Add the ability to affect ordering in the tethering unit tests. am: 3e09f80e8a am: bdb012f733
Original change: https://android-review.googlesource.com/c/platform/packages/modules/Connectivity/+/1635021
Change-Id: Id3a48f7092e0bed9f28cd4896a7d62ad82239758
diff --git a/Tethering/tests/unit/src/com/android/networkstack/tethering/TestConnectivityManager.java b/Tethering/tests/unit/src/com/android/networkstack/tethering/TestConnectivityManager.java
index 3636b03..7ac80b0 100644
--- a/Tethering/tests/unit/src/com/android/networkstack/tethering/TestConnectivityManager.java
+++ b/Tethering/tests/unit/src/com/android/networkstack/tethering/TestConnectivityManager.java
@@ -30,12 +30,10 @@
import android.net.NetworkRequest;
import android.os.Handler;
import android.os.UserHandle;
+import android.util.ArrayMap;
-import java.util.HashMap;
-import java.util.HashSet;
import java.util.Map;
import java.util.Objects;
-import java.util.Set;
/**
* Simulates upstream switching and sending NetworkCallbacks and CONNECTIVITY_ACTION broadcasts.
@@ -60,12 +58,12 @@
* that state changes), this may become less important or unnecessary.
*/
public class TestConnectivityManager extends ConnectivityManager {
- public Map<NetworkCallback, Handler> allCallbacks = new HashMap<>();
- public Set<NetworkCallback> trackingDefault = new HashSet<>();
+ public Map<NetworkCallback, NetworkRequestInfo> allCallbacks = new ArrayMap<>();
+ public Map<NetworkCallback, NetworkRequestInfo> trackingDefault = new ArrayMap<>();
public TestNetworkAgent defaultNetwork = null;
- public Map<NetworkCallback, NetworkRequest> listening = new HashMap<>();
- public Map<NetworkCallback, NetworkRequest> requested = new HashMap<>();
- public Map<NetworkCallback, Integer> legacyTypeMap = new HashMap<>();
+ public Map<NetworkCallback, NetworkRequestInfo> listening = new ArrayMap<>();
+ public Map<NetworkCallback, NetworkRequestInfo> requested = new ArrayMap<>();
+ public Map<NetworkCallback, Integer> legacyTypeMap = new ArrayMap<>();
private final NetworkRequest mDefaultRequest;
private final Context mContext;
@@ -86,6 +84,15 @@
mDefaultRequest = defaultRequest;
}
+ class NetworkRequestInfo {
+ public final NetworkRequest request;
+ public final Handler handler;
+ NetworkRequestInfo(NetworkRequest r, Handler h) {
+ request = r;
+ handler = h;
+ }
+ }
+
boolean hasNoCallbacks() {
return allCallbacks.isEmpty()
&& trackingDefault.isEmpty()
@@ -106,8 +113,8 @@
final NetworkCapabilities empty = new NetworkCapabilities();
empty.clearAll();
- for (NetworkRequest req : listening.values()) {
- if (req.networkCapabilities.equalRequestableCapabilities(empty)) {
+ for (NetworkRequestInfo nri : listening.values()) {
+ if (nri.request.networkCapabilities.equalRequestableCapabilities(empty)) {
return true;
}
}
@@ -118,40 +125,52 @@
return ++mNetworkId;
}
- void makeDefaultNetwork(TestNetworkAgent agent) {
- if (Objects.equals(defaultNetwork, agent)) return;
-
- final TestNetworkAgent formerDefault = defaultNetwork;
- defaultNetwork = agent;
-
+ private void sendDefaultNetworkBroadcasts(TestNetworkAgent formerDefault,
+ TestNetworkAgent defaultNetwork) {
if (formerDefault != null) {
sendConnectivityAction(formerDefault.legacyType, false /* connected */);
}
if (defaultNetwork != null) {
sendConnectivityAction(defaultNetwork.legacyType, true /* connected */);
}
+ }
- for (NetworkCallback cb : trackingDefault) {
+ private void sendDefaultNetworkCallbacks(TestNetworkAgent formerDefault,
+ TestNetworkAgent defaultNetwork) {
+ for (NetworkCallback cb : trackingDefault.keySet()) {
+ final NetworkRequestInfo nri = trackingDefault.get(cb);
if (defaultNetwork != null) {
- cb.onAvailable(defaultNetwork.networkId);
- cb.onCapabilitiesChanged(
- defaultNetwork.networkId, defaultNetwork.networkCapabilities);
- cb.onLinkPropertiesChanged(
- defaultNetwork.networkId, defaultNetwork.linkProperties);
+ nri.handler.post(() -> cb.onAvailable(defaultNetwork.networkId));
+ nri.handler.post(() -> cb.onCapabilitiesChanged(
+ defaultNetwork.networkId, defaultNetwork.networkCapabilities));
+ nri.handler.post(() -> cb.onLinkPropertiesChanged(
+ defaultNetwork.networkId, defaultNetwork.linkProperties));
+ } else if (formerDefault != null) {
+ nri.handler.post(() -> cb.onLost(formerDefault.networkId));
}
}
}
+ void makeDefaultNetwork(TestNetworkAgent agent) {
+ if (Objects.equals(defaultNetwork, agent)) return;
+
+ final TestNetworkAgent formerDefault = defaultNetwork;
+ defaultNetwork = agent;
+
+ sendDefaultNetworkCallbacks(formerDefault, defaultNetwork);
+ sendDefaultNetworkBroadcasts(formerDefault, defaultNetwork);
+ }
+
@Override
public void requestNetwork(NetworkRequest req, NetworkCallback cb, Handler h) {
assertFalse(allCallbacks.containsKey(cb));
- allCallbacks.put(cb, h);
+ allCallbacks.put(cb, new NetworkRequestInfo(req, h));
if (mDefaultRequest.equals(req)) {
- assertFalse(trackingDefault.contains(cb));
- trackingDefault.add(cb);
+ assertFalse(trackingDefault.containsKey(cb));
+ trackingDefault.put(cb, new NetworkRequestInfo(req, h));
} else {
assertFalse(requested.containsKey(cb));
- requested.put(cb, req);
+ requested.put(cb, new NetworkRequestInfo(req, h));
}
}
@@ -164,9 +183,9 @@
public void requestNetwork(NetworkRequest req,
int timeoutMs, int legacyType, Handler h, NetworkCallback cb) {
assertFalse(allCallbacks.containsKey(cb));
- allCallbacks.put(cb, h);
+ allCallbacks.put(cb, new NetworkRequestInfo(req, h));
assertFalse(requested.containsKey(cb));
- requested.put(cb, req);
+ requested.put(cb, new NetworkRequestInfo(req, h));
assertFalse(legacyTypeMap.containsKey(cb));
if (legacyType != ConnectivityManager.TYPE_NONE) {
legacyTypeMap.put(cb, legacyType);
@@ -176,9 +195,9 @@
@Override
public void registerNetworkCallback(NetworkRequest req, NetworkCallback cb, Handler h) {
assertFalse(allCallbacks.containsKey(cb));
- allCallbacks.put(cb, h);
+ allCallbacks.put(cb, new NetworkRequestInfo(req, h));
assertFalse(listening.containsKey(cb));
- listening.put(cb, req);
+ listening.put(cb, new NetworkRequestInfo(req, h));
}
@Override
@@ -198,7 +217,7 @@
@Override
public void unregisterNetworkCallback(NetworkCallback cb) {
- if (trackingDefault.contains(cb)) {
+ if (trackingDefault.containsKey(cb)) {
trackingDefault.remove(cb);
} else if (listening.containsKey(cb)) {
listening.remove(cb);
@@ -211,7 +230,7 @@
allCallbacks.remove(cb);
assertFalse(allCallbacks.containsKey(cb));
- assertFalse(trackingDefault.contains(cb));
+ assertFalse(trackingDefault.containsKey(cb));
assertFalse(listening.containsKey(cb));
assertFalse(requested.containsKey(cb));
}
@@ -275,23 +294,25 @@
}
public void fakeConnect() {
- for (NetworkRequest request : cm.requested.values()) {
- if (matchesLegacyType(request.legacyType)) {
+ for (NetworkRequestInfo nri : cm.requested.values()) {
+ if (matchesLegacyType(nri.request.legacyType)) {
cm.sendConnectivityAction(legacyType, true /* connected */);
// In practice, a given network can match only one legacy type.
break;
}
}
for (NetworkCallback cb : cm.listening.keySet()) {
- cb.onAvailable(networkId);
- cb.onCapabilitiesChanged(networkId, copy(networkCapabilities));
- cb.onLinkPropertiesChanged(networkId, copy(linkProperties));
+ final NetworkRequestInfo nri = cm.listening.get(cb);
+ nri.handler.post(() -> cb.onAvailable(networkId));
+ nri.handler.post(() -> cb.onCapabilitiesChanged(
+ networkId, copy(networkCapabilities)));
+ nri.handler.post(() -> cb.onLinkPropertiesChanged(networkId, copy(linkProperties)));
}
}
public void fakeDisconnect() {
- for (NetworkRequest request : cm.requested.values()) {
- if (matchesLegacyType(request.legacyType)) {
+ for (NetworkRequestInfo nri : cm.requested.values()) {
+ if (matchesLegacyType(nri.request.legacyType)) {
cm.sendConnectivityAction(legacyType, false /* connected */);
break;
}
diff --git a/Tethering/tests/unit/src/com/android/networkstack/tethering/TetheringTest.java b/Tethering/tests/unit/src/com/android/networkstack/tethering/TetheringTest.java
index d5c7add..a7d61bd 100644
--- a/Tethering/tests/unit/src/com/android/networkstack/tethering/TetheringTest.java
+++ b/Tethering/tests/unit/src/com/android/networkstack/tethering/TetheringTest.java
@@ -618,6 +618,7 @@
when(mOffloadHardwareInterface.getForwardedStats(any())).thenReturn(mForwardedStats);
mServiceContext = new TestContext(mContext);
+ mServiceContext.setUseRegisteredHandlers(true);
mContentResolver = new MockContentResolver(mServiceContext);
mContentResolver.addProvider(Settings.AUTHORITY, new FakeSettingsProvider());
setTetheringSupported(true /* supported */);
@@ -716,6 +717,7 @@
final Intent intent = new Intent(WifiManager.WIFI_AP_STATE_CHANGED_ACTION);
intent.putExtra(EXTRA_WIFI_AP_STATE, state);
mServiceContext.sendStickyBroadcastAsUser(intent, UserHandle.ALL);
+ mLooper.dispatchAll();
}
private void sendWifiApStateChanged(int state, String ifname, int ipmode) {
@@ -724,6 +726,7 @@
intent.putExtra(EXTRA_WIFI_AP_INTERFACE_NAME, ifname);
intent.putExtra(EXTRA_WIFI_AP_MODE, ipmode);
mServiceContext.sendStickyBroadcastAsUser(intent, UserHandle.ALL);
+ mLooper.dispatchAll();
}
private static final String[] P2P_RECEIVER_PERMISSIONS_FOR_BROADCAST = {
@@ -750,6 +753,7 @@
mServiceContext.sendBroadcastAsUserMultiplePermissions(intent, UserHandle.ALL,
P2P_RECEIVER_PERMISSIONS_FOR_BROADCAST);
+ mLooper.dispatchAll();
}
private void sendUsbBroadcast(boolean connected, boolean configured, boolean function,
@@ -763,11 +767,13 @@
intent.putExtra(USB_FUNCTION_NCM, function);
}
mServiceContext.sendStickyBroadcastAsUser(intent, UserHandle.ALL);
+ mLooper.dispatchAll();
}
private void sendConfigurationChanged() {
final Intent intent = new Intent(Intent.ACTION_CONFIGURATION_CHANGED);
mServiceContext.sendStickyBroadcastAsUser(intent, UserHandle.ALL);
+ mLooper.dispatchAll();
}
private void verifyDefaultNetworkRequestFiled() {
@@ -809,7 +815,6 @@
mTethering.interfaceStatusChanged(TEST_WLAN_IFNAME, true);
}
sendWifiApStateChanged(WIFI_AP_STATE_ENABLED);
- mLooper.dispatchAll();
// If, and only if, Tethering received an interface status changed then
// it creates a IpServer and sends out a broadcast indicating that the
@@ -857,7 +862,6 @@
// Pretend we then receive USB configured broadcast.
sendUsbBroadcast(true, true, true, TETHERING_USB);
- mLooper.dispatchAll();
// Now we should see the start of tethering mechanics (in this case:
// tetherMatchingInterfaces() which starts by fetching all interfaces).
verify(mNetd, times(1)).interfaceGetList();
@@ -886,7 +890,6 @@
mTethering.interfaceStatusChanged(TEST_WLAN_IFNAME, true);
}
sendWifiApStateChanged(WIFI_AP_STATE_ENABLED, TEST_WLAN_IFNAME, IFACE_IP_MODE_LOCAL_ONLY);
- mLooper.dispatchAll();
verifyInterfaceServingModeStarted(TEST_WLAN_IFNAME);
verifyTetheringBroadcast(TEST_WLAN_IFNAME, EXTRA_AVAILABLE_TETHER);
@@ -948,7 +951,6 @@
initTetheringUpstream(upstreamState);
prepareUsbTethering();
sendUsbBroadcast(true, true, true, TETHERING_USB);
- mLooper.dispatchAll();
}
private void assertSetIfaceToDadProxy(final int numOfCalls, final String ifaceName) {
@@ -1099,7 +1101,6 @@
// Start USB tethering with no current upstream.
prepareUsbTethering();
sendUsbBroadcast(true, true, true, TETHERING_USB);
- mLooper.dispatchAll();
inOrder.verify(mUpstreamNetworkMonitor).startObserveAllNetworks();
inOrder.verify(mUpstreamNetworkMonitor).setTryCell(true);
@@ -1157,7 +1158,6 @@
private void runNcmTethering() {
prepareNcmTethering();
sendUsbBroadcast(true, true, true, TETHERING_NCM);
- mLooper.dispatchAll();
}
@Test
@@ -1205,7 +1205,6 @@
// tethering mode is to be started.
mTethering.interfaceStatusChanged(TEST_WLAN_IFNAME, true);
sendWifiApStateChanged(WIFI_AP_STATE_ENABLED);
- mLooper.dispatchAll();
// There is 1 IpServer state change event: STATE_AVAILABLE
verify(mNotificationUpdater, times(1)).onDownstreamChanged(DOWNSTREAM_NONE);
@@ -1233,7 +1232,6 @@
// tethering mode is to be started.
mTethering.interfaceStatusChanged(TEST_WLAN_IFNAME, true);
sendWifiApStateChanged(WIFI_AP_STATE_ENABLED, TEST_WLAN_IFNAME, IFACE_IP_MODE_TETHERED);
- mLooper.dispatchAll();
verifyInterfaceServingModeStarted(TEST_WLAN_IFNAME);
verifyTetheringBroadcast(TEST_WLAN_IFNAME, EXTRA_AVAILABLE_TETHER);
@@ -1310,7 +1308,6 @@
// tethering mode is to be started.
mTethering.interfaceStatusChanged(TEST_WLAN_IFNAME, true);
sendWifiApStateChanged(WIFI_AP_STATE_ENABLED, TEST_WLAN_IFNAME, IFACE_IP_MODE_TETHERED);
- mLooper.dispatchAll();
// We verify get/set called three times here: twice for setup and once during
// teardown because all events happen over the course of the single
@@ -1634,7 +1631,6 @@
mTethering.startTethering(createTetheringRequestParcel(TETHERING_WIFI), null);
sendWifiApStateChanged(WIFI_AP_STATE_ENABLED, TEST_WLAN_IFNAME, IFACE_IP_MODE_TETHERED);
- mLooper.dispatchAll();
tetherState = callback.pollTetherStatesChanged();
assertArrayEquals(tetherState.tetheredList, new String[] {TEST_WLAN_IFNAME});
callback.expectUpstreamChanged(upstreamState.network);
@@ -1656,7 +1652,6 @@
mLooper.dispatchAll();
mTethering.stopTethering(TETHERING_WIFI);
sendWifiApStateChanged(WifiManager.WIFI_AP_STATE_DISABLED);
- mLooper.dispatchAll();
tetherState = callback2.pollTetherStatesChanged();
assertArrayEquals(tetherState.availableList, new String[] {TEST_WLAN_IFNAME});
mLooper.dispatchAll();
@@ -1749,7 +1744,6 @@
mTethering.interfaceStatusChanged(TEST_P2P_IFNAME, true);
}
sendWifiP2pConnectionChanged(true, true, TEST_P2P_IFNAME);
- mLooper.dispatchAll();
verifyInterfaceServingModeStarted(TEST_P2P_IFNAME);
verifyTetheringBroadcast(TEST_P2P_IFNAME, EXTRA_AVAILABLE_TETHER);
@@ -1767,7 +1761,6 @@
// is being removed.
sendWifiP2pConnectionChanged(false, true, TEST_P2P_IFNAME);
mTethering.interfaceRemoved(TEST_P2P_IFNAME);
- mLooper.dispatchAll();
verify(mNetd, times(1)).tetherApplyDnsInterfaces();
verify(mNetd, times(1)).tetherInterfaceRemove(TEST_P2P_IFNAME);
@@ -1790,7 +1783,6 @@
mTethering.interfaceStatusChanged(TEST_P2P_IFNAME, true);
}
sendWifiP2pConnectionChanged(true, false, TEST_P2P_IFNAME);
- mLooper.dispatchAll();
verify(mNetd, never()).interfaceSetCfg(any(InterfaceConfigurationParcel.class));
verify(mNetd, never()).tetherInterfaceAdd(TEST_P2P_IFNAME);
@@ -1802,7 +1794,6 @@
// is being removed.
sendWifiP2pConnectionChanged(false, false, TEST_P2P_IFNAME);
mTethering.interfaceRemoved(TEST_P2P_IFNAME);
- mLooper.dispatchAll();
verify(mNetd, never()).tetherApplyDnsInterfaces();
verify(mNetd, never()).tetherInterfaceRemove(TEST_P2P_IFNAME);
@@ -1838,7 +1829,6 @@
mTethering.interfaceStatusChanged(TEST_P2P_IFNAME, true);
}
sendWifiP2pConnectionChanged(true, true, TEST_P2P_IFNAME);
- mLooper.dispatchAll();
verify(mNetd, never()).interfaceSetCfg(any(InterfaceConfigurationParcel.class));
verify(mNetd, never()).tetherInterfaceAdd(TEST_P2P_IFNAME);
@@ -1968,7 +1958,6 @@
// Expect that when USB comes up, the DHCP server is configured with the requested address.
mTethering.interfaceStatusChanged(TEST_USB_IFNAME, true);
sendUsbBroadcast(true, true, true, TETHERING_USB);
- mLooper.dispatchAll();
verify(mDhcpServer, timeout(DHCPSERVER_START_TIMEOUT_MS).times(1)).startWithCallbacks(
any(), any());
verify(mNetd).interfaceSetCfg(argThat(cfg -> serverAddr.equals(cfg.ipv4Addr)));
@@ -1988,7 +1977,6 @@
verify(mUsbManager, times(1)).setCurrentFunctions(UsbManager.FUNCTION_RNDIS);
mTethering.interfaceStatusChanged(TEST_USB_IFNAME, true);
sendUsbBroadcast(true, true, true, TETHERING_USB);
- mLooper.dispatchAll();
verify(mNetd).interfaceSetCfg(argThat(cfg -> serverAddr.equals(cfg.ipv4Addr)));
verify(mIpServerDependencies, times(1)).makeDhcpServer(any(), dhcpParamsCaptor.capture(),
any());
@@ -2212,7 +2200,6 @@
mTethering.interfaceStatusChanged(TEST_USB_IFNAME, true);
sendUsbBroadcast(true, true, true, TETHERING_USB);
- mLooper.dispatchAll();
assertContains(Arrays.asList(mTethering.getTetherableIfaces()), TEST_USB_IFNAME);
assertContains(Arrays.asList(mTethering.getTetherableIfaces()), TEST_ETH_IFNAME);
assertEquals(TETHER_ERROR_IFACE_CFG_ERROR, mTethering.getLastTetherError(TEST_USB_IFNAME));
@@ -2251,7 +2238,6 @@
// Run local only tethering.
mTethering.interfaceStatusChanged(TEST_P2P_IFNAME, true);
sendWifiP2pConnectionChanged(true, true, TEST_P2P_IFNAME);
- mLooper.dispatchAll();
verify(mDhcpServer, timeout(DHCPSERVER_START_TIMEOUT_MS)).startWithCallbacks(
any(), dhcpEventCbsCaptor.capture());
eventCallbacks = dhcpEventCbsCaptor.getValue();
@@ -2268,7 +2254,6 @@
// Run wifi tethering.
mTethering.interfaceStatusChanged(TEST_WLAN_IFNAME, true);
sendWifiApStateChanged(WIFI_AP_STATE_ENABLED, TEST_WLAN_IFNAME, IFACE_IP_MODE_TETHERED);
- mLooper.dispatchAll();
verify(mDhcpServer, timeout(DHCPSERVER_START_TIMEOUT_MS)).startWithCallbacks(
any(), dhcpEventCbsCaptor.capture());
eventCallbacks = dhcpEventCbsCaptor.getValue();
diff --git a/Tethering/tests/unit/src/com/android/networkstack/tethering/UpstreamNetworkMonitorTest.java b/Tethering/tests/unit/src/com/android/networkstack/tethering/UpstreamNetworkMonitorTest.java
index 43d32b5..40e4f83 100644
--- a/Tethering/tests/unit/src/com/android/networkstack/tethering/UpstreamNetworkMonitorTest.java
+++ b/Tethering/tests/unit/src/com/android/networkstack/tethering/UpstreamNetworkMonitorTest.java
@@ -50,13 +50,16 @@
import android.net.NetworkRequest;
import android.net.util.SharedLog;
import android.os.Handler;
+import android.os.Looper;
import android.os.Message;
+import android.os.test.TestLooper;
import androidx.test.filters.SmallTest;
import androidx.test.runner.AndroidJUnit4;
import com.android.internal.util.State;
import com.android.internal.util.StateMachine;
+import com.android.networkstack.tethering.TestConnectivityManager.NetworkRequestInfo;
import com.android.networkstack.tethering.TestConnectivityManager.TestNetworkAgent;
import org.junit.After;
@@ -100,6 +103,8 @@
private TestConnectivityManager mCM;
private UpstreamNetworkMonitor mUNM;
+ private final TestLooper mLooper = new TestLooper();
+
@Before public void setUp() throws Exception {
MockitoAnnotations.initMocks(this);
reset(mContext);
@@ -109,7 +114,7 @@
when(mEntitleMgr.isCellularUpstreamPermitted()).thenReturn(true);
mCM = spy(new TestConnectivityManager(mContext, mCS, sDefaultRequest));
- mSM = new TestStateMachine();
+ mSM = new TestStateMachine(mLooper.getLooper());
mUNM = new UpstreamNetworkMonitor(mCM, mSM, mLog, EVENT_UNM_UPDATE);
}
@@ -295,14 +300,17 @@
final TestNetworkAgent wifiAgent = new TestNetworkAgent(mCM, WIFI_CAPABILITIES);
wifiAgent.fakeConnect();
+ mLooper.dispatchAll();
// WiFi is up, we should prefer it.
assertSatisfiesLegacyType(TYPE_WIFI, mUNM.selectPreferredUpstreamType(preferredTypes));
wifiAgent.fakeDisconnect();
+ mLooper.dispatchAll();
// There are no networks, so there is nothing to select.
assertSatisfiesLegacyType(TYPE_NONE, mUNM.selectPreferredUpstreamType(preferredTypes));
final TestNetworkAgent cellAgent = new TestNetworkAgent(mCM, CELL_CAPABILITIES);
cellAgent.fakeConnect();
+ mLooper.dispatchAll();
assertSatisfiesLegacyType(TYPE_NONE, mUNM.selectPreferredUpstreamType(preferredTypes));
preferredTypes.add(TYPE_MOBILE_DUN);
@@ -319,7 +327,7 @@
mUNM.selectPreferredUpstreamType(preferredTypes));
// Check to see we filed an explicit request.
assertEquals(1, mCM.requested.size());
- NetworkRequest netReq = (NetworkRequest) mCM.requested.values().toArray()[0];
+ NetworkRequest netReq = ((NetworkRequestInfo) mCM.requested.values().toArray()[0]).request;
assertTrue(netReq.networkCapabilities.hasTransport(TRANSPORT_CELLULAR));
assertFalse(netReq.networkCapabilities.hasCapability(NET_CAPABILITY_DUN));
// mobile is not permitted, we should not use HIPRI.
@@ -332,6 +340,7 @@
mUNM.selectPreferredUpstreamType(preferredTypes));
wifiAgent.fakeConnect();
+ mLooper.dispatchAll();
// WiFi is up, and we should prefer it over cell.
assertSatisfiesLegacyType(TYPE_WIFI, mUNM.selectPreferredUpstreamType(preferredTypes));
assertEquals(0, mCM.requested.size());
@@ -344,17 +353,19 @@
final TestNetworkAgent dunAgent = new TestNetworkAgent(mCM, DUN_CAPABILITIES);
dunAgent.fakeConnect();
+ mLooper.dispatchAll();
// WiFi is still preferred.
assertSatisfiesLegacyType(TYPE_WIFI, mUNM.selectPreferredUpstreamType(preferredTypes));
// WiFi goes down, cell and DUN are still up but only DUN is preferred.
wifiAgent.fakeDisconnect();
+ mLooper.dispatchAll();
assertSatisfiesLegacyType(TYPE_MOBILE_DUN,
mUNM.selectPreferredUpstreamType(preferredTypes));
// Check to see we filed an explicit request.
assertEquals(1, mCM.requested.size());
- netReq = (NetworkRequest) mCM.requested.values().toArray()[0];
+ netReq = ((NetworkRequestInfo) mCM.requested.values().toArray()[0]).request;
assertTrue(netReq.networkCapabilities.hasTransport(TRANSPORT_CELLULAR));
assertTrue(netReq.networkCapabilities.hasCapability(NET_CAPABILITY_DUN));
// mobile is not permitted, we should not use DUN.
@@ -378,6 +389,7 @@
final TestNetworkAgent cellAgent = new TestNetworkAgent(mCM, CELL_CAPABILITIES);
cellAgent.fakeConnect();
mCM.makeDefaultNetwork(cellAgent);
+ mLooper.dispatchAll();
assertEquals(cellAgent.networkId, mUNM.getCurrentPreferredUpstream().network);
assertEquals(0, mCM.requested.size());
@@ -390,11 +402,13 @@
// [2] WiFi connects but not validated/promoted to default -> mobile selected.
final TestNetworkAgent wifiAgent = new TestNetworkAgent(mCM, WIFI_CAPABILITIES);
wifiAgent.fakeConnect();
+ mLooper.dispatchAll();
assertEquals(cellAgent.networkId, mUNM.getCurrentPreferredUpstream().network);
assertEquals(0, mCM.requested.size());
// [3] WiFi validates and is promoted to the default network -> WiFi selected.
mCM.makeDefaultNetwork(wifiAgent);
+ mLooper.dispatchAll();
assertEquals(wifiAgent.networkId, mUNM.getCurrentPreferredUpstream().network);
assertEquals(0, mCM.requested.size());
@@ -406,6 +420,7 @@
// [5] WiFi no longer validated, mobile becomes default, DUN required -> null selected.
mCM.makeDefaultNetwork(cellAgent);
+ mLooper.dispatchAll();
assertEquals(null, mUNM.getCurrentPreferredUpstream());
assertEquals(1, mCM.requested.size());
assertTrue(isDunRequested());
@@ -415,6 +430,7 @@
dunAgent.networkCapabilities.addCapability(NET_CAPABILITY_DUN);
dunAgent.networkCapabilities.removeCapability(NET_CAPABILITY_INTERNET);
dunAgent.fakeConnect();
+ mLooper.dispatchAll();
assertEquals(dunAgent.networkId, mUNM.getCurrentPreferredUpstream().network);
assertEquals(1, mCM.requested.size());
@@ -461,6 +477,7 @@
}
wifiAgent.fakeConnect();
wifiAgent.sendLinkProperties();
+ mLooper.dispatchAll();
local = mUNM.getLocalPrefixes();
assertPrefixSet(local, INCLUDES, alreadySeen);
@@ -485,6 +502,7 @@
}
cellAgent.fakeConnect();
cellAgent.sendLinkProperties();
+ mLooper.dispatchAll();
local = mUNM.getLocalPrefixes();
assertPrefixSet(local, INCLUDES, alreadySeen);
@@ -506,6 +524,7 @@
}
dunAgent.fakeConnect();
dunAgent.sendLinkProperties();
+ mLooper.dispatchAll();
local = mUNM.getLocalPrefixes();
assertPrefixSet(local, INCLUDES, alreadySeen);
@@ -517,6 +536,7 @@
// [4] Pretend Wi-Fi disconnected. It's addresses/prefixes should no
// longer be included (should be properly removed).
wifiAgent.fakeDisconnect();
+ mLooper.dispatchAll();
local = mUNM.getLocalPrefixes();
assertPrefixSet(local, EXCLUDES, wifiLinkPrefixes);
assertPrefixSet(local, INCLUDES, cellLinkPrefixes);
@@ -524,6 +544,7 @@
// [5] Pretend mobile disconnected.
cellAgent.fakeDisconnect();
+ mLooper.dispatchAll();
local = mUNM.getLocalPrefixes();
assertPrefixSet(local, EXCLUDES, wifiLinkPrefixes);
assertPrefixSet(local, EXCLUDES, cellLinkPrefixes);
@@ -531,6 +552,7 @@
// [6] Pretend DUN disconnected.
dunAgent.fakeDisconnect();
+ mLooper.dispatchAll();
local = mUNM.getLocalPrefixes();
assertTrue(local.isEmpty());
}
@@ -550,6 +572,7 @@
// Setup mobile network.
final TestNetworkAgent cellAgent = new TestNetworkAgent(mCM, CELL_CAPABILITIES);
cellAgent.fakeConnect();
+ mLooper.dispatchAll();
assertSatisfiesLegacyType(TYPE_MOBILE_HIPRI,
mUNM.selectPreferredUpstreamType(preferredTypes));
@@ -575,8 +598,8 @@
}
private boolean isDunRequested() {
- for (NetworkRequest req : mCM.requested.values()) {
- if (req.networkCapabilities.hasCapability(NET_CAPABILITY_DUN)) {
+ for (NetworkRequestInfo nri : mCM.requested.values()) {
+ if (nri.request.networkCapabilities.hasCapability(NET_CAPABILITY_DUN)) {
return true;
}
}
@@ -602,8 +625,8 @@
}
}
- public TestStateMachine() {
- super("UpstreamNetworkMonitor.TestStateMachine");
+ public TestStateMachine(Looper looper) {
+ super("UpstreamNetworkMonitor.TestStateMachine", looper);
addState(mLoggingState);
setInitialState(mLoggingState);
super.start();