accepting network in place of " + currentNetwork.name());
currentNetwork.removeRequest(nri.request.requestId);
currentNetwork.lingerRequest(nri.request, now, mLingerDelayMs);
affectedNetworks.add(currentNetwork);
} else {
if (VDBG) log(" accepting network in place of null");
}
newNetwork.unlingerRequest(nri.request);
setNetworkForRequest(nri.request.requestId, newNetwork);
if (!newNetwork.addRequest(nri.request)) {
Slog.wtf(TAG, "BUG: " + newNetwork.name() + " already has " + nri.request);
}
addedRequests.add(nri);
keep = true;
// Tell NetworkFactories about the new score, so they can stop
// trying to connect if they know they cannot match it.
// 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, score);
if (isDefaultRequest(nri)) {
isNewDefault = true;
oldDefaultNetwork = currentNetwork;
if (currentNetwork != null) {
mLingerMonitor.noteLingerDefaultNetwork(currentNetwork, newNetwork);
}
}
}
} else if (newNetwork.isSatisfyingRequest(nri.request.requestId)) {
// If "newNetwork" is listed as satisfying "nri" but no longer satisfies "nri",
// mark it as no longer satisfying "nri". Because networks are processed by
// rematchAllNetworksAndRequests() in descending score order, "currentNetwork" will
// match "newNetwork" before this loop will encounter a "currentNetwork" with higher
// score than "newNetwork" and where "currentNetwork" no longer satisfies "nri".
// This means this code doesn't have to handle the case where "currentNetwork" no
// longer satisfies "nri" when "currentNetwork" does not equal "newNetwork".
if (DBG) {
log("Network " + newNetwork.name() + " stopped satisfying" +
" request " + nri.request.requestId);
}
newNetwork.removeRequest(nri.request.requestId);
if (currentNetwork == newNetwork) {
clearNetworkForRequest(nri.request.requestId);
sendUpdatedScoreToFactories(nri.request, 0);
} else {
Slog.wtf(TAG, "BUG: Removing request " + nri.request.requestId + " from " +
newNetwork.name() +
" without updating mNetworkForRequestId or factories!");
}
// TODO: Technically, sending CALLBACK_LOST here is
// incorrect if there is a replacement network currently
// connected that can satisfy nri, which is a request
// (not a listen). However, the only capability that can both
// a) be requested and b) change is NET_CAPABILITY_TRUSTED,
// so this code is only incorrect for a network that loses
// the TRUSTED capability, which is a rare case.
callCallbackForRequest(nri, newNetwork, ConnectivityManager.CALLBACK_LOST, 0);
}
}
if (isNewDefault) {
// Notify system services that this network is up.
makeDefault(newNetwork);
// Log 0 -> X and Y -> X default network transitions, where X is the new default.
metricsLogger().defaultNetworkMetrics().logDefaultNetworkEvent(
now, newNetwork, oldDefaultNetwork);
// Have a new default network, release the transition wakelock in
scheduleReleaseNetworkTransitionWakelock();
}
if (!newNetwork.networkCapabilities.equalRequestableCapabilities(nc)) {
Slog.wtf(TAG, String.format(
"BUG: %s changed requestable capabilities during rematch: %s -> %s",
newNetwork.name(), nc, newNetwork.networkCapabilities));
}
if (newNetwork.getCurrentScore() != score) {
Slog.wtf(TAG, String.format(
"BUG: %s changed score during rematch: %d -> %d",
newNetwork.name(), score, newNetwork.getCurrentScore()));
}
// Second pass: process all listens.
if (wasBackgroundNetwork != newNetwork.isBackgroundNetwork()) {
// If the network went from background to foreground or vice versa, we need to update
// its foreground state. It is safe to do this after rematching the requests because
// NET_CAPABILITY_FOREGROUND does not affect requests, as is not a requestable
// capability and does not affect the network's score (see the Slog.wtf call above).
updateCapabilities(score, newNetwork, newNetwork.networkCapabilities);
} else {
processListenRequests(newNetwork, false);
}
// do this after the default net is switched, but
// before LegacyTypeTracker sends legacy broadcasts
for (NetworkRequestInfo nri : addedRequests) notifyNetworkAvailable(newNetwork, nri);
// Linger any networks that are no longer needed. This should be done after sending the
// available callback for newNetwork.
for (NetworkAgentInfo nai : affectedNetworks) {
updateLingerState(nai, now);
}
// Possibly unlinger newNetwork. Unlingering a network does not send any callbacks so it
// does not need to be done in any particular order.
updateLingerState(newNetwork, now);
if (isNewDefault) {
// Maintain the illusion: since the legacy API only
// understands one network at a time, we must pretend
// that the current default network disconnected before
// the new one connected.
if (oldDefaultNetwork != null) {
mLegacyTypeTracker.remove(oldDefaultNetwork.networkInfo.getType(),
oldDefaultNetwork, true);
}
mDefaultInetConditionPublished = newNetwork.lastValidated ? 100 : 0;
mLegacyTypeTracker.add(newNetwork.networkInfo.getType(), newNetwork);
notifyLockdownVpn(newNetwork);
}
if (keep) {
// Notify battery stats service about this network, both the normal
// interface and any stacked links.
// TODO: Avoid redoing this; this must only be done once when a network comes online.
try {
final IBatteryStats bs = BatteryStatsService.getService();
final int type = newNetwork.networkInfo.getType();
final String baseIface = newNetwork.linkProperties.getInterfaceName();
bs.noteNetworkInterfaceType(baseIface, type);
for (LinkProperties stacked : newNetwork.linkProperties.getStackedLinks()) {
final String stackedIface = stacked.getInterfaceName();
bs.noteNetworkInterfaceType(stackedIface, type);
}
} catch (RemoteException ignored) {
}
// This has to happen after the notifyNetworkCallbacks as that tickles each
// ConnectivityManager instance so that legacy requests correctly bind dns
// requests to this network. The legacy users are listening for this bcast
// and will generally do a dns request so they can ensureRouteToHost and if
// they do that before the callbacks happen they'll use the default network.
//
// TODO: Is there still a race here? We send the broadcast
// after sending the callback, but if the app can receive the
// broadcast before the callback, it might still break.
//
// This *does* introduce a race where if the user uses the new api
// (notification callbacks) and then uses the old api (getNetworkInfo(type))
// they may get old info. Reverse this after the old startUsing api is removed.
// This is on top of the multiple intent sequencing referenced in the todo above.
for (int i = 0; i < newNetwork.numNetworkRequests(); i++) {
NetworkRequest nr = newNetwork.requestAt(i);
if (nr.legacyType != TYPE_NONE && nr.isRequest()) {
// legacy type tracker filters out repeat adds
mLegacyTypeTracker.add(nr.legacyType, newNetwork);
}
}
// A VPN generally won't get added to the legacy tracker in the "for (nri)" loop above,
// because usually there are no NetworkRequests it satisfies (e.g., mDefaultRequest
// wants the NOT_VPN capability, so it will never be satisfied by a VPN). So, add the
// newNetwork to the tracker explicitly (it's a no-op if it has already been added).
if (newNetwork.isVPN()) {
mLegacyTypeTracker.add(TYPE_VPN, newNetwork);
}
}
if (reapUnvalidatedNetworks == ReapUnvalidatedNetworks.REAP) {
for (NetworkAgentInfo nai : mNetworkAgentInfos.values()) {
if (unneeded(nai, UnneededFor.TEARDOWN)) {
if (nai.getLingerExpiry() > 0) {
// This network has active linger timers and no requests, but is not
// lingering. Linger it.
//
// One way (the only way?) this can happen if this network is unvalidated
// and became unneeded due to another network improving its score to the
// point where this network will no longer be able to satisfy any requests
// even if it validates.
updateLingerState(nai, now);
} else {
if (DBG) log("Reaping " + nai.name());
teardownUnneededNetwork(nai);
}
}
}
}
}
/**
* Attempt to rematch all Networks with NetworkRequests. This may result in Networks
* being disconnected.
* @param changed If only one Network's score or capabilities have been modified since the last
* time this function was called, pass this Network in this argument, otherwise pass
* null.
* @param oldScore If only one Network has been changed but its NetworkCapabilities have not
* changed, pass in the Network's score (from getCurrentScore()) prior to the change via
* this argument, otherwise pass {@code changed.getCurrentScore()} or 0 if
* {@code changed} is {@code null}. This is because NetworkCapabilities influence a
* network's score.
*/
private void rematchAllNetworksAndRequests(NetworkAgentInfo changed, int oldScore) {
// TODO: This may get slow. The "changed" parameter is provided for future optimization
// to avoid the slowness. It is not simply enough to process just "changed", for
// example in the case where "changed"'s score decreases and another network should begin
// satifying a NetworkRequest that "changed" currently satisfies.
// Optimization: Only reprocess "changed" if its score improved. This is safe because it
// can only add more NetworkRequests satisfied by "changed", and this is exactly what
// rematchNetworkAndRequests() handles.
final long now = SystemClock.elapsedRealtime();
if (changed != null && oldScore < changed.getCurrentScore()) {
rematchNetworkAndRequests(changed, ReapUnvalidatedNetworks.REAP, now);
} else {
final NetworkAgentInfo[] nais = mNetworkAgentInfos.values().toArray(
new NetworkAgentInfo[mNetworkAgentInfos.size()]);
// Rematch higher scoring networks first to prevent requests first matching a lower
// scoring network and then a higher scoring network, which could produce multiple
// callbacks and inadvertently unlinger networks.
Arrays.sort(nais);
for (NetworkAgentInfo nai : nais) {
rematchNetworkAndRequests(nai,
// Only reap the last time through the loop. Reaping before all rematching
// is complete could incorrectly teardown a network that hasn't yet been
// rematched.
(nai != nais[nais.length-1]) ? ReapUnvalidatedNetworks.DONT_REAP
: ReapUnvalidatedNetworks.REAP,
now);
}
}
}
private void updateInetCondition(NetworkAgentInfo nai) {
// Don't bother updating until we've graduated to validated at least once.
if (!nai.everValidated) return;
// For now only update icons for default connection.
// TODO: Update WiFi and cellular icons separately. b/17237507
if (!isDefaultNetwork(nai)) return;
int newInetCondition = nai.lastValidated ? 100 : 0;
// Don't repeat publish.
if (newInetCondition == mDefaultInetConditionPublished) return;
mDefaultInetConditionPublished = newInetCondition;
sendInetConditionBroadcast(nai.networkInfo);
}
private void notifyLockdownVpn(NetworkAgentInfo nai) {
synchronized (mVpns) {
if (mLockdownTracker != null) {
if (nai != null && nai.isVPN()) {
mLockdownTracker.onVpnStateChanged(nai.networkInfo);
} else {
mLockdownTracker.onNetworkInfoChanged();
}
}
}
}
private void updateNetworkInfo(NetworkAgentInfo networkAgent, NetworkInfo newInfo) {
final NetworkInfo.State state = newInfo.getState();
NetworkInfo oldInfo = null;
final int oldScore = networkAgent.getCurrentScore();
synchronized (networkAgent) {
oldInfo = networkAgent.networkInfo;
networkAgent.networkInfo = newInfo;
}
notifyLockdownVpn(networkAgent);
if (DBG) {
log(networkAgent.name() + " EVENT_NETWORK_INFO_CHANGED, going from " +
(oldInfo == null ? "null" : oldInfo.getState()) +
" to " + state);
}
if (!networkAgent.created
&& (state == NetworkInfo.State.CONNECTED
|| (state == NetworkInfo.State.CONNECTING && networkAgent.isVPN()))) {
// A network that has just connected has zero requests and is thus a foreground network.
networkAgent.networkCapabilities.addCapability(NET_CAPABILITY_FOREGROUND);
try {
// This should never fail. Specifying an already in use NetID will cause failure.
if (networkAgent.isVPN()) {
mNetd.createVirtualNetwork(networkAgent.network.netId,
!networkAgent.linkProperties.getDnsServers().isEmpty(),
(networkAgent.networkMisc == null ||
!networkAgent.networkMisc.allowBypass));
} else {
mNetd.createPhysicalNetwork(networkAgent.network.netId,
getNetworkPermission(networkAgent.networkCapabilities));
}
} catch (Exception e) {
loge("Error creating network " + networkAgent.network.netId + ": "
+ e.getMessage());
return;
}
networkAgent.created = true;
}
if (!networkAgent.everConnected && state == NetworkInfo.State.CONNECTED) {
networkAgent.everConnected = true;
handlePerNetworkPrivateDnsConfig(networkAgent, mDnsManager.getPrivateDnsConfig());
updateLinkProperties(networkAgent, null);
notifyIfacesChangedForNetworkStats();
networkAgent.networkMonitor.sendMessage(NetworkMonitor.CMD_NETWORK_CONNECTED);
scheduleUnvalidatedPrompt(networkAgent);
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.
}
// Whether a particular NetworkRequest listen should cause signal strength thresholds to
// be communicated to a particular NetworkAgent depends only on the network's immutable,
// capabilities, so it only needs to be done once on initial connect, not every time the
// network's capabilities change. Note that we do this before rematching the network,
// so we could decide to tear it down immediately afterwards. That's fine though - on
// disconnection NetworkAgents should stop any signal strength monitoring they have been
// doing.
updateSignalStrengthThresholds(networkAgent, "CONNECT", null);
// Consider network even though it is not yet validated.
final long now = SystemClock.elapsedRealtime();
rematchNetworkAndRequests(networkAgent, ReapUnvalidatedNetworks.REAP, now);
// This has to happen after matching the requests, because callbacks are just requests.
notifyNetworkCallbacks(networkAgent, ConnectivityManager.CALLBACK_PRECHECK);
} else if (state == NetworkInfo.State.DISCONNECTED) {
networkAgent.asyncChannel.disconnect();
if (networkAgent.isVPN()) {
synchronized (mProxyLock) {
if (mDefaultProxyDisabled) {
mDefaultProxyDisabled = false;
if (mGlobalProxy == null && mDefaultProxy != null) {
sendProxyBroadcast(mDefaultProxy);
}
}
}
updateUids(networkAgent, networkAgent.networkCapabilities, null);
}
disconnectAndDestroyNetwork(networkAgent);
} else if ((oldInfo != null && oldInfo.getState() == NetworkInfo.State.SUSPENDED) ||
state == NetworkInfo.State.SUSPENDED) {
// going into or coming out of SUSPEND: rescore and notify
if (networkAgent.getCurrentScore() != oldScore) {
rematchAllNetworksAndRequests(networkAgent, oldScore);
}
updateCapabilities(networkAgent.getCurrentScore(), networkAgent,
networkAgent.networkCapabilities);
// TODO (b/73132094) : remove this call once the few users of onSuspended and
// onResumed have been removed.
notifyNetworkCallbacks(networkAgent, (state == NetworkInfo.State.SUSPENDED ?
ConnectivityManager.CALLBACK_SUSPENDED :
ConnectivityManager.CALLBACK_RESUMED));
mLegacyTypeTracker.update(networkAgent);
}
}
private void updateNetworkScore(NetworkAgentInfo nai, int score) {
if (VDBG) log("updateNetworkScore for " + nai.name() + " to " + score);
if (score < 0) {
loge("updateNetworkScore for " + nai.name() + " got a negative score (" + score +
"). Bumping score to min of 0");
score = 0;
}
final int oldScore = nai.getCurrentScore();
nai.setCurrentScore(score);
rematchAllNetworksAndRequests(nai, oldScore);
sendUpdatedScoreToFactories(nai);
}
// Notify only this one new request of the current state. Transfer all the
// current state by calling NetworkCapabilities and LinkProperties callbacks
// so that callers can be guaranteed to have as close to atomicity in state
// transfer as can be supported by this current API.
protected void notifyNetworkAvailable(NetworkAgentInfo nai, NetworkRequestInfo nri) {
mHandler.removeMessages(EVENT_TIMEOUT_NETWORK_REQUEST, nri);
if (nri.mPendingIntent != null) {
sendPendingIntentForRequest(nri, nai, ConnectivityManager.CALLBACK_AVAILABLE);
// Attempt no subsequent state pushes where intents are involved.
return;
}
callCallbackForRequest(nri, nai, ConnectivityManager.CALLBACK_AVAILABLE, 0);
}
private void sendLegacyNetworkBroadcast(NetworkAgentInfo nai, DetailedState state, int type) {
// The NetworkInfo we actually send out has no bearing on the real
// state of affairs. For example, if the default connection is mobile,
// and a request for HIPRI has just gone away, we need to pretend that
// HIPRI has just disconnected. So we need to set the type to HIPRI and
// the state to DISCONNECTED, even though the network is of type MOBILE
// and is still connected.
NetworkInfo info = new NetworkInfo(nai.networkInfo);
info.setType(type);
if (state != DetailedState.DISCONNECTED) {
info.setDetailedState(state, null, info.getExtraInfo());
sendConnectedBroadcast(info);
} else {
info.setDetailedState(state, info.getReason(), info.getExtraInfo());
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.isSatisfyingRequest(mDefaultRequest.requestId)) {
newDefaultAgent = getDefaultNetwork();
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);
sendStickyBroadcast(intent);
if (newDefaultAgent != null) {
sendConnectedBroadcast(newDefaultAgent.networkInfo);
}
}
}
protected void notifyNetworkCallbacks(NetworkAgentInfo networkAgent, int notifyType, int arg1) {
if (VDBG) {
String notification = ConnectivityManager.getCallbackName(notifyType);
log("notifyType " + notification + " for " + networkAgent.name());
}
for (int i = 0; i < networkAgent.numNetworkRequests(); i++) {
NetworkRequest nr = networkAgent.requestAt(i);
NetworkRequestInfo nri = mNetworkRequests.get(nr);
if (VDBG) log(" sending notification for " + nr);
// TODO: if we're in the middle of a rematch, can we send a CAP_CHANGED callback for
// a network that no longer satisfies the listen?
if (nri.mPendingIntent == null) {
callCallbackForRequest(nri, networkAgent, notifyType, arg1);
} else {
sendPendingIntentForRequest(nri, networkAgent, notifyType);
}
}
}
protected void notifyNetworkCallbacks(NetworkAgentInfo networkAgent, int notifyType) {
notifyNetworkCallbacks(networkAgent, notifyType, 0);
}
/**
* Returns the list of all interfaces that could be used by network traffic that does not
* explicitly specify a network. This includes the default network, but also all VPNs that are
* currently connected.
*
* Must be called on the handler thread.
*/
private Network[] getDefaultNetworks() {
ArrayList<Network> defaultNetworks = new ArrayList<>();
NetworkAgentInfo defaultNetwork = getDefaultNetwork();
for (NetworkAgentInfo nai : mNetworkAgentInfos.values()) {
if (nai.everConnected && (nai == defaultNetwork || nai.isVPN())) {
defaultNetworks.add(nai.network);
}
}
return defaultNetworks.toArray(new Network[0]);
}
/**
* Notify NetworkStatsService that the set of active ifaces has changed, or that one of the
* properties tracked by NetworkStatsService on an active iface has changed.
*/
private void notifyIfacesChangedForNetworkStats() {
try {
mStatsService.forceUpdateIfaces(getDefaultNetworks());
} catch (Exception ignored) {
}
}
@Override
public boolean addVpnAddress(String address, int prefixLength) {
int user = UserHandle.getUserId(Binder.getCallingUid());
synchronized (mVpns) {
throwIfLockdownEnabled();
return mVpns.get(user).addAddress(address, prefixLength);
}
}
@Override
public boolean removeVpnAddress(String address, int prefixLength) {
int user = UserHandle.getUserId(Binder.getCallingUid());
synchronized (mVpns) {
throwIfLockdownEnabled();
return mVpns.get(user).removeAddress(address, prefixLength);
}
}
@Override
public boolean setUnderlyingNetworksForVpn(Network[] networks) {
int user = UserHandle.getUserId(Binder.getCallingUid());
final boolean success;
synchronized (mVpns) {
throwIfLockdownEnabled();
success = mVpns.get(user).setUnderlyingNetworks(networks);
}
if (success) {
mHandler.post(() -> notifyIfacesChangedForNetworkStats());
}
return success;
}
@Override
public String getCaptivePortalServerUrl() {
enforceConnectivityInternalPermission();
return NetworkMonitor.getCaptivePortalServerHttpUrl(mContext);
}
@Override
public void startNattKeepalive(Network network, int intervalSeconds, Messenger messenger,
IBinder binder, String srcAddr, int srcPort, String dstAddr) {
enforceKeepalivePermission();
mKeepaliveTracker.startNattKeepalive(
getNetworkAgentInfoForNetwork(network),
intervalSeconds, messenger, binder,
srcAddr, srcPort, dstAddr, ConnectivityManager.PacketKeepalive.NATT_PORT);
}
@Override
public void stopKeepalive(Network network, int slot) {
mHandler.sendMessage(mHandler.obtainMessage(
NetworkAgent.CMD_STOP_PACKET_KEEPALIVE, slot, PacketKeepalive.SUCCESS, network));
}
@Override
public void factoryReset() {
enforceConnectivityInternalPermission();
if (mUserManager.hasUserRestriction(UserManager.DISALLOW_NETWORK_RESET)) {
return;
}
final int userId = UserHandle.getCallingUserId();
// Turn airplane mode off
setAirplaneMode(false);
if (!mUserManager.hasUserRestriction(UserManager.DISALLOW_CONFIG_TETHERING)) {
// Untether
String pkgName = mContext.getOpPackageName();
for (String tether : getTetheredIfaces()) {
untether(tether, pkgName);
}
}
if (!mUserManager.hasUserRestriction(UserManager.DISALLOW_CONFIG_VPN)) {
// Remove always-on package
synchronized (mVpns) {
final String alwaysOnPackage = getAlwaysOnVpnPackage(userId);
if (alwaysOnPackage != null) {
setAlwaysOnVpnPackage(userId, null, false);
setVpnPackageAuthorization(alwaysOnPackage, userId, false);
}
// Turn Always-on VPN off
if (mLockdownEnabled && userId == UserHandle.USER_SYSTEM) {
final long ident = Binder.clearCallingIdentity();
try {
mKeyStore.delete(Credentials.LOCKDOWN_VPN);
mLockdownEnabled = false;
setLockdownTracker(null);
} finally {
Binder.restoreCallingIdentity(ident);
}
}
// Turn VPN off
VpnConfig vpnConfig = getVpnConfig(userId);
if (vpnConfig != null) {
if (vpnConfig.legacy) {
prepareVpn(VpnConfig.LEGACY_VPN, VpnConfig.LEGACY_VPN, userId);
} else {
// Prevent this app (packagename = vpnConfig.user) from initiating
// VPN connections in the future without user intervention.
setVpnPackageAuthorization(vpnConfig.user, userId, false);
prepareVpn(null, VpnConfig.LEGACY_VPN, userId);
}
}
}
}
Settings.Global.putString(mContext.getContentResolver(),
Settings.Global.NETWORK_AVOID_BAD_WIFI, null);
}
@Override
public byte[] getNetworkWatchlistConfigHash() {
NetworkWatchlistManager nwm = mContext.getSystemService(NetworkWatchlistManager.class);
if (nwm == null) {
loge("Unable to get NetworkWatchlistManager");
return null;
}
// Redirect it to network watchlist service to access watchlist file and calculate hash.
return nwm.getWatchlistConfigHash();
}
@VisibleForTesting
public NetworkMonitor createNetworkMonitor(Context context, Handler handler,
NetworkAgentInfo nai, NetworkRequest defaultRequest) {
return new NetworkMonitor(context, handler, nai, defaultRequest);
}
@VisibleForTesting
MultinetworkPolicyTracker createMultinetworkPolicyTracker(Context c, Handler h, Runnable r) {
return new MultinetworkPolicyTracker(c, h, r);
}
@VisibleForTesting
public WakeupMessage makeWakeupMessage(Context c, Handler h, String s, int cmd, Object obj) {
return new WakeupMessage(c, h, s, cmd, 0, 0, obj);
}
@VisibleForTesting
public boolean hasService(String name) {
return ServiceManager.checkService(name) != null;
}
@VisibleForTesting
protected IpConnectivityMetrics.Logger metricsLogger() {
return checkNotNull(LocalServices.getService(IpConnectivityMetrics.Logger.class),
"no IpConnectivityMetrics service");
}
private void logNetworkEvent(NetworkAgentInfo nai, int evtype) {
int[] transports = nai.networkCapabilities.getTransportTypes();
mMetricsLog.log(nai.network.netId, transports, new NetworkEvent(evtype));
}
private static boolean toBool(int encodedBoolean) {
return encodedBoolean != 0; // Only 0 means false.
}
private static int encodeBool(boolean b) {
return b ? 1 : 0;
}
@Override
public void onShellCommand(FileDescriptor in, FileDescriptor out,
FileDescriptor err, String[] args, ShellCallback callback,
ResultReceiver resultReceiver) {
(new ShellCmd()).exec(this, in, out, err, args, callback, resultReceiver);
}
private class ShellCmd extends ShellCommand {
@Override
public int onCommand(String cmd) {
if (cmd == null) {
return handleDefaultCommands(cmd);
}
final PrintWriter pw = getOutPrintWriter();
try {
switch (cmd) {
case "airplane-mode":
final String action = getNextArg();
if ("enable".equals(action)) {
setAirplaneMode(true);
return 0;
} else if ("disable".equals(action)) {
setAirplaneMode(false);
return 0;
} else if (action == null) {
final ContentResolver cr = mContext.getContentResolver();
final int enabled = Settings.Global.getInt(cr,
Settings.Global.AIRPLANE_MODE_ON);
pw.println(enabled == 0 ? "disabled" : "enabled");
return 0;
} else {
onHelp();
return -1;
}
default:
return handleDefaultCommands(cmd);
}
} catch (Exception e) {
pw.println(e);
}
return -1;
}
@Override
public void onHelp() {
PrintWriter pw = getOutPrintWriter();
pw.println("Connectivity service commands:");
pw.println(" help");
pw.println(" Print this help text.");
pw.println(" airplane-mode [enable|disable]");
pw.println(" Turn airplane mode on or off.");
pw.println(" airplane-mode");
pw.println(" Get airplane mode.");
}
}
}