Merge "Add unit tests related to data accounting for VPNs with one underlying network." am: 43c87768e0 am: 5df3d62d01

am: 12f4d3d7e3 Change-Id: I80e3ebb556ac0b6bff5d232b881f7d869cb74f00
2019-03-19 09:47:04 -07:00
parent 47002ed0d1 12f4d3d7e3
commit b5d1b24eb0
2 changed files with 130 additions and 1 deletions
--- a/tests/net/java/com/android/server/net/NetworkStatsCollectionTest.java
+++ b/tests/net/java/com/android/server/net/NetworkStatsCollectionTest.java
@@ -101,6 +101,7 @@ public class NetworkStatsCollectionTest {
    @After
    public void tearDown() throws Exception {
        RecurrenceRule.sClock = sOriginalClock;
        NetworkTemplate.resetForceAllNetworkTypes();
    }
    private void setClock(Instant instant) {
--- a/tests/net/java/com/android/server/net/NetworkStatsServiceTest.java
+++ b/tests/net/java/com/android/server/net/NetworkStatsServiceTest.java
@@ -19,6 +19,7 @@ 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_VPN;
 import static android.net.ConnectivityManager.TYPE_WIFI;
 import static android.net.ConnectivityManager.TYPE_WIMAX;
 import static android.net.NetworkStats.DEFAULT_NETWORK_ALL;
@@ -41,6 +42,7 @@ 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.buildTemplateMobileAll;
 import static android.net.NetworkTemplate.buildTemplateMobileWildcard;
 import static android.net.NetworkTemplate.buildTemplateWifiWildcard;
 import static android.net.TrafficStats.MB_IN_BYTES;
 import static android.net.TrafficStats.UID_REMOVED;
@@ -132,6 +134,8 @@ public class NetworkStatsServiceTest {
    private static final String TEST_IFACE = "test0";
    private static final String TEST_IFACE2 = "test1";
    private static final String TUN_IFACE = "test_nss_tun0";
    private static final long TEST_START = 1194220800000L;
    private static final String IMSI_1 = "310004";
@@ -145,10 +149,12 @@ public class NetworkStatsServiceTest {
    private static final int UID_RED = 1001;
    private static final int UID_BLUE = 1002;
    private static final int UID_GREEN = 1003;
-
+    private static final int UID_VPN = 1004;
    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 };
@@ -914,7 +920,113 @@ public class NetworkStatsServiceTest {
        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 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(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/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.
        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));
        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);
    }
    @Test
    public void vpnWithOneUnderlyingIface_withCompression() 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)};
        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 over VPN.
        // 3000 bytes (300 packets) were sent/received by UID_BLUE over VPN.
        // VPN sent/received 1000 bytes (100 packets) over WiFi.
        // Of 1000 bytes over WiFi, expect 250 bytes attributed UID_RED and 750 bytes to UID_BLUE,
        // with nothing attributed to UID_VPN for both rx/tx traffic.
        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, 3000L, 300L, 3000L, 300L, 1L)
                .addValues(
                    TEST_IFACE, UID_VPN, SET_DEFAULT, TAG_NONE, 1000L, 100L, 1000L, 100L, 0L));
        forcePollAndWaitForIdle();
        assertUidTotal(sTemplateWifi, UID_RED, 250L, 25L, 250L, 25L, 0);
        assertUidTotal(sTemplateWifi, UID_BLUE, 750L, 75L, 750L, 75L, 0);
        assertUidTotal(sTemplateWifi, 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),
        // but has declared only WiFi (TEST_IFACE) in its underlying network set.
        expectDefaultSettings();
        NetworkState[] networkStates =
                new NetworkState[] {
                    buildWifiState(), buildMobile4gState(TEST_IFACE2), buildVpnState()
                };
        VpnInfo[] vpnInfos = new VpnInfo[] {createVpnInfo(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/received by UID_RED over VPN.
        // VPN sent/received 1100 bytes (100 packets) over Cell.
        // Of 1100 bytes over Cell, expect all of it attributed to UID_VPN for both rx/tx traffic.
        incrementCurrentTime(HOUR_IN_MILLIS);
        expectNetworkStatsUidDetail(new NetworkStats(getElapsedRealtime(), 2)
                .addValues(TUN_IFACE, UID_RED, SET_DEFAULT, TAG_NONE, 1000L, 100L, 1000L, 100L, 1L)
                .addValues(
                    TEST_IFACE2, UID_VPN, SET_DEFAULT, TAG_NONE, 1100L, 100L, 1100L, 100L, 1L));
        forcePollAndWaitForIdle();
        assertUidTotal(sTemplateWifi, UID_RED, 0L, 0L, 0L, 0L, 0);
        assertUidTotal(sTemplateWifi, UID_VPN, 0L, 0L, 0L, 0L, 0);
        assertUidTotal(buildTemplateMobileWildcard(), UID_RED, 0L, 0L, 0L, 0L, 0);
        assertUidTotal(buildTemplateMobileWildcard(), UID_VPN, 1100L, 100L, 1100L, 100L, 1);
    }
    @Test
@@ -1262,6 +1374,22 @@ public class NetworkStatsServiceTest {
        return new NetworkStats(getElapsedRealtime(), 0);
    }
    private static NetworkState buildVpnState() {
        final NetworkInfo info = new NetworkInfo(TYPE_VPN, 0, null, null);
        info.setDetailedState(DetailedState.CONNECTED, null, null);
        final LinkProperties prop = new LinkProperties();
        prop.setInterfaceName(TUN_IFACE);
        return new NetworkState(info, prop, new NetworkCapabilities(), VPN_NETWORK, null, null);
    }
    private static VpnInfo createVpnInfo(String underlyingIface) {
        VpnInfo info = new VpnInfo();
        info.ownerUid = UID_VPN;
        info.vpnIface = TUN_IFACE;
        info.primaryUnderlyingIface = underlyingIface;
        return info;
    }
    private long getElapsedRealtime() {
        return mElapsedRealtime;
    }