| /* |
| * Copyright (C) 2017 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 android.net.wifi; |
| |
| import static android.net.wifi.WifiConfiguration.METERED_OVERRIDE_METERED; |
| import static android.net.wifi.WifiManager.ActionListener; |
| import static android.net.wifi.WifiManager.BUSY; |
| import static android.net.wifi.WifiManager.COEX_RESTRICTION_SOFTAP; |
| import static android.net.wifi.WifiManager.COEX_RESTRICTION_WIFI_AWARE; |
| import static android.net.wifi.WifiManager.COEX_RESTRICTION_WIFI_DIRECT; |
| import static android.net.wifi.WifiManager.ERROR; |
| import static android.net.wifi.WifiManager.LocalOnlyHotspotCallback.ERROR_GENERIC; |
| import static android.net.wifi.WifiManager.LocalOnlyHotspotCallback.ERROR_INCOMPATIBLE_MODE; |
| import static android.net.wifi.WifiManager.LocalOnlyHotspotCallback.ERROR_NO_CHANNEL; |
| import static android.net.wifi.WifiManager.LocalOnlyHotspotCallback.ERROR_TETHERING_DISALLOWED; |
| import static android.net.wifi.WifiManager.LocalOnlyHotspotCallback.REQUEST_REGISTERED; |
| import static android.net.wifi.WifiManager.NOT_AUTHORIZED; |
| import static android.net.wifi.WifiManager.OnWifiActivityEnergyInfoListener; |
| import static android.net.wifi.WifiManager.SAP_START_FAILURE_GENERAL; |
| import static android.net.wifi.WifiManager.STATUS_NETWORK_SUGGESTIONS_SUCCESS; |
| import static android.net.wifi.WifiManager.STATUS_SUGGESTION_CONNECTION_FAILURE_AUTHENTICATION; |
| import static android.net.wifi.WifiManager.WIFI_AP_STATE_ENABLED; |
| import static android.net.wifi.WifiManager.WIFI_AP_STATE_ENABLING; |
| import static android.net.wifi.WifiManager.WIFI_AP_STATE_FAILED; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_ADDITIONAL_STA_LOCAL_ONLY; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_ADDITIONAL_STA_MBB; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_ADDITIONAL_STA_RESTRICTED; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_AP_STA; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_DECORATED_IDENTITY; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_DPP; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_DPP_ENROLLEE_RESPONDER; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_OWE; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_P2P; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_PASSPOINT; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_PASSPOINT_TERMS_AND_CONDITIONS; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_SCANNER; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_WPA3_SAE; |
| import static android.net.wifi.WifiManager.WIFI_FEATURE_WPA3_SUITE_B; |
| import static android.net.wifi.WifiManager.WpsCallback; |
| |
| import static org.junit.Assert.assertArrayEquals; |
| import static org.junit.Assert.assertEquals; |
| import static org.junit.Assert.assertFalse; |
| import static org.junit.Assert.assertNotNull; |
| import static org.junit.Assert.assertNull; |
| import static org.junit.Assert.assertTrue; |
| import static org.junit.Assert.fail; |
| import static org.junit.Assume.assumeTrue; |
| import static org.mockito.ArgumentMatchers.anyBoolean; |
| import static org.mockito.ArgumentMatchers.nullable; |
| import static org.mockito.Mockito.any; |
| import static org.mockito.Mockito.anyInt; |
| import static org.mockito.Mockito.anyList; |
| import static org.mockito.Mockito.anyString; |
| import static org.mockito.Mockito.argThat; |
| import static org.mockito.Mockito.doThrow; |
| import static org.mockito.Mockito.eq; |
| import static org.mockito.Mockito.inOrder; |
| import static org.mockito.Mockito.mock; |
| import static org.mockito.Mockito.never; |
| import static org.mockito.Mockito.reset; |
| import static org.mockito.Mockito.spy; |
| import static org.mockito.Mockito.times; |
| import static org.mockito.Mockito.verify; |
| import static org.mockito.Mockito.verifyNoMoreInteractions; |
| import static org.mockito.Mockito.verifyZeroInteractions; |
| import static org.mockito.Mockito.when; |
| |
| import android.annotation.NonNull; |
| import android.app.ActivityManager; |
| import android.content.Context; |
| import android.content.pm.ApplicationInfo; |
| import android.net.DhcpInfo; |
| import android.net.MacAddress; |
| import android.net.wifi.WifiManager.CoexCallback; |
| import android.net.wifi.WifiManager.LocalOnlyHotspotCallback; |
| import android.net.wifi.WifiManager.LocalOnlyHotspotObserver; |
| import android.net.wifi.WifiManager.LocalOnlyHotspotReservation; |
| import android.net.wifi.WifiManager.LocalOnlyHotspotSubscription; |
| import android.net.wifi.WifiManager.NetworkRequestMatchCallback; |
| import android.net.wifi.WifiManager.NetworkRequestUserSelectionCallback; |
| import android.net.wifi.WifiManager.OnWifiUsabilityStatsListener; |
| import android.net.wifi.WifiManager.ScanResultsCallback; |
| import android.net.wifi.WifiManager.SoftApCallback; |
| import android.net.wifi.WifiManager.SubsystemRestartTrackingCallback; |
| import android.net.wifi.WifiManager.SuggestionConnectionStatusListener; |
| import android.net.wifi.WifiManager.SuggestionUserApprovalStatusListener; |
| import android.net.wifi.WifiManager.TrafficStateCallback; |
| import android.net.wifi.WifiManager.WifiConnectedNetworkScorer; |
| import android.net.wifi.WifiUsabilityStatsEntry.ContentionTimeStats; |
| import android.net.wifi.WifiUsabilityStatsEntry.RadioStats; |
| import android.net.wifi.WifiUsabilityStatsEntry.RateStats; |
| import android.os.Build; |
| import android.os.Handler; |
| import android.os.HandlerExecutor; |
| import android.os.IBinder; |
| import android.os.RemoteException; |
| import android.os.connectivity.WifiActivityEnergyInfo; |
| import android.os.test.TestLooper; |
| import android.util.SparseArray; |
| |
| import androidx.test.filters.SmallTest; |
| |
| import com.android.modules.utils.build.SdkLevel; |
| |
| import org.junit.Before; |
| import org.junit.Test; |
| import org.mockito.ArgumentCaptor; |
| import org.mockito.InOrder; |
| import org.mockito.Mock; |
| import org.mockito.Mockito; |
| import org.mockito.MockitoAnnotations; |
| |
| import java.util.ArrayList; |
| import java.util.Collections; |
| import java.util.HashMap; |
| import java.util.List; |
| import java.util.Map; |
| import java.util.Objects; |
| import java.util.concurrent.Executor; |
| |
| /** |
| * Unit tests for {@link android.net.wifi.WifiManager}. |
| */ |
| @SmallTest |
| public class WifiManagerTest { |
| |
| private static final int ERROR_NOT_SET = -1; |
| private static final int ERROR_TEST_REASON = 5; |
| private static final int TEST_UID = 14553; |
| private static final int TEST_NETWORK_ID = 143; |
| private static final String TEST_PACKAGE_NAME = "TestPackage"; |
| private static final String TEST_FEATURE_ID = "TestFeature"; |
| private static final String TEST_COUNTRY_CODE = "US"; |
| private static final String[] TEST_MAC_ADDRESSES = {"da:a1:19:0:0:0"}; |
| private static final int TEST_SUB_ID = 3; |
| private static final String[] TEST_AP_INSTANCES = new String[] {"wlan1", "wlan2"}; |
| private static final int[] TEST_AP_FREQS = new int[] {2412, 5220}; |
| private static final int[] TEST_AP_BWS = new int[] {SoftApInfo.CHANNEL_WIDTH_20MHZ_NOHT, |
| SoftApInfo.CHANNEL_WIDTH_80MHZ}; |
| private static final MacAddress[] TEST_AP_BSSIDS = new MacAddress[] { |
| MacAddress.fromString("22:33:44:55:66:77"), |
| MacAddress.fromString("aa:bb:cc:dd:ee:ff")}; |
| private static final MacAddress[] TEST_AP_CLIENTS = new MacAddress[] { |
| MacAddress.fromString("22:33:44:aa:aa:77"), |
| MacAddress.fromString("aa:bb:cc:11:11:ff"), |
| MacAddress.fromString("22:bb:cc:11:aa:ff")}; |
| |
| @Mock Context mContext; |
| @Mock android.net.wifi.IWifiManager mWifiService; |
| @Mock ApplicationInfo mApplicationInfo; |
| @Mock WifiConfiguration mApConfig; |
| @Mock SoftApCallback mSoftApCallback; |
| @Mock TrafficStateCallback mTrafficStateCallback; |
| @Mock NetworkRequestMatchCallback mNetworkRequestMatchCallback; |
| @Mock OnWifiUsabilityStatsListener mOnWifiUsabilityStatsListener; |
| @Mock OnWifiActivityEnergyInfoListener mOnWifiActivityEnergyInfoListener; |
| @Mock SuggestionConnectionStatusListener mSuggestionConnectionListener; |
| @Mock Runnable mRunnable; |
| @Mock Executor mExecutor; |
| @Mock Executor mAnotherExecutor; |
| @Mock ActivityManager mActivityManager; |
| @Mock WifiConnectedNetworkScorer mWifiConnectedNetworkScorer; |
| @Mock SuggestionUserApprovalStatusListener mSuggestionUserApprovalStatusListener; |
| |
| private Handler mHandler; |
| private TestLooper mLooper; |
| private WifiManager mWifiManager; |
| private WifiNetworkSuggestion mWifiNetworkSuggestion; |
| private ScanResultsCallback mScanResultsCallback; |
| private CoexCallback mCoexCallback; |
| private SubsystemRestartTrackingCallback mRestartCallback; |
| private int mRestartCallbackMethodRun = 0; // 1: restarting, 2: restarted |
| private WifiActivityEnergyInfo mWifiActivityEnergyInfo; |
| |
| private HashMap<String, SoftApInfo> mTestSoftApInfoMap = new HashMap<>(); |
| private HashMap<String, List<WifiClient>> mTestWifiClientsMap = new HashMap<>(); |
| private SoftApInfo mTestApInfo1 = new SoftApInfo(); |
| private SoftApInfo mTestApInfo2 = new SoftApInfo(); |
| |
| /** |
| * Util function to check public field which used for softap in WifiConfiguration |
| * same as the value in SoftApConfiguration. |
| * |
| */ |
| private boolean compareWifiAndSoftApConfiguration( |
| SoftApConfiguration softApConfig, WifiConfiguration wifiConfig) { |
| if (!Objects.equals(wifiConfig.SSID, softApConfig.getSsid())) { |
| return false; |
| } |
| if (!Objects.equals(wifiConfig.BSSID, softApConfig.getBssid())) { |
| return false; |
| } |
| if (!Objects.equals(wifiConfig.preSharedKey, softApConfig.getPassphrase())) { |
| return false; |
| } |
| |
| if (wifiConfig.hiddenSSID != softApConfig.isHiddenSsid()) { |
| return false; |
| } |
| switch (softApConfig.getSecurityType()) { |
| case SoftApConfiguration.SECURITY_TYPE_OPEN: |
| if (wifiConfig.getAuthType() != WifiConfiguration.KeyMgmt.NONE) { |
| return false; |
| } |
| break; |
| case SoftApConfiguration.SECURITY_TYPE_WPA2_PSK: |
| if (wifiConfig.getAuthType() != WifiConfiguration.KeyMgmt.WPA2_PSK) { |
| return false; |
| } |
| break; |
| default: |
| return false; |
| } |
| return true; |
| } |
| |
| private SoftApConfiguration generatorTestSoftApConfig() { |
| return new SoftApConfiguration.Builder() |
| .setSsid("TestSSID") |
| .setPassphrase("TestPassphrase", SoftApConfiguration.SECURITY_TYPE_WPA2_PSK) |
| .build(); |
| } |
| |
| private void initTestInfoAndAddToTestMap(int numberOfInfos) { |
| if (numberOfInfos > 2) return; |
| for (int i = 0; i < numberOfInfos; i++) { |
| SoftApInfo info = mTestApInfo1; |
| if (i == 1) info = mTestApInfo2; |
| info.setFrequency(TEST_AP_FREQS[i]); |
| info.setBandwidth(TEST_AP_BWS[i]); |
| info.setBssid(TEST_AP_BSSIDS[i]); |
| info.setApInstanceIdentifier(TEST_AP_INSTANCES[i]); |
| mTestSoftApInfoMap.put(TEST_AP_INSTANCES[i], info); |
| } |
| } |
| |
| private List<WifiClient> initWifiClientAndAddToTestMap(String targetInstance, |
| int numberOfClients, int startIdx) { |
| if (numberOfClients > 3) return null; |
| List<WifiClient> clients = new ArrayList<>(); |
| for (int i = startIdx; i < startIdx + numberOfClients; i++) { |
| WifiClient client = new WifiClient(TEST_AP_CLIENTS[i], targetInstance); |
| clients.add(client); |
| } |
| mTestWifiClientsMap.put(targetInstance, clients); |
| return clients; |
| } |
| |
| @Before |
| public void setUp() throws Exception { |
| MockitoAnnotations.initMocks(this); |
| mLooper = new TestLooper(); |
| mHandler = spy(new Handler(mLooper.getLooper())); |
| mApplicationInfo.targetSdkVersion = Build.VERSION_CODES.Q; |
| when(mContext.getApplicationInfo()).thenReturn(mApplicationInfo); |
| when(mContext.getOpPackageName()).thenReturn(TEST_PACKAGE_NAME); |
| mWifiManager = new WifiManager(mContext, mWifiService, mLooper.getLooper()); |
| verify(mWifiService).getVerboseLoggingLevel(); |
| mWifiNetworkSuggestion = new WifiNetworkSuggestion(); |
| mScanResultsCallback = new ScanResultsCallback() { |
| @Override |
| public void onScanResultsAvailable() { |
| mRunnable.run(); |
| } |
| }; |
| if (SdkLevel.isAtLeastS()) { |
| mCoexCallback = new CoexCallback() { |
| @Override |
| public void onCoexUnsafeChannelsChanged( |
| @NonNull List<CoexUnsafeChannel> unsafeChannels, int restrictions) { |
| mRunnable.run(); |
| } |
| }; |
| } |
| mRestartCallback = new SubsystemRestartTrackingCallback() { |
| @Override |
| public void onSubsystemRestarting() { |
| mRestartCallbackMethodRun = 1; |
| mRunnable.run(); |
| } |
| |
| @Override |
| public void onSubsystemRestarted() { |
| mRestartCallbackMethodRun = 2; |
| mRunnable.run(); |
| } |
| }; |
| mWifiActivityEnergyInfo = new WifiActivityEnergyInfo(0, 0, 0, 0, 0, 0); |
| mTestSoftApInfoMap.clear(); |
| mTestWifiClientsMap.clear(); |
| } |
| |
| /** |
| * Check the call to setCoexUnsafeChannels calls WifiServiceImpl to setCoexUnsafeChannels with |
| * the provided CoexUnsafeChannels and restrictions bitmask. |
| */ |
| @Test |
| public void testSetCoexUnsafeChannelsGoesToWifiServiceImpl() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| List<CoexUnsafeChannel> unsafeChannels = new ArrayList<>(); |
| int restrictions = COEX_RESTRICTION_WIFI_DIRECT | COEX_RESTRICTION_SOFTAP |
| | COEX_RESTRICTION_WIFI_AWARE; |
| |
| mWifiManager.setCoexUnsafeChannels(unsafeChannels, restrictions); |
| |
| verify(mWifiService).setCoexUnsafeChannels(unsafeChannels, restrictions); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException if passed a null value for unsafeChannels. |
| */ |
| @Test |
| public void testSetCoexUnsafeChannelsThrowsIllegalArgumentExceptionOnNullUnsafeChannels() { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| try { |
| mWifiManager.setCoexUnsafeChannels(null, 0); |
| fail("expected IllegalArgumentException"); |
| } catch (IllegalArgumentException expected) { |
| } |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if callback is not provided. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testRegisterCoexCallbackWithNullCallback() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.registerCoexCallback(mExecutor, null); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if executor is not provided. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testRegisterCoexCallbackWithNullExecutor() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.registerCoexCallback(null, mCoexCallback); |
| } |
| |
| /** |
| * Verify client provided callback is being called to the right callback. |
| */ |
| @Test |
| public void testAddCoexCallbackAndReceiveEvent() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| ArgumentCaptor<ICoexCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ICoexCallback.Stub.class); |
| mWifiManager.registerCoexCallback(new SynchronousExecutor(), mCoexCallback); |
| verify(mWifiService).registerCoexCallback(callbackCaptor.capture()); |
| callbackCaptor.getValue().onCoexUnsafeChannelsChanged(Collections.emptyList(), 0); |
| verify(mRunnable).run(); |
| } |
| |
| /** |
| * Verify client provided callback is being called to the right executor. |
| */ |
| @Test |
| public void testRegisterCoexCallbackWithTheTargetExecutor() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| ArgumentCaptor<ICoexCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ICoexCallback.Stub.class); |
| mWifiManager.registerCoexCallback(mExecutor, mCoexCallback); |
| verify(mWifiService).registerCoexCallback(callbackCaptor.capture()); |
| mWifiManager.registerCoexCallback(mAnotherExecutor, mCoexCallback); |
| callbackCaptor.getValue().onCoexUnsafeChannelsChanged(Collections.emptyList(), 0); |
| verify(mExecutor, never()).execute(any(Runnable.class)); |
| verify(mAnotherExecutor).execute(any(Runnable.class)); |
| } |
| |
| /** |
| * Verify client register unregister then register again, to ensure callback still works. |
| */ |
| @Test |
| public void testRegisterUnregisterThenRegisterAgainWithCoexCallback() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| ArgumentCaptor<ICoexCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ICoexCallback.Stub.class); |
| mWifiManager.registerCoexCallback(new SynchronousExecutor(), mCoexCallback); |
| verify(mWifiService).registerCoexCallback(callbackCaptor.capture()); |
| mWifiManager.unregisterCoexCallback(mCoexCallback); |
| callbackCaptor.getValue().onCoexUnsafeChannelsChanged(Collections.emptyList(), 0); |
| verify(mRunnable, never()).run(); |
| mWifiManager.registerCoexCallback(new SynchronousExecutor(), mCoexCallback); |
| callbackCaptor.getValue().onCoexUnsafeChannelsChanged(Collections.emptyList(), 0); |
| verify(mRunnable).run(); |
| } |
| |
| /** |
| * Verify client unregisterCoexCallback. |
| */ |
| @Test |
| public void testUnregisterCoexCallback() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.unregisterCoexCallback(mCoexCallback); |
| verify(mWifiService).unregisterCoexCallback(any()); |
| } |
| |
| /** |
| * Verify client unregisterCoexCallback with null callback will cause an exception. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testUnregisterCoexCallbackWithNullCallback() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.unregisterCoexCallback(null); |
| } |
| |
| /** |
| * Verify that call is passed to binder. |
| */ |
| @Test |
| public void testRestartWifiSubsystem() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.restartWifiSubsystem(); |
| verify(mWifiService).restartWifiSubsystem(); |
| } |
| |
| /** |
| * Verify that can register a subsystem restart tracking callback and that calls are passed |
| * through when registered and blocked once unregistered. |
| */ |
| @Test |
| public void testRegisterSubsystemRestartTrackingCallback() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mRestartCallbackMethodRun = 0; // none |
| ArgumentCaptor<ISubsystemRestartCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISubsystemRestartCallback.Stub.class); |
| mWifiManager.registerSubsystemRestartTrackingCallback(new SynchronousExecutor(), |
| mRestartCallback); |
| verify(mWifiService).registerSubsystemRestartCallback(callbackCaptor.capture()); |
| mWifiManager.unregisterSubsystemRestartTrackingCallback(mRestartCallback); |
| verify(mWifiService).unregisterSubsystemRestartCallback(callbackCaptor.capture()); |
| callbackCaptor.getValue().onSubsystemRestarting(); |
| verify(mRunnable, never()).run(); |
| mWifiManager.registerSubsystemRestartTrackingCallback(new SynchronousExecutor(), |
| mRestartCallback); |
| callbackCaptor.getValue().onSubsystemRestarting(); |
| assertEquals(mRestartCallbackMethodRun, 1); // restarting |
| callbackCaptor.getValue().onSubsystemRestarted(); |
| verify(mRunnable, times(2)).run(); |
| assertEquals(mRestartCallbackMethodRun, 2); // restarted |
| } |
| |
| /** |
| * Check the call to startSoftAp calls WifiService to startSoftAp with the provided |
| * WifiConfiguration. Verify that the return value is propagated to the caller. |
| */ |
| @Test |
| public void testStartSoftApCallsServiceWithWifiConfig() throws Exception { |
| when(mWifiService.startSoftAp(mApConfig, TEST_PACKAGE_NAME)).thenReturn(true); |
| assertTrue(mWifiManager.startSoftAp(mApConfig)); |
| |
| when(mWifiService.startSoftAp(mApConfig, TEST_PACKAGE_NAME)).thenReturn(false); |
| assertFalse(mWifiManager.startSoftAp(mApConfig)); |
| } |
| |
| /** |
| * Check the call to startSoftAp calls WifiService to startSoftAp with a null config. Verify |
| * that the return value is propagated to the caller. |
| */ |
| @Test |
| public void testStartSoftApCallsServiceWithNullConfig() throws Exception { |
| when(mWifiService.startSoftAp(null, TEST_PACKAGE_NAME)).thenReturn(true); |
| assertTrue(mWifiManager.startSoftAp(null)); |
| |
| when(mWifiService.startSoftAp(null, TEST_PACKAGE_NAME)).thenReturn(false); |
| assertFalse(mWifiManager.startSoftAp(null)); |
| } |
| |
| /** |
| * Check the call to stopSoftAp calls WifiService to stopSoftAp. |
| */ |
| @Test |
| public void testStopSoftApCallsService() throws Exception { |
| when(mWifiService.stopSoftAp()).thenReturn(true); |
| assertTrue(mWifiManager.stopSoftAp()); |
| |
| when(mWifiService.stopSoftAp()).thenReturn(false); |
| assertFalse(mWifiManager.stopSoftAp()); |
| } |
| |
| /** |
| * Check the call to startSoftAp calls WifiService to startSoftAp with the provided |
| * WifiConfiguration. Verify that the return value is propagated to the caller. |
| */ |
| @Test |
| public void testStartTetheredHotspotCallsServiceWithSoftApConfig() throws Exception { |
| SoftApConfiguration softApConfig = generatorTestSoftApConfig(); |
| when(mWifiService.startTetheredHotspot(softApConfig, TEST_PACKAGE_NAME)) |
| .thenReturn(true); |
| assertTrue(mWifiManager.startTetheredHotspot(softApConfig)); |
| |
| when(mWifiService.startTetheredHotspot(softApConfig, TEST_PACKAGE_NAME)) |
| .thenReturn(false); |
| assertFalse(mWifiManager.startTetheredHotspot(softApConfig)); |
| } |
| |
| /** |
| * Check the call to startSoftAp calls WifiService to startSoftAp with a null config. Verify |
| * that the return value is propagated to the caller. |
| */ |
| @Test |
| public void testStartTetheredHotspotCallsServiceWithNullConfig() throws Exception { |
| when(mWifiService.startTetheredHotspot(null, TEST_PACKAGE_NAME)).thenReturn(true); |
| assertTrue(mWifiManager.startTetheredHotspot(null)); |
| |
| when(mWifiService.startTetheredHotspot(null, TEST_PACKAGE_NAME)).thenReturn(false); |
| assertFalse(mWifiManager.startTetheredHotspot(null)); |
| } |
| |
| /** |
| * Test creation of a LocalOnlyHotspotReservation and verify that close properly calls |
| * WifiService.stopLocalOnlyHotspot. |
| */ |
| @Test |
| public void testCreationAndCloseOfLocalOnlyHotspotReservation() throws Exception { |
| SoftApConfiguration softApConfig = generatorTestSoftApConfig(); |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| |
| callback.onStarted(mWifiManager.new LocalOnlyHotspotReservation(softApConfig)); |
| |
| assertEquals(softApConfig, callback.mRes.getSoftApConfiguration()); |
| WifiConfiguration wifiConfig = callback.mRes.getWifiConfiguration(); |
| assertTrue(compareWifiAndSoftApConfiguration(softApConfig, wifiConfig)); |
| |
| callback.mRes.close(); |
| verify(mWifiService).stopLocalOnlyHotspot(); |
| } |
| |
| /** |
| * Verify stopLOHS is called when try-with-resources is used properly. |
| */ |
| @Test |
| public void testLocalOnlyHotspotReservationCallsStopProperlyInTryWithResources() |
| throws Exception { |
| SoftApConfiguration softApConfig = generatorTestSoftApConfig(); |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| |
| callback.onStarted(mWifiManager.new LocalOnlyHotspotReservation(softApConfig)); |
| |
| try (WifiManager.LocalOnlyHotspotReservation res = callback.mRes) { |
| assertEquals(softApConfig, res.getSoftApConfiguration()); |
| WifiConfiguration wifiConfig = callback.mRes.getWifiConfiguration(); |
| assertTrue(compareWifiAndSoftApConfiguration(softApConfig, wifiConfig)); |
| } |
| |
| verify(mWifiService).stopLocalOnlyHotspot(); |
| } |
| |
| /** |
| * Test creation of a LocalOnlyHotspotSubscription. |
| * TODO: when registrations are tracked, verify removal on close. |
| */ |
| @Test |
| public void testCreationOfLocalOnlyHotspotSubscription() throws Exception { |
| try (WifiManager.LocalOnlyHotspotSubscription sub = |
| mWifiManager.new LocalOnlyHotspotSubscription()) { |
| sub.close(); |
| } |
| } |
| |
| public class TestLocalOnlyHotspotCallback extends LocalOnlyHotspotCallback { |
| public boolean mOnStartedCalled = false; |
| public boolean mOnStoppedCalled = false; |
| public int mFailureReason = -1; |
| public LocalOnlyHotspotReservation mRes = null; |
| public long mCallingThreadId = -1; |
| |
| @Override |
| public void onStarted(LocalOnlyHotspotReservation r) { |
| mRes = r; |
| mOnStartedCalled = true; |
| mCallingThreadId = Thread.currentThread().getId(); |
| } |
| |
| @Override |
| public void onStopped() { |
| mOnStoppedCalled = true; |
| mCallingThreadId = Thread.currentThread().getId(); |
| } |
| |
| @Override |
| public void onFailed(int reason) { |
| mFailureReason = reason; |
| mCallingThreadId = Thread.currentThread().getId(); |
| } |
| } |
| |
| /** |
| * Verify callback is properly plumbed when called. |
| */ |
| @Test |
| public void testLocalOnlyHotspotCallback() { |
| SoftApConfiguration softApConfig = generatorTestSoftApConfig(); |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| assertFalse(callback.mOnStartedCalled); |
| assertFalse(callback.mOnStoppedCalled); |
| assertEquals(ERROR_NOT_SET, callback.mFailureReason); |
| assertEquals(null, callback.mRes); |
| |
| // test onStarted |
| WifiManager.LocalOnlyHotspotReservation res = |
| mWifiManager.new LocalOnlyHotspotReservation(softApConfig); |
| callback.onStarted(res); |
| assertEquals(res, callback.mRes); |
| assertTrue(callback.mOnStartedCalled); |
| assertFalse(callback.mOnStoppedCalled); |
| assertEquals(ERROR_NOT_SET, callback.mFailureReason); |
| |
| // test onStopped |
| callback.onStopped(); |
| assertEquals(res, callback.mRes); |
| assertTrue(callback.mOnStartedCalled); |
| assertTrue(callback.mOnStoppedCalled); |
| assertEquals(ERROR_NOT_SET, callback.mFailureReason); |
| |
| // test onFailed |
| callback.onFailed(ERROR_TEST_REASON); |
| assertEquals(res, callback.mRes); |
| assertTrue(callback.mOnStartedCalled); |
| assertTrue(callback.mOnStoppedCalled); |
| assertEquals(ERROR_TEST_REASON, callback.mFailureReason); |
| } |
| |
| public class TestLocalOnlyHotspotObserver extends LocalOnlyHotspotObserver { |
| public boolean mOnRegistered = false; |
| public boolean mOnStartedCalled = false; |
| public boolean mOnStoppedCalled = false; |
| public SoftApConfiguration mConfig = null; |
| public LocalOnlyHotspotSubscription mSub = null; |
| public long mCallingThreadId = -1; |
| |
| @Override |
| public void onRegistered(LocalOnlyHotspotSubscription sub) { |
| mOnRegistered = true; |
| mSub = sub; |
| mCallingThreadId = Thread.currentThread().getId(); |
| } |
| |
| @Override |
| public void onStarted(SoftApConfiguration config) { |
| mOnStartedCalled = true; |
| mConfig = config; |
| mCallingThreadId = Thread.currentThread().getId(); |
| } |
| |
| @Override |
| public void onStopped() { |
| mOnStoppedCalled = true; |
| mCallingThreadId = Thread.currentThread().getId(); |
| } |
| } |
| |
| /** |
| * Verify observer is properly plumbed when called. |
| */ |
| @Test |
| public void testLocalOnlyHotspotObserver() { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| SoftApConfiguration softApConfig = generatorTestSoftApConfig(); |
| assertFalse(observer.mOnRegistered); |
| assertFalse(observer.mOnStartedCalled); |
| assertFalse(observer.mOnStoppedCalled); |
| assertEquals(null, observer.mConfig); |
| assertEquals(null, observer.mSub); |
| |
| WifiManager.LocalOnlyHotspotSubscription sub = |
| mWifiManager.new LocalOnlyHotspotSubscription(); |
| observer.onRegistered(sub); |
| assertTrue(observer.mOnRegistered); |
| assertFalse(observer.mOnStartedCalled); |
| assertFalse(observer.mOnStoppedCalled); |
| assertEquals(null, observer.mConfig); |
| assertEquals(sub, observer.mSub); |
| |
| observer.onStarted(softApConfig); |
| assertTrue(observer.mOnRegistered); |
| assertTrue(observer.mOnStartedCalled); |
| assertFalse(observer.mOnStoppedCalled); |
| assertEquals(softApConfig, observer.mConfig); |
| assertEquals(sub, observer.mSub); |
| |
| observer.onStopped(); |
| assertTrue(observer.mOnRegistered); |
| assertTrue(observer.mOnStartedCalled); |
| assertTrue(observer.mOnStoppedCalled); |
| assertEquals(softApConfig, observer.mConfig); |
| assertEquals(sub, observer.mSub); |
| } |
| |
| /** |
| * Verify call to startLocalOnlyHotspot goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testStartLocalOnlyHotspot() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| |
| verify(mWifiService).startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), |
| anyString(), nullable(String.class), eq(null)); |
| } |
| |
| /** |
| * Verify a SecurityException is thrown for callers without proper permissions for |
| * startLocalOnlyHotspot. |
| */ |
| @Test(expected = SecurityException.class) |
| public void testStartLocalOnlyHotspotThrowsSecurityException() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| doThrow(new SecurityException()).when(mWifiService).startLocalOnlyHotspot( |
| any(ILocalOnlyHotspotCallback.class), anyString(), nullable(String.class), |
| eq(null)); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| } |
| |
| /** |
| * Verify an IllegalStateException is thrown for callers that already have a pending request for |
| * startLocalOnlyHotspot. |
| */ |
| @Test(expected = IllegalStateException.class) |
| public void testStartLocalOnlyHotspotThrowsIllegalStateException() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| doThrow(new IllegalStateException()).when(mWifiService).startLocalOnlyHotspot( |
| any(ILocalOnlyHotspotCallback.class), anyString(), nullable(String.class), |
| eq(null)); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| } |
| |
| /** |
| * Verify that the handler provided by the caller is used for the callbacks. |
| */ |
| @Test |
| public void testCorrectLooperIsUsedForHandler() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(ERROR_INCOMPATIBLE_MODE); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| mLooper.dispatchAll(); |
| assertEquals(ERROR_INCOMPATIBLE_MODE, callback.mFailureReason); |
| verify(mContext, never()).getMainLooper(); |
| verify(mContext, never()).getMainExecutor(); |
| } |
| |
| /** |
| * Verify that the main looper's thread is used if a handler is not provided by the reqiestomg |
| * application. |
| */ |
| @Test |
| public void testMainLooperIsUsedWhenHandlerNotProvided() throws Exception { |
| // record thread from looper.getThread and check ids. |
| TestLooper altLooper = new TestLooper(); |
| when(mContext.getMainExecutor()).thenReturn(altLooper.getNewExecutor()); |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(ERROR_INCOMPATIBLE_MODE); |
| mWifiManager.startLocalOnlyHotspot(callback, null); |
| altLooper.dispatchAll(); |
| assertEquals(ERROR_INCOMPATIBLE_MODE, callback.mFailureReason); |
| assertEquals(altLooper.getLooper().getThread().getId(), callback.mCallingThreadId); |
| verify(mContext).getMainExecutor(); |
| } |
| |
| /** |
| * Verify the LOHS onStarted callback is triggered when WifiManager receives a HOTSPOT_STARTED |
| * message from WifiServiceImpl. |
| */ |
| @Test |
| public void testOnStartedIsCalledWithReservation() throws Exception { |
| SoftApConfiguration softApConfig = generatorTestSoftApConfig(); |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| TestLooper callbackLooper = new TestLooper(); |
| Handler callbackHandler = new Handler(callbackLooper.getLooper()); |
| ArgumentCaptor<ILocalOnlyHotspotCallback> internalCallback = |
| ArgumentCaptor.forClass(ILocalOnlyHotspotCallback.class); |
| when(mWifiService.startLocalOnlyHotspot(internalCallback.capture(), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, callbackHandler); |
| callbackLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertFalse(callback.mOnStartedCalled); |
| assertEquals(null, callback.mRes); |
| // now trigger the callback |
| internalCallback.getValue().onHotspotStarted(softApConfig); |
| mLooper.dispatchAll(); |
| callbackLooper.dispatchAll(); |
| assertTrue(callback.mOnStartedCalled); |
| assertEquals(softApConfig, callback.mRes.getSoftApConfiguration()); |
| WifiConfiguration wifiConfig = callback.mRes.getWifiConfiguration(); |
| assertTrue(compareWifiAndSoftApConfiguration(softApConfig, wifiConfig)); |
| } |
| |
| /** |
| * Verify the LOHS onStarted callback is triggered when WifiManager receives a HOTSPOT_STARTED |
| * message from WifiServiceImpl when softap enabled with SAE security type. |
| */ |
| @Test |
| public void testOnStartedIsCalledWithReservationAndSaeSoftApConfig() throws Exception { |
| SoftApConfiguration softApConfig = new SoftApConfiguration.Builder() |
| .setSsid("TestSSID") |
| .setPassphrase("TestPassphrase", SoftApConfiguration.SECURITY_TYPE_WPA3_SAE) |
| .build(); |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| TestLooper callbackLooper = new TestLooper(); |
| Handler callbackHandler = new Handler(callbackLooper.getLooper()); |
| ArgumentCaptor<ILocalOnlyHotspotCallback> internalCallback = |
| ArgumentCaptor.forClass(ILocalOnlyHotspotCallback.class); |
| when(mWifiService.startLocalOnlyHotspot(internalCallback.capture(), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, callbackHandler); |
| callbackLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertFalse(callback.mOnStartedCalled); |
| assertEquals(null, callback.mRes); |
| // now trigger the callback |
| internalCallback.getValue().onHotspotStarted(softApConfig); |
| mLooper.dispatchAll(); |
| callbackLooper.dispatchAll(); |
| assertTrue(callback.mOnStartedCalled); |
| assertEquals(softApConfig, callback.mRes.getSoftApConfiguration()); |
| assertEquals(null, callback.mRes.getWifiConfiguration()); |
| } |
| |
| /** |
| * Verify onFailed is called if WifiServiceImpl sends a HOTSPOT_STARTED message with a null |
| * config. |
| */ |
| @Test |
| public void testOnStartedIsCalledWithNullConfig() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| TestLooper callbackLooper = new TestLooper(); |
| Handler callbackHandler = new Handler(callbackLooper.getLooper()); |
| ArgumentCaptor<ILocalOnlyHotspotCallback> internalCallback = |
| ArgumentCaptor.forClass(ILocalOnlyHotspotCallback.class); |
| when(mWifiService.startLocalOnlyHotspot(internalCallback.capture(), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, callbackHandler); |
| callbackLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertFalse(callback.mOnStartedCalled); |
| assertEquals(null, callback.mRes); |
| // now trigger the callback |
| internalCallback.getValue().onHotspotStarted(null); |
| mLooper.dispatchAll(); |
| callbackLooper.dispatchAll(); |
| assertFalse(callback.mOnStartedCalled); |
| assertEquals(ERROR_GENERIC, callback.mFailureReason); |
| } |
| |
| /** |
| * Verify onStopped is called if WifiServiceImpl sends a HOTSPOT_STOPPED message. |
| */ |
| @Test |
| public void testOnStoppedIsCalled() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| TestLooper callbackLooper = new TestLooper(); |
| Handler callbackHandler = new Handler(callbackLooper.getLooper()); |
| ArgumentCaptor<ILocalOnlyHotspotCallback> internalCallback = |
| ArgumentCaptor.forClass(ILocalOnlyHotspotCallback.class); |
| when(mWifiService.startLocalOnlyHotspot(internalCallback.capture(), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, callbackHandler); |
| callbackLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertFalse(callback.mOnStoppedCalled); |
| // now trigger the callback |
| internalCallback.getValue().onHotspotStopped(); |
| mLooper.dispatchAll(); |
| callbackLooper.dispatchAll(); |
| assertTrue(callback.mOnStoppedCalled); |
| } |
| |
| /** |
| * Verify onFailed is called if WifiServiceImpl sends a HOTSPOT_FAILED message. |
| */ |
| @Test |
| public void testOnFailedIsCalled() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| TestLooper callbackLooper = new TestLooper(); |
| Handler callbackHandler = new Handler(callbackLooper.getLooper()); |
| ArgumentCaptor<ILocalOnlyHotspotCallback> internalCallback = |
| ArgumentCaptor.forClass(ILocalOnlyHotspotCallback.class); |
| when(mWifiService.startLocalOnlyHotspot(internalCallback.capture(), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, callbackHandler); |
| callbackLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertEquals(ERROR_NOT_SET, callback.mFailureReason); |
| // now trigger the callback |
| internalCallback.getValue().onHotspotFailed(ERROR_NO_CHANNEL); |
| mLooper.dispatchAll(); |
| callbackLooper.dispatchAll(); |
| assertEquals(ERROR_NO_CHANNEL, callback.mFailureReason); |
| } |
| |
| /** |
| * Verify callback triggered from startLocalOnlyHotspot with an incompatible mode failure. |
| */ |
| @Test |
| public void testLocalOnlyHotspotCallbackFullOnIncompatibleMode() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(ERROR_INCOMPATIBLE_MODE); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| mLooper.dispatchAll(); |
| assertEquals(ERROR_INCOMPATIBLE_MODE, callback.mFailureReason); |
| assertFalse(callback.mOnStartedCalled); |
| assertFalse(callback.mOnStoppedCalled); |
| assertEquals(null, callback.mRes); |
| } |
| |
| /** |
| * Verify callback triggered from startLocalOnlyHotspot with a tethering disallowed failure. |
| */ |
| @Test |
| public void testLocalOnlyHotspotCallbackFullOnTetheringDisallowed() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(ERROR_TETHERING_DISALLOWED); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| mLooper.dispatchAll(); |
| assertEquals(ERROR_TETHERING_DISALLOWED, callback.mFailureReason); |
| assertFalse(callback.mOnStartedCalled); |
| assertFalse(callback.mOnStoppedCalled); |
| assertEquals(null, callback.mRes); |
| } |
| |
| /** |
| * Verify a SecurityException resulting from an application without necessary permissions will |
| * bubble up through the call to start LocalOnlyHotspot and will not trigger other callbacks. |
| */ |
| @Test(expected = SecurityException.class) |
| public void testLocalOnlyHotspotCallbackFullOnSecurityException() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| doThrow(new SecurityException()).when(mWifiService).startLocalOnlyHotspot( |
| any(ILocalOnlyHotspotCallback.class), anyString(), nullable(String.class), |
| eq(null)); |
| try { |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| } catch (SecurityException e) { |
| assertEquals(ERROR_NOT_SET, callback.mFailureReason); |
| assertFalse(callback.mOnStartedCalled); |
| assertFalse(callback.mOnStoppedCalled); |
| assertEquals(null, callback.mRes); |
| throw e; |
| } |
| |
| } |
| |
| /** |
| * Verify the handler passed to startLocalOnlyHotspot is correctly used for callbacks when |
| * SoftApMode fails due to a underlying error. |
| */ |
| @Test |
| public void testLocalOnlyHotspotCallbackFullOnNoChannelError() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| mLooper.dispatchAll(); |
| //assertEquals(ERROR_NO_CHANNEL, callback.mFailureReason); |
| assertFalse(callback.mOnStartedCalled); |
| assertFalse(callback.mOnStoppedCalled); |
| assertEquals(null, callback.mRes); |
| } |
| |
| /** |
| * Verify that the call to cancel a LOHS request does call stopLOHS. |
| */ |
| @Test |
| public void testCancelLocalOnlyHotspotRequestCallsStopOnWifiService() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| mWifiManager.cancelLocalOnlyHotspotRequest(); |
| verify(mWifiService).stopLocalOnlyHotspot(); |
| } |
| |
| /** |
| * Verify that we do not crash if cancelLocalOnlyHotspotRequest is called without an existing |
| * callback stored. |
| */ |
| @Test |
| public void testCancelLocalOnlyHotspotReturnsWithoutExistingRequest() { |
| mWifiManager.cancelLocalOnlyHotspotRequest(); |
| } |
| |
| /** |
| * Verify that the callback is not triggered if the LOHS request was already cancelled. |
| */ |
| @Test |
| public void testCallbackAfterLocalOnlyHotspotWasCancelled() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(REQUEST_REGISTERED); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| mWifiManager.cancelLocalOnlyHotspotRequest(); |
| verify(mWifiService).stopLocalOnlyHotspot(); |
| mLooper.dispatchAll(); |
| assertEquals(ERROR_NOT_SET, callback.mFailureReason); |
| assertFalse(callback.mOnStartedCalled); |
| assertFalse(callback.mOnStoppedCalled); |
| assertEquals(null, callback.mRes); |
| } |
| |
| /** |
| * Verify that calling cancel LOHS request does not crash if an error callback was already |
| * handled. |
| */ |
| @Test |
| public void testCancelAfterLocalOnlyHotspotCallbackTriggered() throws Exception { |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| when(mWifiService.startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), anyString(), |
| nullable(String.class), eq(null))).thenReturn(ERROR_INCOMPATIBLE_MODE); |
| mWifiManager.startLocalOnlyHotspot(callback, mHandler); |
| mLooper.dispatchAll(); |
| assertEquals(ERROR_INCOMPATIBLE_MODE, callback.mFailureReason); |
| assertFalse(callback.mOnStartedCalled); |
| assertFalse(callback.mOnStoppedCalled); |
| assertEquals(null, callback.mRes); |
| mWifiManager.cancelLocalOnlyHotspotRequest(); |
| verify(mWifiService, never()).stopLocalOnlyHotspot(); |
| } |
| |
| @Test |
| public void testStartLocalOnlyHotspotForwardsCustomConfig() throws Exception { |
| SoftApConfiguration customConfig = new SoftApConfiguration.Builder() |
| .setSsid("customSsid") |
| .build(); |
| TestLocalOnlyHotspotCallback callback = new TestLocalOnlyHotspotCallback(); |
| mWifiManager.startLocalOnlyHotspot(customConfig, mExecutor, callback); |
| verify(mWifiService).startLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class), |
| anyString(), nullable(String.class), eq(customConfig)); |
| } |
| |
| /** |
| * Verify the watchLocalOnlyHotspot call goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testWatchLocalOnlyHotspot() throws Exception { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| |
| mWifiManager.watchLocalOnlyHotspot(observer, mHandler); |
| verify(mWifiService).startWatchLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class)); |
| } |
| |
| /** |
| * Verify a SecurityException is thrown for callers without proper permissions for |
| * startWatchLocalOnlyHotspot. |
| */ |
| @Test(expected = SecurityException.class) |
| public void testStartWatchLocalOnlyHotspotThrowsSecurityException() throws Exception { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| doThrow(new SecurityException()).when(mWifiService) |
| .startWatchLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class)); |
| mWifiManager.watchLocalOnlyHotspot(observer, mHandler); |
| } |
| |
| /** |
| * Verify an IllegalStateException is thrown for callers that already have a pending request for |
| * watchLocalOnlyHotspot. |
| */ |
| @Test(expected = IllegalStateException.class) |
| public void testStartWatchLocalOnlyHotspotThrowsIllegalStateException() throws Exception { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| doThrow(new IllegalStateException()).when(mWifiService) |
| .startWatchLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class)); |
| mWifiManager.watchLocalOnlyHotspot(observer, mHandler); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if a callback or executor is not provided. |
| */ |
| @Test |
| public void testAddWifiVerboseLoggingStatusChangedListenerIllegalArguments() throws Exception { |
| try { |
| mWifiManager.addWifiVerboseLoggingStatusChangedListener( |
| new HandlerExecutor(mHandler), null); |
| fail("expected IllegalArgumentException - null callback"); |
| } catch (IllegalArgumentException expected) { |
| } |
| try { |
| WifiManager.WifiVerboseLoggingStatusChangedListener listener = |
| new WifiManager.WifiVerboseLoggingStatusChangedListener() { |
| @Override |
| public void onWifiVerboseLoggingStatusChanged(boolean enabled) { |
| |
| } |
| }; |
| mWifiManager.addWifiVerboseLoggingStatusChangedListener(null, listener); |
| fail("expected IllegalArgumentException - null executor"); |
| } catch (IllegalArgumentException expected) { |
| } |
| } |
| |
| /** |
| * Verify the call to addWifiVerboseLoggingStatusChangedListener and |
| * removeWifiVerboseLoggingStatusChangedListener goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testWifiVerboseLoggingStatusChangedListenerGoesToWifiServiceImpl() |
| throws Exception { |
| WifiManager.WifiVerboseLoggingStatusChangedListener listener = |
| new WifiManager.WifiVerboseLoggingStatusChangedListener() { |
| @Override |
| public void onWifiVerboseLoggingStatusChanged(boolean enabled) { |
| |
| } |
| }; |
| mWifiManager.addWifiVerboseLoggingStatusChangedListener(new HandlerExecutor(mHandler), |
| listener); |
| verify(mWifiService).addWifiVerboseLoggingStatusChangedListener( |
| any(IWifiVerboseLoggingStatusChangedListener.Stub.class)); |
| mWifiManager.removeWifiVerboseLoggingStatusChangedListener(listener); |
| verify(mWifiService).removeWifiVerboseLoggingStatusChangedListener( |
| any(IWifiVerboseLoggingStatusChangedListener.Stub.class)); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if a callback is not provided. |
| */ |
| @Test |
| public void testRemoveWifiVerboseLoggingStatusChangedListenerIllegalArguments() |
| throws Exception { |
| try { |
| mWifiManager.removeWifiVerboseLoggingStatusChangedListener(null); |
| fail("expected IllegalArgumentException - null callback"); |
| } catch (IllegalArgumentException expected) { |
| } |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if callback is not provided. |
| */ |
| @Test |
| public void registerSoftApCallbackThrowsIllegalArgumentExceptionOnNullArgumentForCallback() { |
| try { |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), null); |
| fail("expected IllegalArgumentException"); |
| } catch (IllegalArgumentException expected) { |
| } |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if executor is null. |
| */ |
| @Test |
| public void registerSoftApCallbackThrowsIllegalArgumentExceptionOnNullArgumentForExecutor() { |
| try { |
| mWifiManager.registerSoftApCallback(null, mSoftApCallback); |
| fail("expected IllegalArgumentException"); |
| } catch (IllegalArgumentException expected) { |
| } |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if callback is not provided. |
| */ |
| @Test |
| public void unregisterSoftApCallbackThrowsIllegalArgumentExceptionOnNullArgumentForCallback() { |
| try { |
| mWifiManager.unregisterSoftApCallback(null); |
| fail("expected IllegalArgumentException"); |
| } catch (IllegalArgumentException expected) { |
| } |
| } |
| |
| /** |
| * Verify the call to registerSoftApCallback goes to WifiServiceImpl. |
| */ |
| @Test |
| public void registerSoftApCallbackCallGoesToWifiServiceImpl() throws Exception { |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(any(ISoftApCallback.Stub.class)); |
| } |
| |
| /** |
| * Verify the call to unregisterSoftApCallback goes to WifiServiceImpl. |
| */ |
| @Test |
| public void unregisterSoftApCallbackCallGoesToWifiServiceImpl() throws Exception { |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| |
| mWifiManager.unregisterSoftApCallback(mSoftApCallback); |
| verify(mWifiService).unregisterSoftApCallback(callbackCaptor.getValue()); |
| } |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnStateChanged() throws Exception { |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| |
| callbackCaptor.getValue().onStateChanged(WIFI_AP_STATE_ENABLED, 0); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onStateChanged(WIFI_AP_STATE_ENABLED, 0); |
| } |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy when registration. |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnRegistrationAndApStartedWithClientsConnected() |
| throws Exception { |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| // Prepare test info and clients |
| initTestInfoAndAddToTestMap(1); |
| List<WifiClient> clientList = initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[0], 1, 0); |
| // Trigger callback with registration in AP started and clients connected. |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, true); |
| |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onConnectedClientsChanged(clientList); |
| verify(mSoftApCallback).onConnectedClientsChanged(mTestApInfo1, clientList); |
| verify(mSoftApCallback).onInfoChanged(mTestApInfo1); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(mTestApInfo1))); |
| } |
| |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnConnectedClientsChangedEvenIfNoInfoChanged() |
| throws Exception { |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| List<WifiClient> clientList; |
| // Verify the register callback in disable state. |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, true); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onConnectedClientsChanged(new ArrayList<WifiClient>()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| verify(mSoftApCallback).onInfoChanged(new SoftApInfo()); |
| verify(mSoftApCallback).onInfoChanged(new ArrayList<SoftApInfo>()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test first client connected |
| clientList = initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[0], 1, 0); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| // checked NO any infoChanged, includes InfoChanged(SoftApInfo) |
| // and InfoChanged(List<SoftApInfo>) |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback, never()).onInfoChanged(any(List.class)); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(mTestApInfo1, clientList); |
| verify(mSoftApCallback).onConnectedClientsChanged(clientList); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test second client connected |
| mTestWifiClientsMap.clear(); |
| clientList = initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[0], 2, 0); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| // checked NO any infoChanged, includes InfoChanged(SoftApInfo) |
| // and InfoChanged(List<SoftApInfo>) |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback, never()).onInfoChanged(any(List.class)); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(mTestApInfo1, clientList); |
| verify(mSoftApCallback).onConnectedClientsChanged(clientList); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test second client disconnect |
| mTestWifiClientsMap.clear(); |
| clientList = initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[0], 1, 0); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| // checked NO any infoChanged, includes InfoChanged(SoftApInfo) |
| // and InfoChanged(List<SoftApInfo>) |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback, never()).onInfoChanged(any(List.class)); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(mTestApInfo1, clientList); |
| verify(mSoftApCallback).onConnectedClientsChanged(clientList); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| } |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnConnectedClientsChanged() throws Exception { |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| List<WifiClient> clientList; |
| // Verify the register callback in disable state. |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, true); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onConnectedClientsChanged(new ArrayList<WifiClient>()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| verify(mSoftApCallback).onInfoChanged(new SoftApInfo()); |
| verify(mSoftApCallback).onInfoChanged(new ArrayList<SoftApInfo>()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Single AP mode Test |
| // Test info update |
| initTestInfoAndAddToTestMap(1); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onInfoChanged(mTestApInfo1); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(mTestApInfo1))); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test first client connected |
| clientList = initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[0], 1, 0); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| // checked NO any infoChanged, includes InfoChanged(SoftApInfo) |
| // and InfoChanged(List<SoftApInfo>) |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback, never()).onInfoChanged(any(List.class)); |
| verify(mSoftApCallback).onConnectedClientsChanged(mTestApInfo1, clientList); |
| verify(mSoftApCallback).onConnectedClientsChanged(clientList); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test second client connected |
| mTestWifiClientsMap.clear(); |
| clientList = initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[0], 2, 0); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| // checked NO any infoChanged, includes InfoChanged(SoftApInfo) |
| // and InfoChanged(List<SoftApInfo>) |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback, never()).onInfoChanged(any(List.class)); |
| verify(mSoftApCallback).onConnectedClientsChanged(mTestApInfo1, clientList); |
| verify(mSoftApCallback).onConnectedClientsChanged(clientList); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test second client disconnect |
| mTestWifiClientsMap.clear(); |
| clientList = initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[0], 1, 0); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| // checked NO any infoChanged, includes InfoChanged(SoftApInfo) |
| // and InfoChanged(List<SoftApInfo>) |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback, never()).onInfoChanged(any(List.class)); |
| verify(mSoftApCallback).onConnectedClientsChanged(mTestApInfo1, clientList); |
| verify(mSoftApCallback).onConnectedClientsChanged(clientList); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test bridged mode case |
| mTestSoftApInfoMap.clear(); |
| initTestInfoAndAddToTestMap(2); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), true, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(mTestApInfo1) && infos.contains(mTestApInfo2) |
| )); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test client connect to second instance |
| List<WifiClient> clientListOnSecond = |
| initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[1], 1, 2); // client3 to wlan2 |
| List<WifiClient> totalList = new ArrayList<>(); |
| totalList.addAll(clientList); |
| totalList.addAll(clientListOnSecond); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), true, false); |
| mLooper.dispatchAll(); |
| // checked NO any infoChanged, includes InfoChanged(SoftApInfo) |
| // and InfoChanged(List<SoftApInfo>) |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback, never()).onInfoChanged(any(List.class)); |
| verify(mSoftApCallback).onConnectedClientsChanged(mTestApInfo2, clientListOnSecond); |
| verify(mSoftApCallback).onConnectedClientsChanged(totalList); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test shutdown on second instance |
| mTestSoftApInfoMap.clear(); |
| mTestWifiClientsMap.clear(); |
| initTestInfoAndAddToTestMap(1); |
| clientList = initWifiClientAndAddToTestMap(TEST_AP_INSTANCES[0], 1, 0); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), true, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(mTestApInfo1))); |
| // second instance have client connected before, thus it should send empty list |
| verify(mSoftApCallback).onConnectedClientsChanged( |
| mTestApInfo2, new ArrayList<WifiClient>()); |
| verify(mSoftApCallback).onConnectedClientsChanged(clientList); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test bridged mode disable when client connected |
| mTestSoftApInfoMap.clear(); |
| mTestWifiClientsMap.clear(); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), true, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback).onInfoChanged(new ArrayList<SoftApInfo>()); |
| verify(mSoftApCallback).onConnectedClientsChanged(new ArrayList<WifiClient>()); |
| verify(mSoftApCallback).onConnectedClientsChanged( |
| mTestApInfo1, new ArrayList<WifiClient>()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| } |
| |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnSoftApInfoChanged() throws Exception { |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| // Verify the register callback in disable state. |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, true); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onConnectedClientsChanged(new ArrayList<WifiClient>()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| verify(mSoftApCallback).onInfoChanged(new SoftApInfo()); |
| verify(mSoftApCallback).onInfoChanged(new ArrayList<SoftApInfo>()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Single AP mode Test |
| // Test info update |
| initTestInfoAndAddToTestMap(1); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onInfoChanged(mTestApInfo1); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(mTestApInfo1))); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test info changed |
| SoftApInfo changedInfo = new SoftApInfo(mTestSoftApInfoMap.get(TEST_AP_INSTANCES[0])); |
| changedInfo.setFrequency(2422); |
| mTestSoftApInfoMap.put(TEST_AP_INSTANCES[0], changedInfo); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onInfoChanged(changedInfo); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(changedInfo))); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| |
| // Test Stop, all of infos is empty |
| mTestSoftApInfoMap.clear(); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), false, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onInfoChanged(new SoftApInfo()); |
| verify(mSoftApCallback).onInfoChanged(new ArrayList<SoftApInfo>()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| } |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnSoftApInfoChangedInBridgedMode() throws Exception { |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| |
| // Test bridged mode case |
| initTestInfoAndAddToTestMap(2); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), true, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(mTestApInfo1) && infos.contains(mTestApInfo2) |
| )); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test bridged mode case but an info changed |
| SoftApInfo changedInfoBridgedMode = new SoftApInfo(mTestSoftApInfoMap.get( |
| TEST_AP_INSTANCES[0])); |
| changedInfoBridgedMode.setFrequency(2422); |
| mTestSoftApInfoMap.put(TEST_AP_INSTANCES[0], changedInfoBridgedMode); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), true, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(changedInfoBridgedMode) && infos.contains(mTestApInfo2) |
| )); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test bridged mode case but an instance shutdown |
| mTestSoftApInfoMap.clear(); |
| initTestInfoAndAddToTestMap(1); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), true, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback).onInfoChanged(Mockito.argThat((List<SoftApInfo> infos) -> |
| infos.contains(mTestApInfo1) |
| )); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| |
| // Test bridged mode disable case |
| mTestSoftApInfoMap.clear(); |
| callbackCaptor.getValue().onConnectedClientsOrInfoChanged( |
| (Map<String, SoftApInfo>) mTestSoftApInfoMap.clone(), |
| (Map<String, List<WifiClient>>) mTestWifiClientsMap.clone(), true, false); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback, never()).onInfoChanged(any(SoftApInfo.class)); |
| verify(mSoftApCallback).onInfoChanged(new ArrayList<SoftApInfo>()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any()); |
| verify(mSoftApCallback, never()).onConnectedClientsChanged(any(), any()); |
| // After verify, reset mSoftApCallback for nex test |
| reset(mSoftApCallback); |
| } |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnCapabilityChanged() throws Exception { |
| SoftApCapability testSoftApCapability = new SoftApCapability(0); |
| testSoftApCapability.setMaxSupportedClients(10); |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| |
| callbackCaptor.getValue().onCapabilityChanged(testSoftApCapability); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onCapabilityChanged(testSoftApCapability); |
| } |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnBlockedClientConnecting() throws Exception { |
| WifiClient testWifiClient = new WifiClient(MacAddress.fromString("22:33:44:55:66:77"), |
| TEST_AP_INSTANCES[0]); |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| |
| callbackCaptor.getValue().onBlockedClientConnecting(testWifiClient, |
| WifiManager.SAP_CLIENT_BLOCK_REASON_CODE_NO_MORE_STAS); |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onBlockedClientConnecting(testWifiClient, |
| WifiManager.SAP_CLIENT_BLOCK_REASON_CODE_NO_MORE_STAS); |
| } |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy on multiple events |
| */ |
| @Test |
| public void softApCallbackProxyCallsOnMultipleUpdates() throws Exception { |
| SoftApCapability testSoftApCapability = new SoftApCapability(0); |
| testSoftApCapability.setMaxSupportedClients(10); |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| |
| final List<WifiClient> testClients = new ArrayList(); |
| callbackCaptor.getValue().onStateChanged(WIFI_AP_STATE_ENABLING, 0); |
| callbackCaptor.getValue().onStateChanged(WIFI_AP_STATE_FAILED, SAP_START_FAILURE_GENERAL); |
| callbackCaptor.getValue().onCapabilityChanged(testSoftApCapability); |
| |
| |
| mLooper.dispatchAll(); |
| verify(mSoftApCallback).onStateChanged(WIFI_AP_STATE_ENABLING, 0); |
| verify(mSoftApCallback).onStateChanged(WIFI_AP_STATE_FAILED, SAP_START_FAILURE_GENERAL); |
| verify(mSoftApCallback).onCapabilityChanged(testSoftApCapability); |
| } |
| |
| /* |
| * Verify client-provided callback is being called on the correct thread |
| */ |
| @Test |
| public void softApCallbackIsCalledOnCorrectThread() throws Exception { |
| ArgumentCaptor<ISoftApCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISoftApCallback.Stub.class); |
| TestLooper altLooper = new TestLooper(); |
| Handler altHandler = new Handler(altLooper.getLooper()); |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(altHandler), mSoftApCallback); |
| verify(mWifiService).registerSoftApCallback(callbackCaptor.capture()); |
| |
| callbackCaptor.getValue().onStateChanged(WIFI_AP_STATE_ENABLED, 0); |
| altLooper.dispatchAll(); |
| verify(mSoftApCallback).onStateChanged(WIFI_AP_STATE_ENABLED, 0); |
| } |
| |
| /** |
| * Verify that the handler provided by the caller is used for registering soft AP callback. |
| */ |
| @Test |
| public void testCorrectLooperIsUsedForSoftApCallbackHandler() throws Exception { |
| mWifiManager.registerSoftApCallback(new HandlerExecutor(mHandler), mSoftApCallback); |
| mLooper.dispatchAll(); |
| verify(mWifiService).registerSoftApCallback(any(ISoftApCallback.Stub.class)); |
| verify(mContext, never()).getMainLooper(); |
| verify(mContext, never()).getMainExecutor(); |
| } |
| |
| /** |
| * Verify that the handler provided by the caller is used for the observer. |
| */ |
| @Test |
| public void testCorrectLooperIsUsedForObserverHandler() throws Exception { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| mWifiManager.watchLocalOnlyHotspot(observer, mHandler); |
| mLooper.dispatchAll(); |
| assertTrue(observer.mOnRegistered); |
| verify(mContext, never()).getMainLooper(); |
| verify(mContext, never()).getMainExecutor(); |
| } |
| |
| /** |
| * Verify that the main looper's thread is used if a handler is not provided by the requesting |
| * application. |
| */ |
| @Test |
| public void testMainLooperIsUsedWhenHandlerNotProvidedForObserver() throws Exception { |
| // record thread from looper.getThread and check ids. |
| TestLooper altLooper = new TestLooper(); |
| when(mContext.getMainExecutor()).thenReturn(altLooper.getNewExecutor()); |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| mWifiManager.watchLocalOnlyHotspot(observer, null); |
| altLooper.dispatchAll(); |
| assertTrue(observer.mOnRegistered); |
| assertEquals(altLooper.getLooper().getThread().getId(), observer.mCallingThreadId); |
| verify(mContext).getMainExecutor(); |
| } |
| |
| /** |
| * Verify the LOHS onRegistered observer callback is triggered when WifiManager receives a |
| * HOTSPOT_OBSERVER_REGISTERED message from WifiServiceImpl. |
| */ |
| @Test |
| public void testOnRegisteredIsCalledWithSubscription() throws Exception { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| TestLooper observerLooper = new TestLooper(); |
| Handler observerHandler = new Handler(observerLooper.getLooper()); |
| assertFalse(observer.mOnRegistered); |
| assertEquals(null, observer.mSub); |
| mWifiManager.watchLocalOnlyHotspot(observer, observerHandler); |
| verify(mWifiService).startWatchLocalOnlyHotspot(any(ILocalOnlyHotspotCallback.class)); |
| // now trigger the callback |
| observerLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertTrue(observer.mOnRegistered); |
| assertNotNull(observer.mSub); |
| } |
| |
| /** |
| * Verify the LOHS onStarted observer callback is triggered when WifiManager receives a |
| * HOTSPOT_STARTED message from WifiServiceImpl. |
| */ |
| @Test |
| public void testObserverOnStartedIsCalledWithWifiConfig() throws Exception { |
| SoftApConfiguration softApConfig = generatorTestSoftApConfig(); |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| TestLooper observerLooper = new TestLooper(); |
| Handler observerHandler = new Handler(observerLooper.getLooper()); |
| mWifiManager.watchLocalOnlyHotspot(observer, observerHandler); |
| ArgumentCaptor<ILocalOnlyHotspotCallback> internalCallback = |
| ArgumentCaptor.forClass(ILocalOnlyHotspotCallback.class); |
| verify(mWifiService).startWatchLocalOnlyHotspot(internalCallback.capture()); |
| observerLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertFalse(observer.mOnStartedCalled); |
| // now trigger the callback |
| internalCallback.getValue().onHotspotStarted(softApConfig); |
| mLooper.dispatchAll(); |
| observerLooper.dispatchAll(); |
| assertTrue(observer.mOnStartedCalled); |
| assertEquals(softApConfig, observer.mConfig); |
| } |
| |
| /** |
| * Verify the LOHS onStarted observer callback is triggered not when WifiManager receives a |
| * HOTSPOT_STARTED message from WifiServiceImpl with a null config. |
| */ |
| @Test |
| public void testObserverOnStartedNotCalledWithNullConfig() throws Exception { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| TestLooper observerLooper = new TestLooper(); |
| Handler observerHandler = new Handler(observerLooper.getLooper()); |
| mWifiManager.watchLocalOnlyHotspot(observer, observerHandler); |
| ArgumentCaptor<ILocalOnlyHotspotCallback> internalCallback = |
| ArgumentCaptor.forClass(ILocalOnlyHotspotCallback.class); |
| verify(mWifiService).startWatchLocalOnlyHotspot(internalCallback.capture()); |
| observerLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertFalse(observer.mOnStartedCalled); |
| // now trigger the callback |
| internalCallback.getValue().onHotspotStarted(null); |
| mLooper.dispatchAll(); |
| observerLooper.dispatchAll(); |
| assertFalse(observer.mOnStartedCalled); |
| assertEquals(null, observer.mConfig); |
| } |
| |
| |
| /** |
| * Verify the LOHS onStopped observer callback is triggered when WifiManager receives a |
| * HOTSPOT_STOPPED message from WifiServiceImpl. |
| */ |
| @Test |
| public void testObserverOnStoppedIsCalled() throws Exception { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| TestLooper observerLooper = new TestLooper(); |
| Handler observerHandler = new Handler(observerLooper.getLooper()); |
| mWifiManager.watchLocalOnlyHotspot(observer, observerHandler); |
| ArgumentCaptor<ILocalOnlyHotspotCallback> internalCallback = |
| ArgumentCaptor.forClass(ILocalOnlyHotspotCallback.class); |
| verify(mWifiService).startWatchLocalOnlyHotspot(internalCallback.capture()); |
| observerLooper.dispatchAll(); |
| mLooper.dispatchAll(); |
| assertFalse(observer.mOnStoppedCalled); |
| // now trigger the callback |
| internalCallback.getValue().onHotspotStopped(); |
| mLooper.dispatchAll(); |
| observerLooper.dispatchAll(); |
| assertTrue(observer.mOnStoppedCalled); |
| } |
| |
| /** |
| * Verify WifiServiceImpl is not called if there is not a registered LOHS observer callback. |
| */ |
| @Test |
| public void testUnregisterWifiServiceImplNotCalledWithoutRegisteredObserver() throws Exception { |
| mWifiManager.unregisterLocalOnlyHotspotObserver(); |
| verifyZeroInteractions(mWifiService); |
| } |
| |
| /** |
| * Verify WifiServiceImpl is called when there is a registered LOHS observer callback. |
| */ |
| @Test |
| public void testUnregisterWifiServiceImplCalledWithRegisteredObserver() throws Exception { |
| TestLocalOnlyHotspotObserver observer = new TestLocalOnlyHotspotObserver(); |
| TestLooper observerLooper = new TestLooper(); |
| Handler observerHandler = new Handler(observerLooper.getLooper()); |
| mWifiManager.watchLocalOnlyHotspot(observer, observerHandler); |
| mWifiManager.unregisterLocalOnlyHotspotObserver(); |
| verify(mWifiService).stopWatchLocalOnlyHotspot(); |
| } |
| |
| /** |
| * Test that calls to get the current WPS config token return null and do not have any |
| * interactions with WifiServiceImpl. |
| */ |
| @Test |
| public void testGetCurrentNetworkWpsNfcConfigurationTokenReturnsNull() { |
| assertNull(mWifiManager.getCurrentNetworkWpsNfcConfigurationToken()); |
| verifyNoMoreInteractions(mWifiService); |
| } |
| |
| |
| class WpsCallbackTester extends WpsCallback { |
| public boolean mStarted = false; |
| public boolean mSucceeded = false; |
| public boolean mFailed = false; |
| public int mFailureCode = -1; |
| |
| @Override |
| public void onStarted(String pin) { |
| mStarted = true; |
| } |
| |
| @Override |
| public void onSucceeded() { |
| mSucceeded = true; |
| } |
| |
| @Override |
| public void onFailed(int reason) { |
| mFailed = true; |
| mFailureCode = reason; |
| } |
| |
| } |
| |
| /** |
| * Verify that a call to start WPS immediately returns a failure. |
| */ |
| @Test |
| public void testStartWpsImmediatelyFailsWithCallback() { |
| WpsCallbackTester wpsCallback = new WpsCallbackTester(); |
| mWifiManager.startWps(null, wpsCallback); |
| assertTrue(wpsCallback.mFailed); |
| assertEquals(ERROR, wpsCallback.mFailureCode); |
| assertFalse(wpsCallback.mStarted); |
| assertFalse(wpsCallback.mSucceeded); |
| verifyNoMoreInteractions(mWifiService); |
| } |
| |
| /** |
| * Verify that a call to start WPS does not go to WifiServiceImpl if we do not have a callback. |
| */ |
| @Test |
| public void testStartWpsDoesNotCallWifiServiceImpl() { |
| mWifiManager.startWps(null, null); |
| verifyNoMoreInteractions(mWifiService); |
| } |
| |
| /** |
| * Verify that a call to cancel WPS immediately returns a failure. |
| */ |
| @Test |
| public void testCancelWpsImmediatelyFailsWithCallback() { |
| WpsCallbackTester wpsCallback = new WpsCallbackTester(); |
| mWifiManager.cancelWps(wpsCallback); |
| assertTrue(wpsCallback.mFailed); |
| assertEquals(ERROR, wpsCallback.mFailureCode); |
| assertFalse(wpsCallback.mStarted); |
| assertFalse(wpsCallback.mSucceeded); |
| verifyNoMoreInteractions(mWifiService); |
| } |
| |
| /** |
| * Verify that a call to cancel WPS does not go to WifiServiceImpl if we do not have a callback. |
| */ |
| @Test |
| public void testCancelWpsDoesNotCallWifiServiceImpl() { |
| mWifiManager.cancelWps(null); |
| verifyNoMoreInteractions(mWifiService); |
| } |
| |
| /** |
| * Verify that a successful call properly returns true. |
| */ |
| @Test |
| public void testSetWifiApConfigurationSuccessReturnsTrue() throws Exception { |
| WifiConfiguration apConfig = new WifiConfiguration(); |
| |
| when(mWifiService.setWifiApConfiguration(eq(apConfig), eq(TEST_PACKAGE_NAME))) |
| .thenReturn(true); |
| assertTrue(mWifiManager.setWifiApConfiguration(apConfig)); |
| } |
| |
| /** |
| * Verify that a failed call properly returns false. |
| */ |
| @Test |
| public void testSetWifiApConfigurationFailureReturnsFalse() throws Exception { |
| WifiConfiguration apConfig = new WifiConfiguration(); |
| |
| when(mWifiService.setWifiApConfiguration(eq(apConfig), eq(TEST_PACKAGE_NAME))) |
| .thenReturn(false); |
| assertFalse(mWifiManager.setWifiApConfiguration(apConfig)); |
| } |
| |
| /** |
| * Verify Exceptions are rethrown when underlying calls to WifiService throw exceptions. |
| */ |
| @Test |
| public void testSetWifiApConfigurationRethrowsException() throws Exception { |
| doThrow(new SecurityException()).when(mWifiService).setWifiApConfiguration(any(), any()); |
| |
| try { |
| mWifiManager.setWifiApConfiguration(new WifiConfiguration()); |
| fail("setWifiApConfiguration should rethrow Exceptions from WifiService"); |
| } catch (SecurityException e) { } |
| } |
| |
| /** |
| * Verify that a successful call properly returns true. |
| */ |
| @Test |
| public void testSetSoftApConfigurationSuccessReturnsTrue() throws Exception { |
| SoftApConfiguration apConfig = generatorTestSoftApConfig(); |
| |
| when(mWifiService.setSoftApConfiguration(eq(apConfig), eq(TEST_PACKAGE_NAME))) |
| .thenReturn(true); |
| assertTrue(mWifiManager.setSoftApConfiguration(apConfig)); |
| } |
| |
| /** |
| * Verify that a failed call properly returns false. |
| */ |
| @Test |
| public void testSetSoftApConfigurationFailureReturnsFalse() throws Exception { |
| SoftApConfiguration apConfig = generatorTestSoftApConfig(); |
| |
| when(mWifiService.setSoftApConfiguration(eq(apConfig), eq(TEST_PACKAGE_NAME))) |
| .thenReturn(false); |
| assertFalse(mWifiManager.setSoftApConfiguration(apConfig)); |
| } |
| |
| /** |
| * Verify Exceptions are rethrown when underlying calls to WifiService throw exceptions. |
| */ |
| @Test |
| public void testSetSoftApConfigurationRethrowsException() throws Exception { |
| doThrow(new SecurityException()).when(mWifiService).setSoftApConfiguration(any(), any()); |
| |
| try { |
| mWifiManager.setSoftApConfiguration(generatorTestSoftApConfig()); |
| fail("setWifiApConfiguration should rethrow Exceptions from WifiService"); |
| } catch (SecurityException e) { } |
| } |
| |
| /** |
| * Check the call to startScan calls WifiService. |
| */ |
| @Test |
| public void testStartScan() throws Exception { |
| when(mWifiService.startScan(eq(TEST_PACKAGE_NAME), nullable(String.class))).thenReturn( |
| true); |
| assertTrue(mWifiManager.startScan()); |
| |
| when(mWifiService.startScan(eq(TEST_PACKAGE_NAME), nullable(String.class))).thenReturn( |
| false); |
| assertFalse(mWifiManager.startScan()); |
| } |
| |
| /** |
| * Verify main looper is used when handler is not provided. |
| */ |
| @Test |
| public void registerTrafficStateCallbackUsesMainLooperOnNullArgumentForHandler() |
| throws Exception { |
| ArgumentCaptor<ITrafficStateCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ITrafficStateCallback.Stub.class); |
| mWifiManager.registerTrafficStateCallback( |
| new HandlerExecutor(new Handler(mLooper.getLooper())), mTrafficStateCallback); |
| verify(mWifiService).registerTrafficStateCallback(callbackCaptor.capture()); |
| |
| assertEquals(0, mLooper.dispatchAll()); |
| callbackCaptor.getValue().onStateChanged(TrafficStateCallback.DATA_ACTIVITY_INOUT); |
| assertEquals(1, mLooper.dispatchAll()); |
| verify(mTrafficStateCallback).onStateChanged(TrafficStateCallback.DATA_ACTIVITY_INOUT); |
| } |
| |
| /** |
| * Verify the call to unregisterTrafficStateCallback goes to WifiServiceImpl. |
| */ |
| @Test |
| public void unregisterTrafficStateCallbackCallGoesToWifiServiceImpl() throws Exception { |
| ArgumentCaptor<ITrafficStateCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ITrafficStateCallback.Stub.class); |
| mWifiManager.registerTrafficStateCallback(new HandlerExecutor(mHandler), |
| mTrafficStateCallback); |
| verify(mWifiService).registerTrafficStateCallback(callbackCaptor.capture()); |
| |
| mWifiManager.unregisterTrafficStateCallback(mTrafficStateCallback); |
| verify(mWifiService).unregisterTrafficStateCallback(callbackCaptor.getValue()); |
| } |
| |
| /* |
| * Verify client-provided callback is being called through callback proxy on multiple events |
| */ |
| @Test |
| public void trafficStateCallbackProxyCallsOnMultipleUpdates() throws Exception { |
| ArgumentCaptor<ITrafficStateCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ITrafficStateCallback.Stub.class); |
| mWifiManager.registerTrafficStateCallback(new HandlerExecutor(mHandler), |
| mTrafficStateCallback); |
| verify(mWifiService).registerTrafficStateCallback(callbackCaptor.capture()); |
| |
| InOrder inOrder = inOrder(mTrafficStateCallback); |
| |
| callbackCaptor.getValue().onStateChanged(TrafficStateCallback.DATA_ACTIVITY_IN); |
| callbackCaptor.getValue().onStateChanged(TrafficStateCallback.DATA_ACTIVITY_INOUT); |
| callbackCaptor.getValue().onStateChanged(TrafficStateCallback.DATA_ACTIVITY_OUT); |
| |
| mLooper.dispatchAll(); |
| inOrder.verify(mTrafficStateCallback).onStateChanged( |
| TrafficStateCallback.DATA_ACTIVITY_IN); |
| inOrder.verify(mTrafficStateCallback).onStateChanged( |
| TrafficStateCallback.DATA_ACTIVITY_INOUT); |
| inOrder.verify(mTrafficStateCallback).onStateChanged( |
| TrafficStateCallback.DATA_ACTIVITY_OUT); |
| } |
| |
| /** |
| * Verify client-provided callback is being called on the correct thread |
| */ |
| @Test |
| public void trafficStateCallbackIsCalledOnCorrectThread() throws Exception { |
| ArgumentCaptor<ITrafficStateCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ITrafficStateCallback.Stub.class); |
| TestLooper altLooper = new TestLooper(); |
| Handler altHandler = new Handler(altLooper.getLooper()); |
| mWifiManager.registerTrafficStateCallback(new HandlerExecutor(altHandler), |
| mTrafficStateCallback); |
| verify(mContext, never()).getMainLooper(); |
| verify(mContext, never()).getMainExecutor(); |
| verify(mWifiService).registerTrafficStateCallback(callbackCaptor.capture()); |
| |
| assertEquals(0, altLooper.dispatchAll()); |
| callbackCaptor.getValue().onStateChanged(TrafficStateCallback.DATA_ACTIVITY_INOUT); |
| assertEquals(1, altLooper.dispatchAll()); |
| verify(mTrafficStateCallback).onStateChanged(TrafficStateCallback.DATA_ACTIVITY_INOUT); |
| } |
| |
| /** |
| * Verify the call to registerNetworkRequestMatchCallback goes to WifiServiceImpl. |
| */ |
| @Test |
| public void registerNetworkRequestMatchCallbackCallGoesToWifiServiceImpl() |
| throws Exception { |
| ArgumentCaptor<INetworkRequestMatchCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(INetworkRequestMatchCallback.Stub.class); |
| mWifiManager.registerNetworkRequestMatchCallback( |
| new HandlerExecutor(new Handler(mLooper.getLooper())), |
| mNetworkRequestMatchCallback); |
| verify(mWifiService).registerNetworkRequestMatchCallback(callbackCaptor.capture()); |
| |
| INetworkRequestUserSelectionCallback iUserSelectionCallback = |
| mock(INetworkRequestUserSelectionCallback.class); |
| |
| assertEquals(0, mLooper.dispatchAll()); |
| |
| callbackCaptor.getValue().onAbort(); |
| assertEquals(1, mLooper.dispatchAll()); |
| verify(mNetworkRequestMatchCallback).onAbort(); |
| |
| callbackCaptor.getValue().onMatch(new ArrayList<ScanResult>()); |
| assertEquals(1, mLooper.dispatchAll()); |
| verify(mNetworkRequestMatchCallback).onMatch(anyList()); |
| |
| callbackCaptor.getValue().onUserSelectionConnectSuccess(new WifiConfiguration()); |
| assertEquals(1, mLooper.dispatchAll()); |
| verify(mNetworkRequestMatchCallback).onUserSelectionConnectSuccess( |
| any(WifiConfiguration.class)); |
| |
| callbackCaptor.getValue().onUserSelectionConnectFailure(new WifiConfiguration()); |
| assertEquals(1, mLooper.dispatchAll()); |
| verify(mNetworkRequestMatchCallback).onUserSelectionConnectFailure( |
| any(WifiConfiguration.class)); |
| } |
| |
| /** |
| * Verify the call to unregisterNetworkRequestMatchCallback goes to WifiServiceImpl. |
| */ |
| @Test |
| public void unregisterNetworkRequestMatchCallbackCallGoesToWifiServiceImpl() throws Exception { |
| ArgumentCaptor<INetworkRequestMatchCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(INetworkRequestMatchCallback.Stub.class); |
| mWifiManager.registerNetworkRequestMatchCallback(new HandlerExecutor(mHandler), |
| mNetworkRequestMatchCallback); |
| verify(mWifiService).registerNetworkRequestMatchCallback(callbackCaptor.capture()); |
| |
| mWifiManager.unregisterNetworkRequestMatchCallback(mNetworkRequestMatchCallback); |
| verify(mWifiService).unregisterNetworkRequestMatchCallback(callbackCaptor.getValue()); |
| } |
| |
| /** |
| * Verify the call to NetworkRequestUserSelectionCallback goes to |
| * WifiServiceImpl. |
| */ |
| @Test |
| public void networkRequestUserSelectionCallbackCallGoesToWifiServiceImpl() |
| throws Exception { |
| ArgumentCaptor<INetworkRequestMatchCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(INetworkRequestMatchCallback.Stub.class); |
| mWifiManager.registerNetworkRequestMatchCallback( |
| new HandlerExecutor(new Handler(mLooper.getLooper())), |
| mNetworkRequestMatchCallback); |
| verify(mWifiService).registerNetworkRequestMatchCallback(callbackCaptor.capture()); |
| |
| INetworkRequestUserSelectionCallback iUserSelectionCallback = |
| mock(INetworkRequestUserSelectionCallback.class); |
| ArgumentCaptor<NetworkRequestUserSelectionCallback> userSelectionCallbackCaptor = |
| ArgumentCaptor.forClass(NetworkRequestUserSelectionCallback.class); |
| callbackCaptor.getValue().onUserSelectionCallbackRegistration( |
| iUserSelectionCallback); |
| assertEquals(1, mLooper.dispatchAll()); |
| verify(mNetworkRequestMatchCallback).onUserSelectionCallbackRegistration( |
| userSelectionCallbackCaptor.capture()); |
| |
| WifiConfiguration selected = new WifiConfiguration(); |
| userSelectionCallbackCaptor.getValue().select(selected); |
| verify(iUserSelectionCallback).select(selected); |
| |
| userSelectionCallbackCaptor.getValue().reject(); |
| verify(iUserSelectionCallback).reject(); |
| } |
| |
| /** |
| * Check the call to getAllMatchingWifiConfigs calls getAllMatchingFqdnsForScanResults and |
| * getWifiConfigsForPasspointProfiles of WifiService in order. |
| */ |
| @Test |
| public void testGetAllMatchingWifiConfigs() throws Exception { |
| Map<String, List<ScanResult>> passpointProfiles = new HashMap<>(); |
| passpointProfiles.put("www.test.com_987a69bca26", new ArrayList<>()); |
| when(mWifiService.getAllMatchingPasspointProfilesForScanResults( |
| any(List.class))).thenReturn(passpointProfiles); |
| InOrder inOrder = inOrder(mWifiService); |
| |
| mWifiManager.getAllMatchingWifiConfigs(new ArrayList<>()); |
| |
| inOrder.verify(mWifiService).getAllMatchingPasspointProfilesForScanResults(any(List.class)); |
| inOrder.verify(mWifiService).getWifiConfigsForPasspointProfiles(any(List.class)); |
| } |
| |
| /** |
| * Check the call to getMatchingOsuProviders calls getMatchingOsuProviders of WifiService |
| * with the provided a list of ScanResult. |
| */ |
| @Test |
| public void testGetMatchingOsuProviders() throws Exception { |
| mWifiManager.getMatchingOsuProviders(new ArrayList<>()); |
| |
| verify(mWifiService).getMatchingOsuProviders(any(List.class)); |
| } |
| |
| /** |
| * Verify calls to {@link WifiManager#addNetworkSuggestions(List)}, |
| * {@link WifiManager#getNetworkSuggestions()} and |
| * {@link WifiManager#removeNetworkSuggestions(List)}. |
| */ |
| @Test |
| public void addGetRemoveNetworkSuggestions() throws Exception { |
| List<WifiNetworkSuggestion> testList = new ArrayList<>(); |
| when(mWifiService.addNetworkSuggestions(any(List.class), anyString(), |
| nullable(String.class))).thenReturn(STATUS_NETWORK_SUGGESTIONS_SUCCESS); |
| when(mWifiService.removeNetworkSuggestions(any(List.class), anyString())).thenReturn( |
| STATUS_NETWORK_SUGGESTIONS_SUCCESS); |
| when(mWifiService.getNetworkSuggestions(anyString())) |
| .thenReturn(testList); |
| |
| assertEquals(STATUS_NETWORK_SUGGESTIONS_SUCCESS, |
| mWifiManager.addNetworkSuggestions(testList)); |
| verify(mWifiService).addNetworkSuggestions(anyList(), eq(TEST_PACKAGE_NAME), |
| nullable(String.class)); |
| |
| assertEquals(testList, mWifiManager.getNetworkSuggestions()); |
| verify(mWifiService).getNetworkSuggestions(eq(TEST_PACKAGE_NAME)); |
| |
| assertEquals(STATUS_NETWORK_SUGGESTIONS_SUCCESS, |
| mWifiManager.removeNetworkSuggestions(new ArrayList<>())); |
| verify(mWifiService).removeNetworkSuggestions(anyList(), eq(TEST_PACKAGE_NAME)); |
| } |
| |
| /** |
| * Verify call to {@link WifiManager#getMaxNumberOfNetworkSuggestionsPerApp()}. |
| */ |
| @Test |
| public void getMaxNumberOfNetworkSuggestionsPerApp() { |
| when(mContext.getSystemServiceName(ActivityManager.class)) |
| .thenReturn(Context.ACTIVITY_SERVICE); |
| when(mContext.getSystemService(Context.ACTIVITY_SERVICE)) |
| .thenReturn(mActivityManager); |
| when(mActivityManager.isLowRamDevice()).thenReturn(true); |
| assertEquals(256, mWifiManager.getMaxNumberOfNetworkSuggestionsPerApp()); |
| |
| when(mActivityManager.isLowRamDevice()).thenReturn(false); |
| assertEquals(1024, mWifiManager.getMaxNumberOfNetworkSuggestionsPerApp()); |
| } |
| |
| /** |
| * Verify getting the factory MAC address. |
| */ |
| @Test |
| public void testGetFactoryMacAddress() throws Exception { |
| when(mWifiService.getFactoryMacAddresses()).thenReturn(TEST_MAC_ADDRESSES); |
| assertArrayEquals(TEST_MAC_ADDRESSES, mWifiManager.getFactoryMacAddresses()); |
| verify(mWifiService).getFactoryMacAddresses(); |
| } |
| |
| /** |
| * Verify the call to getCallerConfiguredNetworks goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testGetCallerConfiguredNetworks() throws Exception { |
| mWifiManager.getCallerConfiguredNetworks(); |
| verify(mWifiService).getConfiguredNetworks(any(), any(), eq(true)); |
| } |
| |
| /** |
| * Verify the call to startRestrictingAutoJoinToSubscriptionId goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testStartRestrictAutoJoinToSubscriptionId() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.startRestrictingAutoJoinToSubscriptionId(1); |
| verify(mWifiService).startRestrictingAutoJoinToSubscriptionId(1); |
| } |
| |
| /** |
| * Verify the call to stopRestrictingAutoJoinToSubscriptionId goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testStopTemporarilyDisablingAllNonCarrierMergedWifi() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.stopRestrictingAutoJoinToSubscriptionId(); |
| verify(mWifiService).stopRestrictingAutoJoinToSubscriptionId(); |
| } |
| |
| /** |
| * Verify the call to addOnWifiUsabilityStatsListener goes to WifiServiceImpl. |
| */ |
| @Test |
| public void addOnWifiUsabilityStatsListenerGoesToWifiServiceImpl() throws Exception { |
| mExecutor = new SynchronousExecutor(); |
| ArgumentCaptor<IOnWifiUsabilityStatsListener.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(IOnWifiUsabilityStatsListener.Stub.class); |
| mWifiManager.addOnWifiUsabilityStatsListener(mExecutor, mOnWifiUsabilityStatsListener); |
| verify(mWifiService).addOnWifiUsabilityStatsListener(callbackCaptor.capture()); |
| ContentionTimeStats[] contentionTimeStats = new ContentionTimeStats[4]; |
| contentionTimeStats[0] = new ContentionTimeStats(1, 2, 3, 4); |
| contentionTimeStats[1] = new ContentionTimeStats(5, 6, 7, 8); |
| contentionTimeStats[2] = new ContentionTimeStats(9, 10, 11, 12); |
| contentionTimeStats[3] = new ContentionTimeStats(13, 14, 15, 16); |
| RateStats[] rateStats = new RateStats[2]; |
| rateStats[0] = new RateStats(1, 3, 5, 7, 9, 11, 13, 15, 17); |
| rateStats[1] = new RateStats(2, 4, 6, 8, 10, 12, 14, 16, 18); |
| RadioStats[] radioStats = new RadioStats[2]; |
| radioStats[0] = new RadioStats(0, 10, 11, 12, 13, 14, 15, 16, 17, 18); |
| radioStats[1] = new RadioStats(1, 20, 21, 22, 23, 24, 25, 26, 27, 28); |
| callbackCaptor.getValue().onWifiUsabilityStats(1, true, |
| new WifiUsabilityStatsEntry(System.currentTimeMillis(), -50, 100, 10, 0, 5, 5, |
| 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 1, 100, 10, |
| 100, 27, contentionTimeStats, rateStats, radioStats, 101, true, true, true, |
| 0, 10, 10, true)); |
| verify(mOnWifiUsabilityStatsListener).onWifiUsabilityStats(anyInt(), anyBoolean(), |
| any(WifiUsabilityStatsEntry.class)); |
| } |
| |
| /** |
| * Verify the call to removeOnWifiUsabilityStatsListener goes to WifiServiceImpl. |
| */ |
| @Test |
| public void removeOnWifiUsabilityListenerGoesToWifiServiceImpl() throws Exception { |
| mExecutor = new SynchronousExecutor(); |
| ArgumentCaptor<IOnWifiUsabilityStatsListener.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(IOnWifiUsabilityStatsListener.Stub.class); |
| mWifiManager.addOnWifiUsabilityStatsListener(mExecutor, mOnWifiUsabilityStatsListener); |
| verify(mWifiService).addOnWifiUsabilityStatsListener(callbackCaptor.capture()); |
| |
| mWifiManager.removeOnWifiUsabilityStatsListener(mOnWifiUsabilityStatsListener); |
| verify(mWifiService).removeOnWifiUsabilityStatsListener(callbackCaptor.getValue()); |
| } |
| |
| /** |
| * Test behavior of isEnhancedOpenSupported |
| */ |
| @Test |
| public void testIsEnhancedOpenSupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_OWE)); |
| assertTrue(mWifiManager.isEnhancedOpenSupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WIFI_FEATURE_OWE)); |
| assertFalse(mWifiManager.isEnhancedOpenSupported()); |
| } |
| |
| /** |
| * Test behavior of isWpa3SaeSupported |
| */ |
| @Test |
| public void testIsWpa3SaeSupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_WPA3_SAE)); |
| assertTrue(mWifiManager.isWpa3SaeSupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WIFI_FEATURE_WPA3_SAE)); |
| assertFalse(mWifiManager.isWpa3SaeSupported()); |
| } |
| |
| /** |
| * Test behavior of isWpa3SuiteBSupported |
| */ |
| @Test |
| public void testIsWpa3SuiteBSupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_WPA3_SUITE_B)); |
| assertTrue(mWifiManager.isWpa3SuiteBSupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WIFI_FEATURE_WPA3_SUITE_B)); |
| assertFalse(mWifiManager.isWpa3SuiteBSupported()); |
| } |
| |
| /** |
| * Test behavior of isEasyConnectSupported |
| */ |
| @Test |
| public void testIsEasyConnectSupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_DPP)); |
| assertTrue(mWifiManager.isEasyConnectSupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WIFI_FEATURE_DPP)); |
| assertFalse(mWifiManager.isEasyConnectSupported()); |
| } |
| |
| /** |
| * Test behavior of isEasyConnectEnrolleeResponderModeSupported |
| */ |
| @Test |
| public void testIsEasyConnectEnrolleeResponderModeSupported() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_DPP_ENROLLEE_RESPONDER)); |
| assertTrue(mWifiManager.isEasyConnectEnrolleeResponderModeSupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WIFI_FEATURE_DPP_ENROLLEE_RESPONDER)); |
| assertFalse(mWifiManager.isEasyConnectEnrolleeResponderModeSupported()); |
| } |
| |
| /** |
| * Test behavior of isStaApConcurrencySupported |
| */ |
| @Test |
| public void testIsStaApConcurrencyOpenSupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_AP_STA)); |
| assertTrue(mWifiManager.isStaApConcurrencySupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WIFI_FEATURE_AP_STA)); |
| assertFalse(mWifiManager.isStaApConcurrencySupported()); |
| } |
| |
| /** |
| * Test behavior of isStaConcurrencySupported |
| */ |
| @Test |
| public void testIsStaConcurrencySupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()).thenReturn(0L); |
| assertFalse(mWifiManager.isStaConcurrencyForLocalOnlyConnectionsSupported()); |
| assertFalse(mWifiManager.isMakeBeforeBreakWifiSwitchingSupported()); |
| assertFalse(mWifiManager.isStaConcurrencyForRestrictedConnectionsSupported()); |
| |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_ADDITIONAL_STA_LOCAL_ONLY)); |
| assertTrue(mWifiManager.isStaConcurrencyForLocalOnlyConnectionsSupported()); |
| assertFalse(mWifiManager.isMakeBeforeBreakWifiSwitchingSupported()); |
| assertFalse(mWifiManager.isStaConcurrencyForRestrictedConnectionsSupported()); |
| |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_ADDITIONAL_STA_MBB |
| | WIFI_FEATURE_ADDITIONAL_STA_RESTRICTED)); |
| assertFalse(mWifiManager.isStaConcurrencyForLocalOnlyConnectionsSupported()); |
| assertTrue(mWifiManager.isMakeBeforeBreakWifiSwitchingSupported()); |
| assertTrue(mWifiManager.isStaConcurrencyForRestrictedConnectionsSupported()); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#addNetwork(WifiConfiguration)} |
| */ |
| @Test |
| public void testAddNetwork() throws Exception { |
| WifiConfiguration configuration = new WifiConfiguration(); |
| when(mWifiService.addOrUpdateNetwork(any(), anyString())) |
| .thenReturn(TEST_NETWORK_ID); |
| |
| assertEquals(mWifiManager.addNetwork(configuration), TEST_NETWORK_ID); |
| verify(mWifiService).addOrUpdateNetwork(configuration, mContext.getOpPackageName()); |
| |
| // send a null config |
| assertEquals(mWifiManager.addNetwork(null), -1); |
| } |
| |
| /** |
| * Test {@link WifiManager#addNetworkPrivileged(WifiConfiguration)} goes to WifiService. |
| * Also verify that an IllegalArgumentException is thrown if the input is null. |
| */ |
| @Test |
| public void testAddNetworkPrivileged() throws Exception { |
| WifiConfiguration configuration = new WifiConfiguration(); |
| mWifiManager.addNetworkPrivileged(configuration); |
| verify(mWifiService).addOrUpdateNetworkPrivileged(configuration, |
| mContext.getOpPackageName()); |
| |
| // send a null config and verify an exception is thrown |
| try { |
| mWifiManager.addNetworkPrivileged(null); |
| fail("configuration is null - IllegalArgumentException is expected."); |
| } catch (IllegalArgumentException e) { |
| } |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#addNetwork(WifiConfiguration)} |
| */ |
| @Test |
| public void testUpdateNetwork() throws Exception { |
| WifiConfiguration configuration = new WifiConfiguration(); |
| when(mWifiService.addOrUpdateNetwork(any(), anyString())) |
| .thenReturn(TEST_NETWORK_ID); |
| |
| configuration.networkId = TEST_NETWORK_ID; |
| assertEquals(mWifiManager.updateNetwork(configuration), TEST_NETWORK_ID); |
| verify(mWifiService).addOrUpdateNetwork(configuration, mContext.getOpPackageName()); |
| |
| // config with invalid network ID |
| configuration.networkId = -1; |
| assertEquals(mWifiManager.updateNetwork(configuration), -1); |
| |
| // send a null config |
| assertEquals(mWifiManager.updateNetwork(null), -1); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#enableNetwork(int, boolean)} |
| */ |
| @Test |
| public void testEnableNetwork() throws Exception { |
| when(mWifiService.enableNetwork(anyInt(), anyBoolean(), anyString())) |
| .thenReturn(true); |
| assertTrue(mWifiManager.enableNetwork(TEST_NETWORK_ID, true)); |
| verify(mWifiService).enableNetwork(TEST_NETWORK_ID, true, mContext.getOpPackageName()); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#disableNetwork(int)} |
| */ |
| @Test |
| public void testDisableNetwork() throws Exception { |
| when(mWifiService.disableNetwork(anyInt(), anyString())) |
| .thenReturn(true); |
| assertTrue(mWifiManager.disableNetwork(TEST_NETWORK_ID)); |
| verify(mWifiService).disableNetwork(TEST_NETWORK_ID, mContext.getOpPackageName()); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#allowAutojoin(int, boolean)} |
| * @throws Exception |
| */ |
| @Test |
| public void testAllowAutojoin() throws Exception { |
| mWifiManager.allowAutojoin(1, true); |
| verify(mWifiService).allowAutojoin(1, true); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#allowAutojoinPasspoint(String, boolean)} |
| * @throws Exception |
| */ |
| @Test |
| public void testAllowAutojoinPasspoint() throws Exception { |
| final String fqdn = "FullyQualifiedDomainName"; |
| mWifiManager.allowAutojoinPasspoint(fqdn, true); |
| verify(mWifiService).allowAutojoinPasspoint(fqdn, true); |
| } |
| |
| /** |
| * Test behavior of |
| * {@link WifiManager#setMacRandomizationSettingPasspointEnabled(String, boolean)} |
| */ |
| @Test |
| public void testSetMacRandomizationSettingPasspointEnabled() throws Exception { |
| final String fqdn = "FullyQualifiedDomainName"; |
| mWifiManager.setMacRandomizationSettingPasspointEnabled(fqdn, true); |
| verify(mWifiService).setMacRandomizationSettingPasspointEnabled(fqdn, true); |
| } |
| |
| /** |
| * Test behavior of |
| * {@link WifiManager#setMacRandomizationSettingPasspointEnabled(String, boolean)} |
| */ |
| @Test |
| public void testSetPasspointMeteredOverride() throws Exception { |
| final String fqdn = "FullyQualifiedDomainName"; |
| mWifiManager.setPasspointMeteredOverride(fqdn, METERED_OVERRIDE_METERED); |
| verify(mWifiService).setPasspointMeteredOverride(fqdn, METERED_OVERRIDE_METERED); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#disconnect()} |
| */ |
| @Test |
| public void testDisconnect() throws Exception { |
| when(mWifiService.disconnect(anyString())).thenReturn(true); |
| assertTrue(mWifiManager.disconnect()); |
| verify(mWifiService).disconnect(mContext.getOpPackageName()); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#reconnect()} |
| */ |
| @Test |
| public void testReconnect() throws Exception { |
| when(mWifiService.reconnect(anyString())).thenReturn(true); |
| assertTrue(mWifiManager.reconnect()); |
| verify(mWifiService).reconnect(mContext.getOpPackageName()); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#reassociate()} |
| */ |
| @Test |
| public void testReassociate() throws Exception { |
| when(mWifiService.reassociate(anyString())).thenReturn(true); |
| assertTrue(mWifiManager.reassociate()); |
| verify(mWifiService).reassociate(mContext.getOpPackageName()); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#getSupportedFeatures()} |
| */ |
| @Test |
| public void testGetSupportedFeatures() throws Exception { |
| long supportedFeatures = |
| WIFI_FEATURE_SCANNER |
| | WIFI_FEATURE_PASSPOINT |
| | WIFI_FEATURE_P2P; |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(Long.valueOf(supportedFeatures)); |
| |
| assertTrue(mWifiManager.isWifiScannerSupported()); |
| assertTrue(mWifiManager.isPasspointSupported()); |
| assertTrue(mWifiManager.isP2pSupported()); |
| assertFalse(mWifiManager.isPortableHotspotSupported()); |
| assertFalse(mWifiManager.isDeviceToDeviceRttSupported()); |
| assertFalse(mWifiManager.isDeviceToApRttSupported()); |
| assertFalse(mWifiManager.isPreferredNetworkOffloadSupported()); |
| assertFalse(mWifiManager.isTdlsSupported()); |
| assertFalse(mWifiManager.isOffChannelTdlsSupported()); |
| assertFalse(mWifiManager.isEnhancedPowerReportingSupported()); |
| } |
| |
| /** |
| * Tests that passing a null Executor to {@link WifiManager#getWifiActivityEnergyInfoAsync} |
| * throws an exception. |
| */ |
| @Test(expected = NullPointerException.class) |
| public void testGetWifiActivityInfoNullExecutor() throws Exception { |
| mWifiManager.getWifiActivityEnergyInfoAsync(null, mOnWifiActivityEnergyInfoListener); |
| } |
| |
| /** |
| * Tests that passing a null listener to {@link WifiManager#getWifiActivityEnergyInfoAsync} |
| * throws an exception. |
| */ |
| @Test(expected = NullPointerException.class) |
| public void testGetWifiActivityInfoNullListener() throws Exception { |
| mWifiManager.getWifiActivityEnergyInfoAsync(mExecutor, null); |
| } |
| |
| /** Tests that the listener runs on the correct Executor. */ |
| @Test |
| public void testGetWifiActivityInfoRunsOnCorrectExecutor() throws Exception { |
| mWifiManager.getWifiActivityEnergyInfoAsync(mExecutor, mOnWifiActivityEnergyInfoListener); |
| ArgumentCaptor<IOnWifiActivityEnergyInfoListener> listenerCaptor = |
| ArgumentCaptor.forClass(IOnWifiActivityEnergyInfoListener.class); |
| verify(mWifiService).getWifiActivityEnergyInfoAsync(listenerCaptor.capture()); |
| IOnWifiActivityEnergyInfoListener listener = listenerCaptor.getValue(); |
| listener.onWifiActivityEnergyInfo(mWifiActivityEnergyInfo); |
| verify(mExecutor).execute(any()); |
| |
| // ensure that the executor is only triggered once |
| listener.onWifiActivityEnergyInfo(mWifiActivityEnergyInfo); |
| verify(mExecutor).execute(any()); |
| } |
| |
| /** Tests that the correct listener runs. */ |
| @Test |
| public void testGetWifiActivityInfoRunsCorrectListener() throws Exception { |
| int[] flag = {0}; |
| mWifiManager.getWifiActivityEnergyInfoAsync( |
| new SynchronousExecutor(), info -> flag[0]++); |
| ArgumentCaptor<IOnWifiActivityEnergyInfoListener> listenerCaptor = |
| ArgumentCaptor.forClass(IOnWifiActivityEnergyInfoListener.class); |
| verify(mWifiService).getWifiActivityEnergyInfoAsync(listenerCaptor.capture()); |
| IOnWifiActivityEnergyInfoListener listener = listenerCaptor.getValue(); |
| listener.onWifiActivityEnergyInfo(mWifiActivityEnergyInfo); |
| assertEquals(1, flag[0]); |
| |
| // ensure that the listener is only triggered once |
| listener.onWifiActivityEnergyInfo(mWifiActivityEnergyInfo); |
| assertEquals(1, flag[0]); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#getConnectionInfo()} |
| */ |
| @Test |
| public void testGetConnectionInfo() throws Exception { |
| WifiInfo wifiInfo = new WifiInfo(); |
| when(mWifiService.getConnectionInfo(anyString(), nullable(String.class))).thenReturn( |
| wifiInfo); |
| |
| assertEquals(wifiInfo, mWifiManager.getConnectionInfo()); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#is24GHzBandSupported()} |
| */ |
| @Test |
| public void testIs24GHzBandSupported() throws Exception { |
| when(mWifiService.is24GHzBandSupported()).thenReturn(true); |
| assertTrue(mWifiManager.is24GHzBandSupported()); |
| verify(mWifiService).is24GHzBandSupported(); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#is5GHzBandSupported()} |
| */ |
| @Test |
| public void testIs5GHzBandSupported() throws Exception { |
| when(mWifiService.is5GHzBandSupported()).thenReturn(true); |
| assertTrue(mWifiManager.is5GHzBandSupported()); |
| verify(mWifiService).is5GHzBandSupported(); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#is6GHzBandSupported()} |
| */ |
| @Test |
| public void testIs6GHzBandSupported() throws Exception { |
| when(mWifiService.is6GHzBandSupported()).thenReturn(true); |
| assertTrue(mWifiManager.is6GHzBandSupported()); |
| verify(mWifiService).is6GHzBandSupported(); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#is60GHzBandSupported()} |
| */ |
| @Test |
| public void testIs60GHzBandSupported() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| |
| when(mWifiService.is60GHzBandSupported()).thenReturn(true); |
| assertTrue(mWifiManager.is60GHzBandSupported()); |
| verify(mWifiService).is60GHzBandSupported(); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#isWifiStandardSupported()} |
| */ |
| @Test |
| public void testIsWifiStandardSupported() throws Exception { |
| int standard = ScanResult.WIFI_STANDARD_11AX; |
| when(mWifiService.isWifiStandardSupported(standard)).thenReturn(true); |
| assertTrue(mWifiManager.isWifiStandardSupported(standard)); |
| verify(mWifiService).isWifiStandardSupported(standard); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#getDhcpInfo()} |
| */ |
| @Test |
| public void testGetDhcpInfo() throws Exception { |
| DhcpInfo dhcpInfo = new DhcpInfo(); |
| |
| when(mWifiService.getDhcpInfo(TEST_PACKAGE_NAME)).thenReturn(dhcpInfo); |
| assertEquals(dhcpInfo, mWifiManager.getDhcpInfo()); |
| verify(mWifiService).getDhcpInfo(TEST_PACKAGE_NAME); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#setWifiEnabled(boolean)} |
| */ |
| @Test |
| public void testSetWifiEnabled() throws Exception { |
| when(mWifiService.setWifiEnabled(anyString(), anyBoolean())).thenReturn(true); |
| assertTrue(mWifiManager.setWifiEnabled(true)); |
| verify(mWifiService).setWifiEnabled(mContext.getOpPackageName(), true); |
| assertTrue(mWifiManager.setWifiEnabled(false)); |
| verify(mWifiService).setWifiEnabled(mContext.getOpPackageName(), false); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#connect(int, ActionListener)} |
| */ |
| @Test |
| public void testConnectWithListener() throws Exception { |
| ActionListener externalListener = mock(ActionListener.class); |
| mWifiManager.connect(TEST_NETWORK_ID, externalListener); |
| |
| ArgumentCaptor<IActionListener> binderListenerCaptor = |
| ArgumentCaptor.forClass(IActionListener.class); |
| verify(mWifiService).connect(eq(null), eq(TEST_NETWORK_ID), binderListenerCaptor.capture()); |
| assertNotNull(binderListenerCaptor.getValue()); |
| |
| // Trigger on success. |
| binderListenerCaptor.getValue().onSuccess(); |
| mLooper.dispatchAll(); |
| verify(externalListener).onSuccess(); |
| |
| // Trigger on failure. |
| binderListenerCaptor.getValue().onFailure(BUSY); |
| mLooper.dispatchAll(); |
| verify(externalListener).onFailure(BUSY); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#connect(int, ActionListener)} |
| */ |
| @Test |
| public void testConnectWithListenerHandleSecurityException() throws Exception { |
| doThrow(new SecurityException()).when(mWifiService) |
| .connect(eq(null), anyInt(), any(IActionListener.class)); |
| ActionListener externalListener = mock(ActionListener.class); |
| mWifiManager.connect(TEST_NETWORK_ID, externalListener); |
| |
| mLooper.dispatchAll(); |
| verify(externalListener).onFailure(NOT_AUTHORIZED); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#connect(int, ActionListener)} |
| */ |
| @Test |
| public void testConnectWithListenerHandleRemoteException() throws Exception { |
| doThrow(new RemoteException()).when(mWifiService) |
| .connect(eq(null), anyInt(), any(IActionListener.class)); |
| ActionListener externalListener = mock(ActionListener.class); |
| mWifiManager.connect(TEST_NETWORK_ID, externalListener); |
| |
| mLooper.dispatchAll(); |
| verify(externalListener).onFailure(ERROR); |
| } |
| |
| /** |
| * Test behavior of {@link WifiManager#connect(int, ActionListener)} |
| */ |
| @Test |
| public void testConnectWithoutListener() throws Exception { |
| WifiConfiguration configuration = new WifiConfiguration(); |
| mWifiManager.connect(configuration, null); |
| |
| verify(mWifiService).connect(configuration, WifiConfiguration.INVALID_NETWORK_ID, null); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if callback is not provided. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testRegisterScanResultsCallbackWithNullCallback() throws Exception { |
| mWifiManager.registerScanResultsCallback(mExecutor, null); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if executor is not provided. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testRegisterCallbackWithNullExecutor() throws Exception { |
| mWifiManager.registerScanResultsCallback(null, mScanResultsCallback); |
| } |
| |
| /** |
| * Verify client provided callback is being called to the right callback. |
| */ |
| @Test |
| public void testAddScanResultsCallbackAndReceiveEvent() throws Exception { |
| ArgumentCaptor<IScanResultsCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(IScanResultsCallback.Stub.class); |
| mWifiManager.registerScanResultsCallback(new SynchronousExecutor(), mScanResultsCallback); |
| verify(mWifiService).registerScanResultsCallback(callbackCaptor.capture()); |
| callbackCaptor.getValue().onScanResultsAvailable(); |
| verify(mRunnable).run(); |
| } |
| |
| /** |
| * Verify client provided callback is being called to the right executor. |
| */ |
| @Test |
| public void testRegisterScanResultsCallbackWithTheTargetExecutor() throws Exception { |
| ArgumentCaptor<IScanResultsCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(IScanResultsCallback.Stub.class); |
| mWifiManager.registerScanResultsCallback(mExecutor, mScanResultsCallback); |
| verify(mWifiService).registerScanResultsCallback(callbackCaptor.capture()); |
| mWifiManager.registerScanResultsCallback(mAnotherExecutor, mScanResultsCallback); |
| callbackCaptor.getValue().onScanResultsAvailable(); |
| verify(mExecutor, never()).execute(any(Runnable.class)); |
| verify(mAnotherExecutor).execute(any(Runnable.class)); |
| } |
| |
| /** |
| * Verify client register unregister then register again, to ensure callback still works. |
| */ |
| @Test |
| public void testRegisterUnregisterThenRegisterAgainWithScanResultCallback() throws Exception { |
| ArgumentCaptor<IScanResultsCallback.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(IScanResultsCallback.Stub.class); |
| mWifiManager.registerScanResultsCallback(new SynchronousExecutor(), mScanResultsCallback); |
| verify(mWifiService).registerScanResultsCallback(callbackCaptor.capture()); |
| mWifiManager.unregisterScanResultsCallback(mScanResultsCallback); |
| callbackCaptor.getValue().onScanResultsAvailable(); |
| verify(mRunnable, never()).run(); |
| mWifiManager.registerScanResultsCallback(new SynchronousExecutor(), mScanResultsCallback); |
| callbackCaptor.getValue().onScanResultsAvailable(); |
| verify(mRunnable).run(); |
| } |
| |
| /** |
| * Verify client unregisterScanResultsCallback. |
| */ |
| @Test |
| public void testUnregisterScanResultsCallback() throws Exception { |
| mWifiManager.unregisterScanResultsCallback(mScanResultsCallback); |
| verify(mWifiService).unregisterScanResultsCallback(any()); |
| } |
| |
| /** |
| * Verify client unregisterScanResultsCallback with null callback will cause an exception. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testUnregisterScanResultsCallbackWithNullCallback() throws Exception { |
| mWifiManager.unregisterScanResultsCallback(null); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if executor not provided. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testAddSuggestionConnectionStatusListenerWithNullExecutor() { |
| mWifiManager.addSuggestionConnectionStatusListener(null, mSuggestionConnectionListener); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if listener is not provided. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testAddSuggestionConnectionStatusListenerWithNullListener() { |
| mWifiManager.addSuggestionConnectionStatusListener(mExecutor, null); |
| } |
| |
| /** |
| * Verify client provided listener is being called to the right listener. |
| */ |
| @Test |
| public void testAddSuggestionConnectionStatusListenerAndReceiveEvent() throws Exception { |
| int errorCode = STATUS_SUGGESTION_CONNECTION_FAILURE_AUTHENTICATION; |
| ArgumentCaptor<ISuggestionConnectionStatusListener.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISuggestionConnectionStatusListener.Stub.class); |
| Executor executor = new SynchronousExecutor(); |
| mWifiManager.addSuggestionConnectionStatusListener(executor, mSuggestionConnectionListener); |
| verify(mWifiService).registerSuggestionConnectionStatusListener(callbackCaptor.capture(), |
| anyString(), nullable(String.class)); |
| callbackCaptor.getValue().onConnectionStatus(mWifiNetworkSuggestion, errorCode); |
| verify(mSuggestionConnectionListener).onConnectionStatus(any(WifiNetworkSuggestion.class), |
| eq(errorCode)); |
| } |
| |
| /** |
| * Verify client provided listener is being called to the right executor. |
| */ |
| @Test |
| public void testAddSuggestionConnectionStatusListenerWithTheTargetExecutor() throws Exception { |
| int errorCode = STATUS_SUGGESTION_CONNECTION_FAILURE_AUTHENTICATION; |
| ArgumentCaptor<ISuggestionConnectionStatusListener.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISuggestionConnectionStatusListener.Stub.class); |
| mWifiManager.addSuggestionConnectionStatusListener(mExecutor, |
| mSuggestionConnectionListener); |
| verify(mWifiService).registerSuggestionConnectionStatusListener(callbackCaptor.capture(), |
| anyString(), nullable(String.class)); |
| callbackCaptor.getValue().onConnectionStatus(any(WifiNetworkSuggestion.class), errorCode); |
| verify(mExecutor).execute(any(Runnable.class)); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if listener is not provided. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testRemoveSuggestionConnectionListenerWithNullListener() { |
| mWifiManager.removeSuggestionConnectionStatusListener(null); |
| } |
| |
| /** |
| * Verify removeSuggestionConnectionListener. |
| */ |
| @Test |
| public void testRemoveSuggestionConnectionListener() throws Exception { |
| ArgumentCaptor<ISuggestionConnectionStatusListener.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISuggestionConnectionStatusListener.Stub.class); |
| mWifiManager.addSuggestionConnectionStatusListener(mExecutor, |
| mSuggestionConnectionListener); |
| verify(mWifiService).registerSuggestionConnectionStatusListener(callbackCaptor.capture(), |
| anyString(), nullable(String.class)); |
| |
| mWifiManager.removeSuggestionConnectionStatusListener(mSuggestionConnectionListener); |
| verify(mWifiService).unregisterSuggestionConnectionStatusListener( |
| eq(callbackCaptor.getValue()), anyString()); |
| } |
| |
| /** Test {@link WifiManager#calculateSignalLevel(int)} */ |
| @Test |
| public void testCalculateSignalLevel() throws Exception { |
| when(mWifiService.calculateSignalLevel(anyInt())).thenReturn(3); |
| int actual = mWifiManager.calculateSignalLevel(-60); |
| verify(mWifiService).calculateSignalLevel(-60); |
| assertEquals(3, actual); |
| } |
| |
| /** Test {@link WifiManager#getMaxSignalLevel()} */ |
| @Test |
| public void testGetMaxSignalLevel() throws Exception { |
| when(mWifiService.calculateSignalLevel(anyInt())).thenReturn(4); |
| int actual = mWifiManager.getMaxSignalLevel(); |
| verify(mWifiService).calculateSignalLevel(Integer.MAX_VALUE); |
| assertEquals(4, actual); |
| } |
| |
| /* |
| * Test behavior of isWapiSupported |
| * @throws Exception |
| */ |
| @Test |
| public void testIsWapiSupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WifiManager.WIFI_FEATURE_WAPI)); |
| assertTrue(mWifiManager.isWapiSupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WifiManager.WIFI_FEATURE_WAPI)); |
| assertFalse(mWifiManager.isWapiSupported()); |
| } |
| |
| /* |
| * Test that DPP channel list is parsed correctly |
| */ |
| @Test |
| public void testparseDppChannelList() throws Exception { |
| String channelList = "81/1,2,3,4,5,6,7,8,9,10,11,115/36,40,44,48"; |
| SparseArray<int[]> expectedResult = new SparseArray<>(); |
| expectedResult.append(81, new int[]{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11}); |
| expectedResult.append(115, new int[]{36, 40, 44, 48}); |
| |
| SparseArray<int[]> result = WifiManager.parseDppChannelList(channelList); |
| assertEquals(expectedResult.size(), result.size()); |
| |
| int index = 0; |
| int key; |
| |
| // Compare the two primitive int arrays |
| do { |
| try { |
| key = result.keyAt(index); |
| } catch (java.lang.ArrayIndexOutOfBoundsException e) { |
| break; |
| } |
| int[] expected = expectedResult.get(key); |
| int[] output = result.get(key); |
| assertEquals(expected.length, output.length); |
| for (int i = 0; i < output.length; i++) { |
| assertEquals(expected[i], output[i]); |
| } |
| index++; |
| } while (true); |
| } |
| |
| /* |
| * Test that DPP channel list parser gracefully fails for invalid input |
| */ |
| @Test |
| public void testparseDppChannelListWithInvalidFormats() throws Exception { |
| String channelList = "1,2,3,4,5,6,7,8,9,10,11,36,40,44,48"; |
| SparseArray<int[]> result = WifiManager.parseDppChannelList(channelList); |
| assertEquals(result.size(), 0); |
| |
| channelList = "ajgalskgjalskjg3-09683dh"; |
| result = WifiManager.parseDppChannelList(channelList); |
| assertEquals(result.size(), 0); |
| |
| channelList = "13/abc,46////"; |
| result = WifiManager.parseDppChannelList(channelList); |
| assertEquals(result.size(), 0); |
| |
| channelList = "11/4,5,13/"; |
| result = WifiManager.parseDppChannelList(channelList); |
| assertEquals(result.size(), 0); |
| |
| channelList = "/24,6"; |
| result = WifiManager.parseDppChannelList(channelList); |
| assertEquals(result.size(), 0); |
| } |
| |
| /** |
| * Test getWifiConfigsForMatchedNetworkSuggestions for given scanResults. |
| */ |
| @Test |
| public void testGetWifiConfigsForMatchedNetworkSuggestions() throws Exception { |
| List<WifiConfiguration> testResults = new ArrayList<>(); |
| testResults.add(new WifiConfiguration()); |
| |
| when(mWifiService.getWifiConfigForMatchedNetworkSuggestionsSharedWithUser(any(List.class))) |
| .thenReturn(testResults); |
| assertEquals(testResults, mWifiManager |
| .getWifiConfigForMatchedNetworkSuggestionsSharedWithUser(new ArrayList<>())); |
| } |
| |
| /** |
| * Verify the call to setWifiConnectedNetworkScorer goes to WifiServiceImpl. |
| */ |
| @Test |
| public void setWifiConnectedNetworkScorerGoesToWifiServiceImpl() throws Exception { |
| mExecutor = new SynchronousExecutor(); |
| mWifiManager.setWifiConnectedNetworkScorer(mExecutor, mWifiConnectedNetworkScorer); |
| verify(mWifiService).setWifiConnectedNetworkScorer(any(IBinder.class), |
| any(IWifiConnectedNetworkScorer.Stub.class)); |
| } |
| |
| /** |
| * Verify the call to clearWifiConnectedNetworkScorer goes to WifiServiceImpl. |
| */ |
| @Test |
| public void clearWifiConnectedNetworkScorerGoesToWifiServiceImpl() throws Exception { |
| mExecutor = new SynchronousExecutor(); |
| mWifiManager.setWifiConnectedNetworkScorer(mExecutor, mWifiConnectedNetworkScorer); |
| verify(mWifiService).setWifiConnectedNetworkScorer(any(IBinder.class), |
| any(IWifiConnectedNetworkScorer.Stub.class)); |
| |
| mWifiManager.clearWifiConnectedNetworkScorer(); |
| verify(mWifiService).clearWifiConnectedNetworkScorer(); |
| } |
| |
| /** |
| * Verify that Wi-Fi connected scorer receives score update observer after registeration. |
| */ |
| @Test |
| public void verifyScorerReceiveScoreUpdateObserverAfterRegistration() throws Exception { |
| mExecutor = new SynchronousExecutor(); |
| mWifiManager.setWifiConnectedNetworkScorer(mExecutor, mWifiConnectedNetworkScorer); |
| ArgumentCaptor<IWifiConnectedNetworkScorer.Stub> scorerCaptor = |
| ArgumentCaptor.forClass(IWifiConnectedNetworkScorer.Stub.class); |
| verify(mWifiService).setWifiConnectedNetworkScorer(any(IBinder.class), |
| scorerCaptor.capture()); |
| scorerCaptor.getValue().onSetScoreUpdateObserver(any()); |
| mLooper.dispatchAll(); |
| verify(mWifiConnectedNetworkScorer).onSetScoreUpdateObserver(any()); |
| } |
| |
| /** |
| * Verify that Wi-Fi connected scorer receives session ID when onStart/onStop methods |
| * are called. |
| */ |
| @Test |
| public void verifyScorerReceiveSessionIdWhenStartStopIsCalled() throws Exception { |
| mExecutor = new SynchronousExecutor(); |
| mWifiManager.setWifiConnectedNetworkScorer(mExecutor, mWifiConnectedNetworkScorer); |
| ArgumentCaptor<IWifiConnectedNetworkScorer.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(IWifiConnectedNetworkScorer.Stub.class); |
| verify(mWifiService).setWifiConnectedNetworkScorer(any(IBinder.class), |
| callbackCaptor.capture()); |
| callbackCaptor.getValue().onStart(new WifiConnectedSessionInfo.Builder(10) |
| .setUserSelected(true) |
| .build()); |
| callbackCaptor.getValue().onStop(10); |
| mLooper.dispatchAll(); |
| verify(mWifiConnectedNetworkScorer).onStart( |
| argThat(sessionInfo -> sessionInfo.getSessionId() == 10 |
| && sessionInfo.isUserSelected())); |
| verify(mWifiConnectedNetworkScorer).onStop(10); |
| } |
| |
| /** |
| * Verify the call to setWifiScoringEnabled goes to WifiServiceImpl. |
| */ |
| @Test |
| public void setWifiScoringEnabledGoesToWifiServiceImpl() throws Exception { |
| mWifiManager.setWifiScoringEnabled(true); |
| verify(mWifiService).setWifiScoringEnabled(true); |
| } |
| |
| @Test |
| public void testScanThrottle() throws Exception { |
| mWifiManager.setScanThrottleEnabled(true); |
| verify(mWifiService).setScanThrottleEnabled(true); |
| |
| when(mWifiService.isScanThrottleEnabled()).thenReturn(false); |
| assertFalse(mWifiManager.isScanThrottleEnabled()); |
| verify(mWifiService).isScanThrottleEnabled(); |
| } |
| |
| @Test |
| public void testAutoWakeup() throws Exception { |
| mWifiManager.setAutoWakeupEnabled(true); |
| verify(mWifiService).setAutoWakeupEnabled(true); |
| |
| when(mWifiService.isAutoWakeupEnabled()).thenReturn(false); |
| assertFalse(mWifiManager.isAutoWakeupEnabled()); |
| verify(mWifiService).isAutoWakeupEnabled(); |
| } |
| |
| |
| @Test |
| public void testScanAvailable() throws Exception { |
| mWifiManager.setScanAlwaysAvailable(true); |
| verify(mWifiService).setScanAlwaysAvailable(true, TEST_PACKAGE_NAME); |
| |
| when(mWifiService.isScanAlwaysAvailable()).thenReturn(false); |
| assertFalse(mWifiManager.isScanAlwaysAvailable()); |
| verify(mWifiService).isScanAlwaysAvailable(); |
| } |
| |
| @Test |
| public void testSetCarrierNetworkOffload() throws Exception { |
| mWifiManager.setCarrierNetworkOffloadEnabled(TEST_SUB_ID, true, false); |
| verify(mWifiService).setCarrierNetworkOffloadEnabled(TEST_SUB_ID, |
| true, false); |
| } |
| |
| @Test |
| public void testGetCarrierNetworkOffload() throws Exception { |
| when(mWifiService.isCarrierNetworkOffloadEnabled(TEST_SUB_ID, false)).thenReturn(true); |
| assertTrue(mWifiManager.isCarrierNetworkOffloadEnabled(TEST_SUB_ID, false)); |
| verify(mWifiService).isCarrierNetworkOffloadEnabled(TEST_SUB_ID, false); |
| } |
| |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if listener is not provided. |
| */ |
| @Test(expected = IllegalArgumentException.class) |
| public void testRemoveSuggestionUserApprovalStatusListenerWithNullListener() { |
| mWifiManager.removeSuggestionUserApprovalStatusListener(null); |
| } |
| |
| |
| /** |
| * Verify removeSuggestionUserApprovalStatusListener. |
| */ |
| @Test |
| public void testRemoveSuggestionUserApprovalStatusListener() throws Exception { |
| ArgumentCaptor<ISuggestionUserApprovalStatusListener.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISuggestionUserApprovalStatusListener.Stub.class); |
| mWifiManager.addSuggestionUserApprovalStatusListener(mExecutor, |
| mSuggestionUserApprovalStatusListener); |
| verify(mWifiService).addSuggestionUserApprovalStatusListener(callbackCaptor.capture(), |
| anyString()); |
| |
| mWifiManager.removeSuggestionUserApprovalStatusListener( |
| mSuggestionUserApprovalStatusListener); |
| verify(mWifiService).removeSuggestionUserApprovalStatusListener( |
| eq(callbackCaptor.getValue()), anyString()); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if executor not provided. |
| */ |
| @Test(expected = NullPointerException.class) |
| public void testAddSuggestionUserApprovalStatusListenerWithNullExecutor() { |
| mWifiManager.addSuggestionUserApprovalStatusListener(null, |
| mSuggestionUserApprovalStatusListener); |
| } |
| |
| /** |
| * Verify an IllegalArgumentException is thrown if listener is not provided. |
| */ |
| @Test(expected = NullPointerException.class) |
| public void testAddSuggestionUserApprovalStatusListenerWithNullListener() { |
| mWifiManager.addSuggestionUserApprovalStatusListener(mExecutor, null); |
| } |
| |
| /** |
| * Verify client provided listener is being called to the right listener. |
| */ |
| @Test |
| public void testAddSuggestionUserApprovalStatusListenerAndReceiveEvent() throws Exception { |
| ArgumentCaptor<ISuggestionUserApprovalStatusListener.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISuggestionUserApprovalStatusListener.Stub.class); |
| Executor executor = new SynchronousExecutor(); |
| mWifiManager.addSuggestionUserApprovalStatusListener(executor, |
| mSuggestionUserApprovalStatusListener); |
| verify(mWifiService).addSuggestionUserApprovalStatusListener(callbackCaptor.capture(), |
| anyString()); |
| callbackCaptor.getValue().onUserApprovalStatusChange( |
| WifiManager.STATUS_SUGGESTION_APPROVAL_APPROVED_BY_USER); |
| verify(mSuggestionUserApprovalStatusListener).onUserApprovalStatusChange( |
| WifiManager.STATUS_SUGGESTION_APPROVAL_APPROVED_BY_USER); |
| } |
| |
| /** |
| * Verify client provided listener is being called to the right executor. |
| */ |
| @Test |
| public void testAddSuggestionUserApprovalStatusListenerWithTheTargetExecutor() |
| throws Exception { |
| ArgumentCaptor<ISuggestionUserApprovalStatusListener.Stub> callbackCaptor = |
| ArgumentCaptor.forClass(ISuggestionUserApprovalStatusListener.Stub.class); |
| mWifiManager.addSuggestionUserApprovalStatusListener(mExecutor, |
| mSuggestionUserApprovalStatusListener); |
| verify(mWifiService).addSuggestionUserApprovalStatusListener(callbackCaptor.capture(), |
| anyString()); |
| callbackCaptor.getValue().onUserApprovalStatusChange( |
| WifiManager.STATUS_SUGGESTION_APPROVAL_APPROVED_BY_USER); |
| verify(mExecutor).execute(any(Runnable.class)); |
| } |
| |
| @Test |
| public void testSetEmergencyScanRequestInProgress() throws Exception { |
| mWifiManager.setEmergencyScanRequestInProgress(true); |
| verify(mWifiService).setEmergencyScanRequestInProgress(true); |
| |
| mWifiManager.setEmergencyScanRequestInProgress(false); |
| verify(mWifiService).setEmergencyScanRequestInProgress(false); |
| } |
| |
| @Test |
| public void testRemoveAppState() throws Exception { |
| mWifiManager.removeAppState(TEST_UID, TEST_PACKAGE_NAME); |
| verify(mWifiService).removeAppState(TEST_UID, TEST_PACKAGE_NAME); |
| } |
| |
| /** |
| * Test behavior of isPasspointTermsAndConditionsSupported |
| */ |
| @Test |
| public void testIsPasspointTermsAndConditionsSupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_PASSPOINT_TERMS_AND_CONDITIONS)); |
| assertTrue(mWifiManager.isPasspointTermsAndConditionsSupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WIFI_FEATURE_PASSPOINT_TERMS_AND_CONDITIONS)); |
| assertFalse(mWifiManager.isPasspointTermsAndConditionsSupported()); |
| } |
| |
| /** |
| * Verify the call to setOverrideCountryCode goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testSetOverrideCountryCode() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.setOverrideCountryCode(TEST_COUNTRY_CODE); |
| verify(mWifiService).setOverrideCountryCode(eq(TEST_COUNTRY_CODE)); |
| } |
| |
| /** |
| * Verify the call to clearOverrideCountryCode goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testClearOverrideCountryCode() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.clearOverrideCountryCode(); |
| verify(mWifiService).clearOverrideCountryCode(); |
| } |
| |
| /** |
| * Verify the call to setDefaultCountryCode goes to WifiServiceImpl. |
| */ |
| @Test |
| public void testSetDefaultCountryCode() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| mWifiManager.setDefaultCountryCode(TEST_COUNTRY_CODE); |
| verify(mWifiService).setDefaultCountryCode(eq(TEST_COUNTRY_CODE)); |
| } |
| |
| /** |
| * Test behavior of flushPasspointAnqpCache |
| */ |
| @Test |
| public void testFlushPasspointAnqpCache() throws Exception { |
| mWifiManager.flushPasspointAnqpCache(); |
| verify(mWifiService).flushPasspointAnqpCache(anyString()); |
| } |
| |
| /** |
| * Test behavior of isDecoratedIdentitySupported |
| */ |
| @Test |
| public void testIsDecoratedIdentitySupported() throws Exception { |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(WIFI_FEATURE_DECORATED_IDENTITY)); |
| assertTrue(mWifiManager.isDecoratedIdentitySupported()); |
| when(mWifiService.getSupportedFeatures()) |
| .thenReturn(new Long(~WIFI_FEATURE_DECORATED_IDENTITY)); |
| assertFalse(mWifiManager.isDecoratedIdentitySupported()); |
| } |
| |
| /** |
| * Verify call to getAllowedChannels goes to WifiServiceImpl |
| */ |
| @Test |
| public void testGetAllowedChannels() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| int band = WifiScanner.WIFI_BAND_24_5_6_GHZ; |
| int mode = WifiAvailableChannel.OP_MODE_WIFI_AWARE |
| | WifiAvailableChannel.OP_MODE_WIFI_DIRECT_GO |
| | WifiAvailableChannel.OP_MODE_WIFI_DIRECT_CLI; |
| mWifiManager.getAllowedChannels(band, mode); |
| verify(mWifiService).getUsableChannels(eq(band), eq(mode), |
| eq(WifiAvailableChannel.FILTER_REGULATORY)); |
| } |
| |
| /** |
| * Verify call to getUsableChannels goes to WifiServiceImpl |
| */ |
| @Test |
| public void testGetUsableChannels() throws Exception { |
| assumeTrue(SdkLevel.isAtLeastS()); |
| int band = WifiScanner.WIFI_BAND_BOTH_WITH_DFS; |
| int mode = WifiAvailableChannel.OP_MODE_WIFI_AWARE |
| | WifiAvailableChannel.OP_MODE_WIFI_DIRECT_CLI; |
| mWifiManager.getUsableChannels(band, mode); |
| verify(mWifiService).getUsableChannels(eq(band), eq(mode), |
| eq(WifiAvailableChannel.FILTER_CONCURRENCY |
| | WifiAvailableChannel.FILTER_CELLULAR_COEXISTENCE)); |
| } |
| } |