diff --git a/services/core/java/com/android/server/ConnectivityService.java b/services/core/java/com/android/server/ConnectivityService.java index 0a1dbff38b..45f7360a25 100644 --- a/services/core/java/com/android/server/ConnectivityService.java +++ b/services/core/java/com/android/server/ConnectivityService.java @@ -4363,7 +4363,7 @@ public class ConnectivityService extends IConnectivityManager.Stub /** * @return VPN information for accounting, or null if we can't retrieve all required - * information, e.g primary underlying iface. + * information, e.g underlying ifaces. */ @Nullable private VpnInfo createVpnInfo(Vpn vpn) { @@ -4375,17 +4375,24 @@ public class ConnectivityService extends IConnectivityManager.Stub // see VpnService.setUnderlyingNetworks()'s javadoc about how to interpret // the underlyingNetworks list. if (underlyingNetworks == null) { - NetworkAgentInfo defaultNetwork = getDefaultNetwork(); - if (defaultNetwork != null && defaultNetwork.linkProperties != null) { - info.primaryUnderlyingIface = getDefaultNetwork().linkProperties.getInterfaceName(); - } - } else if (underlyingNetworks.length > 0) { - LinkProperties linkProperties = getLinkProperties(underlyingNetworks[0]); - if (linkProperties != null) { - info.primaryUnderlyingIface = linkProperties.getInterfaceName(); + NetworkAgentInfo defaultNai = getDefaultNetwork(); + if (defaultNai != null) { + underlyingNetworks = new Network[] { defaultNai.network }; } } - return info.primaryUnderlyingIface == null ? null : info; + if (underlyingNetworks != null && underlyingNetworks.length > 0) { + List interfaces = new ArrayList<>(); + for (Network network : underlyingNetworks) { + LinkProperties lp = getLinkProperties(network); + if (lp != null && !TextUtils.isEmpty(lp.getInterfaceName())) { + interfaces.add(lp.getInterfaceName()); + } + } + if (!interfaces.isEmpty()) { + info.underlyingIfaces = interfaces.toArray(new String[interfaces.size()]); + } + } + return info.underlyingIfaces == null ? null : info; } /** diff --git a/tests/net/java/android/net/NetworkStatsTest.java b/tests/net/java/android/net/NetworkStatsTest.java index b5b0384ca5..c16a0f4466 100644 --- a/tests/net/java/android/net/NetworkStatsTest.java +++ b/tests/net/java/android/net/NetworkStatsTest.java @@ -569,7 +569,7 @@ public class NetworkStatsTest { .addValues(underlyingIface, tunUid, SET_FOREGROUND, TAG_NONE, METERED_NO, ROAMING_NO, DEFAULT_NETWORK_NO, 0L, 0L, 0L, 0L, 0L); - assertTrue(delta.toString(), delta.migrateTun(tunUid, tunIface, underlyingIface)); + delta.migrateTun(tunUid, tunIface, new String[] {underlyingIface}); assertEquals(20, delta.size()); // tunIface and TEST_IFACE entries are not changed. @@ -650,7 +650,7 @@ public class NetworkStatsTest { .addValues(underlyingIface, tunUid, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, DEFAULT_NETWORK_NO, 75500L, 37L, 130000L, 70L, 0L); - assertTrue(delta.migrateTun(tunUid, tunIface, underlyingIface)); + delta.migrateTun(tunUid, tunIface, new String[]{underlyingIface}); assertEquals(9, delta.size()); // tunIface entries should not be changed. @@ -812,6 +812,37 @@ public class NetworkStatsTest { assertEquals(entry2, stats.getValues(1, null)); } + @Test + public void testFilterDebugEntries() { + NetworkStats.Entry entry1 = new NetworkStats.Entry( + "test1", 10100, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, + DEFAULT_NETWORK_NO, 50000L, 25L, 100000L, 50L, 0L); + + NetworkStats.Entry entry2 = new NetworkStats.Entry( + "test2", 10101, SET_DBG_VPN_IN, TAG_NONE, METERED_NO, ROAMING_NO, + DEFAULT_NETWORK_NO, 50000L, 25L, 100000L, 50L, 0L); + + NetworkStats.Entry entry3 = new NetworkStats.Entry( + "test2", 10101, SET_DEFAULT, TAG_NONE, METERED_NO, ROAMING_NO, + DEFAULT_NETWORK_NO, 50000L, 25L, 100000L, 50L, 0L); + + NetworkStats.Entry entry4 = new NetworkStats.Entry( + "test2", 10101, SET_DBG_VPN_OUT, TAG_NONE, METERED_NO, ROAMING_NO, + DEFAULT_NETWORK_NO, 50000L, 25L, 100000L, 50L, 0L); + + NetworkStats stats = new NetworkStats(TEST_START, 4) + .addValues(entry1) + .addValues(entry2) + .addValues(entry3) + .addValues(entry4); + + stats.filterDebugEntries(); + + assertEquals(2, stats.size()); + assertEquals(entry1, stats.getValues(0, null)); + assertEquals(entry3, stats.getValues(1, null)); + } + @Test public void testApply464xlatAdjustments() { final String v4Iface = "v4-wlan0"; diff --git a/tests/net/java/com/android/server/net/NetworkStatsServiceTest.java b/tests/net/java/com/android/server/net/NetworkStatsServiceTest.java index bce526d3ae..d9f2c201fe 100644 --- a/tests/net/java/com/android/server/net/NetworkStatsServiceTest.java +++ b/tests/net/java/com/android/server/net/NetworkStatsServiceTest.java @@ -57,11 +57,11 @@ import static com.android.server.net.NetworkStatsService.ACTION_NETWORK_STATS_PO import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertNotNull; +import static org.junit.Assert.assertNull; 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.argThat; import static org.mockito.ArgumentMatchers.eq; import static org.mockito.Mockito.times; import static org.mockito.Mockito.verify; @@ -216,11 +216,16 @@ public class NetworkStatsServiceTest { expectNetworkStatsUidDetail(buildEmptyStats()); expectSystemReady(); + assertNull(mService.getTunAdjustedStats()); mService.systemReady(); + // Verify that system ready fetches realtime stats and initializes tun adjusted stats. + verify(mNetManager).getNetworkStatsUidDetail(UID_ALL, INTERFACES_ALL); + assertNotNull("failed to initialize TUN adjusted stats", mService.getTunAdjustedStats()); + assertEquals(0, mService.getTunAdjustedStats().size()); + mSession = mService.openSession(); assertNotNull("openSession() failed", mSession); - // catch INetworkManagementEventObserver during systemReady() ArgumentCaptor networkObserver = ArgumentCaptor.forClass(INetworkManagementEventObserver.class); @@ -733,11 +738,13 @@ public class NetworkStatsServiceTest { NetworkStats stats = mService.getDetailedUidStats(ifaceFilter); - verify(mNetManager, times(1)).getNetworkStatsUidDetail(eq(UID_ALL), argThat(ifaces -> - ifaces != null && ifaces.length == 2 - && ArrayUtils.contains(ifaces, TEST_IFACE) - && ArrayUtils.contains(ifaces, stackedIface))); - + // mNetManager#getNetworkStatsUidDetail(UID_ALL, INTERFACES_ALL) has following invocations: + // 1) NetworkStatsService#systemReady from #setUp. + // 2) mService#forceUpdateIfaces in the test above. + // 3) Finally, mService#getDetailedUidStats. + verify(mNetManager, times(3)).getNetworkStatsUidDetail(UID_ALL, INTERFACES_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)); @@ -923,11 +930,11 @@ public class NetworkStatsServiceTest { } @Test - public void vpnWithOneUnderlyingIface() throws Exception { + public void vpnRewriteTrafficThroughItself() throws Exception { // WiFi network is connected and VPN is using WiFi (which has TEST_IFACE). expectDefaultSettings(); NetworkState[] networkStates = new NetworkState[] {buildWifiState(), buildVpnState()}; - VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(TEST_IFACE)}; + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE})}; expectNetworkStatsUidDetail(buildEmptyStats()); expectBandwidthControlCheck(); @@ -938,23 +945,133 @@ public class NetworkStatsServiceTest { getActiveIface(networkStates)); // create some traffic (assume 10 bytes of MTU for VPN interface and 1 byte encryption // overhead per packet): - // 1000 bytes (100 packets) were sent/received by UID_RED over VPN. - // 500 bytes (50 packets) were sent/received by UID_BLUE over VPN. - // VPN sent/received 1650 bytes (150 packets) over WiFi. - // Of 1650 bytes over WiFi, expect 1000 bytes attributed to UID_RED, 500 bytes attributed to - // UID_BLUE, and 150 bytes attributed to UID_VPN for both rx/tx traffic. + // + // 1000 bytes (100 packets) were sent, and 2000 bytes (200 packets) were received by UID_RED + // over VPN. + // 500 bytes (50 packets) were sent, and 1000 bytes (100 packets) were received by UID_BLUE + // over VPN. + // + // VPN UID rewrites packets read from TUN back to TUN, plus some of its own traffic + // (100 bytes). incrementCurrentTime(HOUR_IN_MILLIS); - expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 3) - .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1000L, 100L, 1000L, 100L, 1L) - .addValues(TUN_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 500L, 50L, 500L, 50L, 1L) - .addValues( - TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 1650L, 150L, 1650L, 150L, 2L)); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 5) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 2000L, 200L, 1000L, 100L, 1L) + .addValues(TUN_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 1000L, 100L, 500L, 50L, 1L) + // VPN rewrites all the packets read from TUN + 100 additional bytes of VPN's + // own traffic. + .addValues(TUN_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 0L, 0L, 1600L, 160L, 2L) + // VPN sent 1760 bytes over WiFi in foreground (SET_FOREGROUND) i.e. 1600 + // bytes (160 packets) + 1 byte/packet overhead (=160 bytes). + .addValues(TEST_IFACE, UID_VPN, SET_FOREGROUND, TAG_NONE, 0L, 0L, 1760L, 176L, 1L) + // VPN received 3300 bytes over WiFi in background (SET_DEFAULT) i.e. 3000 bytes + // (300 packets) + 1 byte/packet encryption overhead (=300 bytes). + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 3300L, 300L, 0L, 0L, 1L)); forcePollAndWaitForIdle(); - assertUidTotal(sTemplateWifi, UID_RED, 1000L, 100L, 1000L, 100L, 1); - assertUidTotal(sTemplateWifi, UID_BLUE, 500L, 50L, 500L, 50L, 1); - assertUidTotal(sTemplateWifi, UID_VPN, 150L, 0L, 150L, 0L, 2); + // Verify increased TUN usage by UID_VPN does not get attributed to other apps. + NetworkStats tunStats = + mService.getDetailedUidStats(new String[] {TUN_IFACE}); + assertValues( + tunStats, TUN_IFACE, UID_RED, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 2000L, 200L, 1000L, 100L, 1); + assertValues( + tunStats, TUN_IFACE, UID_BLUE, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 1000L, 100L, 500L, 50L, 1); + assertValues( + tunStats, TUN_IFACE, UID_VPN, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 0L, 0L, 1600L, 160L, 2); + + // Verify correct attribution over WiFi. + assertUidTotal(sTemplateWifi, UID_RED, 2000L, 200L, 1000L, 100L, 1); + assertUidTotal(sTemplateWifi, UID_BLUE, 1000L, 100L, 500L, 50L, 1); + assertUidTotal(sTemplateWifi, UID_VPN, 300L, 0L, 260L, 26L, 2); + } + + @Test + public void vpnWithOneUnderlyingIface() throws Exception { + // WiFi network is connected and VPN is using WiFi (which has TEST_IFACE). + expectDefaultSettings(); + NetworkState[] networkStates = new NetworkState[] {buildWifiState(), buildVpnState()}; + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE})}; + expectNetworkStatsUidDetail(buildEmptyStats()); + expectBandwidthControlCheck(); + + mService.forceUpdateIfaces( + new Network[] {WIFI_NETWORK, VPN_NETWORK}, + vpnInfos, + networkStates, + getActiveIface(networkStates)); + // create some traffic (assume 10 bytes of MTU for VPN interface and 1 byte encryption + // overhead per packet): + // 1000 bytes (100 packets) were sent, and 2000 bytes (200 packets) were received by UID_RED + // over VPN. + // 500 bytes (50 packets) were sent, and 1000 bytes (100 packets) were received by UID_BLUE + // over VPN. + // VPN sent 1650 bytes (150 packets), and received 3300 (300 packets) over WiFi. + // Of 1650 bytes sent over WiFi, expect 1000 bytes attributed to UID_RED, 500 bytes + // attributed to UID_BLUE, and 150 bytes attributed to UID_VPN. + // Of 3300 bytes received over WiFi, expect 2000 bytes attributed to UID_RED, 1000 bytes + // attributed to UID_BLUE, and 300 bytes attributed to UID_VPN. + incrementCurrentTime(HOUR_IN_MILLIS); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 3) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 2000L, 200L, 1000L, 100L, 1L) + .addValues(TUN_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 1000L, 100L, 500L, 50L, 1L) + // VPN received 3300 bytes over WiFi in background (SET_DEFAULT). + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 3300L, 300L, 0L, 0L, 1L) + // VPN sent 1650 bytes over WiFi in foreground (SET_FOREGROUND). + .addValues(TEST_IFACE, UID_VPN, SET_FOREGROUND, TAG_NONE, 0L, 0L, 1650L, 150L, 1L)); + + forcePollAndWaitForIdle(); + + assertUidTotal(sTemplateWifi, UID_RED, 2000L, 200L, 1000L, 100L, 1); + assertUidTotal(sTemplateWifi, UID_BLUE, 1000L, 100L, 500L, 50L, 1); + assertUidTotal(sTemplateWifi, UID_VPN, 300L, 0L, 150L, 0L, 2); + } + + @Test + public void vpnWithOneUnderlyingIfaceAndOwnTraffic() throws Exception { + // WiFi network is connected and VPN is using WiFi (which has TEST_IFACE). + expectDefaultSettings(); + NetworkState[] networkStates = new NetworkState[] {buildWifiState(), buildVpnState()}; + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE})}; + expectNetworkStatsUidDetail(buildEmptyStats()); + expectBandwidthControlCheck(); + + mService.forceUpdateIfaces( + new Network[] {WIFI_NETWORK, VPN_NETWORK}, + vpnInfos, + networkStates, + getActiveIface(networkStates)); + // create some traffic (assume 10 bytes of MTU for VPN interface and 1 byte encryption + // overhead per packet): + // 1000 bytes (100 packets) were sent, and 2000 bytes (200 packets) were received by UID_RED + // over VPN. + // 500 bytes (50 packets) were sent, and 1000 bytes (100 packets) were received by UID_BLUE + // over VPN. + // Additionally, the VPN sends 6000 bytes (600 packets) of its own traffic into the tun + // interface (passing that traffic to the VPN endpoint), and receives 5000 bytes (500 + // packets) from it. Including overhead that is 6600/5500 bytes. + // VPN sent 8250 bytes (750 packets), and received 8800 (800 packets) over WiFi. + // Of 8250 bytes sent over WiFi, expect 1000 bytes attributed to UID_RED, 500 bytes + // attributed to UID_BLUE, and 6750 bytes attributed to UID_VPN. + // Of 8800 bytes received over WiFi, expect 2000 bytes attributed to UID_RED, 1000 bytes + // attributed to UID_BLUE, and 5800 bytes attributed to UID_VPN. + incrementCurrentTime(HOUR_IN_MILLIS); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 3) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 2000L, 200L, 1000L, 100L, 1L) + .addValues(TUN_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 1000L, 100L, 500L, 50L, 1L) + .addValues(TUN_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 5000L, 500L, 6000L, 600L, 1L) + // VPN received 8800 bytes over WiFi in background (SET_DEFAULT). + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 8800L, 800L, 0L, 0L, 1L) + // VPN sent 8250 bytes over WiFi in foreground (SET_FOREGROUND). + .addValues(TEST_IFACE, UID_VPN, SET_FOREGROUND, TAG_NONE, 0L, 0L, 8250L, 750L, 1L)); + + forcePollAndWaitForIdle(); + + assertUidTotal(sTemplateWifi, UID_RED, 2000L, 200L, 1000L, 100L, 1); + assertUidTotal(sTemplateWifi, UID_BLUE, 1000L, 100L, 500L, 50L, 1); + assertUidTotal(sTemplateWifi, UID_VPN, 5800L, 500L, 6750L, 600L, 2); } @Test @@ -962,7 +1079,7 @@ public class NetworkStatsServiceTest { // WiFi network is connected and VPN is using WiFi (which has TEST_IFACE). expectDefaultSettings(); NetworkState[] networkStates = new NetworkState[] {buildWifiState(), buildVpnState()}; - VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(TEST_IFACE)}; + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE})}; expectNetworkStatsUidDetail(buildEmptyStats()); expectBandwidthControlCheck(); @@ -992,6 +1109,136 @@ public class NetworkStatsServiceTest { assertUidTotal(sTemplateWifi, UID_VPN, 0L, 0L, 0L, 0L, 0); } + @Test + public void vpnWithTwoUnderlyingIfaces_packetDuplication() throws Exception { + // WiFi and Cell networks are connected and VPN is using WiFi (which has TEST_IFACE) and + // Cell (which has TEST_IFACE2) and has declared both of them in its underlying network set. + // Additionally, VPN is duplicating traffic across both WiFi and Cell. + expectDefaultSettings(); + NetworkState[] networkStates = + new NetworkState[] { + buildWifiState(), buildMobile4gState(TEST_IFACE2), buildVpnState() + }; + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE, TEST_IFACE2})}; + expectNetworkStatsUidDetail(buildEmptyStats()); + expectBandwidthControlCheck(); + + mService.forceUpdateIfaces( + new Network[] {WIFI_NETWORK, VPN_NETWORK}, + vpnInfos, + networkStates, + getActiveIface(networkStates)); + // create some traffic (assume 10 bytes of MTU for VPN interface and 1 byte encryption + // overhead per packet): + // 1000 bytes (100 packets) were sent/received by UID_RED and UID_BLUE over VPN. + // VPN sent/received 4400 bytes (400 packets) over both WiFi and Cell (8800 bytes in total). + // Of 8800 bytes over WiFi/Cell, expect: + // - 500 bytes rx/tx each over WiFi/Cell attributed to both UID_RED and UID_BLUE. + // - 1200 bytes rx/tx each over WiFi/Cell for VPN_UID. + incrementCurrentTime(HOUR_IN_MILLIS); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 4) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1000L, 100L, 1000L, 100L, 2L) + .addValues(TUN_IFACE, UID_BLUE, SET_DEFAULT, TAG_NONE, 1000L, 100L, 1000L, 100L, 2L) + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 2200L, 200L, 2200L, 200L, 2L) + .addValues( + TEST_IFACE2, UID_VPN, SET_DEFAULT, TAG_NONE, 2200L, 200L, 2200L, 200L, 2L)); + + forcePollAndWaitForIdle(); + + assertUidTotal(sTemplateWifi, UID_RED, 500L, 50L, 500L, 50L, 1); + assertUidTotal(sTemplateWifi, UID_BLUE, 500L, 50L, 500L, 50L, 1); + assertUidTotal(sTemplateWifi, UID_VPN, 1200L, 100L, 1200L, 100L, 2); + + assertUidTotal(buildTemplateMobileWildcard(), UID_RED, 500L, 50L, 500L, 50L, 1); + assertUidTotal(buildTemplateMobileWildcard(), UID_BLUE, 500L, 50L, 500L, 50L, 1); + assertUidTotal(buildTemplateMobileWildcard(), UID_VPN, 1200L, 100L, 1200L, 100L, 2); + } + + @Test + public void vpnWithTwoUnderlyingIfaces_splitTraffic() throws Exception { + // WiFi and Cell networks are connected and VPN is using WiFi (which has TEST_IFACE) and + // Cell (which has TEST_IFACE2) and has declared both of them in its underlying network set. + // Additionally, VPN is arbitrarily splitting traffic across WiFi and Cell. + expectDefaultSettings(); + NetworkState[] networkStates = + new NetworkState[] { + buildWifiState(), buildMobile4gState(TEST_IFACE2), buildVpnState() + }; + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE, TEST_IFACE2})}; + expectNetworkStatsUidDetail(buildEmptyStats()); + expectBandwidthControlCheck(); + + mService.forceUpdateIfaces( + new Network[] {WIFI_NETWORK, VPN_NETWORK}, + vpnInfos, + networkStates, + getActiveIface(networkStates)); + // create some traffic (assume 10 bytes of MTU for VPN interface and 1 byte encryption + // overhead per packet): + // 1000 bytes (100 packets) were sent, and 500 bytes (50 packets) received by UID_RED over + // VPN. + // VPN sent 660 bytes (60 packets) over WiFi and 440 bytes (40 packets) over Cell. + // And, it received 330 bytes (30 packets) over WiFi and 220 bytes (20 packets) over Cell. + // For UID_RED, expect 600 bytes attributed over WiFi and 400 bytes over Cell for sent (tx) + // traffic. For received (rx) traffic, expect 300 bytes over WiFi and 200 bytes over Cell. + // + // For UID_VPN, expect 60 bytes attributed over WiFi and 40 bytes over Cell for tx traffic. + // And, 30 bytes over WiFi and 20 bytes over Cell for rx traffic. + incrementCurrentTime(HOUR_IN_MILLIS); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 3) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 500L, 50L, 1000L, 100L, 2L) + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 330L, 30L, 660L, 60L, 1L) + .addValues(TEST_IFACE2, UID_VPN, SET_DEFAULT, TAG_NONE, 220L, 20L, 440L, 40L, 1L)); + + forcePollAndWaitForIdle(); + + assertUidTotal(sTemplateWifi, UID_RED, 300L, 30L, 600L, 60L, 1); + assertUidTotal(sTemplateWifi, UID_VPN, 30L, 0L, 60L, 0L, 1); + + assertUidTotal(buildTemplateMobileWildcard(), UID_RED, 200L, 20L, 400L, 40L, 1); + assertUidTotal(buildTemplateMobileWildcard(), UID_VPN, 20L, 0L, 40L, 0L, 1); + } + + @Test + public void vpnWithTwoUnderlyingIfaces_splitTrafficWithCompression() throws Exception { + // WiFi and Cell networks are connected and VPN is using WiFi (which has TEST_IFACE) and + // Cell (which has TEST_IFACE2) and has declared both of them in its underlying network set. + // Additionally, VPN is arbitrarily splitting compressed traffic across WiFi and Cell. + expectDefaultSettings(); + NetworkState[] networkStates = + new NetworkState[] { + buildWifiState(), buildMobile4gState(TEST_IFACE2), buildVpnState() + }; + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE, TEST_IFACE2})}; + expectNetworkStatsUidDetail(buildEmptyStats()); + expectBandwidthControlCheck(); + + mService.forceUpdateIfaces( + new Network[] {WIFI_NETWORK, VPN_NETWORK}, + vpnInfos, + networkStates, + getActiveIface(networkStates)); + // create some traffic (assume 10 bytes of MTU for VPN interface: + // 1000 bytes (100 packets) were sent/received by UID_RED over VPN. + // VPN sent/received 600 bytes (60 packets) over WiFi and 200 bytes (20 packets) over Cell. + // For UID_RED, expect 600 bytes attributed over WiFi and 200 bytes over Cell for both + // rx/tx. + // UID_VPN gets nothing attributed to it (avoiding negative stats). + incrementCurrentTime(HOUR_IN_MILLIS); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 4) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1000L, 100L, 1000L, 100L, 1L) + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 600L, 60L, 600L, 60L, 0L) + .addValues(TEST_IFACE2, UID_VPN, SET_DEFAULT, TAG_NONE, 200L, 20L, 200L, 20L, 0L)); + + forcePollAndWaitForIdle(); + + assertUidTotal(sTemplateWifi, UID_RED, 600L, 60L, 600L, 60L, 0); + assertUidTotal(sTemplateWifi, UID_VPN, 0L, 0L, 0L, 0L, 0); + + assertUidTotal(buildTemplateMobileWildcard(), UID_RED, 200L, 20L, 200L, 20L, 0); + assertUidTotal(buildTemplateMobileWildcard(), UID_VPN, 0L, 0L, 0L, 0L, 0); + } + @Test public void vpnWithIncorrectUnderlyingIface() throws Exception { // WiFi and Cell networks are connected and VPN is using Cell (which has TEST_IFACE2), @@ -1001,7 +1248,7 @@ public class NetworkStatsServiceTest { new NetworkState[] { buildWifiState(), buildMobile4gState(TEST_IFACE2), buildVpnState() }; - VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(TEST_IFACE)}; + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE})}; expectNetworkStatsUidDetail(buildEmptyStats()); expectBandwidthControlCheck(); @@ -1029,6 +1276,134 @@ public class NetworkStatsServiceTest { assertUidTotal(buildTemplateMobileWildcard(), UID_VPN, 1100L, 100L, 1100L, 100L, 1); } + @Test + public void recordSnapshot_migratesTunTrafficAndUpdatesTunAdjustedStats() throws Exception { + assertEquals(0, mService.getTunAdjustedStats().size()); + // VPN using WiFi (TEST_IFACE). + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE})}; + expectBandwidthControlCheck(); + // create some traffic (assume 10 bytes of MTU for VPN interface and 1 byte encryption + // overhead per packet): + // 1000 bytes (100 packets) were downloaded by UID_RED over VPN. + // VPN received 1100 bytes (100 packets) over WiFi. + incrementCurrentTime(HOUR_IN_MILLIS); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 2) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1000L, 100L, 0L, 0L, 0L) + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 1100L, 100L, 0L, 0L, 0L)); + + // this should lead to NSS#recordSnapshotLocked + mService.forceUpdateIfaces( + new Network[0], vpnInfos, new NetworkState[0], null /* activeIface */); + + // Verify TUN adjusted stats have traffic migrated correctly. + // Of 1100 bytes VPN received over WiFi, expect 1000 bytes attributed to UID_RED and 100 + // bytes attributed to UID_VPN. + NetworkStats tunAdjStats = mService.getTunAdjustedStats(); + assertValues( + tunAdjStats, TEST_IFACE, UID_RED, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 1000L, 100L, 0L, 0L, 0); + assertValues( + tunAdjStats, TEST_IFACE, UID_VPN, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 100L, 0L, 0L, 0L, 0); + } + + @Test + public void getDetailedUidStats_migratesTunTrafficAndUpdatesTunAdjustedStats() + throws Exception { + assertEquals(0, mService.getTunAdjustedStats().size()); + // VPN using WiFi (TEST_IFACE). + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE})}; + expectBandwidthControlCheck(); + mService.forceUpdateIfaces( + new Network[0], vpnInfos, new NetworkState[0], null /* activeIface */); + // create some traffic (assume 10 bytes of MTU for VPN interface and 1 byte encryption + // overhead per packet): + // 1000 bytes (100 packets) were downloaded by UID_RED over VPN. + // VPN received 1100 bytes (100 packets) over WiFi. + incrementCurrentTime(HOUR_IN_MILLIS); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 2) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1000L, 100L, 0L, 0L, 0L) + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 1100L, 100L, 0L, 0L, 0L)); + + mService.getDetailedUidStats(INTERFACES_ALL); + + // Verify internally maintained TUN adjusted stats + NetworkStats tunAdjStats = mService.getTunAdjustedStats(); + // Verify stats for TEST_IFACE (WiFi): + // Of 1100 bytes VPN received over WiFi, expect 1000 bytes attributed to UID_RED and 100 + // bytes attributed to UID_VPN. + assertValues( + tunAdjStats, TEST_IFACE, UID_RED, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 1000L, 100L, 0L, 0L, 0); + assertValues( + tunAdjStats, TEST_IFACE, UID_VPN, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 100L, 0L, 0L, 0L, 0); + // Verify stats for TUN_IFACE; only UID_RED should have usage on it. + assertValues( + tunAdjStats, TUN_IFACE, UID_RED, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 1000L, 100L, 0L, 0L, 0); + assertValues( + tunAdjStats, TUN_IFACE, UID_VPN, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 0L, 0L, 0L, 0L, 0); + + // lets assume that since last time, VPN received another 1100 bytes (same assumptions as + // before i.e. UID_RED downloaded another 1000 bytes). + incrementCurrentTime(HOUR_IN_MILLIS); + // Note - NetworkStatsFactory returns counters that are monotonically increasing. + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 2) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 2000L, 200L, 0L, 0L, 0L) + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 2200L, 200L, 0L, 0L, 0L)); + + mService.getDetailedUidStats(INTERFACES_ALL); + + tunAdjStats = mService.getTunAdjustedStats(); + // verify TEST_IFACE stats: + assertValues( + tunAdjStats, TEST_IFACE, UID_RED, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 2000L, 200L, 0L, 0L, 0); + assertValues( + tunAdjStats, TEST_IFACE, UID_VPN, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 200L, 0L, 0L, 0L, 0); + // verify TUN_IFACE stats: + assertValues( + tunAdjStats, TUN_IFACE, UID_RED, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 2000L, 200L, 0L, 0L, 0); + assertValues( + tunAdjStats, TUN_IFACE, UID_VPN, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 0L, 0L, 0L, 0L, 0); + } + + @Test + public void getDetailedUidStats_returnsCorrectStatsWithVpnRunning() throws Exception { + // VPN using WiFi (TEST_IFACE). + VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(new String[] {TEST_IFACE})}; + expectBandwidthControlCheck(); + mService.forceUpdateIfaces( + new Network[0], vpnInfos, new NetworkState[0], null /* activeIface */); + // create some traffic (assume 10 bytes of MTU for VPN interface and 1 byte encryption + // overhead per packet): + // 1000 bytes (100 packets) were downloaded by UID_RED over VPN. + // VPN received 1100 bytes (100 packets) over WiFi. + incrementCurrentTime(HOUR_IN_MILLIS); + expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 2) + .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1000L, 100L, 0L, 0L, 0L) + .addValues(TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 1100L, 100L, 0L, 0L, 0L)); + + // Query realtime stats for TEST_IFACE. + NetworkStats queriedStats = + mService.getDetailedUidStats(new String[] {TEST_IFACE}); + + assertEquals(HOUR_IN_MILLIS, queriedStats.getElapsedRealtime()); + // verify that returned stats are only for TEST_IFACE and VPN traffic is migrated correctly. + assertEquals(new String[] {TEST_IFACE}, queriedStats.getUniqueIfaces()); + assertValues( + queriedStats, TEST_IFACE, UID_RED, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 1000L, 100L, 0L, 0L, 0); + assertValues( + queriedStats, TEST_IFACE, UID_VPN, SET_ALL, TAG_NONE, METERED_ALL, ROAMING_ALL, + DEFAULT_NETWORK_ALL, 100L, 0L, 0L, 0L, 0); + } + @Test public void testRegisterUsageCallback() throws Exception { // pretend that wifi network comes online; service should ask about full @@ -1382,11 +1757,11 @@ public class NetworkStatsServiceTest { return new NetworkState(info, prop, new NetworkCapabilities(), VPN_NETWORK, null, null); } - private static VpnInfo createVpnInfo(String underlyingIface) { + private static VpnInfo createVpnInfo(String[] underlyingIfaces) { VpnInfo info = new VpnInfo(); info.ownerUid = UID_VPN; info.vpnIface = TUN_IFACE; - info.primaryUnderlyingIface = underlyingIface; + info.underlyingIfaces = underlyingIfaces; return info; }