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|
/*
* Copyright (C) 2012 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.net.ConnectivityManager.CONNECTIVITY_ACTION;
import static android.net.ConnectivityManager.TYPE_MOBILE;
import static android.net.ConnectivityManager.TYPE_WIFI;
import static android.net.ConnectivityManager.getNetworkTypeName;
import static android.net.NetworkCapabilities.NET_CAPABILITY_CAPTIVE_PORTAL;
import static android.net.NetworkCapabilities.NET_CAPABILITY_CBS;
import static android.net.NetworkCapabilities.NET_CAPABILITY_DUN;
import static android.net.NetworkCapabilities.NET_CAPABILITY_EIMS;
import static android.net.NetworkCapabilities.NET_CAPABILITY_FOTA;
import static android.net.NetworkCapabilities.NET_CAPABILITY_IA;
import static android.net.NetworkCapabilities.NET_CAPABILITY_IMS;
import static android.net.NetworkCapabilities.NET_CAPABILITY_INTERNET;
import static android.net.NetworkCapabilities.NET_CAPABILITY_MMS;
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_VPN;
import static android.net.NetworkCapabilities.NET_CAPABILITY_RCS;
import static android.net.NetworkCapabilities.NET_CAPABILITY_SUPL;
import static android.net.NetworkCapabilities.NET_CAPABILITY_TRUSTED;
import static android.net.NetworkCapabilities.NET_CAPABILITY_VALIDATED;
import static android.net.NetworkCapabilities.NET_CAPABILITY_WIFI_P2P;
import static android.net.NetworkCapabilities.NET_CAPABILITY_XCAP;
import static android.net.NetworkCapabilities.TRANSPORT_CELLULAR;
import static android.net.NetworkCapabilities.TRANSPORT_WIFI;
import static org.mockito.Matchers.anyInt;
import static org.mockito.Matchers.eq;
import static org.mockito.Matchers.isA;
import static org.mockito.Mockito.doNothing;
import static org.mockito.Mockito.doReturn;
import static org.mockito.Mockito.doThrow;
import static org.mockito.Mockito.mock;
import static org.mockito.Mockito.reset;
import static org.mockito.Mockito.verify;
import android.app.PendingIntent;
import android.content.BroadcastReceiver;
import android.content.Context;
import android.content.ContextWrapper;
import android.content.Intent;
import android.content.IntentFilter;
import android.net.ConnectivityManager;
import android.net.ConnectivityManager.NetworkCallback;
import android.net.INetworkPolicyManager;
import android.net.INetworkStatsService;
import android.net.LinkProperties;
import android.net.Network;
import android.net.NetworkAgent;
import android.net.NetworkCapabilities;
import android.net.NetworkConfig;
import android.net.NetworkFactory;
import android.net.NetworkInfo;
import android.net.NetworkInfo.DetailedState;
import android.net.NetworkMisc;
import android.net.NetworkRequest;
import android.net.RouteInfo;
import android.os.ConditionVariable;
import android.os.Handler;
import android.os.HandlerThread;
import android.os.Looper;
import android.os.INetworkManagementService;
import android.test.AndroidTestCase;
import android.test.suitebuilder.annotation.LargeTest;
import android.util.Log;
import android.util.LogPrinter;
import com.android.server.connectivity.NetworkMonitor;
import org.mockito.ArgumentCaptor;
import java.net.InetAddress;
import java.util.concurrent.Future;
import java.util.concurrent.atomic.AtomicBoolean;
/**
* Tests for {@link ConnectivityService}.
*
* Build, install and run with:
* runtest frameworks-services -c com.android.server.ConnectivityServiceTest
*/
public class ConnectivityServiceTest extends AndroidTestCase {
private static final String TAG = "ConnectivityServiceTest";
private static final String MOBILE_IFACE = "rmnet3";
private static final String WIFI_IFACE = "wlan6";
private static final RouteInfo MOBILE_ROUTE_V4 = RouteInfo.makeHostRoute(parse("10.0.0.33"),
MOBILE_IFACE);
private static final RouteInfo MOBILE_ROUTE_V6 = RouteInfo.makeHostRoute(parse("fd00::33"),
MOBILE_IFACE);
private static final RouteInfo WIFI_ROUTE_V4 = RouteInfo.makeHostRoute(parse("192.168.0.66"),
parse("192.168.0.1"),
WIFI_IFACE);
private static final RouteInfo WIFI_ROUTE_V6 = RouteInfo.makeHostRoute(parse("fd00::66"),
parse("fd00::"),
WIFI_IFACE);
private INetworkManagementService mNetManager;
private INetworkStatsService mStatsService;
private INetworkPolicyManager mPolicyService;
private BroadcastInterceptingContext mServiceContext;
private ConnectivityService mService;
private ConnectivityManager mCm;
private MockNetworkAgent mWiFiNetworkAgent;
private MockNetworkAgent mCellNetworkAgent;
private class MockContext extends BroadcastInterceptingContext {
MockContext(Context base) {
super(base);
}
@Override
public Intent registerReceiver(BroadcastReceiver receiver, IntentFilter filter) {
// PendingIntents sent by the AlarmManager are not intercepted by
// BroadcastInterceptingContext so we must really register the receiver.
// This shouldn't effect the real NetworkMonitors as the action contains a random token.
if (filter.getAction(0).startsWith("android.net.netmon.lingerExpired")) {
return getBaseContext().registerReceiver(receiver, filter);
} else {
return super.registerReceiver(receiver, filter);
}
}
@Override
public Object getSystemService (String name) {
if (name == Context.CONNECTIVITY_SERVICE) return mCm;
return super.getSystemService(name);
}
}
private class MockNetworkAgent {
private final NetworkInfo mNetworkInfo;
private final NetworkCapabilities mNetworkCapabilities;
private final Thread mThread;
private final ConditionVariable mDisconnected = new ConditionVariable();
private int mScore;
private NetworkAgent mNetworkAgent;
MockNetworkAgent(int transport) {
final int type = transportToLegacyType(transport);
final String typeName = ConnectivityManager.getNetworkTypeName(type);
mNetworkInfo = new NetworkInfo(type, 0, typeName, "Mock");
mNetworkCapabilities = new NetworkCapabilities();
mNetworkCapabilities.addTransportType(transport);
switch (transport) {
case TRANSPORT_WIFI:
mScore = 60;
break;
case TRANSPORT_CELLULAR:
mScore = 50;
break;
default:
throw new UnsupportedOperationException("unimplemented network type");
}
final ConditionVariable initComplete = new ConditionVariable();
mThread = new Thread() {
public void run() {
Looper.prepare();
mNetworkAgent = new NetworkAgent(Looper.myLooper(), mServiceContext,
"Mock" + typeName, mNetworkInfo, mNetworkCapabilities,
new LinkProperties(), mScore, new NetworkMisc()) {
public void unwanted() { mDisconnected.open(); }
};
initComplete.open();
Looper.loop();
}
};
mThread.start();
waitFor(initComplete);
}
public void adjustScore(int change) {
mScore += change;
mNetworkAgent.sendNetworkScore(mScore);
}
public void addCapability(int capability) {
mNetworkCapabilities.addCapability(capability);
mNetworkAgent.sendNetworkCapabilities(mNetworkCapabilities);
}
public void connectWithoutInternet() {
mNetworkInfo.setDetailedState(DetailedState.CONNECTED, null, null);
mNetworkAgent.sendNetworkInfo(mNetworkInfo);
}
/**
* Transition this NetworkAgent to CONNECTED state with NET_CAPABILITY_INTERNET.
* @param validated Indicate if network should pretend to be validated.
*/
public void connect(boolean validated) {
assertEquals(mNetworkInfo.getDetailedState(), DetailedState.IDLE);
assertFalse(mNetworkCapabilities.hasCapability(NET_CAPABILITY_INTERNET));
// To pretend network is validated, we transition it to the CONNECTED state without
// NET_CAPABILITY_INTERNET so NetworkMonitor doesn't bother trying to validate and
// just rubber stamps it as validated. Afterwards we add NET_CAPABILITY_INTERNET so
// the network can satisfy the default request.
NetworkCallback callback = null;
final ConditionVariable validatedCv = new ConditionVariable();
if (validated) {
// If we connect a network without INTERNET capability, it'll get reaped.
// Prevent the reaping by adding a NetworkRequest.
NetworkRequest request = new NetworkRequest.Builder()
.addTransportType(mNetworkCapabilities.getTransportTypes()[0])
.build();
callback = new NetworkCallback() {
public void onCapabilitiesChanged(Network network,
NetworkCapabilities networkCapabilities) {
if (networkCapabilities.hasCapability(NET_CAPABILITY_VALIDATED)) {
validatedCv.open();
}
}
};
mCm.requestNetwork(request, callback);
} else {
mNetworkCapabilities.addCapability(NET_CAPABILITY_INTERNET);
mNetworkAgent.sendNetworkCapabilities(mNetworkCapabilities);
}
connectWithoutInternet();
if (validated) {
// Wait for network to validate.
waitFor(validatedCv);
mNetworkCapabilities.addCapability(NET_CAPABILITY_INTERNET);
mNetworkAgent.sendNetworkCapabilities(mNetworkCapabilities);
}
if (callback != null) mCm.unregisterNetworkCallback(callback);
}
public void disconnect() {
mNetworkInfo.setDetailedState(DetailedState.DISCONNECTED, null, null);
mNetworkAgent.sendNetworkInfo(mNetworkInfo);
}
public Network getNetwork() {
return new Network(mNetworkAgent.netId);
}
public ConditionVariable getDisconnectedCV() {
return mDisconnected;
}
}
private static class MockNetworkFactory extends NetworkFactory {
final ConditionVariable mNetworkStartedCV = new ConditionVariable();
final ConditionVariable mNetworkStoppedCV = new ConditionVariable();
final ConditionVariable mNetworkRequestedCV = new ConditionVariable();
final ConditionVariable mNetworkReleasedCV = new ConditionVariable();
final AtomicBoolean mNetworkStarted = new AtomicBoolean(false);
public MockNetworkFactory(Looper looper, Context context, String logTag,
NetworkCapabilities filter) {
super(looper, context, logTag, filter);
}
public int getMyRequestCount() {
return getRequestCount();
}
protected void startNetwork() {
mNetworkStarted.set(true);
mNetworkStartedCV.open();
}
protected void stopNetwork() {
mNetworkStarted.set(false);
mNetworkStoppedCV.open();
}
public boolean getMyStartRequested() {
return mNetworkStarted.get();
}
public ConditionVariable getNetworkStartedCV() {
mNetworkStartedCV.close();
return mNetworkStartedCV;
}
public ConditionVariable getNetworkStoppedCV() {
mNetworkStoppedCV.close();
return mNetworkStoppedCV;
}
protected void needNetworkFor(NetworkRequest networkRequest, int score) {
super.needNetworkFor(networkRequest, score);
mNetworkRequestedCV.open();
}
protected void releaseNetworkFor(NetworkRequest networkRequest) {
super.releaseNetworkFor(networkRequest);
mNetworkReleasedCV.open();
}
public ConditionVariable getNetworkRequestedCV() {
mNetworkRequestedCV.close();
return mNetworkRequestedCV;
}
public ConditionVariable getNetworkReleasedCV() {
mNetworkReleasedCV.close();
return mNetworkReleasedCV;
}
public void waitForNetworkRequests(final int count) {
waitFor(new Criteria() { public boolean get() { return count == getRequestCount(); } });
}
}
private class WrappedConnectivityService extends ConnectivityService {
public WrappedConnectivityService(Context context, INetworkManagementService netManager,
INetworkStatsService statsService, INetworkPolicyManager policyManager) {
super(context, netManager, statsService, policyManager);
}
@Override
protected int getDefaultTcpRwnd() {
// Prevent wrapped ConnectivityService from trying to write to SystemProperties.
return 0;
}
@Override
protected int reserveNetId() {
while (true) {
final int netId = super.reserveNetId();
// Don't overlap test NetIDs with real NetIDs as binding sockets to real networks
// can have odd side-effects, like network validations succeeding.
final Network[] networks = ConnectivityManager.from(getContext()).getAllNetworks();
boolean overlaps = false;
for (Network network : networks) {
if (netId == network.netId) {
overlaps = true;
break;
}
}
if (overlaps) continue;
return netId;
}
}
}
private interface Criteria {
public boolean get();
}
/**
* Wait up to 500ms for {@code criteria.get()} to become true, polling.
* Fails if 500ms goes by before {@code criteria.get()} to become true.
*/
static private void waitFor(Criteria criteria) {
int delays = 0;
while (!criteria.get()) {
try {
Thread.sleep(100);
} catch (InterruptedException e) {
}
if (++delays == 5) fail();
}
}
/**
* Wait up to 500ms for {@code conditonVariable} to open.
* Fails if 500ms goes by before {@code conditionVariable} opens.
*/
static private void waitFor(ConditionVariable conditionVariable) {
assertTrue(conditionVariable.block(500));
}
/**
* This should only be used to verify that nothing happens, in other words that no unexpected
* changes occur. It should never be used to wait for a specific positive signal to occur.
*/
private void shortSleep() {
// TODO: Instead of sleeping, instead wait for all message loops to idle.
try {
Thread.sleep(500);
} catch (InterruptedException e) {
}
}
@Override
public void setUp() throws Exception {
super.setUp();
mServiceContext = new MockContext(getContext());
mNetManager = mock(INetworkManagementService.class);
mStatsService = mock(INetworkStatsService.class);
mPolicyService = mock(INetworkPolicyManager.class);
mService = new WrappedConnectivityService(
mServiceContext, mNetManager, mStatsService, mPolicyService);
mService.systemReady();
mCm = new ConnectivityManager(mService);
}
private int transportToLegacyType(int transport) {
switch (transport) {
case TRANSPORT_WIFI:
return TYPE_WIFI;
case TRANSPORT_CELLULAR:
return TYPE_MOBILE;
default:
throw new IllegalStateException("Unknown transport" + transport);
}
}
private void verifyActiveNetwork(int transport) {
// Test getActiveNetworkInfo()
assertNotNull(mCm.getActiveNetworkInfo());
assertEquals(transportToLegacyType(transport), mCm.getActiveNetworkInfo().getType());
// Test getActiveNetwork()
assertNotNull(mCm.getActiveNetwork());
switch (transport) {
case TRANSPORT_WIFI:
assertEquals(mCm.getActiveNetwork(), mWiFiNetworkAgent.getNetwork());
break;
case TRANSPORT_CELLULAR:
assertEquals(mCm.getActiveNetwork(), mCellNetworkAgent.getNetwork());
break;
default:
throw new IllegalStateException("Unknown transport" + transport);
}
// Test getNetworkInfo(Network)
assertNotNull(mCm.getNetworkInfo(mCm.getActiveNetwork()));
assertEquals(transportToLegacyType(transport), mCm.getNetworkInfo(mCm.getActiveNetwork()).getType());
// Test getNetworkCapabilities(Network)
assertNotNull(mCm.getNetworkCapabilities(mCm.getActiveNetwork()));
assertTrue(mCm.getNetworkCapabilities(mCm.getActiveNetwork()).hasTransport(transport));
}
private void verifyNoNetwork() {
// Test getActiveNetworkInfo()
assertNull(mCm.getActiveNetworkInfo());
// Test getActiveNetwork()
assertNull(mCm.getActiveNetwork());
// Test getAllNetworks()
assertEquals(0, mCm.getAllNetworks().length);
}
/**
* Return a ConditionVariable that opens when {@code count} numbers of CONNECTIVITY_ACTION
* broadcasts are received.
*/
private ConditionVariable waitForConnectivityBroadcasts(final int count) {
final ConditionVariable cv = new ConditionVariable();
mServiceContext.registerReceiver(new BroadcastReceiver() {
private int remaining = count;
public void onReceive(Context context, Intent intent) {
if (--remaining == 0) {
cv.open();
mServiceContext.unregisterReceiver(this);
}
}
}, new IntentFilter(CONNECTIVITY_ACTION));
return cv;
}
@LargeTest
public void testLingering() throws Exception {
// Decrease linger timeout to the minimum allowed by AlarmManagerService.
NetworkMonitor.SetDefaultLingerTime(5000);
verifyNoNetwork();
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
assertNull(mCm.getActiveNetworkInfo());
assertNull(mCm.getActiveNetwork());
// Test bringing up validated cellular.
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
assertEquals(2, mCm.getAllNetworks().length);
assertTrue(mCm.getAllNetworks()[0].equals(mCm.getActiveNetwork()) ||
mCm.getAllNetworks()[1].equals(mCm.getActiveNetwork()));
assertTrue(mCm.getAllNetworks()[0].equals(mWiFiNetworkAgent.getNetwork()) ||
mCm.getAllNetworks()[1].equals(mWiFiNetworkAgent.getNetwork()));
// Test bringing up validated WiFi.
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
assertEquals(2, mCm.getAllNetworks().length);
assertTrue(mCm.getAllNetworks()[0].equals(mCm.getActiveNetwork()) ||
mCm.getAllNetworks()[1].equals(mCm.getActiveNetwork()));
assertTrue(mCm.getAllNetworks()[0].equals(mCellNetworkAgent.getNetwork()) ||
mCm.getAllNetworks()[1].equals(mCellNetworkAgent.getNetwork()));
// Test cellular linger timeout.
try {
Thread.sleep(6000);
} catch (InterruptedException e) {
}
verifyActiveNetwork(TRANSPORT_WIFI);
assertEquals(1, mCm.getAllNetworks().length);
assertEquals(mCm.getAllNetworks()[0], mCm.getActiveNetwork());
// Test WiFi disconnect.
cv = waitForConnectivityBroadcasts(1);
mWiFiNetworkAgent.disconnect();
waitFor(cv);
verifyNoNetwork();
}
@LargeTest
public void testValidatedCellularOutscoresUnvalidatedWiFi() throws Exception {
// Test bringing up unvalidated WiFi
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mWiFiNetworkAgent.connect(false);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
// Test bringing up unvalidated cellular
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
mCellNetworkAgent.connect(false);
shortSleep();
verifyActiveNetwork(TRANSPORT_WIFI);
// Test cellular disconnect.
mCellNetworkAgent.disconnect();
shortSleep();
verifyActiveNetwork(TRANSPORT_WIFI);
// Test bringing up validated cellular
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
cv = waitForConnectivityBroadcasts(2);
mCellNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Test cellular disconnect.
cv = waitForConnectivityBroadcasts(2);
mCellNetworkAgent.disconnect();
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
// Test WiFi disconnect.
cv = waitForConnectivityBroadcasts(1);
mWiFiNetworkAgent.disconnect();
waitFor(cv);
verifyNoNetwork();
}
@LargeTest
public void testUnvalidatedWifiOutscoresUnvalidatedCellular() throws Exception {
// Test bringing up unvalidated cellular.
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent.connect(false);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Test bringing up unvalidated WiFi.
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.connect(false);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
// Test WiFi disconnect.
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.disconnect();
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Test cellular disconnect.
cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent.disconnect();
waitFor(cv);
verifyNoNetwork();
}
@LargeTest
public void testUnlingeringDoesNotValidate() throws Exception {
// Test bringing up unvalidated cellular.
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent.connect(false);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
assertFalse(mCm.getNetworkCapabilities(mCellNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
// Test bringing up validated WiFi.
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
assertFalse(mCm.getNetworkCapabilities(mCellNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
// Test WiFi disconnect.
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.disconnect();
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Unlingering a network should not cause it to be marked as validated.
assertFalse(mCm.getNetworkCapabilities(mCellNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
}
@LargeTest
public void testCellularOutscoresWeakWifi() throws Exception {
// Test bringing up validated cellular.
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Test bringing up validated WiFi.
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
// Test WiFi getting really weak.
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.adjustScore(-11);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Test WiFi restoring signal strength.
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.adjustScore(11);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
mCellNetworkAgent.disconnect();
mWiFiNetworkAgent.disconnect();
}
@LargeTest
public void testReapingNetwork() throws Exception {
// Test bringing up WiFi without NET_CAPABILITY_INTERNET.
// Expect it to be torn down immediately because it satisfies no requests.
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
ConditionVariable cv = mWiFiNetworkAgent.getDisconnectedCV();
mWiFiNetworkAgent.connectWithoutInternet();
waitFor(cv);
// Test bringing up cellular without NET_CAPABILITY_INTERNET.
// Expect it to be torn down immediately because it satisfies no requests.
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
cv = mCellNetworkAgent.getDisconnectedCV();
mCellNetworkAgent.connectWithoutInternet();
waitFor(cv);
// Test bringing up validated WiFi.
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
cv = waitForConnectivityBroadcasts(1);
mWiFiNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
// Test bringing up unvalidated cellular.
// Expect it to be torn down because it could never be the highest scoring network
// satisfying the default request even if it validated.
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
cv = mCellNetworkAgent.getDisconnectedCV();
mCellNetworkAgent.connect(false);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
cv = mWiFiNetworkAgent.getDisconnectedCV();
mWiFiNetworkAgent.disconnect();
waitFor(cv);
}
@LargeTest
public void testCellularFallback() throws Exception {
// Test bringing up validated cellular.
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Test bringing up validated WiFi.
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
// Reevaluate WiFi (it'll instantly fail DNS).
cv = waitForConnectivityBroadcasts(2);
assertTrue(mCm.getNetworkCapabilities(mWiFiNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
mCm.reportBadNetwork(mWiFiNetworkAgent.getNetwork());
// Should quickly fall back to Cellular.
waitFor(cv);
assertFalse(mCm.getNetworkCapabilities(mWiFiNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Reevaluate cellular (it'll instantly fail DNS).
cv = waitForConnectivityBroadcasts(2);
assertTrue(mCm.getNetworkCapabilities(mCellNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
mCm.reportBadNetwork(mCellNetworkAgent.getNetwork());
// Should quickly fall back to WiFi.
waitFor(cv);
assertFalse(mCm.getNetworkCapabilities(mCellNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
assertFalse(mCm.getNetworkCapabilities(mWiFiNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
verifyActiveNetwork(TRANSPORT_WIFI);
mCellNetworkAgent.disconnect();
mWiFiNetworkAgent.disconnect();
}
@LargeTest
public void testWiFiFallback() throws Exception {
// Test bringing up unvalidated WiFi.
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mWiFiNetworkAgent.connect(false);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
// Test bringing up validated cellular.
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
cv = waitForConnectivityBroadcasts(2);
mCellNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Reevaluate cellular (it'll instantly fail DNS).
cv = waitForConnectivityBroadcasts(2);
assertTrue(mCm.getNetworkCapabilities(mCellNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
mCm.reportBadNetwork(mCellNetworkAgent.getNetwork());
// Should quickly fall back to WiFi.
waitFor(cv);
assertFalse(mCm.getNetworkCapabilities(mCellNetworkAgent.getNetwork()).hasCapability(
NET_CAPABILITY_VALIDATED));
verifyActiveNetwork(TRANSPORT_WIFI);
mCellNetworkAgent.disconnect();
mWiFiNetworkAgent.disconnect();
}
enum CallbackState {
NONE,
AVAILABLE,
LOSING,
LOST
}
private class TestNetworkCallback extends NetworkCallback {
private final ConditionVariable mConditionVariable = new ConditionVariable();
private CallbackState mLastCallback = CallbackState.NONE;
public void onAvailable(Network network) {
assertEquals(CallbackState.NONE, mLastCallback);
mLastCallback = CallbackState.AVAILABLE;
mConditionVariable.open();
}
public void onLosing(Network network, int maxMsToLive) {
assertEquals(CallbackState.NONE, mLastCallback);
mLastCallback = CallbackState.LOSING;
mConditionVariable.open();
}
public void onLost(Network network) {
assertEquals(CallbackState.NONE, mLastCallback);
mLastCallback = CallbackState.LOST;
mConditionVariable.open();
}
ConditionVariable getConditionVariable() {
mLastCallback = CallbackState.NONE;
mConditionVariable.close();
return mConditionVariable;
}
CallbackState getLastCallback() {
return mLastCallback;
}
}
@LargeTest
public void testStateChangeNetworkCallbacks() throws Exception {
final TestNetworkCallback wifiNetworkCallback = new TestNetworkCallback();
final TestNetworkCallback cellNetworkCallback = new TestNetworkCallback();
final NetworkRequest wifiRequest = new NetworkRequest.Builder()
.addTransportType(TRANSPORT_WIFI).build();
final NetworkRequest cellRequest = new NetworkRequest.Builder()
.addTransportType(TRANSPORT_CELLULAR).build();
mCm.registerNetworkCallback(wifiRequest, wifiNetworkCallback);
mCm.registerNetworkCallback(cellRequest, cellNetworkCallback);
// Test unvalidated networks
ConditionVariable cellCv = cellNetworkCallback.getConditionVariable();
ConditionVariable wifiCv = wifiNetworkCallback.getConditionVariable();
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
mCellNetworkAgent.connect(false);
waitFor(cellCv);
assertEquals(CallbackState.AVAILABLE, cellNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, wifiNetworkCallback.getLastCallback());
assertEquals(mCellNetworkAgent.getNetwork(), mCm.getActiveNetwork());
waitFor(cv);
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
// This should not trigger spurious onAvailable() callbacks, b/21762680.
mCellNetworkAgent.adjustScore(-1);
shortSleep();
assertEquals(CallbackState.NONE, wifiNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, cellNetworkCallback.getLastCallback());
assertEquals(mCellNetworkAgent.getNetwork(), mCm.getActiveNetwork());
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
mWiFiNetworkAgent.connect(false);
waitFor(wifiCv);
assertEquals(CallbackState.AVAILABLE, wifiNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, cellNetworkCallback.getLastCallback());
assertEquals(mWiFiNetworkAgent.getNetwork(), mCm.getActiveNetwork());
waitFor(cv);
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
cv = waitForConnectivityBroadcasts(2);
mWiFiNetworkAgent.disconnect();
waitFor(wifiCv);
assertEquals(CallbackState.LOST, wifiNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, cellNetworkCallback.getLastCallback());
waitFor(cv);
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent.disconnect();
waitFor(cellCv);
assertEquals(CallbackState.LOST, cellNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, wifiNetworkCallback.getLastCallback());
waitFor(cv);
// Test validated networks
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
// Our method for faking successful validation generates an additional callback, so wait
// for broadcast instead.
cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
mCellNetworkAgent.connect(true);
waitFor(cv);
waitFor(cellCv);
assertEquals(CallbackState.AVAILABLE, cellNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, wifiNetworkCallback.getLastCallback());
assertEquals(mCellNetworkAgent.getNetwork(), mCm.getActiveNetwork());
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
// This should not trigger spurious onAvailable() callbacks, b/21762680.
mCellNetworkAgent.adjustScore(-1);
shortSleep();
assertEquals(CallbackState.NONE, wifiNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, cellNetworkCallback.getLastCallback());
assertEquals(mCellNetworkAgent.getNetwork(), mCm.getActiveNetwork());
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
// Our method for faking successful validation generates an additional callback, so wait
// for broadcast instead.
cv = waitForConnectivityBroadcasts(1);
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
mWiFiNetworkAgent.connect(true);
waitFor(cv);
waitFor(wifiCv);
assertEquals(CallbackState.AVAILABLE, wifiNetworkCallback.getLastCallback());
waitFor(cellCv);
assertEquals(CallbackState.LOSING, cellNetworkCallback.getLastCallback());
assertEquals(mWiFiNetworkAgent.getNetwork(), mCm.getActiveNetwork());
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
mWiFiNetworkAgent.disconnect();
waitFor(wifiCv);
assertEquals(CallbackState.LOST, wifiNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, cellNetworkCallback.getLastCallback());
cellCv = cellNetworkCallback.getConditionVariable();
wifiCv = wifiNetworkCallback.getConditionVariable();
mCellNetworkAgent.disconnect();
waitFor(cellCv);
assertEquals(CallbackState.LOST, cellNetworkCallback.getLastCallback());
assertEquals(CallbackState.NONE, wifiNetworkCallback.getLastCallback());
}
private void tryNetworkFactoryRequests(int capability) throws Exception {
// Verify NOT_RESTRICTED is set appropriately
final NetworkCapabilities nc = new NetworkRequest.Builder().addCapability(capability)
.build().networkCapabilities;
if (capability == NET_CAPABILITY_CBS || capability == NET_CAPABILITY_DUN ||
capability == NET_CAPABILITY_EIMS || capability == NET_CAPABILITY_FOTA ||
capability == NET_CAPABILITY_IA || capability == NET_CAPABILITY_IMS ||
capability == NET_CAPABILITY_RCS || capability == NET_CAPABILITY_XCAP ||
capability == NET_CAPABILITY_TRUSTED || capability == NET_CAPABILITY_NOT_VPN) {
assertFalse(nc.hasCapability(NET_CAPABILITY_NOT_RESTRICTED));
} else {
assertTrue(nc.hasCapability(NET_CAPABILITY_NOT_RESTRICTED));
}
NetworkCapabilities filter = new NetworkCapabilities();
filter.addCapability(capability);
final HandlerThread handlerThread = new HandlerThread("testNetworkFactoryRequests");
handlerThread.start();
final MockNetworkFactory testFactory = new MockNetworkFactory(handlerThread.getLooper(),
mServiceContext, "testFactory", filter);
testFactory.setScoreFilter(40);
ConditionVariable cv = testFactory.getNetworkStartedCV();
testFactory.register();
int expectedRequestCount = 1;
NetworkCallback networkCallback = null;
// For non-INTERNET capabilities we cannot rely on the default request being present, so
// add one.
if (capability != NET_CAPABILITY_INTERNET) {
testFactory.waitForNetworkRequests(1);
assertFalse(testFactory.getMyStartRequested());
NetworkRequest request = new NetworkRequest.Builder().addCapability(capability).build();
networkCallback = new NetworkCallback();
mCm.requestNetwork(request, networkCallback);
expectedRequestCount++;
}
waitFor(cv);
assertEquals(expectedRequestCount, testFactory.getMyRequestCount());
assertTrue(testFactory.getMyStartRequested());
// Now bring in a higher scored network.
MockNetworkAgent testAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
// Rather than create a validated network which complicates things by registering it's
// own NetworkRequest during startup, just bump up the score to cancel out the
// unvalidated penalty.
testAgent.adjustScore(40);
cv = testFactory.getNetworkStoppedCV();
testAgent.connect(false);
testAgent.addCapability(capability);
waitFor(cv);
assertEquals(expectedRequestCount, testFactory.getMyRequestCount());
assertFalse(testFactory.getMyStartRequested());
// Bring in a bunch of requests.
ConnectivityManager.NetworkCallback[] networkCallbacks =
new ConnectivityManager.NetworkCallback[10];
for (int i = 0; i< networkCallbacks.length; i++) {
networkCallbacks[i] = new ConnectivityManager.NetworkCallback();
NetworkRequest.Builder builder = new NetworkRequest.Builder();
builder.addCapability(capability);
mCm.requestNetwork(builder.build(), networkCallbacks[i]);
}
testFactory.waitForNetworkRequests(10 + expectedRequestCount);
assertFalse(testFactory.getMyStartRequested());
// Remove the requests.
for (int i = 0; i < networkCallbacks.length; i++) {
mCm.unregisterNetworkCallback(networkCallbacks[i]);
}
testFactory.waitForNetworkRequests(expectedRequestCount);
assertFalse(testFactory.getMyStartRequested());
// Drop the higher scored network.
cv = testFactory.getNetworkStartedCV();
testAgent.disconnect();
waitFor(cv);
assertEquals(expectedRequestCount, testFactory.getMyRequestCount());
assertTrue(testFactory.getMyStartRequested());
testFactory.unregister();
if (networkCallback != null) mCm.unregisterNetworkCallback(networkCallback);
handlerThread.quit();
}
@LargeTest
public void testNetworkFactoryRequests() throws Exception {
tryNetworkFactoryRequests(NET_CAPABILITY_MMS);
tryNetworkFactoryRequests(NET_CAPABILITY_SUPL);
tryNetworkFactoryRequests(NET_CAPABILITY_DUN);
tryNetworkFactoryRequests(NET_CAPABILITY_FOTA);
tryNetworkFactoryRequests(NET_CAPABILITY_IMS);
tryNetworkFactoryRequests(NET_CAPABILITY_CBS);
tryNetworkFactoryRequests(NET_CAPABILITY_WIFI_P2P);
tryNetworkFactoryRequests(NET_CAPABILITY_IA);
tryNetworkFactoryRequests(NET_CAPABILITY_RCS);
tryNetworkFactoryRequests(NET_CAPABILITY_XCAP);
tryNetworkFactoryRequests(NET_CAPABILITY_EIMS);
tryNetworkFactoryRequests(NET_CAPABILITY_NOT_METERED);
tryNetworkFactoryRequests(NET_CAPABILITY_INTERNET);
tryNetworkFactoryRequests(NET_CAPABILITY_TRUSTED);
tryNetworkFactoryRequests(NET_CAPABILITY_NOT_VPN);
// Skipping VALIDATED and CAPTIVE_PORTAL as they're disallowed.
}
@LargeTest
public void testNoMutableNetworkRequests() throws Exception {
PendingIntent pendingIntent = PendingIntent.getBroadcast(mContext, 0, new Intent("a"), 0);
NetworkRequest.Builder builder = new NetworkRequest.Builder();
builder.addCapability(NET_CAPABILITY_VALIDATED);
try {
mCm.requestNetwork(builder.build(), new NetworkCallback());
fail();
} catch (IllegalArgumentException expected) {}
try {
mCm.requestNetwork(builder.build(), pendingIntent);
fail();
} catch (IllegalArgumentException expected) {}
builder = new NetworkRequest.Builder();
builder.addCapability(NET_CAPABILITY_CAPTIVE_PORTAL);
try {
mCm.requestNetwork(builder.build(), new NetworkCallback());
fail();
} catch (IllegalArgumentException expected) {}
try {
mCm.requestNetwork(builder.build(), pendingIntent);
fail();
} catch (IllegalArgumentException expected) {}
}
@LargeTest
public void testMMSonWiFi() throws Exception {
// Test bringing up cellular without MMS NetworkRequest gets reaped
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
mCellNetworkAgent.addCapability(NET_CAPABILITY_MMS);
ConditionVariable cv = mCellNetworkAgent.getDisconnectedCV();
mCellNetworkAgent.connectWithoutInternet();
waitFor(cv);
waitFor(new Criteria() {
public boolean get() { return mCm.getAllNetworks().length == 0; } });
verifyNoNetwork();
// Test bringing up validated WiFi.
mWiFiNetworkAgent = new MockNetworkAgent(TRANSPORT_WIFI);
cv = waitForConnectivityBroadcasts(1);
mWiFiNetworkAgent.connect(true);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
// Register MMS NetworkRequest
NetworkRequest.Builder builder = new NetworkRequest.Builder();
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_MMS);
final TestNetworkCallback networkCallback = new TestNetworkCallback();
mCm.requestNetwork(builder.build(), networkCallback);
// Test bringing up unvalidated cellular with MMS
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
mCellNetworkAgent.addCapability(NET_CAPABILITY_MMS);
cv = networkCallback.getConditionVariable();
mCellNetworkAgent.connectWithoutInternet();
waitFor(cv);
assertEquals(CallbackState.AVAILABLE, networkCallback.getLastCallback());
verifyActiveNetwork(TRANSPORT_WIFI);
// Test releasing NetworkRequest disconnects cellular with MMS
cv = mCellNetworkAgent.getDisconnectedCV();
mCm.unregisterNetworkCallback(networkCallback);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_WIFI);
}
@LargeTest
public void testMMSonCell() throws Exception {
// Test bringing up cellular without MMS
mCellNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
ConditionVariable cv = waitForConnectivityBroadcasts(1);
mCellNetworkAgent.connect(false);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Register MMS NetworkRequest
NetworkRequest.Builder builder = new NetworkRequest.Builder();
builder.addCapability(NetworkCapabilities.NET_CAPABILITY_MMS);
final TestNetworkCallback networkCallback = new TestNetworkCallback();
mCm.requestNetwork(builder.build(), networkCallback);
// Test bringing up MMS cellular network
cv = networkCallback.getConditionVariable();
MockNetworkAgent mmsNetworkAgent = new MockNetworkAgent(TRANSPORT_CELLULAR);
mmsNetworkAgent.addCapability(NET_CAPABILITY_MMS);
mmsNetworkAgent.connectWithoutInternet();
waitFor(cv);
assertEquals(CallbackState.AVAILABLE, networkCallback.getLastCallback());
verifyActiveNetwork(TRANSPORT_CELLULAR);
// Test releasing MMS NetworkRequest does not disconnect main cellular NetworkAgent
cv = mmsNetworkAgent.getDisconnectedCV();
mCm.unregisterNetworkCallback(networkCallback);
waitFor(cv);
verifyActiveNetwork(TRANSPORT_CELLULAR);
}
// @Override
// public void tearDown() throws Exception {
// super.tearDown();
// }
//
// public void testMobileConnectedAddedRoutes() throws Exception {
// Future<?> nextConnBroadcast;
//
// // bring up mobile network
// mMobile.info.setDetailedState(DetailedState.CONNECTED, null, null);
// mMobile.link.setInterfaceName(MOBILE_IFACE);
// mMobile.link.addRoute(MOBILE_ROUTE_V4);
// mMobile.link.addRoute(MOBILE_ROUTE_V6);
// mMobile.doReturnDefaults();
//
// cv = waitForConnectivityBroadcasts(1);
// mTrackerHandler.obtainMessage(EVENT_STATE_CHANGED, mMobile.info).sendToTarget();
// waitFor(cv);
//
// // verify that both routes were added
// int mobileNetId = mMobile.tracker.getNetwork().netId;
// verify(mNetManager).addRoute(eq(mobileNetId), eq(MOBILE_ROUTE_V4));
// verify(mNetManager).addRoute(eq(mobileNetId), eq(MOBILE_ROUTE_V6));
// }
//
// public void testMobileWifiHandoff() throws Exception {
// Future<?> nextConnBroadcast;
//
// // bring up mobile network
// mMobile.info.setDetailedState(DetailedState.CONNECTED, null, null);
// mMobile.link.setInterfaceName(MOBILE_IFACE);
// mMobile.link.addRoute(MOBILE_ROUTE_V4);
// mMobile.link.addRoute(MOBILE_ROUTE_V6);
// mMobile.doReturnDefaults();
//
// cv = waitForConnectivityBroadcasts(1);
// mTrackerHandler.obtainMessage(EVENT_STATE_CHANGED, mMobile.info).sendToTarget();
// waitFor(cv);
//
// reset(mNetManager);
//
// // now bring up wifi network
// mWifi.info.setDetailedState(DetailedState.CONNECTED, null, null);
// mWifi.link.setInterfaceName(WIFI_IFACE);
// mWifi.link.addRoute(WIFI_ROUTE_V4);
// mWifi.link.addRoute(WIFI_ROUTE_V6);
// mWifi.doReturnDefaults();
//
// // expect that mobile will be torn down
// doReturn(true).when(mMobile.tracker).teardown();
//
// cv = waitForConnectivityBroadcasts(1);
// mTrackerHandler.obtainMessage(EVENT_STATE_CHANGED, mWifi.info).sendToTarget();
// waitFor(cv);
//
// // verify that wifi routes added, and teardown requested
// int wifiNetId = mWifi.tracker.getNetwork().netId;
// verify(mNetManager).addRoute(eq(wifiNetId), eq(WIFI_ROUTE_V4));
// verify(mNetManager).addRoute(eq(wifiNetId), eq(WIFI_ROUTE_V6));
// verify(mMobile.tracker).teardown();
//
// int mobileNetId = mMobile.tracker.getNetwork().netId;
//
// reset(mNetManager, mMobile.tracker);
//
// // tear down mobile network, as requested
// mMobile.info.setDetailedState(DetailedState.DISCONNECTED, null, null);
// mMobile.link.clear();
// mMobile.doReturnDefaults();
//
// cv = waitForConnectivityBroadcasts(1);
// mTrackerHandler.obtainMessage(EVENT_STATE_CHANGED, mMobile.info).sendToTarget();
// waitFor(cv);
//
// verify(mNetManager).removeRoute(eq(mobileNetId), eq(MOBILE_ROUTE_V4));
// verify(mNetManager).removeRoute(eq(mobileNetId), eq(MOBILE_ROUTE_V6));
//
// }
private static InetAddress parse(String addr) {
return InetAddress.parseNumericAddress(addr);
}
}
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