| /* |
| * Copyright (C) 2011 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.net; |
| |
| import static android.content.Intent.ACTION_UID_REMOVED; |
| import static android.content.Intent.EXTRA_UID; |
| import static android.net.ConnectivityManager.TYPE_MOBILE; |
| import static android.net.ConnectivityManager.TYPE_WIFI; |
| import static android.net.NetworkIdentity.OEM_PAID; |
| import static android.net.NetworkIdentity.OEM_PRIVATE; |
| import static android.net.NetworkStats.DEFAULT_NETWORK_ALL; |
| import static android.net.NetworkStats.DEFAULT_NETWORK_NO; |
| import static android.net.NetworkStats.DEFAULT_NETWORK_YES; |
| import static android.net.NetworkStats.IFACE_ALL; |
| import static android.net.NetworkStats.INTERFACES_ALL; |
| import static android.net.NetworkStats.METERED_ALL; |
| import static android.net.NetworkStats.METERED_NO; |
| import static android.net.NetworkStats.METERED_YES; |
| import static android.net.NetworkStats.ROAMING_ALL; |
| import static android.net.NetworkStats.ROAMING_NO; |
| import static android.net.NetworkStats.ROAMING_YES; |
| import static android.net.NetworkStats.SET_ALL; |
| import static android.net.NetworkStats.SET_DEFAULT; |
| import static android.net.NetworkStats.SET_FOREGROUND; |
| import static android.net.NetworkStats.STATS_PER_UID; |
| import static android.net.NetworkStats.TAG_ALL; |
| import static android.net.NetworkStats.TAG_NONE; |
| import static android.net.NetworkStats.UID_ALL; |
| import static android.net.NetworkStatsHistory.FIELD_ALL; |
| import static android.net.NetworkTemplate.MATCH_MOBILE_WILDCARD; |
| import static android.net.NetworkTemplate.NETWORK_TYPE_ALL; |
| import static android.net.NetworkTemplate.OEM_MANAGED_NO; |
| import static android.net.NetworkTemplate.OEM_MANAGED_YES; |
| import static android.net.NetworkTemplate.buildTemplateMobileAll; |
| import static android.net.NetworkTemplate.buildTemplateMobileWithRatType; |
| import static android.net.NetworkTemplate.buildTemplateWifi; |
| import static android.net.NetworkTemplate.buildTemplateWifiWildcard; |
| import static android.net.TrafficStats.MB_IN_BYTES; |
| import static android.net.TrafficStats.UID_REMOVED; |
| import static android.net.TrafficStats.UID_TETHERING; |
| import static android.text.format.DateUtils.DAY_IN_MILLIS; |
| import static android.text.format.DateUtils.HOUR_IN_MILLIS; |
| import static android.text.format.DateUtils.MINUTE_IN_MILLIS; |
| import static android.text.format.DateUtils.WEEK_IN_MILLIS; |
| |
| import static com.android.server.net.NetworkStatsService.ACTION_NETWORK_STATS_POLL; |
| |
| import static org.junit.Assert.assertEquals; |
| import static org.junit.Assert.assertNotNull; |
| import static org.junit.Assert.assertTrue; |
| import static org.mockito.ArgumentMatchers.any; |
| import static org.mockito.ArgumentMatchers.anyInt; |
| import static org.mockito.ArgumentMatchers.anyLong; |
| import static org.mockito.ArgumentMatchers.anyString; |
| import static org.mockito.ArgumentMatchers.eq; |
| import static org.mockito.Mockito.reset; |
| import static org.mockito.Mockito.times; |
| import static org.mockito.Mockito.verify; |
| import static org.mockito.Mockito.when; |
| |
| import android.annotation.NonNull; |
| import android.app.AlarmManager; |
| import android.app.usage.NetworkStatsManager; |
| import android.content.Context; |
| import android.content.Intent; |
| import android.database.ContentObserver; |
| import android.net.DataUsageRequest; |
| import android.net.INetworkManagementEventObserver; |
| import android.net.INetworkStatsSession; |
| import android.net.LinkProperties; |
| import android.net.Network; |
| import android.net.NetworkCapabilities; |
| import android.net.NetworkStateSnapshot; |
| import android.net.NetworkStats; |
| import android.net.NetworkStatsHistory; |
| import android.net.NetworkTemplate; |
| import android.net.UnderlyingNetworkInfo; |
| import android.net.netstats.provider.INetworkStatsProviderCallback; |
| import android.os.ConditionVariable; |
| 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.PowerManager; |
| import android.os.SimpleClock; |
| import android.provider.Settings; |
| import android.telephony.TelephonyManager; |
| |
| import androidx.test.InstrumentationRegistry; |
| import androidx.test.filters.SmallTest; |
| import androidx.test.runner.AndroidJUnit4; |
| |
| import com.android.internal.util.ArrayUtils; |
| import com.android.internal.util.test.BroadcastInterceptingContext; |
| import com.android.server.net.NetworkStatsService.NetworkStatsSettings; |
| import com.android.server.net.NetworkStatsService.NetworkStatsSettings.Config; |
| import com.android.testutils.HandlerUtils; |
| import com.android.testutils.TestableNetworkStatsProviderBinder; |
| |
| import libcore.io.IoUtils; |
| |
| import org.junit.After; |
| import org.junit.Before; |
| import org.junit.Ignore; |
| import org.junit.Test; |
| import org.junit.runner.RunWith; |
| import org.mockito.ArgumentCaptor; |
| import org.mockito.Mock; |
| import org.mockito.MockitoAnnotations; |
| |
| import java.io.File; |
| import java.time.Clock; |
| import java.time.ZoneOffset; |
| import java.util.Objects; |
| import java.util.concurrent.Executor; |
| |
| /** |
| * Tests for {@link NetworkStatsService}. |
| * |
| * TODO: This test used to be really brittle because it used Easymock - it uses Mockito now, but |
| * still uses the Easymock structure, which could be simplified. |
| */ |
| @RunWith(AndroidJUnit4.class) |
| @SmallTest |
| public class NetworkStatsServiceTest extends NetworkStatsBaseTest { |
| private static final String TAG = "NetworkStatsServiceTest"; |
| |
| private static final long TEST_START = 1194220800000L; |
| |
| private static final String IMSI_1 = "310004"; |
| private static final String IMSI_2 = "310260"; |
| private static final String TEST_SSID = "AndroidAP"; |
| |
| private static NetworkTemplate sTemplateWifi = buildTemplateWifi(TEST_SSID); |
| private static NetworkTemplate sTemplateImsi1 = buildTemplateMobileAll(IMSI_1); |
| private static NetworkTemplate sTemplateImsi2 = buildTemplateMobileAll(IMSI_2); |
| |
| private static final Network WIFI_NETWORK = new Network(100); |
| private static final Network MOBILE_NETWORK = new Network(101); |
| private static final Network VPN_NETWORK = new Network(102); |
| |
| private static final Network[] NETWORKS_WIFI = new Network[]{ WIFI_NETWORK }; |
| private static final Network[] NETWORKS_MOBILE = new Network[]{ MOBILE_NETWORK }; |
| |
| private static final long WAIT_TIMEOUT = 2 * 1000; // 2 secs |
| private static final int INVALID_TYPE = -1; |
| |
| private long mElapsedRealtime; |
| |
| private BroadcastInterceptingContext mServiceContext; |
| private File mStatsDir; |
| |
| private @Mock INetworkManagementService mNetManager; |
| private @Mock NetworkStatsFactory mStatsFactory; |
| private @Mock NetworkStatsSettings mSettings; |
| private @Mock IBinder mBinder; |
| private @Mock AlarmManager mAlarmManager; |
| @Mock |
| private NetworkStatsSubscriptionsMonitor mNetworkStatsSubscriptionsMonitor; |
| private HandlerThread mHandlerThread; |
| |
| private NetworkStatsService mService; |
| private INetworkStatsSession mSession; |
| private INetworkManagementEventObserver mNetworkObserver; |
| private ContentObserver mContentObserver; |
| private Handler mHandler; |
| |
| private final Clock mClock = new SimpleClock(ZoneOffset.UTC) { |
| @Override |
| public long millis() { |
| return currentTimeMillis(); |
| } |
| }; |
| |
| @Before |
| public void setUp() throws Exception { |
| MockitoAnnotations.initMocks(this); |
| final Context context = InstrumentationRegistry.getContext(); |
| |
| mServiceContext = new BroadcastInterceptingContext(context); |
| mStatsDir = context.getFilesDir(); |
| if (mStatsDir.exists()) { |
| IoUtils.deleteContents(mStatsDir); |
| } |
| |
| PowerManager powerManager = (PowerManager) mServiceContext.getSystemService( |
| Context.POWER_SERVICE); |
| PowerManager.WakeLock wakeLock = |
| powerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, TAG); |
| |
| mHandlerThread = new HandlerThread("HandlerThread"); |
| final NetworkStatsService.Dependencies deps = makeDependencies(); |
| mService = new NetworkStatsService(mServiceContext, mNetManager, mAlarmManager, wakeLock, |
| mClock, mSettings, mStatsFactory, new NetworkStatsObservers(), mStatsDir, |
| getBaseDir(mStatsDir), deps); |
| |
| mElapsedRealtime = 0L; |
| |
| expectDefaultSettings(); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| expectSystemReady(); |
| |
| mService.systemReady(); |
| // Verify that system ready fetches realtime stats |
| verify(mStatsFactory).readNetworkStatsDetail(UID_ALL, INTERFACES_ALL, TAG_ALL); |
| // Wait for posting onChange() event to handler thread and verify that when system ready, |
| // start monitoring data usage per RAT type because the settings value is mock as false |
| // by default in expectSettings(). |
| waitForIdle(); |
| verify(mNetworkStatsSubscriptionsMonitor).start(); |
| reset(mNetworkStatsSubscriptionsMonitor); |
| |
| mSession = mService.openSession(); |
| assertNotNull("openSession() failed", mSession); |
| |
| // catch INetworkManagementEventObserver during systemReady() |
| ArgumentCaptor<INetworkManagementEventObserver> networkObserver = |
| ArgumentCaptor.forClass(INetworkManagementEventObserver.class); |
| verify(mNetManager).registerObserver(networkObserver.capture()); |
| mNetworkObserver = networkObserver.getValue(); |
| } |
| |
| @NonNull |
| private NetworkStatsService.Dependencies makeDependencies() { |
| return new NetworkStatsService.Dependencies() { |
| @Override |
| public HandlerThread makeHandlerThread() { |
| return mHandlerThread; |
| } |
| |
| @Override |
| public NetworkStatsSubscriptionsMonitor makeSubscriptionsMonitor( |
| @NonNull Context context, @NonNull Looper looper, @NonNull Executor executor, |
| @NonNull NetworkStatsService service) { |
| |
| return mNetworkStatsSubscriptionsMonitor; |
| } |
| |
| @Override |
| public ContentObserver makeContentObserver(Handler handler, |
| NetworkStatsSettings settings, NetworkStatsSubscriptionsMonitor monitor) { |
| mHandler = handler; |
| return mContentObserver = super.makeContentObserver(handler, settings, monitor); |
| } |
| |
| }; |
| } |
| |
| @After |
| public void tearDown() throws Exception { |
| IoUtils.deleteContents(mStatsDir); |
| |
| mServiceContext = null; |
| mStatsDir = null; |
| |
| mNetManager = null; |
| mSettings = null; |
| |
| mSession.close(); |
| mService = null; |
| |
| mHandlerThread.quitSafely(); |
| } |
| |
| @Test |
| public void testNetworkStatsWifi() throws Exception { |
| // pretend that wifi network comes online; service should ask about full |
| // network state, and poll any existing interfaces before updating. |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildWifiState()}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // verify service has empty history for wifi |
| assertNetworkTotal(sTemplateWifi, 0L, 0L, 0L, 0L, 0); |
| |
| // modify some number on wifi, and trigger poll event |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 1024L, 1L, 2048L, 2L)); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertNetworkTotal(sTemplateWifi, 1024L, 1L, 2048L, 2L, 0); |
| |
| |
| // and bump forward again, with counters going higher. this is |
| // important, since polling should correctly subtract last snapshot. |
| incrementCurrentTime(DAY_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 4096L, 4L, 8192L, 8L)); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertNetworkTotal(sTemplateWifi, 4096L, 4L, 8192L, 8L, 0); |
| |
| } |
| |
| @Test |
| public void testStatsRebootPersist() throws Exception { |
| assertStatsFilesExist(false); |
| |
| // pretend that wifi network comes online; service should ask about full |
| // network state, and poll any existing interfaces before updating. |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildWifiState()}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // verify service has empty history for wifi |
| assertNetworkTotal(sTemplateWifi, 0L, 0L, 0L, 0L, 0); |
| |
| |
| // modify some number on wifi, and trigger poll event |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 1024L, 8L, 2048L, 16L)); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 2) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 512L, 4L, 256L, 2L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xFAAD, 256L, 2L, 128L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_FOREGROUND, TAG_NONE, 512L, 4L, 256L, 2L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_FOREGROUND, 0xFAAD, 256L, 2L, 128L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 128L, 1L, 128L, 1L, 0L)); |
| mService.setUidForeground(UID_RED, false); |
| mService.incrementOperationCount(UID_RED, 0xFAAD, 4); |
| mService.setUidForeground(UID_RED, true); |
| mService.incrementOperationCount(UID_RED, 0xFAAD, 6); |
| |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertNetworkTotal(sTemplateWifi, 1024L, 8L, 2048L, 16L, 0); |
| assertUidTotal(sTemplateWifi, UID_RED, 1024L, 8L, 512L, 4L, 10); |
| assertUidTotal(sTemplateWifi, UID_RED, SET_DEFAULT, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 512L, 4L, 256L, 2L, 4); |
| assertUidTotal(sTemplateWifi, UID_RED, SET_FOREGROUND, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 512L, 4L, 256L, 2L, 6); |
| assertUidTotal(sTemplateWifi, UID_BLUE, 128L, 1L, 128L, 1L, 0); |
| |
| |
| // graceful shutdown system, which should trigger persist of stats, and |
| // clear any values in memory. |
| expectDefaultSettings(); |
| mServiceContext.sendBroadcast(new Intent(Intent.ACTION_SHUTDOWN)); |
| assertStatsFilesExist(true); |
| |
| // boot through serviceReady() again |
| expectDefaultSettings(); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| expectSystemReady(); |
| |
| mService.systemReady(); |
| |
| // after systemReady(), we should have historical stats loaded again |
| assertNetworkTotal(sTemplateWifi, 1024L, 8L, 2048L, 16L, 0); |
| assertUidTotal(sTemplateWifi, UID_RED, 1024L, 8L, 512L, 4L, 10); |
| assertUidTotal(sTemplateWifi, UID_RED, SET_DEFAULT, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 512L, 4L, 256L, 2L, 4); |
| assertUidTotal(sTemplateWifi, UID_RED, SET_FOREGROUND, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 512L, 4L, 256L, 2L, 6); |
| assertUidTotal(sTemplateWifi, UID_BLUE, 128L, 1L, 128L, 1L, 0); |
| |
| } |
| |
| // TODO: simulate reboot to test bucket resize |
| @Test |
| @Ignore |
| public void testStatsBucketResize() throws Exception { |
| NetworkStatsHistory history = null; |
| |
| assertStatsFilesExist(false); |
| |
| // pretend that wifi network comes online; service should ask about full |
| // network state, and poll any existing interfaces before updating. |
| expectSettings(0L, HOUR_IN_MILLIS, WEEK_IN_MILLIS); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildWifiState()}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // modify some number on wifi, and trigger poll event |
| incrementCurrentTime(2 * HOUR_IN_MILLIS); |
| expectSettings(0L, HOUR_IN_MILLIS, WEEK_IN_MILLIS); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 512L, 4L, 512L, 4L)); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| history = mSession.getHistoryForNetwork(sTemplateWifi, FIELD_ALL); |
| assertValues(history, Long.MIN_VALUE, Long.MAX_VALUE, 512L, 4L, 512L, 4L, 0); |
| assertEquals(HOUR_IN_MILLIS, history.getBucketDuration()); |
| assertEquals(2, history.size()); |
| |
| |
| // now change bucket duration setting and trigger another poll with |
| // exact same values, which should resize existing buckets. |
| expectSettings(0L, 30 * MINUTE_IN_MILLIS, WEEK_IN_MILLIS); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| forcePollAndWaitForIdle(); |
| |
| // verify identical stats, but spread across 4 buckets now |
| history = mSession.getHistoryForNetwork(sTemplateWifi, FIELD_ALL); |
| assertValues(history, Long.MIN_VALUE, Long.MAX_VALUE, 512L, 4L, 512L, 4L, 0); |
| assertEquals(30 * MINUTE_IN_MILLIS, history.getBucketDuration()); |
| assertEquals(4, history.size()); |
| |
| } |
| |
| @Test |
| public void testUidStatsAcrossNetworks() throws Exception { |
| // pretend first mobile network comes online |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildMobile3gState(IMSI_1)}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // create some traffic on first network |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 2048L, 16L, 512L, 4L)); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 3) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1536L, 12L, 512L, 4L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 512L, 4L, 512L, 4L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 512L, 4L, 0L, 0L, 0L)); |
| mService.incrementOperationCount(UID_RED, 0xF00D, 10); |
| |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertNetworkTotal(sTemplateImsi1, 2048L, 16L, 512L, 4L, 0); |
| assertNetworkTotal(sTemplateWifi, 0L, 0L, 0L, 0L, 0); |
| assertUidTotal(sTemplateImsi1, UID_RED, 1536L, 12L, 512L, 4L, 10); |
| assertUidTotal(sTemplateImsi1, UID_BLUE, 512L, 4L, 0L, 0L, 0); |
| |
| |
| // now switch networks; this also tests that we're okay with interfaces |
| // disappearing, to verify we don't count backwards. |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| states = new NetworkStateSnapshot[] {buildMobile3gState(IMSI_2)}; |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 2048L, 16L, 512L, 4L)); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 3) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1536L, 12L, 512L, 4L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 512L, 4L, 512L, 4L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 512L, 4L, 0L, 0L, 0L)); |
| |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| forcePollAndWaitForIdle(); |
| |
| |
| // create traffic on second network |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 2176L, 17L, 1536L, 12L)); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1536L, 12L, 512L, 4L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 512L, 4L, 512L, 4L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 640L, 5L, 1024L, 8L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, 0xFAAD, 128L, 1L, 1024L, 8L, 0L)); |
| mService.incrementOperationCount(UID_BLUE, 0xFAAD, 10); |
| |
| forcePollAndWaitForIdle(); |
| |
| // verify original history still intact |
| assertNetworkTotal(sTemplateImsi1, 2048L, 16L, 512L, 4L, 0); |
| assertUidTotal(sTemplateImsi1, UID_RED, 1536L, 12L, 512L, 4L, 10); |
| assertUidTotal(sTemplateImsi1, UID_BLUE, 512L, 4L, 0L, 0L, 0); |
| |
| // and verify new history also recorded under different template, which |
| // verifies that we didn't cross the streams. |
| assertNetworkTotal(sTemplateImsi2, 128L, 1L, 1024L, 8L, 0); |
| assertNetworkTotal(sTemplateWifi, 0L, 0L, 0L, 0L, 0); |
| assertUidTotal(sTemplateImsi2, UID_BLUE, 128L, 1L, 1024L, 8L, 10); |
| |
| } |
| |
| @Test |
| public void testUidRemovedIsMoved() throws Exception { |
| // pretend that network comes online |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildWifiState()}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // create some traffic |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 4128L, 258L, 544L, 34L)); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 16L, 1L, 16L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xFAAD, 16L, 1L, 16L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, |
| 4096L, 258L, 512L, 32L, 0L) |
| .insertEntry(TEST_IFACE, UID_GREEN, SET_DEFAULT, TAG_NONE, 16L, 1L, 16L, 1L, 0L)); |
| mService.incrementOperationCount(UID_RED, 0xFAAD, 10); |
| |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertNetworkTotal(sTemplateWifi, 4128L, 258L, 544L, 34L, 0); |
| assertUidTotal(sTemplateWifi, UID_RED, 16L, 1L, 16L, 1L, 10); |
| assertUidTotal(sTemplateWifi, UID_BLUE, 4096L, 258L, 512L, 32L, 0); |
| assertUidTotal(sTemplateWifi, UID_GREEN, 16L, 1L, 16L, 1L, 0); |
| |
| |
| // now pretend two UIDs are uninstalled, which should migrate stats to |
| // special "removed" bucket. |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 4128L, 258L, 544L, 34L)); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 16L, 1L, 16L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xFAAD, 16L, 1L, 16L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, |
| 4096L, 258L, 512L, 32L, 0L) |
| .insertEntry(TEST_IFACE, UID_GREEN, SET_DEFAULT, TAG_NONE, 16L, 1L, 16L, 1L, 0L)); |
| final Intent intent = new Intent(ACTION_UID_REMOVED); |
| intent.putExtra(EXTRA_UID, UID_BLUE); |
| mServiceContext.sendBroadcast(intent); |
| intent.putExtra(EXTRA_UID, UID_RED); |
| mServiceContext.sendBroadcast(intent); |
| |
| // existing uid and total should remain unchanged; but removed UID |
| // should be gone completely. |
| assertNetworkTotal(sTemplateWifi, 4128L, 258L, 544L, 34L, 0); |
| assertUidTotal(sTemplateWifi, UID_RED, 0L, 0L, 0L, 0L, 0); |
| assertUidTotal(sTemplateWifi, UID_BLUE, 0L, 0L, 0L, 0L, 0); |
| assertUidTotal(sTemplateWifi, UID_GREEN, 16L, 1L, 16L, 1L, 0); |
| assertUidTotal(sTemplateWifi, UID_REMOVED, 4112L, 259L, 528L, 33L, 10); |
| |
| } |
| |
| @Test |
| public void testMobileStatsByRatType() throws Exception { |
| final NetworkTemplate template3g = |
| buildTemplateMobileWithRatType(null, TelephonyManager.NETWORK_TYPE_UMTS); |
| final NetworkTemplate template4g = |
| buildTemplateMobileWithRatType(null, TelephonyManager.NETWORK_TYPE_LTE); |
| final NetworkTemplate template5g = |
| buildTemplateMobileWithRatType(null, TelephonyManager.NETWORK_TYPE_NR); |
| final NetworkStateSnapshot[] states = |
| new NetworkStateSnapshot[]{buildMobile3gState(IMSI_1)}; |
| |
| // 3G network comes online. |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| setMobileRatTypeAndWaitForIdle(TelephonyManager.NETWORK_TYPE_UMTS); |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Create some traffic. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 12L, 18L, 14L, 1L, 0L))); |
| forcePollAndWaitForIdle(); |
| |
| // Verify 3g templates gets stats. |
| assertUidTotal(sTemplateImsi1, UID_RED, 12L, 18L, 14L, 1L, 0); |
| assertUidTotal(template3g, UID_RED, 12L, 18L, 14L, 1L, 0); |
| assertUidTotal(template4g, UID_RED, 0L, 0L, 0L, 0L, 0); |
| assertUidTotal(template5g, UID_RED, 0L, 0L, 0L, 0L, 0); |
| |
| // 4G network comes online. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| setMobileRatTypeAndWaitForIdle(TelephonyManager.NETWORK_TYPE_LTE); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| // Append more traffic on existing 3g stats entry. |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 16L, 22L, 17L, 2L, 0L)) |
| // Add entry that is new on 4g. |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_FOREGROUND, TAG_NONE, |
| 33L, 27L, 8L, 10L, 1L))); |
| forcePollAndWaitForIdle(); |
| |
| // Verify ALL_MOBILE template gets all. 3g template counters do not increase. |
| assertUidTotal(sTemplateImsi1, UID_RED, 49L, 49L, 25L, 12L, 1); |
| assertUidTotal(template3g, UID_RED, 12L, 18L, 14L, 1L, 0); |
| // Verify 4g template counts appended stats on existing entry and newly created entry. |
| assertUidTotal(template4g, UID_RED, 4L + 33L, 4L + 27L, 3L + 8L, 1L + 10L, 1); |
| // Verify 5g template doesn't get anything since no traffic is generated on 5g. |
| assertUidTotal(template5g, UID_RED, 0L, 0L, 0L, 0L, 0); |
| |
| // 5g network comes online. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| setMobileRatTypeAndWaitForIdle(TelephonyManager.NETWORK_TYPE_NR); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| // Existing stats remains. |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 16L, 22L, 17L, 2L, 0L)) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_FOREGROUND, TAG_NONE, |
| 33L, 27L, 8L, 10L, 1L)) |
| // Add some traffic on 5g. |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 5L, 13L, 31L, 9L, 2L))); |
| forcePollAndWaitForIdle(); |
| |
| // Verify ALL_MOBILE template gets all. |
| assertUidTotal(sTemplateImsi1, UID_RED, 54L, 62L, 56L, 21L, 3); |
| // 3g/4g template counters do not increase. |
| assertUidTotal(template3g, UID_RED, 12L, 18L, 14L, 1L, 0); |
| assertUidTotal(template4g, UID_RED, 4L + 33L, 4L + 27L, 3L + 8L, 1L + 10L, 1); |
| // Verify 5g template gets the 5g count. |
| assertUidTotal(template5g, UID_RED, 5L, 13L, 31L, 9L, 2); |
| } |
| |
| @Test |
| public void testMobileStatsOemManaged() throws Exception { |
| final NetworkTemplate templateOemPaid = new NetworkTemplate(MATCH_MOBILE_WILDCARD, |
| /*subscriberId=*/null, /*matchSubscriberIds=*/null, /*networkId=*/null, |
| METERED_ALL, ROAMING_ALL, DEFAULT_NETWORK_ALL, NETWORK_TYPE_ALL, OEM_PAID); |
| |
| final NetworkTemplate templateOemPrivate = new NetworkTemplate(MATCH_MOBILE_WILDCARD, |
| /*subscriberId=*/null, /*matchSubscriberIds=*/null, /*networkId=*/null, |
| METERED_ALL, ROAMING_ALL, DEFAULT_NETWORK_ALL, NETWORK_TYPE_ALL, OEM_PRIVATE); |
| |
| final NetworkTemplate templateOemAll = new NetworkTemplate(MATCH_MOBILE_WILDCARD, |
| /*subscriberId=*/null, /*matchSubscriberIds=*/null, /*networkId=*/null, |
| METERED_ALL, ROAMING_ALL, DEFAULT_NETWORK_ALL, NETWORK_TYPE_ALL, |
| OEM_PAID | OEM_PRIVATE); |
| |
| final NetworkTemplate templateOemYes = new NetworkTemplate(MATCH_MOBILE_WILDCARD, |
| /*subscriberId=*/null, /*matchSubscriberIds=*/null, /*networkId=*/null, |
| METERED_ALL, ROAMING_ALL, DEFAULT_NETWORK_ALL, NETWORK_TYPE_ALL, OEM_MANAGED_YES); |
| |
| final NetworkTemplate templateOemNone = new NetworkTemplate(MATCH_MOBILE_WILDCARD, |
| /*subscriberId=*/null, /*matchSubscriberIds=*/null, /*networkId=*/null, |
| METERED_ALL, ROAMING_ALL, DEFAULT_NETWORK_ALL, NETWORK_TYPE_ALL, OEM_MANAGED_NO); |
| |
| // OEM_PAID network comes online. |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[]{ |
| buildOemManagedMobileState(IMSI_1, false, |
| new int[]{NetworkCapabilities.NET_CAPABILITY_OEM_PAID})}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Create some traffic. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 36L, 41L, 24L, 96L, 0L))); |
| forcePollAndWaitForIdle(); |
| |
| // OEM_PRIVATE network comes online. |
| states = new NetworkStateSnapshot[]{buildOemManagedMobileState(IMSI_1, false, |
| new int[]{NetworkCapabilities.NET_CAPABILITY_OEM_PRIVATE})}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Create some traffic. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 49L, 71L, 72L, 48L, 0L))); |
| forcePollAndWaitForIdle(); |
| |
| // OEM_PAID + OEM_PRIVATE network comes online. |
| states = new NetworkStateSnapshot[]{buildOemManagedMobileState(IMSI_1, false, |
| new int[]{NetworkCapabilities.NET_CAPABILITY_OEM_PRIVATE, |
| NetworkCapabilities.NET_CAPABILITY_OEM_PAID})}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Create some traffic. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 57L, 86L, 83L, 93L, 0L))); |
| forcePollAndWaitForIdle(); |
| |
| // OEM_NONE network comes online. |
| states = new NetworkStateSnapshot[]{buildOemManagedMobileState(IMSI_1, false, new int[]{})}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Create some traffic. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 29L, 73L, 34L, 31L, 0L))); |
| forcePollAndWaitForIdle(); |
| |
| // Verify OEM_PAID template gets only relevant stats. |
| assertUidTotal(templateOemPaid, UID_RED, 36L, 41L, 24L, 96L, 0); |
| |
| // Verify OEM_PRIVATE template gets only relevant stats. |
| assertUidTotal(templateOemPrivate, UID_RED, 49L, 71L, 72L, 48L, 0); |
| |
| // Verify OEM_PAID + OEM_PRIVATE template gets only relevant stats. |
| assertUidTotal(templateOemAll, UID_RED, 57L, 86L, 83L, 93L, 0); |
| |
| // Verify OEM_NONE sees only non-OEM managed stats. |
| assertUidTotal(templateOemNone, UID_RED, 29L, 73L, 34L, 31L, 0); |
| |
| // Verify OEM_MANAGED_YES sees all OEM managed stats. |
| assertUidTotal(templateOemYes, UID_RED, |
| 36L + 49L + 57L, |
| 41L + 71L + 86L, |
| 24L + 72L + 83L, |
| 96L + 48L + 93L, 0); |
| |
| // Verify ALL_MOBILE template gets both OEM managed and non-OEM managed stats. |
| assertUidTotal(sTemplateImsi1, UID_RED, |
| 36L + 49L + 57L + 29L, |
| 41L + 71L + 86L + 73L, |
| 24L + 72L + 83L + 34L, |
| 96L + 48L + 93L + 31L, 0); |
| } |
| |
| // TODO: support per IMSI state |
| private void setMobileRatTypeAndWaitForIdle(int ratType) { |
| when(mNetworkStatsSubscriptionsMonitor.getRatTypeForSubscriberId(anyString())) |
| .thenReturn(ratType); |
| mService.handleOnCollapsedRatTypeChanged(); |
| HandlerUtils.waitForIdle(mHandlerThread, WAIT_TIMEOUT); |
| } |
| |
| @Test |
| public void testSummaryForAllUid() throws Exception { |
| // pretend that network comes online |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildWifiState()}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // create some traffic for two apps |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 50L, 5L, 50L, 5L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 10L, 1L, 10L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 1024L, 8L, 512L, 4L, 0L)); |
| mService.incrementOperationCount(UID_RED, 0xF00D, 1); |
| |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertUidTotal(sTemplateWifi, UID_RED, 50L, 5L, 50L, 5L, 1); |
| assertUidTotal(sTemplateWifi, UID_BLUE, 1024L, 8L, 512L, 4L, 0); |
| |
| |
| // now create more traffic in next hour, but only for one app |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 50L, 5L, 50L, 5L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 10L, 1L, 10L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, |
| 2048L, 16L, 1024L, 8L, 0L)); |
| forcePollAndWaitForIdle(); |
| |
| // first verify entire history present |
| NetworkStats stats = mSession.getSummaryForAllUid( |
| sTemplateWifi, Long.MIN_VALUE, Long.MAX_VALUE, true); |
| assertEquals(3, stats.size()); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 50L, 5L, 50L, 5L, 1); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, 0xF00D, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 10L, 1L, 10L, 1L, 1); |
| assertValues(stats, IFACE_ALL, UID_BLUE, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 2048L, 16L, 1024L, 8L, 0); |
| |
| // now verify that recent history only contains one uid |
| final long currentTime = currentTimeMillis(); |
| stats = mSession.getSummaryForAllUid( |
| sTemplateWifi, currentTime - HOUR_IN_MILLIS, currentTime, true); |
| assertEquals(1, stats.size()); |
| assertValues(stats, IFACE_ALL, UID_BLUE, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 1024L, 8L, 512L, 4L, 0); |
| } |
| |
| @Test |
| public void testDetailedUidStats() throws Exception { |
| // pretend that network comes online |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildWifiState()}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| NetworkStats.Entry entry1 = new NetworkStats.Entry( |
| TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 50L, 5L, 50L, 5L, 0L); |
| NetworkStats.Entry entry2 = new NetworkStats.Entry( |
| TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 50L, 5L, 50L, 5L, 0L); |
| NetworkStats.Entry entry3 = new NetworkStats.Entry( |
| TEST_IFACE, UID_BLUE, SET_DEFAULT, 0xBEEF, 1024L, 8L, 512L, 4L, 0L); |
| |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 3) |
| .insertEntry(entry1) |
| .insertEntry(entry2) |
| .insertEntry(entry3)); |
| mService.incrementOperationCount(UID_RED, 0xF00D, 1); |
| |
| NetworkStats stats = mService.getDetailedUidStats(INTERFACES_ALL); |
| |
| assertEquals(3, stats.size()); |
| entry1.operations = 1; |
| assertEquals(entry1, stats.getValues(0, null)); |
| entry2.operations = 1; |
| assertEquals(entry2, stats.getValues(1, null)); |
| assertEquals(entry3, stats.getValues(2, null)); |
| } |
| |
| @Test |
| public void testDetailedUidStats_Filtered() throws Exception { |
| // pretend that network comes online |
| expectDefaultSettings(); |
| |
| final String stackedIface = "stacked-test0"; |
| final LinkProperties stackedProp = new LinkProperties(); |
| stackedProp.setInterfaceName(stackedIface); |
| final NetworkStateSnapshot wifiState = buildWifiState(); |
| wifiState.linkProperties.addStackedLink(stackedProp); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {wifiState}; |
| |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| NetworkStats.Entry uidStats = new NetworkStats.Entry( |
| TEST_IFACE, UID_BLUE, SET_DEFAULT, 0xF00D, 1024L, 8L, 512L, 4L, 0L); |
| // Stacked on matching interface |
| NetworkStats.Entry tetheredStats1 = new NetworkStats.Entry( |
| stackedIface, UID_BLUE, SET_DEFAULT, 0xF00D, 1024L, 8L, 512L, 4L, 0L); |
| // Different interface |
| NetworkStats.Entry tetheredStats2 = new NetworkStats.Entry( |
| "otherif", UID_BLUE, SET_DEFAULT, 0xF00D, 1024L, 8L, 512L, 4L, 0L); |
| |
| final String[] ifaceFilter = new String[] { TEST_IFACE }; |
| final String[] augmentedIfaceFilter = new String[] { stackedIface, TEST_IFACE }; |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| when(mStatsFactory.augmentWithStackedInterfaces(eq(ifaceFilter))) |
| .thenReturn(augmentedIfaceFilter); |
| when(mStatsFactory.readNetworkStatsDetail(eq(UID_ALL), any(), eq(TAG_ALL))) |
| .thenReturn(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(uidStats)); |
| when(mNetManager.getNetworkStatsTethering(STATS_PER_UID)) |
| .thenReturn(new NetworkStats(getElapsedRealtime(), 2) |
| .insertEntry(tetheredStats1) |
| .insertEntry(tetheredStats2)); |
| |
| NetworkStats stats = mService.getDetailedUidStats(ifaceFilter); |
| |
| // mStatsFactory#readNetworkStatsDetail() has the following invocations: |
| // 1) NetworkStatsService#systemReady from #setUp. |
| // 2) mService#forceUpdateIfaces in the test above. |
| // |
| // Additionally, we should have one call from the above call to mService#getDetailedUidStats |
| // with the augmented ifaceFilter. |
| verify(mStatsFactory, times(2)).readNetworkStatsDetail(UID_ALL, INTERFACES_ALL, TAG_ALL); |
| verify(mStatsFactory, times(1)).readNetworkStatsDetail( |
| eq(UID_ALL), |
| eq(augmentedIfaceFilter), |
| eq(TAG_ALL)); |
| assertTrue(ArrayUtils.contains(stats.getUniqueIfaces(), TEST_IFACE)); |
| assertTrue(ArrayUtils.contains(stats.getUniqueIfaces(), stackedIface)); |
| assertEquals(2, stats.size()); |
| assertEquals(uidStats, stats.getValues(0, null)); |
| assertEquals(tetheredStats1, stats.getValues(1, null)); |
| } |
| |
| @Test |
| public void testForegroundBackground() throws Exception { |
| // pretend that network comes online |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildWifiState()}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // create some initial traffic |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 128L, 2L, 128L, 2L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 64L, 1L, 64L, 1L, 0L)); |
| mService.incrementOperationCount(UID_RED, 0xF00D, 1); |
| |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertUidTotal(sTemplateWifi, UID_RED, 128L, 2L, 128L, 2L, 1); |
| |
| |
| // now switch to foreground |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 128L, 2L, 128L, 2L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 64L, 1L, 64L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_FOREGROUND, TAG_NONE, 32L, 2L, 32L, 2L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_FOREGROUND, 0xFAAD, 1L, 1L, 1L, 1L, 0L)); |
| mService.setUidForeground(UID_RED, true); |
| mService.incrementOperationCount(UID_RED, 0xFAAD, 1); |
| |
| forcePollAndWaitForIdle(); |
| |
| // test that we combined correctly |
| assertUidTotal(sTemplateWifi, UID_RED, 160L, 4L, 160L, 4L, 2); |
| |
| // verify entire history present |
| final NetworkStats stats = mSession.getSummaryForAllUid( |
| sTemplateWifi, Long.MIN_VALUE, Long.MAX_VALUE, true); |
| assertEquals(4, stats.size()); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 128L, 2L, 128L, 2L, 1); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, 0xF00D, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 64L, 1L, 64L, 1L, 1); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_FOREGROUND, TAG_NONE, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 32L, 2L, 32L, 2L, 1); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_FOREGROUND, 0xFAAD, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 1L, 1L, 1L, 1L, 1); |
| } |
| |
| @Test |
| public void testMetered() throws Exception { |
| // pretend that network comes online |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = |
| new NetworkStateSnapshot[] {buildWifiState(true /* isMetered */, TEST_IFACE)}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // create some initial traffic |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| // Note that all traffic from NetworkManagementService is tagged as METERED_NO, ROAMING_NO |
| // and DEFAULT_NETWORK_YES, because these three properties aren't tracked at that layer. |
| // We layer them on top by inspecting the iface properties. |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 128L, 2L, 128L, 2L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 64L, 1L, 64L, 1L, 0L)); |
| mService.incrementOperationCount(UID_RED, 0xF00D, 1); |
| |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertUidTotal(sTemplateWifi, UID_RED, 128L, 2L, 128L, 2L, 1); |
| // verify entire history present |
| final NetworkStats stats = mSession.getSummaryForAllUid( |
| sTemplateWifi, Long.MIN_VALUE, Long.MAX_VALUE, true); |
| assertEquals(2, stats.size()); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, TAG_NONE, METERED_YES, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 128L, 2L, 128L, 2L, 1); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, 0xF00D, METERED_YES, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 64L, 1L, 64L, 1L, 1); |
| } |
| |
| @Test |
| public void testRoaming() throws Exception { |
| // pretend that network comes online |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = |
| new NetworkStateSnapshot[] {buildMobile3gState(IMSI_1, true /* isRoaming */)}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Create some traffic |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| // Note that all traffic from NetworkManagementService is tagged as METERED_NO and |
| // ROAMING_NO, because metered and roaming isn't tracked at that layer. We layer it |
| // on top by inspecting the iface properties. |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, METERED_ALL, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 128L, 2L, 128L, 2L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, METERED_ALL, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 64L, 1L, 64L, 1L, 0L)); |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertUidTotal(sTemplateImsi1, UID_RED, 128L, 2L, 128L, 2L, 0); |
| |
| // verify entire history present |
| final NetworkStats stats = mSession.getSummaryForAllUid( |
| sTemplateImsi1, Long.MIN_VALUE, Long.MAX_VALUE, true); |
| assertEquals(2, stats.size()); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, TAG_NONE, METERED_ALL, ROAMING_YES, |
| DEFAULT_NETWORK_YES, 128L, 2L, 128L, 2L, 0); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, 0xF00D, METERED_ALL, ROAMING_YES, |
| DEFAULT_NETWORK_YES, 64L, 1L, 64L, 1L, 0); |
| } |
| |
| @Test |
| public void testTethering() throws Exception { |
| // pretend first mobile network comes online |
| expectDefaultSettings(); |
| final NetworkStateSnapshot[] states = |
| new NetworkStateSnapshot[]{buildMobile3gState(IMSI_1)}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // create some tethering traffic |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| |
| // Register custom provider and retrieve callback. |
| final TestableNetworkStatsProviderBinder provider = |
| new TestableNetworkStatsProviderBinder(); |
| final INetworkStatsProviderCallback cb = |
| mService.registerNetworkStatsProvider("TEST-TETHERING-OFFLOAD", provider); |
| assertNotNull(cb); |
| final long now = getElapsedRealtime(); |
| |
| // Traffic seen by kernel counters (includes software tethering). |
| final NetworkStats swIfaceStats = new NetworkStats(now, 1) |
| .insertEntry(TEST_IFACE, 1536L, 12L, 384L, 3L); |
| // Hardware tethering traffic, not seen by kernel counters. |
| final NetworkStats tetherHwIfaceStats = new NetworkStats(now, 1) |
| .insertEntry(new NetworkStats.Entry(TEST_IFACE, UID_ALL, SET_DEFAULT, |
| TAG_NONE, METERED_YES, ROAMING_NO, DEFAULT_NETWORK_YES, |
| 512L, 4L, 128L, 1L, 0L)); |
| final NetworkStats tetherHwUidStats = new NetworkStats(now, 1) |
| .insertEntry(new NetworkStats.Entry(TEST_IFACE, UID_TETHERING, SET_DEFAULT, |
| TAG_NONE, METERED_YES, ROAMING_NO, DEFAULT_NETWORK_YES, |
| 512L, 4L, 128L, 1L, 0L)); |
| cb.notifyStatsUpdated(0 /* unused */, tetherHwIfaceStats, tetherHwUidStats); |
| |
| // Fake some traffic done by apps on the device (as opposed to tethering), and record it |
| // into UID stats (as opposed to iface stats). |
| final NetworkStats localUidStats = new NetworkStats(now, 1) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 128L, 2L, 128L, 2L, 0L); |
| // Software per-uid tethering traffic. |
| final NetworkStats tetherSwUidStats = new NetworkStats(now, 1) |
| .insertEntry(TEST_IFACE, UID_TETHERING, SET_DEFAULT, TAG_NONE, 1408L, 10L, 256L, 1L, |
| 0L); |
| |
| expectNetworkStatsSummary(swIfaceStats); |
| expectNetworkStatsUidDetail(localUidStats, tetherSwUidStats); |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertNetworkTotal(sTemplateImsi1, 2048L, 16L, 512L, 4L, 0); |
| assertUidTotal(sTemplateImsi1, UID_RED, 128L, 2L, 128L, 2L, 0); |
| assertUidTotal(sTemplateImsi1, UID_TETHERING, 1920L, 14L, 384L, 2L, 0); |
| } |
| |
| @Test |
| public void testRegisterUsageCallback() throws Exception { |
| // pretend that wifi network comes online; service should ask about full |
| // network state, and poll any existing interfaces before updating. |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[] {buildWifiState()}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // verify service has empty history for wifi |
| assertNetworkTotal(sTemplateWifi, 0L, 0L, 0L, 0L, 0); |
| long thresholdInBytes = 1L; // very small; should be overriden by framework |
| DataUsageRequest inputRequest = new DataUsageRequest( |
| DataUsageRequest.REQUEST_ID_UNSET, sTemplateWifi, thresholdInBytes); |
| |
| // Create a messenger that waits for callback activity |
| ConditionVariable cv = new ConditionVariable(false); |
| LatchedHandler latchedHandler = new LatchedHandler(Looper.getMainLooper(), cv); |
| Messenger messenger = new Messenger(latchedHandler); |
| |
| // Force poll |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| // Register and verify request and that binder was called |
| DataUsageRequest request = |
| mService.registerUsageCallback(mServiceContext.getOpPackageName(), inputRequest, |
| messenger, mBinder); |
| assertTrue(request.requestId > 0); |
| assertTrue(Objects.equals(sTemplateWifi, request.template)); |
| long minThresholdInBytes = 2 * 1024 * 1024; // 2 MB |
| assertEquals(minThresholdInBytes, request.thresholdInBytes); |
| |
| HandlerUtils.waitForIdle(mHandlerThread, WAIT_TIMEOUT); |
| |
| // Make sure that the caller binder gets connected |
| verify(mBinder).linkToDeath(any(IBinder.DeathRecipient.class), anyInt()); |
| |
| // modify some number on wifi, and trigger poll event |
| // not enough traffic to call data usage callback |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 1024L, 1L, 2048L, 2L)); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertNetworkTotal(sTemplateWifi, 1024L, 1L, 2048L, 2L, 0); |
| |
| // make sure callback has not being called |
| assertEquals(INVALID_TYPE, latchedHandler.lastMessageType); |
| |
| // and bump forward again, with counters going higher. this is |
| // important, since it will trigger the data usage callback |
| incrementCurrentTime(DAY_IN_MILLIS); |
| expectDefaultSettings(); |
| expectNetworkStatsSummary(new NetworkStats(getElapsedRealtime(), 1) |
| .insertEntry(TEST_IFACE, 4096000L, 4L, 8192000L, 8L)); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| forcePollAndWaitForIdle(); |
| |
| // verify service recorded history |
| assertNetworkTotal(sTemplateWifi, 4096000L, 4L, 8192000L, 8L, 0); |
| |
| |
| // Wait for the caller to ack receipt of CALLBACK_LIMIT_REACHED |
| assertTrue(cv.block(WAIT_TIMEOUT)); |
| assertEquals(NetworkStatsManager.CALLBACK_LIMIT_REACHED, latchedHandler.lastMessageType); |
| cv.close(); |
| |
| // Allow binder to disconnect |
| when(mBinder.unlinkToDeath(any(IBinder.DeathRecipient.class), anyInt())).thenReturn(true); |
| |
| // Unregister request |
| mService.unregisterUsageRequest(request); |
| |
| // Wait for the caller to ack receipt of CALLBACK_RELEASED |
| assertTrue(cv.block(WAIT_TIMEOUT)); |
| assertEquals(NetworkStatsManager.CALLBACK_RELEASED, latchedHandler.lastMessageType); |
| |
| // Make sure that the caller binder gets disconnected |
| verify(mBinder).unlinkToDeath(any(IBinder.DeathRecipient.class), anyInt()); |
| } |
| |
| @Test |
| public void testUnregisterUsageCallback_unknown_noop() throws Exception { |
| String callingPackage = "the.calling.package"; |
| long thresholdInBytes = 10 * 1024 * 1024; // 10 MB |
| DataUsageRequest unknownRequest = new DataUsageRequest( |
| 2 /* requestId */, sTemplateImsi1, thresholdInBytes); |
| |
| mService.unregisterUsageRequest(unknownRequest); |
| } |
| |
| @Test |
| public void testStatsProviderUpdateStats() throws Exception { |
| // Pretend that network comes online. |
| expectDefaultSettings(); |
| final NetworkStateSnapshot[] states = |
| new NetworkStateSnapshot[]{buildWifiState(true /* isMetered */, TEST_IFACE)}; |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| // Register custom provider and retrieve callback. |
| final TestableNetworkStatsProviderBinder provider = |
| new TestableNetworkStatsProviderBinder(); |
| final INetworkStatsProviderCallback cb = |
| mService.registerNetworkStatsProvider("TEST", provider); |
| assertNotNull(cb); |
| |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Verifies that one requestStatsUpdate will be called during iface update. |
| provider.expectOnRequestStatsUpdate(0 /* unused */); |
| |
| // Create some initial traffic and report to the service. |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| final NetworkStats expectedStats = new NetworkStats(0L, 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, |
| TAG_NONE, METERED_YES, ROAMING_NO, DEFAULT_NETWORK_YES, |
| 128L, 2L, 128L, 2L, 1L)) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, |
| 0xF00D, METERED_YES, ROAMING_NO, DEFAULT_NETWORK_YES, |
| 64L, 1L, 64L, 1L, 1L)); |
| cb.notifyStatsUpdated(0 /* unused */, expectedStats, expectedStats); |
| |
| // Make another empty mutable stats object. This is necessary since the new NetworkStats |
| // object will be used to compare with the old one in NetworkStatsRecoder, two of them |
| // cannot be the same object. |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| forcePollAndWaitForIdle(); |
| |
| // Verifies that one requestStatsUpdate and setAlert will be called during polling. |
| provider.expectOnRequestStatsUpdate(0 /* unused */); |
| provider.expectOnSetAlert(MB_IN_BYTES); |
| |
| // Verifies that service recorded history, does not verify uid tag part. |
| assertUidTotal(sTemplateWifi, UID_RED, 128L, 2L, 128L, 2L, 1); |
| |
| // Verifies that onStatsUpdated updates the stats accordingly. |
| final NetworkStats stats = mSession.getSummaryForAllUid( |
| sTemplateWifi, Long.MIN_VALUE, Long.MAX_VALUE, true); |
| assertEquals(2, stats.size()); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, TAG_NONE, METERED_YES, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 128L, 2L, 128L, 2L, 1L); |
| assertValues(stats, IFACE_ALL, UID_RED, SET_DEFAULT, 0xF00D, METERED_YES, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 64L, 1L, 64L, 1L, 1L); |
| |
| // Verifies that unregister the callback will remove the provider from service. |
| cb.unregister(); |
| forcePollAndWaitForIdle(); |
| provider.assertNoCallback(); |
| } |
| |
| @Test |
| public void testStatsProviderSetAlert() throws Exception { |
| // Pretend that network comes online. |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = |
| new NetworkStateSnapshot[]{buildWifiState(true /* isMetered */, TEST_IFACE)}; |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Register custom provider and retrieve callback. |
| final TestableNetworkStatsProviderBinder provider = |
| new TestableNetworkStatsProviderBinder(); |
| final INetworkStatsProviderCallback cb = |
| mService.registerNetworkStatsProvider("TEST", provider); |
| assertNotNull(cb); |
| |
| // Simulates alert quota of the provider has been reached. |
| cb.notifyAlertReached(); |
| HandlerUtils.waitForIdle(mHandlerThread, WAIT_TIMEOUT); |
| |
| // Verifies that polling is triggered by alert reached. |
| provider.expectOnRequestStatsUpdate(0 /* unused */); |
| // Verifies that global alert will be re-armed. |
| provider.expectOnSetAlert(MB_IN_BYTES); |
| } |
| |
| private void setCombineSubtypeEnabled(boolean enable) { |
| when(mSettings.getCombineSubtypeEnabled()).thenReturn(enable); |
| mHandler.post(() -> mContentObserver.onChange(false, Settings.Global |
| .getUriFor(Settings.Global.NETSTATS_COMBINE_SUBTYPE_ENABLED))); |
| waitForIdle(); |
| if (enable) { |
| verify(mNetworkStatsSubscriptionsMonitor).stop(); |
| } else { |
| verify(mNetworkStatsSubscriptionsMonitor).start(); |
| } |
| } |
| |
| @Test |
| public void testDynamicWatchForNetworkRatTypeChanges() throws Exception { |
| // Build 3G template, type unknown template to get stats while network type is unknown |
| // and type all template to get the sum of all network type stats. |
| final NetworkTemplate template3g = |
| buildTemplateMobileWithRatType(null, TelephonyManager.NETWORK_TYPE_UMTS); |
| final NetworkTemplate templateUnknown = |
| buildTemplateMobileWithRatType(null, TelephonyManager.NETWORK_TYPE_UNKNOWN); |
| final NetworkTemplate templateAll = |
| buildTemplateMobileWithRatType(null, NETWORK_TYPE_ALL); |
| final NetworkStateSnapshot[] states = |
| new NetworkStateSnapshot[]{buildMobile3gState(IMSI_1)}; |
| |
| expectNetworkStatsSummary(buildEmptyStats()); |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| |
| // 3G network comes online. |
| setMobileRatTypeAndWaitForIdle(TelephonyManager.NETWORK_TYPE_UMTS); |
| mService.forceUpdateIfaces(NETWORKS_MOBILE, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Create some traffic. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 12L, 18L, 14L, 1L, 0L))); |
| forcePollAndWaitForIdle(); |
| |
| // Since CombineSubtypeEnabled is false by default in unit test, the generated traffic |
| // will be split by RAT type. Verify 3G templates gets stats, while template with unknown |
| // RAT type gets nothing, and template with NETWORK_TYPE_ALL gets all stats. |
| assertUidTotal(template3g, UID_RED, 12L, 18L, 14L, 1L, 0); |
| assertUidTotal(templateUnknown, UID_RED, 0L, 0L, 0L, 0L, 0); |
| assertUidTotal(templateAll, UID_RED, 12L, 18L, 14L, 1L, 0); |
| |
| // Stop monitoring data usage per RAT type changes NetworkStatsService records data |
| // to {@link TelephonyManager#NETWORK_TYPE_UNKNOWN}. |
| setCombineSubtypeEnabled(true); |
| |
| // Call handleOnCollapsedRatTypeChanged manually to simulate the callback fired |
| // when stopping monitor, this is needed by NetworkStatsService to trigger updateIfaces. |
| mService.handleOnCollapsedRatTypeChanged(); |
| HandlerUtils.waitForIdle(mHandlerThread, WAIT_TIMEOUT); |
| // Create some traffic. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| // Append more traffic on existing snapshot. |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 12L + 4L, 18L + 4L, 14L + 3L, 1L + 1L, 0L)) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_FOREGROUND, TAG_NONE, |
| 35L, 29L, 7L, 11L, 1L))); |
| forcePollAndWaitForIdle(); |
| |
| // Verify 3G counters do not increase, while template with unknown RAT type gets new |
| // traffic and template with NETWORK_TYPE_ALL gets all stats. |
| assertUidTotal(template3g, UID_RED, 12L, 18L, 14L, 1L, 0); |
| assertUidTotal(templateUnknown, UID_RED, 4L + 35L, 4L + 29L, 3L + 7L, 1L + 11L, 1); |
| assertUidTotal(templateAll, UID_RED, 16L + 35L, 22L + 29L, 17L + 7L, 2L + 11L, 1); |
| |
| // Start monitoring data usage per RAT type changes and NetworkStatsService records data |
| // by a granular subtype representative of the actual subtype |
| setCombineSubtypeEnabled(false); |
| |
| mService.handleOnCollapsedRatTypeChanged(); |
| HandlerUtils.waitForIdle(mHandlerThread, WAIT_TIMEOUT); |
| // Create some traffic. |
| incrementCurrentTime(MINUTE_IN_MILLIS); |
| // Append more traffic on existing snapshot. |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 1) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, |
| 22L, 26L, 19L, 5L, 0L)) |
| .addEntry(new NetworkStats.Entry(TEST_IFACE, UID_RED, SET_FOREGROUND, TAG_NONE, |
| 35L, 29L, 7L, 11L, 1L))); |
| forcePollAndWaitForIdle(); |
| |
| // Verify traffic is split by RAT type, no increase on template with unknown RAT type |
| // and template with NETWORK_TYPE_ALL gets all stats. |
| assertUidTotal(template3g, UID_RED, 6L + 12L , 4L + 18L, 2L + 14L, 3L + 1L, 0); |
| assertUidTotal(templateUnknown, UID_RED, 4L + 35L, 4L + 29L, 3L + 7L, 1L + 11L, 1); |
| assertUidTotal(templateAll, UID_RED, 22L + 35L, 26L + 29L, 19L + 7L, 5L + 11L, 1); |
| } |
| |
| @Test |
| public void testOperationCount_nonDefault_traffic() throws Exception { |
| // Pretend mobile network comes online, but wifi is the default network. |
| expectDefaultSettings(); |
| NetworkStateSnapshot[] states = new NetworkStateSnapshot[]{ |
| buildWifiState(true /*isMetered*/, TEST_IFACE2), buildMobile3gState(IMSI_1)}; |
| expectNetworkStatsUidDetail(buildEmptyStats()); |
| mService.forceUpdateIfaces(NETWORKS_WIFI, states, getActiveIface(states), |
| new UnderlyingNetworkInfo[0]); |
| |
| // Create some traffic on mobile network. |
| incrementCurrentTime(HOUR_IN_MILLIS); |
| expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 4) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_NO, 2L, 1L, 3L, 4L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, |
| DEFAULT_NETWORK_YES, 1L, 3L, 2L, 1L, 0L) |
| .insertEntry(TEST_IFACE, UID_RED, SET_DEFAULT, 0xF00D, 5L, 4L, 1L, 4L, 0L)); |
| // Increment operation count, which must have a specific tag. |
| mService.incrementOperationCount(UID_RED, 0xF00D, 2); |
| forcePollAndWaitForIdle(); |
| |
| // Verify mobile summary is not changed by the operation count. |
| final NetworkTemplate templateMobile = |
| buildTemplateMobileWithRatType(null, NETWORK_TYPE_ALL); |
| final NetworkStats statsMobile = mSession.getSummaryForAllUid( |
| templateMobile, Long.MIN_VALUE, Long.MAX_VALUE, true); |
| assertValues(statsMobile, IFACE_ALL, UID_RED, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, |
| DEFAULT_NETWORK_ALL, 3L, 4L, 5L, 5L, 0); |
| assertValues(statsMobile, IFACE_ALL, UID_RED, SET_ALL, 0xF00D, METERED_ALL, ROAMING_ALL, |
| DEFAULT_NETWORK_ALL, 5L, 4L, 1L, 4L, 0); |
| |
| // Verify the operation count is blamed onto the default network. |
| // TODO: Blame onto the default network is not very reasonable. Consider blame onto the |
| // network that generates the traffic. |
| final NetworkTemplate templateWifi = buildTemplateWifiWildcard(); |
| final NetworkStats statsWifi = mSession.getSummaryForAllUid( |
| templateWifi, Long.MIN_VALUE, Long.MAX_VALUE, true); |
| assertValues(statsWifi, IFACE_ALL, UID_RED, SET_ALL, 0xF00D, METERED_ALL, ROAMING_ALL, |
| DEFAULT_NETWORK_ALL, 0L, 0L, 0L, 0L, 2); |
| } |
| |
| private static File getBaseDir(File statsDir) { |
| File baseDir = new File(statsDir, "netstats"); |
| baseDir.mkdirs(); |
| return baseDir; |
| } |
| |
| private void assertNetworkTotal(NetworkTemplate template, long rxBytes, long rxPackets, |
| long txBytes, long txPackets, int operations) throws Exception { |
| assertNetworkTotal(template, Long.MIN_VALUE, Long.MAX_VALUE, rxBytes, rxPackets, txBytes, |
| txPackets, operations); |
| } |
| |
| private void assertNetworkTotal(NetworkTemplate template, long start, long end, long rxBytes, |
| long rxPackets, long txBytes, long txPackets, int operations) throws Exception { |
| // verify history API |
| final NetworkStatsHistory history = mSession.getHistoryForNetwork(template, FIELD_ALL); |
| assertValues(history, start, end, rxBytes, rxPackets, txBytes, txPackets, operations); |
| |
| // verify summary API |
| final NetworkStats stats = mSession.getSummaryForNetwork(template, start, end); |
| assertValues(stats, IFACE_ALL, UID_ALL, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, |
| DEFAULT_NETWORK_ALL, rxBytes, rxPackets, txBytes, txPackets, operations); |
| } |
| |
| private void assertUidTotal(NetworkTemplate template, int uid, long rxBytes, long rxPackets, |
| long txBytes, long txPackets, int operations) throws Exception { |
| assertUidTotal(template, uid, SET_ALL, METERED_ALL, ROAMING_ALL, DEFAULT_NETWORK_ALL, |
| rxBytes, rxPackets, txBytes, txPackets, operations); |
| } |
| |
| private void assertUidTotal(NetworkTemplate template, int uid, int set, int metered, |
| int roaming, int defaultNetwork, long rxBytes, long rxPackets, long txBytes, |
| long txPackets, int operations) throws Exception { |
| // verify history API |
| final NetworkStatsHistory history = mSession.getHistoryForUid( |
| template, uid, set, TAG_NONE, FIELD_ALL); |
| assertValues(history, Long.MIN_VALUE, Long.MAX_VALUE, rxBytes, rxPackets, txBytes, |
| txPackets, operations); |
| |
| // verify summary API |
| final NetworkStats stats = mSession.getSummaryForAllUid( |
| template, Long.MIN_VALUE, Long.MAX_VALUE, false); |
| assertValues(stats, IFACE_ALL, uid, set, TAG_NONE, metered, roaming, defaultNetwork, |
| rxBytes, rxPackets, txBytes, txPackets, operations); |
| } |
| |
| private void expectSystemReady() throws Exception { |
| expectNetworkStatsSummary(buildEmptyStats()); |
| } |
| |
| private String getActiveIface(NetworkStateSnapshot... states) throws Exception { |
| if (states == null || states.length == 0 || states[0].linkProperties == null) { |
| return null; |
| } |
| return states[0].linkProperties.getInterfaceName(); |
| } |
| |
| private void expectNetworkStatsSummary(NetworkStats summary) throws Exception { |
| expectNetworkStatsSummaryDev(summary.clone()); |
| expectNetworkStatsSummaryXt(summary.clone()); |
| } |
| |
| private void expectNetworkStatsSummaryDev(NetworkStats summary) throws Exception { |
| when(mStatsFactory.readNetworkStatsSummaryDev()).thenReturn(summary); |
| } |
| |
| private void expectNetworkStatsSummaryXt(NetworkStats summary) throws Exception { |
| when(mStatsFactory.readNetworkStatsSummaryXt()).thenReturn(summary); |
| } |
| |
| private void expectNetworkStatsUidDetail(NetworkStats detail) throws Exception { |
| expectNetworkStatsUidDetail(detail, new NetworkStats(0L, 0)); |
| } |
| |
| private void expectNetworkStatsUidDetail(NetworkStats detail, NetworkStats tetherStats) |
| throws Exception { |
| when(mStatsFactory.readNetworkStatsDetail(UID_ALL, INTERFACES_ALL, TAG_ALL)) |
| .thenReturn(detail); |
| |
| // also include tethering details, since they are folded into UID |
| when(mNetManager.getNetworkStatsTethering(STATS_PER_UID)).thenReturn(tetherStats); |
| } |
| |
| private void expectDefaultSettings() throws Exception { |
| expectSettings(0L, HOUR_IN_MILLIS, WEEK_IN_MILLIS); |
| } |
| |
| private void expectSettings(long persistBytes, long bucketDuration, long deleteAge) |
| throws Exception { |
| when(mSettings.getPollInterval()).thenReturn(HOUR_IN_MILLIS); |
| when(mSettings.getPollDelay()).thenReturn(0L); |
| when(mSettings.getSampleEnabled()).thenReturn(true); |
| when(mSettings.getCombineSubtypeEnabled()).thenReturn(false); |
| |
| final Config config = new Config(bucketDuration, deleteAge, deleteAge); |
| when(mSettings.getDevConfig()).thenReturn(config); |
| when(mSettings.getXtConfig()).thenReturn(config); |
| when(mSettings.getUidConfig()).thenReturn(config); |
| when(mSettings.getUidTagConfig()).thenReturn(config); |
| |
| when(mSettings.getGlobalAlertBytes(anyLong())).thenReturn(MB_IN_BYTES); |
| when(mSettings.getDevPersistBytes(anyLong())).thenReturn(MB_IN_BYTES); |
| when(mSettings.getXtPersistBytes(anyLong())).thenReturn(MB_IN_BYTES); |
| when(mSettings.getUidPersistBytes(anyLong())).thenReturn(MB_IN_BYTES); |
| when(mSettings.getUidTagPersistBytes(anyLong())).thenReturn(MB_IN_BYTES); |
| } |
| |
| private void assertStatsFilesExist(boolean exist) { |
| final File basePath = new File(mStatsDir, "netstats"); |
| if (exist) { |
| assertTrue(basePath.list().length > 0); |
| } else { |
| assertTrue(basePath.list().length == 0); |
| } |
| } |
| |
| private static void assertValues(NetworkStatsHistory stats, long start, long end, long rxBytes, |
| long rxPackets, long txBytes, long txPackets, int operations) { |
| final NetworkStatsHistory.Entry entry = stats.getValues(start, end, null); |
| assertEquals("unexpected rxBytes", rxBytes, entry.rxBytes); |
| assertEquals("unexpected rxPackets", rxPackets, entry.rxPackets); |
| assertEquals("unexpected txBytes", txBytes, entry.txBytes); |
| assertEquals("unexpected txPackets", txPackets, entry.txPackets); |
| assertEquals("unexpected operations", operations, entry.operations); |
| } |
| |
| private static NetworkStateSnapshot buildWifiState() { |
| return buildWifiState(false, TEST_IFACE); |
| } |
| |
| private static NetworkStateSnapshot buildWifiState(boolean isMetered, @NonNull String iface) { |
| final LinkProperties prop = new LinkProperties(); |
| prop.setInterfaceName(iface); |
| final NetworkCapabilities capabilities = new NetworkCapabilities(); |
| capabilities.setCapability(NetworkCapabilities.NET_CAPABILITY_NOT_METERED, !isMetered); |
| capabilities.setCapability(NetworkCapabilities.NET_CAPABILITY_NOT_ROAMING, true); |
| capabilities.addTransportType(NetworkCapabilities.TRANSPORT_WIFI); |
| capabilities.setSSID(TEST_SSID); |
| return new NetworkStateSnapshot(WIFI_NETWORK, capabilities, prop, null, TYPE_WIFI); |
| } |
| |
| private static NetworkStateSnapshot buildMobile3gState(String subscriberId) { |
| return buildMobile3gState(subscriberId, false /* isRoaming */); |
| } |
| |
| private static NetworkStateSnapshot buildMobile3gState(String subscriberId, boolean isRoaming) { |
| final LinkProperties prop = new LinkProperties(); |
| prop.setInterfaceName(TEST_IFACE); |
| final NetworkCapabilities capabilities = new NetworkCapabilities(); |
| capabilities.setCapability(NetworkCapabilities.NET_CAPABILITY_NOT_METERED, false); |
| capabilities.setCapability(NetworkCapabilities.NET_CAPABILITY_NOT_ROAMING, !isRoaming); |
| capabilities.addTransportType(NetworkCapabilities.TRANSPORT_CELLULAR); |
| return new NetworkStateSnapshot( |
| MOBILE_NETWORK, capabilities, prop, subscriberId, TYPE_MOBILE); |
| } |
| |
| private NetworkStats buildEmptyStats() { |
| return new NetworkStats(getElapsedRealtime(), 0); |
| } |
| |
| private static NetworkStateSnapshot buildOemManagedMobileState( |
| String subscriberId, boolean isRoaming, int[] oemNetCapabilities) { |
| final LinkProperties prop = new LinkProperties(); |
| prop.setInterfaceName(TEST_IFACE); |
| final NetworkCapabilities capabilities = new NetworkCapabilities(); |
| capabilities.setCapability(NetworkCapabilities.NET_CAPABILITY_NOT_METERED, false); |
| capabilities.setCapability(NetworkCapabilities.NET_CAPABILITY_NOT_ROAMING, !isRoaming); |
| for (int nc : oemNetCapabilities) { |
| capabilities.setCapability(nc, true); |
| } |
| capabilities.addTransportType(NetworkCapabilities.TRANSPORT_CELLULAR); |
| return new NetworkStateSnapshot(MOBILE_NETWORK, capabilities, prop, subscriberId, |
| TYPE_MOBILE); |
| } |
| |
| private long getElapsedRealtime() { |
| return mElapsedRealtime; |
| } |
| |
| private long startTimeMillis() { |
| return TEST_START; |
| } |
| |
| private long currentTimeMillis() { |
| return startTimeMillis() + mElapsedRealtime; |
| } |
| |
| private void incrementCurrentTime(long duration) { |
| mElapsedRealtime += duration; |
| } |
| |
| private void forcePollAndWaitForIdle() { |
| mServiceContext.sendBroadcast(new Intent(ACTION_NETWORK_STATS_POLL)); |
| waitForIdle(); |
| } |
| |
| private void waitForIdle() { |
| HandlerUtils.waitForIdle(mHandlerThread, WAIT_TIMEOUT); |
| } |
| |
| static class LatchedHandler extends Handler { |
| private final ConditionVariable mCv; |
| int lastMessageType = INVALID_TYPE; |
| |
| LatchedHandler(Looper looper, ConditionVariable cv) { |
| super(looper); |
| mCv = cv; |
| } |
| |
| @Override |
| public void handleMessage(Message msg) { |
| lastMessageType = msg.what; |
| mCv.open(); |
| super.handleMessage(msg); |
| } |
| } |
| } |