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android / platform / frameworks / opt / net / wifi / ece7e1bb352a57ed82124173449b7d5b6d479e8e / . / tests / wifitests / src / com / android / server / wifi / WifiConfigManagerTest.java
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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.server.wifi;
import static org.junit.Assert.*;
import static org.mockito.Mockito.*;
import android.annotation.Nullable;
import android.app.admin.DeviceAdminInfo;
import android.app.admin.DevicePolicyManagerInternal;
import android.app.test.MockAnswerUtil.AnswerWithArguments;
import android.content.Context;
import android.content.Intent;
import android.content.pm.ApplicationInfo;
import android.content.pm.PackageManager;
import android.content.pm.UserInfo;
import android.database.ContentObserver;
import android.net.IpConfiguration;
import android.net.MacAddress;
import android.net.wifi.ScanResult;
import android.net.wifi.WifiConfiguration;
import android.net.wifi.WifiConfiguration.NetworkSelectionStatus;
import android.net.wifi.WifiEnterpriseConfig;
import android.net.wifi.WifiInfo;
import android.net.wifi.WifiManager;
import android.net.wifi.WifiScanner;
import android.os.Process;
import android.os.UserHandle;
import android.os.UserManager;
import android.os.test.TestLooper;
import android.provider.Settings;
import android.telephony.TelephonyManager;
import android.text.TextUtils;
import android.util.Pair;
import androidx.test.filters.SmallTest;
import com.android.dx.mockito.inline.extended.ExtendedMockito;
import com.android.internal.R;
import com.android.server.wifi.util.TelephonyUtil;
import com.android.server.wifi.util.WifiPermissionsUtil;
import com.android.server.wifi.util.WifiPermissionsWrapper;
import org.junit.After;
import org.junit.Before;
import org.junit.Test;
import org.mockito.ArgumentCaptor;
import org.mockito.InOrder;
import org.mockito.Mock;
import org.mockito.MockitoAnnotations;
import org.mockito.MockitoSession;
import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.io.StringWriter;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Random;
import java.util.Set;
/**
* Unit tests for {@link com.android.server.wifi.WifiConfigManager}.
*/
@SmallTest
public class WifiConfigManagerTest {
private static final String TEST_SSID = "\"test_ssid\"";
private static final String TEST_BSSID = "0a:08:5c:67:89:00";
private static final long TEST_WALLCLOCK_CREATION_TIME_MILLIS = 9845637;
private static final long TEST_WALLCLOCK_UPDATE_TIME_MILLIS = 75455637;
private static final long TEST_ELAPSED_UPDATE_NETWORK_SELECTION_TIME_MILLIS = 29457631;
private static final int TEST_CREATOR_UID = WifiConfigurationTestUtil.TEST_UID;
private static final int TEST_NO_PERM_UID = 7;
private static final int TEST_UPDATE_UID = 4;
private static final int TEST_SYSUI_UID = 56;
private static final int TEST_DEFAULT_USER = UserHandle.USER_SYSTEM;
private static final int TEST_MAX_NUM_ACTIVE_CHANNELS_FOR_PARTIAL_SCAN = 5;
private static final Integer[] TEST_FREQ_LIST = {2400, 2450, 5150, 5175, 5650};
private static final String TEST_CREATOR_NAME = "com.wificonfigmanager.creator";
private static final String TEST_UPDATE_NAME = "com.wificonfigmanager.update";
private static final String TEST_NO_PERM_NAME = "com.wificonfigmanager.noperm";
private static final String TEST_WIFI_NAME = "android.uid.system";
private static final String TEST_DEFAULT_GW_MAC_ADDRESS = "0f:67:ad:ef:09:34";
private static final String TEST_STATIC_PROXY_HOST_1 = "192.168.48.1";
private static final int TEST_STATIC_PROXY_PORT_1 = 8000;
private static final String TEST_STATIC_PROXY_EXCLUSION_LIST_1 = "";
private static final String TEST_PAC_PROXY_LOCATION_1 = "http://bleh";
private static final String TEST_STATIC_PROXY_HOST_2 = "192.168.1.1";
private static final int TEST_STATIC_PROXY_PORT_2 = 3000;
private static final String TEST_STATIC_PROXY_EXCLUSION_LIST_2 = "";
private static final String TEST_PAC_PROXY_LOCATION_2 = "http://blah";
private static final int TEST_RSSI = -50;
private static final int TEST_FREQUENCY_1 = 2412;
private static final int TEST_FREQUENCY_2 = 5180;
private static final int TEST_FREQUENCY_3 = 5240;
@Mock private Context mContext;
@Mock private Clock mClock;
@Mock private UserManager mUserManager;
@Mock private TelephonyManager mTelephonyManager;
@Mock private TelephonyManager mDataTelephonyManager;
@Mock private WifiKeyStore mWifiKeyStore;
@Mock private WifiConfigStore mWifiConfigStore;
@Mock private PackageManager mPackageManager;
@Mock private DevicePolicyManagerInternal mDevicePolicyManagerInternal;
@Mock private WifiPermissionsUtil mWifiPermissionsUtil;
@Mock private WifiPermissionsWrapper mWifiPermissionsWrapper;
@Mock private WifiInjector mWifiInjector;
@Mock private WifiLastResortWatchdog mWifiLastResortWatchdog;
@Mock private NetworkListSharedStoreData mNetworkListSharedStoreData;
@Mock private NetworkListUserStoreData mNetworkListUserStoreData;
@Mock private DeletedEphemeralSsidsStoreData mDeletedEphemeralSsidsStoreData;
@Mock private RandomizedMacStoreData mRandomizedMacStoreData;
@Mock private WifiConfigManager.OnSavedNetworkUpdateListener mWcmListener;
@Mock private FrameworkFacade mFrameworkFacade;
@Mock private CarrierNetworkConfig mCarrierNetworkConfig;
private MockResources mResources;
private InOrder mContextConfigStoreMockOrder;
private InOrder mNetworkListStoreDataMockOrder;
private WifiConfigManager mWifiConfigManager;
private boolean mStoreReadTriggered = false;
private TestLooper mLooper = new TestLooper();
private ContentObserver mContentObserverPnoChannelCulling;
private ContentObserver mContentObserverPnoRecencySorting;
private MockitoSession mSession;
/**
* Setup the mocks and an instance of WifiConfigManager before each test.
*/
@Before
public void setUp() throws Exception {
MockitoAnnotations.initMocks(this);
// Set up the inorder for verifications. This is needed to verify that the broadcasts,
// store writes for network updates followed by network additions are in the expected order.
mContextConfigStoreMockOrder = inOrder(mContext, mWifiConfigStore);
mNetworkListStoreDataMockOrder =
inOrder(mNetworkListSharedStoreData, mNetworkListUserStoreData);
// Set up the package name stuff & permission override.
when(mContext.getPackageManager()).thenReturn(mPackageManager);
mResources = new MockResources();
mResources.setBoolean(
R.bool.config_wifi_only_link_same_credential_configurations, true);
mResources.setInteger(
R.integer.config_wifi_framework_associated_partial_scan_max_num_active_channels,
TEST_MAX_NUM_ACTIVE_CHANNELS_FOR_PARTIAL_SCAN);
mResources.setBoolean(R.bool.config_wifi_connected_mac_randomization_supported, true);
when(mContext.getResources()).thenReturn(mResources);
// Setup UserManager profiles for the default user.
setupUserProfiles(TEST_DEFAULT_USER);
doAnswer(new AnswerWithArguments() {
public String answer(int uid) throws Exception {
if (uid == TEST_CREATOR_UID) {
return TEST_CREATOR_NAME;
} else if (uid == TEST_UPDATE_UID) {
return TEST_UPDATE_NAME;
} else if (uid == TEST_SYSUI_UID) {
return WifiConfigManager.SYSUI_PACKAGE_NAME;
} else if (uid == TEST_NO_PERM_UID) {
return TEST_NO_PERM_NAME;
} else if (uid == Process.WIFI_UID) {
return TEST_WIFI_NAME;
}
fail("Unexpected UID: " + uid);
return "";
}
}).when(mPackageManager).getNameForUid(anyInt());
doAnswer(new AnswerWithArguments() {
public int answer(String packageName, int flags, int userId) throws Exception {
if (packageName.equals(WifiConfigManager.SYSUI_PACKAGE_NAME)) {
return TEST_SYSUI_UID;
} else {
return 0;
}
}
}).when(mPackageManager).getPackageUidAsUser(anyString(), anyInt(), anyInt());
when(mWifiKeyStore
.updateNetworkKeys(any(WifiConfiguration.class), any()))
.thenReturn(true);
when(mWifiConfigStore.areStoresPresent()).thenReturn(true);
setupStoreDataForRead(new ArrayList<>(), new ArrayList<>(), new HashMap<>());
when(mDevicePolicyManagerInternal.isActiveAdminWithPolicy(anyInt(), anyInt()))
.thenReturn(false);
when(mWifiPermissionsUtil.checkNetworkSettingsPermission(anyInt())).thenReturn(true);
when(mWifiPermissionsWrapper.getDevicePolicyManagerInternal())
.thenReturn(mDevicePolicyManagerInternal);
when(mWifiInjector.getWifiLastResortWatchdog()).thenReturn(mWifiLastResortWatchdog);
when(mWifiInjector.getWifiLastResortWatchdog().shouldIgnoreSsidUpdate())
.thenReturn(false);
when(mWifiInjector.getCarrierNetworkConfig()).thenReturn(mCarrierNetworkConfig);
createWifiConfigManager();
mWifiConfigManager.setOnSavedNetworkUpdateListener(mWcmListener);
ArgumentCaptor<ContentObserver> observerCaptor =
ArgumentCaptor.forClass(ContentObserver.class);
verify(mFrameworkFacade).registerContentObserver(eq(mContext), eq(Settings.Global.getUriFor(
Settings.Global.WIFI_PNO_FREQUENCY_CULLING_ENABLED)), eq(false),
observerCaptor.capture());
mContentObserverPnoChannelCulling = observerCaptor.getValue();
verify(mFrameworkFacade).registerContentObserver(eq(mContext), eq(Settings.Global.getUriFor(
Settings.Global.WIFI_PNO_RECENCY_SORTING_ENABLED)), eq(false),
observerCaptor.capture());
mContentObserverPnoRecencySorting = observerCaptor.getValue();
// static mocking
mSession = ExtendedMockito.mockitoSession()
.mockStatic(WifiConfigStore.class, withSettings().lenient())
.startMocking();
when(WifiConfigStore.createUserFiles(anyInt(), any(UserManager.class)))
.thenReturn(mock(List.class));
when(mTelephonyManager.createForSubscriptionId(anyInt())).thenReturn(mDataTelephonyManager);
}
/**
* Called after each test
*/
@After
public void cleanup() {
validateMockitoUsage();
mSession.finishMocking();
}
/**
* Verifies that network retrieval via
* {@link WifiConfigManager#getConfiguredNetworks()} and
* {@link WifiConfigManager#getConfiguredNetworksWithPasswords()} works even if we have not
* yet loaded data from store.
*/
@Test
public void testGetConfiguredNetworksBeforeLoadFromStore() {
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
assertTrue(mWifiConfigManager.getConfiguredNetworksWithPasswords().isEmpty());
}
/**
* Verifies that network addition via
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} fails if we have not
* yet loaded data from store.
*/
@Test
public void testAddNetworkIsRejectedBeforeLoadFromStore() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
assertFalse(
mWifiConfigManager.addOrUpdateNetwork(openNetwork, TEST_CREATOR_UID).isSuccess());
}
/**
* Verifies the {@link WifiConfigManager#saveToStore(boolean)} is rejected until the store has
* been read first using {@link WifiConfigManager#loadFromStore()}.
*/
@Test
public void testSaveToStoreIsRejectedBeforeLoadFromStore() throws Exception {
assertFalse(mWifiConfigManager.saveToStore(true));
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
assertTrue(mWifiConfigManager.loadFromStore());
mContextConfigStoreMockOrder.verify(mWifiConfigStore).read();
assertTrue(mWifiConfigManager.saveToStore(true));
mContextConfigStoreMockOrder.verify(mWifiConfigStore).write(anyBoolean());
}
/**
* Verifies the addition of a single network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}
*/
@Test
public void testAddSingleOpenNetwork() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(openNetwork);
verifyAddNetworkToWifiConfigManager(openNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
// Ensure that the newly added network is disabled.
assertEquals(WifiConfiguration.Status.DISABLED, retrievedNetworks.get(0).status);
}
/**
* Verifies the addition of a single network when the corresponding ephemeral network exists.
*/
@Test
public void testAddSingleOpenNetworkWhenCorrespondingEphemeralNetworkExists() throws Exception {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(openNetwork);
WifiConfiguration ephemeralNetwork = new WifiConfiguration(openNetwork);
ephemeralNetwork.ephemeral = true;
verifyAddEphemeralNetworkToWifiConfigManager(ephemeralNetwork);
NetworkUpdateResult result = addNetworkToWifiConfigManager(openNetwork);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(result.isNewNetwork());
verifyNetworkRemoveBroadcast(ephemeralNetwork);
verifyNetworkAddBroadcast(openNetwork);
// Verify that the config store write was triggered with this new configuration.
verifyNetworkInConfigStoreData(openNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
// Ensure that the newly added network is disabled.
assertEquals(WifiConfiguration.Status.DISABLED, retrievedNetworks.get(0).status);
}
/**
* Verifies the addition of an ephemeral network when the corresponding ephemeral network
* exists.
*/
@Test
public void testAddEphemeralNetworkWhenCorrespondingEphemeralNetworkExists() throws Exception {
WifiConfiguration ephemeralNetwork = WifiConfigurationTestUtil.createOpenNetwork();
ephemeralNetwork.ephemeral = true;
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(ephemeralNetwork);
WifiConfiguration ephemeralNetwork2 = new WifiConfiguration(ephemeralNetwork);
verifyAddEphemeralNetworkToWifiConfigManager(ephemeralNetwork);
NetworkUpdateResult result = addNetworkToWifiConfigManager(ephemeralNetwork2);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
verifyNetworkUpdateBroadcast(ephemeralNetwork);
// Ensure that the write was not invoked for ephemeral network addition.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
}
/**
* Verifies when adding a new network with already saved MAC, the saved MAC gets set to the
* internal WifiConfiguration.
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}
*/
@Test
public void testAddingNetworkWithMatchingMacAddressOverridesField() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
Map<String, String> randomizedMacAddressMapping = new HashMap<>();
final String randMac = "12:23:34:45:56:67";
randomizedMacAddressMapping.put(openNetwork.getSsidAndSecurityTypeString(), randMac);
assertNotEquals(randMac, openNetwork.getRandomizedMacAddress());
when(mRandomizedMacStoreData.getMacMapping()).thenReturn(randomizedMacAddressMapping);
// reads XML data storage
//mWifiConfigManager.loadFromStore();
verifyAddNetworkToWifiConfigManager(openNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
assertEquals(randMac, retrievedNetworks.get(0).getRandomizedMacAddress().toString());
}
/**
* Verifies that when a network is added, removed, and then added back again, its randomized
* MAC address doesn't change.
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}
*/
@Test
public void testRandomizedMacAddressIsPersistedOverForgetNetwork() {
// Create and add an open network
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
verifyAddNetworkToWifiConfigManager(openNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
// Gets the randomized MAC address of the network added.
final String randMac = retrievedNetworks.get(0).getRandomizedMacAddress().toString();
// This MAC should be different from the default, uninitialized randomized MAC.
assertNotEquals(openNetwork.getRandomizedMacAddress().toString(), randMac);
// Remove the added network
verifyRemoveNetworkFromWifiConfigManager(openNetwork);
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
// Adds the network back again and verify randomized MAC address stays the same.
verifyAddNetworkToWifiConfigManager(openNetwork);
retrievedNetworks = mWifiConfigManager.getConfiguredNetworksWithPasswords();
assertEquals(randMac, retrievedNetworks.get(0).getRandomizedMacAddress().toString());
}
/**
* Verifies that when a network is read from xml storage, it is assigned a randomized MAC
* address if it doesn't have one yet. Then try removing the network and then add it back
* again and verify the randomized MAC didn't change.
*/
@Test
public void testRandomizedMacAddressIsGeneratedForConfigurationReadFromStore()
throws Exception {
// Create and add an open network
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
final String defaultMac = openNetwork.getRandomizedMacAddress().toString();
List<WifiConfiguration> sharedConfigList = new ArrayList<>();
sharedConfigList.add(openNetwork);
// Setup xml storage
setupStoreDataForRead(sharedConfigList, new ArrayList<>(), new HashMap<>());
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
// Gets the randomized MAC address of the network added.
final String randMac = retrievedNetworks.get(0).getRandomizedMacAddress().toString();
// This MAC should be different from the default, uninitialized randomized MAC.
assertNotEquals(defaultMac, randMac);
assertTrue(mWifiConfigManager.removeNetwork(openNetwork.networkId, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
// Adds the network back again and verify randomized MAC address stays the same.
mWifiConfigManager.addOrUpdateNetwork(openNetwork, TEST_CREATOR_UID);
retrievedNetworks = mWifiConfigManager.getConfiguredNetworksWithPasswords();
assertEquals(randMac, retrievedNetworks.get(0).getRandomizedMacAddress().toString());
}
/**
* Verifies the modification of a single network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}
*/
@Test
public void testUpdateSingleOpenNetwork() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(openNetwork);
verifyAddNetworkToWifiConfigManager(openNetwork);
verify(mWcmListener).onSavedNetworkAdded(openNetwork.networkId);
reset(mWcmListener);
// Now change BSSID for the network.
assertAndSetNetworkBSSID(openNetwork, TEST_BSSID);
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(openNetwork);
// Now verify that the modification has been effective.
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
verify(mWcmListener).onSavedNetworkUpdated(openNetwork.networkId);
}
/**
* Verifies that the device owner could modify other other fields in the Wificonfiguration
* but not the macRandomizationSetting field.
*/
@Test
public void testCannotUpdateMacRandomizationSettingWithoutPermission() {
when(mWifiPermissionsUtil.checkNetworkSettingsPermission(anyInt())).thenReturn(false);
when(mWifiPermissionsUtil.checkNetworkSetupWizardPermission(anyInt())).thenReturn(false);
when(mDevicePolicyManagerInternal.isActiveAdminWithPolicy(anyInt(), anyInt()))
.thenReturn(true);
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
openNetwork.macRandomizationSetting = WifiConfiguration.RANDOMIZATION_PERSISTENT;
verifyAddNetworkToWifiConfigManager(openNetwork);
verify(mWcmListener).onSavedNetworkAdded(openNetwork.networkId);
reset(mWcmListener);
// Change BSSID for the network and verify success
assertAndSetNetworkBSSID(openNetwork, TEST_BSSID);
NetworkUpdateResult networkUpdateResult = updateNetworkToWifiConfigManager(openNetwork);
assertNotEquals(WifiConfiguration.INVALID_NETWORK_ID, networkUpdateResult.getNetworkId());
// Now change the macRandomizationSetting and verify failure
openNetwork.macRandomizationSetting = WifiConfiguration.RANDOMIZATION_NONE;
networkUpdateResult = updateNetworkToWifiConfigManager(openNetwork);
assertEquals(WifiConfiguration.INVALID_NETWORK_ID, networkUpdateResult.getNetworkId());
}
/**
* Verifies that mac randomization settings could be modified by a caller with NETWORK_SETTINGS
* permission.
*/
@Test
public void testCanUpdateMacRandomizationSettingWithNetworkSettingPermission() {
when(mWifiPermissionsUtil.checkNetworkSetupWizardPermission(anyInt())).thenReturn(false);
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
openNetwork.macRandomizationSetting = WifiConfiguration.RANDOMIZATION_PERSISTENT;
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(openNetwork);
verifyAddNetworkToWifiConfigManager(openNetwork);
verify(mWcmListener).onSavedNetworkAdded(openNetwork.networkId);
reset(mWcmListener);
// Now change the macRandomizationSetting and verify success
openNetwork.macRandomizationSetting = WifiConfiguration.RANDOMIZATION_NONE;
NetworkUpdateResult networkUpdateResult = updateNetworkToWifiConfigManager(openNetwork);
assertNotEquals(WifiConfiguration.INVALID_NETWORK_ID, networkUpdateResult.getNetworkId());
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
}
/**
* Verifies that mac randomization settings could be modified by a caller with
* NETWORK_SETUP_WIZARD permission.
*/
@Test
public void testCanUpdateMacRandomizationSettingWithSetupWizardPermission() {
when(mWifiPermissionsUtil.checkNetworkSettingsPermission(anyInt())).thenReturn(false);
when(mWifiPermissionsUtil.checkNetworkSetupWizardPermission(anyInt())).thenReturn(true);
when(mDevicePolicyManagerInternal.isActiveAdminWithPolicy(anyInt(), anyInt()))
.thenReturn(true);
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
openNetwork.macRandomizationSetting = WifiConfiguration.RANDOMIZATION_PERSISTENT;
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(openNetwork);
verifyAddNetworkToWifiConfigManager(openNetwork);
verify(mWcmListener).onSavedNetworkAdded(openNetwork.networkId);
reset(mWcmListener);
// Now change the macRandomizationSetting and verify success
openNetwork.macRandomizationSetting = WifiConfiguration.RANDOMIZATION_NONE;
NetworkUpdateResult networkUpdateResult = updateNetworkToWifiConfigManager(openNetwork);
assertNotEquals(WifiConfiguration.INVALID_NETWORK_ID, networkUpdateResult.getNetworkId());
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
}
/**
* Verifies the addition of a single ephemeral network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} and verifies that
* the {@link WifiConfigManager#getSavedNetworks(int)} does not return this network.
*/
@Test
public void testAddSingleEphemeralNetwork() throws Exception {
WifiConfiguration ephemeralNetwork = WifiConfigurationTestUtil.createOpenNetwork();
ephemeralNetwork.ephemeral = true;
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(ephemeralNetwork);
verifyAddEphemeralNetworkToWifiConfigManager(ephemeralNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
// Ensure that this is not returned in the saved network list.
assertTrue(mWifiConfigManager.getSavedNetworks(Process.WIFI_UID).isEmpty());
verify(mWcmListener, never()).onSavedNetworkAdded(ephemeralNetwork.networkId);
}
/**
* Verifies the addition of a single passpoint network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} and verifies that
* the {@link WifiConfigManager#getSavedNetworks(int)} ()} does not return this network.
*/
@Test
public void testAddSinglePasspointNetwork() throws Exception {
WifiConfiguration passpointNetwork = WifiConfigurationTestUtil.createPasspointNetwork();
verifyAddPasspointNetworkToWifiConfigManager(passpointNetwork);
// Ensure that configured network list is not empty.
assertFalse(mWifiConfigManager.getConfiguredNetworks().isEmpty());
// Ensure that this is not returned in the saved network list.
assertTrue(mWifiConfigManager.getSavedNetworks(Process.WIFI_UID).isEmpty());
verify(mWcmListener, never()).onSavedNetworkAdded(passpointNetwork.networkId);
}
/**
* Verifies the addition of 2 networks (1 normal and 1 ephemeral) using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} and ensures that
* the ephemeral network configuration is not persisted in config store.
*/
@Test
public void testAddMultipleNetworksAndEnsureEphemeralNetworkNotPersisted() {
WifiConfiguration ephemeralNetwork = WifiConfigurationTestUtil.createOpenNetwork();
ephemeralNetwork.ephemeral = true;
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
assertTrue(addNetworkToWifiConfigManager(ephemeralNetwork).isSuccess());
assertTrue(addNetworkToWifiConfigManager(openNetwork).isSuccess());
// The open network addition should trigger a store write.
Pair<List<WifiConfiguration>, List<WifiConfiguration>> networkListStoreData =
captureWriteNetworksListStoreData();
List<WifiConfiguration> networkList = new ArrayList<>();
networkList.addAll(networkListStoreData.first);
networkList.addAll(networkListStoreData.second);
assertFalse(isNetworkInConfigStoreData(ephemeralNetwork, networkList));
assertTrue(isNetworkInConfigStoreData(openNetwork, networkList));
}
/**
* Verifies the addition of a single suggestion network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int, String)} and verifies
* that the {@link WifiConfigManager#getSavedNetworks()} does not return this network.
*/
@Test
public void testAddSingleSuggestionNetwork() throws Exception {
WifiConfiguration suggestionNetwork = WifiConfigurationTestUtil.createOpenNetwork();
suggestionNetwork.ephemeral = true;
suggestionNetwork.fromWifiNetworkSuggestion = true;
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(suggestionNetwork);
verifyAddSuggestionOrRequestNetworkToWifiConfigManager(suggestionNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
// Ensure that this is not returned in the saved network list.
assertTrue(mWifiConfigManager.getSavedNetworks(Process.WIFI_UID).isEmpty());
verify(mWcmListener, never()).onSavedNetworkAdded(suggestionNetwork.networkId);
}
/**
* Verifies the addition of a single specifier network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int, String)} and verifies
* that the {@link WifiConfigManager#getSavedNetworks()} does not return this network.
*/
@Test
public void testAddSingleSpecifierNetwork() throws Exception {
WifiConfiguration suggestionNetwork = WifiConfigurationTestUtil.createOpenNetwork();
suggestionNetwork.ephemeral = true;
suggestionNetwork.fromWifiNetworkSpecifier = true;
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(suggestionNetwork);
verifyAddSuggestionOrRequestNetworkToWifiConfigManager(suggestionNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
// Ensure that this is not returned in the saved network list.
assertTrue(mWifiConfigManager.getSavedNetworks(Process.WIFI_UID).isEmpty());
verify(mWcmListener, never()).onSavedNetworkAdded(suggestionNetwork.networkId);
}
/**
* Verifies that the modification of a single open network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} with a UID which
* has no permission to modify the network fails.
*/
@Test
public void testUpdateSingleOpenNetworkFailedDueToPermissionDenied() throws Exception {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(openNetwork);
verifyAddNetworkToWifiConfigManager(openNetwork);
// Now change BSSID of the network.
assertAndSetNetworkBSSID(openNetwork, TEST_BSSID);
when(mWifiPermissionsUtil.checkNetworkSettingsPermission(anyInt())).thenReturn(false);
// Update the same configuration and ensure that the operation failed.
NetworkUpdateResult result = updateNetworkToWifiConfigManager(openNetwork);
assertTrue(result.getNetworkId() == WifiConfiguration.INVALID_NETWORK_ID);
}
/**
* Verifies that the modification of a single open network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} with the creator UID
* should always succeed.
*/
@Test
public void testUpdateSingleOpenNetworkSuccessWithCreatorUID() throws Exception {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(openNetwork);
verifyAddNetworkToWifiConfigManager(openNetwork);
// Now change BSSID of the network.
assertAndSetNetworkBSSID(openNetwork, TEST_BSSID);
// Update the same configuration using the creator UID.
NetworkUpdateResult result =
mWifiConfigManager.addOrUpdateNetwork(openNetwork, TEST_CREATOR_UID);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
// Now verify that the modification has been effective.
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
}
/**
* Verifies the addition of a single PSK network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} and verifies that
* {@link WifiConfigManager#getSavedNetworks()} masks the password.
*/
@Test
public void testAddSinglePskNetwork() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(pskNetwork);
verifyAddNetworkToWifiConfigManager(pskNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
List<WifiConfiguration> retrievedSavedNetworks = mWifiConfigManager.getSavedNetworks(
Process.WIFI_UID);
assertEquals(retrievedSavedNetworks.size(), 1);
assertEquals(retrievedSavedNetworks.get(0).configKey(), pskNetwork.configKey());
assertPasswordsMaskedInWifiConfiguration(retrievedSavedNetworks.get(0));
}
/**
* Verifies the addition of a single WEP network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} and verifies that
* {@link WifiConfigManager#getSavedNetworks()} masks the password.
*/
@Test
public void testAddSingleWepNetwork() {
WifiConfiguration wepNetwork = WifiConfigurationTestUtil.createWepNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(wepNetwork);
verifyAddNetworkToWifiConfigManager(wepNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
List<WifiConfiguration> retrievedSavedNetworks = mWifiConfigManager.getSavedNetworks(
Process.WIFI_UID);
assertEquals(retrievedSavedNetworks.size(), 1);
assertEquals(retrievedSavedNetworks.get(0).configKey(), wepNetwork.configKey());
assertPasswordsMaskedInWifiConfiguration(retrievedSavedNetworks.get(0));
}
/**
* Verifies the modification of an IpConfiguration using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}
*/
@Test
public void testUpdateIpConfiguration() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(openNetwork);
verifyAddNetworkToWifiConfigManager(openNetwork);
// Now change BSSID of the network.
assertAndSetNetworkBSSID(openNetwork, TEST_BSSID);
// Update the same configuration and ensure that the IP configuration change flags
// are not set.
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(openNetwork);
// Configure mock DevicePolicyManager to give Profile Owner permission so that we can modify
// proxy settings on a configuration
when(mDevicePolicyManagerInternal.isActiveAdminWithPolicy(anyInt(),
eq(DeviceAdminInfo.USES_POLICY_PROFILE_OWNER))).thenReturn(true);
// Change the IpConfiguration now and ensure that the IP configuration flags are set now.
assertAndSetNetworkIpConfiguration(
openNetwork,
WifiConfigurationTestUtil.createStaticIpConfigurationWithStaticProxy());
verifyUpdateNetworkToWifiConfigManagerWithIpChange(openNetwork);
// Now verify that all the modifications have been effective.
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
}
/**
* Verifies the removal of a single network using
* {@link WifiConfigManager#removeNetwork(int)}
*/
@Test
public void testRemoveSingleOpenNetwork() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
verifyAddNetworkToWifiConfigManager(openNetwork);
verify(mWcmListener).onSavedNetworkAdded(openNetwork.networkId);
reset(mWcmListener);
// Ensure that configured network list is not empty.
assertFalse(mWifiConfigManager.getConfiguredNetworks().isEmpty());
verifyRemoveNetworkFromWifiConfigManager(openNetwork);
// Ensure that configured network list is empty now.
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
verify(mWcmListener).onSavedNetworkRemoved(openNetwork.networkId);
}
/**
* Verifies the removal of an ephemeral network using
* {@link WifiConfigManager#removeNetwork(int)}
*/
@Test
public void testRemoveSingleEphemeralNetwork() throws Exception {
WifiConfiguration ephemeralNetwork = WifiConfigurationTestUtil.createOpenNetwork();
ephemeralNetwork.ephemeral = true;
verifyAddEphemeralNetworkToWifiConfigManager(ephemeralNetwork);
// Ensure that configured network list is not empty.
assertFalse(mWifiConfigManager.getConfiguredNetworks().isEmpty());
verify(mWcmListener, never()).onSavedNetworkAdded(ephemeralNetwork.networkId);
verifyRemoveEphemeralNetworkFromWifiConfigManager(ephemeralNetwork);
// Ensure that configured network list is empty now.
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
verify(mWcmListener, never()).onSavedNetworkRemoved(ephemeralNetwork.networkId);
}
/**
* Verifies the removal of a Passpoint network using
* {@link WifiConfigManager#removeNetwork(int)}
*/
@Test
public void testRemoveSinglePasspointNetwork() throws Exception {
WifiConfiguration passpointNetwork = WifiConfigurationTestUtil.createPasspointNetwork();
verifyAddPasspointNetworkToWifiConfigManager(passpointNetwork);
// Ensure that configured network list is not empty.
assertFalse(mWifiConfigManager.getConfiguredNetworks().isEmpty());
verify(mWcmListener, never()).onSavedNetworkAdded(passpointNetwork.networkId);
verifyRemovePasspointNetworkFromWifiConfigManager(passpointNetwork);
// Ensure that configured network list is empty now.
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
verify(mWcmListener, never()).onSavedNetworkRemoved(passpointNetwork.networkId);
}
/**
* Verify that a Passpoint network that's added by an app with {@link #TEST_CREATOR_UID} can
* be removed by WiFi Service with {@link Process#WIFI_UID}.
*
* @throws Exception
*/
@Test
public void testRemovePasspointNetworkAddedByOther() throws Exception {
WifiConfiguration passpointNetwork = WifiConfigurationTestUtil.createPasspointNetwork();
// Passpoint network is added using TEST_CREATOR_UID.
verifyAddPasspointNetworkToWifiConfigManager(passpointNetwork);
// Ensure that configured network list is not empty.
assertFalse(mWifiConfigManager.getConfiguredNetworks().isEmpty());
assertTrue(mWifiConfigManager.removeNetwork(passpointNetwork.networkId, Process.WIFI_UID));
// Verify keys are not being removed.
verify(mWifiKeyStore, never()).removeKeys(any(WifiEnterpriseConfig.class));
verifyNetworkRemoveBroadcast(passpointNetwork);
// Ensure that the write was not invoked for Passpoint network remove.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
}
/**
* Verifies the addition & update of multiple networks using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} and the
* removal of networks using
* {@link WifiConfigManager#removeNetwork(int)}
*/
@Test
public void testAddUpdateRemoveMultipleNetworks() {
List<WifiConfiguration> networks = new ArrayList<>();
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration wepNetwork = WifiConfigurationTestUtil.createWepNetwork();
networks.add(openNetwork);
networks.add(pskNetwork);
networks.add(wepNetwork);
verifyAddNetworkToWifiConfigManager(openNetwork);
verifyAddNetworkToWifiConfigManager(pskNetwork);
verifyAddNetworkToWifiConfigManager(wepNetwork);
// Now verify that all the additions has been effective.
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
// Modify all the 3 configurations and update it to WifiConfigManager.
assertAndSetNetworkBSSID(openNetwork, TEST_BSSID);
assertAndSetNetworkBSSID(pskNetwork, TEST_BSSID);
assertAndSetNetworkIpConfiguration(
wepNetwork,
WifiConfigurationTestUtil.createStaticIpConfigurationWithPacProxy());
// Configure mock DevicePolicyManager to give Profile Owner permission so that we can modify
// proxy settings on a configuration
when(mDevicePolicyManagerInternal.isActiveAdminWithPolicy(anyInt(),
eq(DeviceAdminInfo.USES_POLICY_PROFILE_OWNER))).thenReturn(true);
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(openNetwork);
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(pskNetwork);
verifyUpdateNetworkToWifiConfigManagerWithIpChange(wepNetwork);
// Now verify that all the modifications has been effective.
retrievedNetworks = mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
// Now remove all 3 networks.
verifyRemoveNetworkFromWifiConfigManager(openNetwork);
verifyRemoveNetworkFromWifiConfigManager(pskNetwork);
verifyRemoveNetworkFromWifiConfigManager(wepNetwork);
// Ensure that configured network list is empty now.
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
}
/**
* Verifies the update of network status using
* {@link WifiConfigManager#updateNetworkSelectionStatus(int, int)}.
*/
@Test
public void testNetworkSelectionStatus() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
int networkId = result.getNetworkId();
// First set it to enabled.
verifyUpdateNetworkSelectionStatus(
networkId, NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
// Now set it to temporarily disabled. The threshold for association rejection is 5, so
// disable it 5 times to actually mark it temporarily disabled.
int assocRejectReason = NetworkSelectionStatus.DISABLED_ASSOCIATION_REJECTION;
int assocRejectThreshold =
WifiConfigManager.NETWORK_SELECTION_DISABLE_THRESHOLD[assocRejectReason];
for (int i = 1; i <= assocRejectThreshold; i++) {
verifyUpdateNetworkSelectionStatus(result.getNetworkId(), assocRejectReason, i);
}
verify(mWcmListener).onSavedNetworkTemporarilyDisabled(
networkId, NetworkSelectionStatus.DISABLED_ASSOCIATION_REJECTION);
// Now set it to permanently disabled.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.DISABLED_BY_WIFI_MANAGER, 0);
verify(mWcmListener).onSavedNetworkPermanentlyDisabled(
networkId, NetworkSelectionStatus.DISABLED_BY_WIFI_MANAGER);
// Now set it back to enabled.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
verify(mWcmListener, times(2)).onSavedNetworkEnabled(networkId);
}
/**
* Verifies the update of network status using
* {@link WifiConfigManager#updateNetworkSelectionStatus(int, int)}.
*/
@Test
public void testNetworkSelectionStatusTemporarilyDisabledDueToNoInternet() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
int networkId = result.getNetworkId();
// First set it to enabled.
verifyUpdateNetworkSelectionStatus(
networkId, NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
// Now set it to temporarily disabled. The threshold for no internet is 1, so
// disable it once to actually mark it temporarily disabled.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.DISABLED_NO_INTERNET_TEMPORARY, 1);
verify(mWcmListener).onSavedNetworkTemporarilyDisabled(
networkId, NetworkSelectionStatus.DISABLED_NO_INTERNET_TEMPORARY);
// Now set it back to enabled.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
verify(mWcmListener, times(2)).onSavedNetworkEnabled(networkId);
}
/**
* Verifies the update of network status using
* {@link WifiConfigManager#updateNetworkSelectionStatus(int, int)} and ensures that
* enabling a network clears out all the temporary disable counters.
*/
@Test
public void testNetworkSelectionStatusEnableClearsDisableCounters() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
// First set it to enabled.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
// Now set it to temporarily disabled 2 times for 2 different reasons.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.DISABLED_ASSOCIATION_REJECTION, 1);
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.DISABLED_ASSOCIATION_REJECTION, 2);
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.DISABLED_AUTHENTICATION_FAILURE, 1);
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.DISABLED_AUTHENTICATION_FAILURE, 2);
// Now set it back to enabled.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
// Ensure that the counters have all been reset now.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.DISABLED_ASSOCIATION_REJECTION, 1);
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.DISABLED_AUTHENTICATION_FAILURE, 1);
}
/**
* Verifies that {@link WifiConfigManager#updateNetworkNotRecommended(int, boolean)} correctly
* updates the {@link NetworkSelectionStatus#mNotRecommended} bit.
*/
@Test
public void testUpdateNetworkNotRecommended() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
// First retrieve the configuration and check this it does not have this bit set
WifiConfiguration retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(result.netId);
assertFalse(retrievedNetwork.getNetworkSelectionStatus().isNotRecommended());
// Update the network to be not recommended;
assertTrue(mWifiConfigManager.updateNetworkNotRecommended(
result.netId, true /* notRecommended*/));
retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(result.netId);
assertTrue(retrievedNetwork.getNetworkSelectionStatus().isNotRecommended());
// Update the network to no longer be not recommended
assertTrue(mWifiConfigManager.updateNetworkNotRecommended(
result.netId, false/* notRecommended*/));
retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(result.netId);
assertFalse(retrievedNetwork.getNetworkSelectionStatus().isNotRecommended());
}
/**
* Verifies the enabling of temporarily disabled network using
* {@link WifiConfigManager#tryEnableNetwork(int)}.
*/
@Test
public void testTryEnableNetwork() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
// First set it to enabled.
verifyUpdateNetworkSelectionStatus(
result.getNetworkId(), NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
// Now set it to temporarily disabled. The threshold for association rejection is 5, so
// disable it 5 times to actually mark it temporarily disabled.
int assocRejectReason = NetworkSelectionStatus.DISABLED_ASSOCIATION_REJECTION;
int assocRejectThreshold =
WifiConfigManager.NETWORK_SELECTION_DISABLE_THRESHOLD[assocRejectReason];
for (int i = 1; i <= assocRejectThreshold; i++) {
verifyUpdateNetworkSelectionStatus(result.getNetworkId(), assocRejectReason, i);
}
// Now let's try enabling this network without changing the time, this should fail and the
// status remains temporarily disabled.
assertFalse(mWifiConfigManager.tryEnableNetwork(result.getNetworkId()));
NetworkSelectionStatus retrievedStatus =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId())
.getNetworkSelectionStatus();
assertTrue(retrievedStatus.isNetworkTemporaryDisabled());
// Now advance time by the timeout for association rejection and ensure that the network
// is now enabled.
int assocRejectTimeout =
WifiConfigManager.NETWORK_SELECTION_DISABLE_TIMEOUT_MS[assocRejectReason];
when(mClock.getElapsedSinceBootMillis())
.thenReturn(TEST_ELAPSED_UPDATE_NETWORK_SELECTION_TIME_MILLIS + assocRejectTimeout);
assertTrue(mWifiConfigManager.tryEnableNetwork(result.getNetworkId()));
retrievedStatus =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId())
.getNetworkSelectionStatus();
assertTrue(retrievedStatus.isNetworkEnabled());
}
/**
* Verifies the enabling of network using
* {@link WifiConfigManager#enableNetwork(int, boolean, int)} and
* {@link WifiConfigManager#disableNetwork(int, int)}.
*/
@Test
public void testEnableDisableNetwork() throws Exception {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
assertTrue(mWifiConfigManager.enableNetwork(
result.getNetworkId(), false, TEST_CREATOR_UID));
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
NetworkSelectionStatus retrievedStatus = retrievedNetwork.getNetworkSelectionStatus();
assertTrue(retrievedStatus.isNetworkEnabled());
verifyUpdateNetworkStatus(retrievedNetwork, WifiConfiguration.Status.ENABLED);
mContextConfigStoreMockOrder.verify(mWifiConfigStore).write(eq(true));
// Now set it disabled.
assertTrue(mWifiConfigManager.disableNetwork(result.getNetworkId(), TEST_CREATOR_UID));
retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
retrievedStatus = retrievedNetwork.getNetworkSelectionStatus();
assertTrue(retrievedStatus.isNetworkPermanentlyDisabled());
verifyUpdateNetworkStatus(retrievedNetwork, WifiConfiguration.Status.DISABLED);
mContextConfigStoreMockOrder.verify(mWifiConfigStore).write(eq(true));
}
/**
* Verifies the enabling of network using
* {@link WifiConfigManager#enableNetwork(int, boolean, int)} with a UID which
* has no permission to modify the network fails..
*/
@Test
public void testEnableNetworkFailedDueToPermissionDenied() throws Exception {
when(mWifiPermissionsUtil.checkNetworkSettingsPermission(anyInt())).thenReturn(false);
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
assertEquals(WifiConfiguration.INVALID_NETWORK_ID,
mWifiConfigManager.getLastSelectedNetwork());
// Now try to set it enable with |TEST_UPDATE_UID|, it should fail and the network
// should remain disabled.
assertFalse(mWifiConfigManager.enableNetwork(
result.getNetworkId(), true, TEST_UPDATE_UID));
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
NetworkSelectionStatus retrievedStatus = retrievedNetwork.getNetworkSelectionStatus();
assertFalse(retrievedStatus.isNetworkEnabled());
assertEquals(WifiConfiguration.Status.DISABLED, retrievedNetwork.status);
// Set last selected network even if the app has no permission to enable it.
assertEquals(result.getNetworkId(), mWifiConfigManager.getLastSelectedNetwork());
}
/**
* Verifies the enabling of network using
* {@link WifiConfigManager#disableNetwork(int, int)} with a UID which
* has no permission to modify the network fails..
*/
@Test
public void testDisableNetworkFailedDueToPermissionDenied() throws Exception {
when(mWifiPermissionsUtil.checkNetworkSettingsPermission(anyInt())).thenReturn(false);
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
assertTrue(mWifiConfigManager.enableNetwork(
result.getNetworkId(), true, TEST_CREATOR_UID));
assertEquals(result.getNetworkId(), mWifiConfigManager.getLastSelectedNetwork());
// Now try to set it disabled with |TEST_UPDATE_UID|, it should fail and the network
// should remain enabled.
assertFalse(mWifiConfigManager.disableNetwork(result.getNetworkId(), TEST_UPDATE_UID));
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
NetworkSelectionStatus retrievedStatus = retrievedNetwork.getNetworkSelectionStatus();
assertTrue(retrievedStatus.isNetworkEnabled());
assertEquals(WifiConfiguration.Status.ENABLED, retrievedNetwork.status);
// Clear the last selected network even if the app has no permission to disable it.
assertEquals(WifiConfiguration.INVALID_NETWORK_ID,
mWifiConfigManager.getLastSelectedNetwork());
}
/**
* Verifies the updation of network's connectUid using
* {@link WifiConfigManager#updateLastConnectUid(int, int)}.
*/
@Test
public void testUpdateLastConnectUid() throws Exception {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
assertTrue(
mWifiConfigManager.updateLastConnectUid(
result.getNetworkId(), TEST_CREATOR_UID));
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
assertEquals(TEST_CREATOR_UID, retrievedNetwork.lastConnectUid);
}
/**
* Verifies that any configuration update attempt with an null config is gracefully
* handled.
* This invokes {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}.
*/
@Test
public void testAddOrUpdateNetworkWithNullConfig() {
NetworkUpdateResult result = mWifiConfigManager.addOrUpdateNetwork(null, TEST_CREATOR_UID);
assertFalse(result.isSuccess());
}
/**
* Verifies that attempting to remove a network without any configs stored will return false.
* This tests the case where we have not loaded any configs, potentially due to a pending store
* read.
* This invokes {@link WifiConfigManager#removeNetwork(int)}.
*/
@Test
public void testRemoveNetworkWithEmptyConfigStore() {
int networkId = new Random().nextInt();
assertFalse(mWifiConfigManager.removeNetwork(networkId, TEST_CREATOR_UID));
}
/**
* Verifies that any configuration removal attempt with an invalid networkID is gracefully
* handled.
* This invokes {@link WifiConfigManager#removeNetwork(int)}.
*/
@Test
public void testRemoveNetworkWithInvalidNetworkId() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
verifyAddNetworkToWifiConfigManager(openNetwork);
// Change the networkID to an invalid one.
openNetwork.networkId++;
assertFalse(mWifiConfigManager.removeNetwork(openNetwork.networkId, TEST_CREATOR_UID));
}
/**
* Verifies that any configuration update attempt with an invalid networkID is gracefully
* handled.
* This invokes {@link WifiConfigManager#enableNetwork(int, boolean, int)},
* {@link WifiConfigManager#disableNetwork(int, int)},
* {@link WifiConfigManager#updateNetworkSelectionStatus(int, int)} and
* {@link WifiConfigManager#updateLastConnectUid(int, int)}.
*/
@Test
public void testChangeConfigurationWithInvalidNetworkId() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
assertFalse(mWifiConfigManager.enableNetwork(
result.getNetworkId() + 1, false, TEST_CREATOR_UID));
assertFalse(mWifiConfigManager.disableNetwork(result.getNetworkId() + 1, TEST_CREATOR_UID));
assertFalse(mWifiConfigManager.updateNetworkSelectionStatus(
result.getNetworkId() + 1, NetworkSelectionStatus.DISABLED_BY_WIFI_MANAGER));
assertFalse(mWifiConfigManager.updateLastConnectUid(
result.getNetworkId() + 1, TEST_CREATOR_UID));
}
/**
* Verifies multiple modification of a single network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}.
* This test is basically checking if the apps can reset some of the fields of the config after
* addition. The fields being reset in this test are the |preSharedKey| and |wepKeys|.
* 1. Create an open network initially.
* 2. Modify the added network config to a WEP network config with all the 4 keys set.
* 3. Modify the added network config to a WEP network config with only 1 key set.
* 4. Modify the added network config to a PSK network config.
*/
@Test
public void testMultipleUpdatesSingleNetwork() {
WifiConfiguration network = WifiConfigurationTestUtil.createOpenNetwork();
verifyAddNetworkToWifiConfigManager(network);
// Now add |wepKeys| to the network. We don't need to update the |allowedKeyManagement|
// fields for open to WEP conversion.
String[] wepKeys =
Arrays.copyOf(WifiConfigurationTestUtil.TEST_WEP_KEYS,
WifiConfigurationTestUtil.TEST_WEP_KEYS.length);
int wepTxKeyIdx = WifiConfigurationTestUtil.TEST_WEP_TX_KEY_INDEX;
assertAndSetNetworkWepKeysAndTxIndex(network, wepKeys, wepTxKeyIdx);
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(network);
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network, mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
// Now empty out 3 of the |wepKeys[]| and ensure that those keys have been reset correctly.
for (int i = 1; i < network.wepKeys.length; i++) {
wepKeys[i] = "";
}
wepTxKeyIdx = 0;
assertAndSetNetworkWepKeysAndTxIndex(network, wepKeys, wepTxKeyIdx);
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(network);
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network, mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
// Now change the config to a PSK network config by resetting the remaining |wepKey[0]|
// field and setting the |preSharedKey| and |allowedKeyManagement| fields.
wepKeys[0] = "";
wepTxKeyIdx = -1;
assertAndSetNetworkWepKeysAndTxIndex(network, wepKeys, wepTxKeyIdx);
network.allowedKeyManagement.clear();
network.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.WPA_PSK);
assertAndSetNetworkPreSharedKey(network, WifiConfigurationTestUtil.TEST_PSK);
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(network);
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network, mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
}
/**
* Verifies the modification of a WifiEnteriseConfig using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}.
*/
@Test
public void testUpdateWifiEnterpriseConfig() {
WifiConfiguration network = WifiConfigurationTestUtil.createEapNetwork();
verifyAddNetworkToWifiConfigManager(network);
// Set the |password| field in WifiEnterpriseConfig and modify the config to PEAP/GTC.
network.enterpriseConfig =
WifiConfigurationTestUtil.createPEAPWifiEnterpriseConfigWithGTCPhase2();
assertAndSetNetworkEnterprisePassword(network, "test");
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(network);
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network, mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
// Reset the |password| field in WifiEnterpriseConfig and modify the config to TLS/None.
network.enterpriseConfig.setEapMethod(WifiEnterpriseConfig.Eap.TLS);
network.enterpriseConfig.setPhase2Method(WifiEnterpriseConfig.Phase2.NONE);
assertAndSetNetworkEnterprisePassword(network, "");
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(network);
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network, mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
}
/**
* Verifies the modification of a single network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} by passing in nulls
* in all the publicly exposed fields.
*/
@Test
public void testUpdateSingleNetworkWithNullValues() {
WifiConfiguration network = WifiConfigurationTestUtil.createEapNetwork();
verifyAddNetworkToWifiConfigManager(network);
// Save a copy of the original network for comparison.
WifiConfiguration originalNetwork = new WifiConfiguration(network);
// Now set all the public fields to null and try updating the network.
network.allowedAuthAlgorithms.clear();
network.allowedProtocols.clear();
network.allowedKeyManagement.clear();
network.allowedPairwiseCiphers.clear();
network.allowedGroupCiphers.clear();
network.enterpriseConfig = null;
// Update the network.
NetworkUpdateResult result = updateNetworkToWifiConfigManager(network);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertFalse(result.isNewNetwork());
// Verify no changes to the original network configuration.
verifyNetworkUpdateBroadcast(originalNetwork);
verifyNetworkInConfigStoreData(originalNetwork);
assertFalse(result.hasIpChanged());
assertFalse(result.hasProxyChanged());
// Copy over the updated debug params to the original network config before comparison.
originalNetwork.lastUpdateUid = network.lastUpdateUid;
originalNetwork.lastUpdateName = network.lastUpdateName;
originalNetwork.updateTime = network.updateTime;
// Now verify that there was no change to the network configurations.
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
originalNetwork,
mWifiConfigManager.getConfiguredNetworkWithPassword(originalNetwork.networkId));
}
/**
* Verifies the addition of a single network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} by passing in null
* in IpConfiguraion fails.
*/
@Test
public void testAddSingleNetworkWithNullIpConfigurationFails() {
WifiConfiguration network = WifiConfigurationTestUtil.createEapNetwork();
network.setIpConfiguration(null);
NetworkUpdateResult result =
mWifiConfigManager.addOrUpdateNetwork(network, TEST_CREATOR_UID);
assertFalse(result.isSuccess());
}
/**
* Verifies that the modification of a single network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} does not modify
* existing configuration if there is a failure.
*/
@Test
public void testUpdateSingleNetworkFailureDoesNotModifyOriginal() {
WifiConfiguration network = WifiConfigurationTestUtil.createEapNetwork();
network.enterpriseConfig =
WifiConfigurationTestUtil.createPEAPWifiEnterpriseConfigWithGTCPhase2();
verifyAddNetworkToWifiConfigManager(network);
// Save a copy of the original network for comparison.
WifiConfiguration originalNetwork = new WifiConfiguration(network);
// Now modify the network's EAP method.
network.enterpriseConfig =
WifiConfigurationTestUtil.createTLSWifiEnterpriseConfigWithNonePhase2();
// Fail this update because of cert installation failure.
when(mWifiKeyStore
.updateNetworkKeys(any(WifiConfiguration.class), any(WifiConfiguration.class)))
.thenReturn(false);
NetworkUpdateResult result =
mWifiConfigManager.addOrUpdateNetwork(network, TEST_UPDATE_UID);
assertTrue(result.getNetworkId() == WifiConfiguration.INVALID_NETWORK_ID);
// Now verify that there was no change to the network configurations.
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
originalNetwork,
mWifiConfigManager.getConfiguredNetworkWithPassword(originalNetwork.networkId));
}
/**
* Verifies the matching of networks with different encryption types with the
* corresponding scan detail using
* {@link WifiConfigManager#getConfiguredNetworkForScanDetailAndCache(ScanDetail)}.
* The test also verifies that the provided scan detail was cached,
*/
@Test
public void testMatchScanDetailToNetworksAndCache() {
// Create networks of different types and ensure that they're all matched using
// the corresponding ScanDetail correctly.
verifyAddSingleNetworkAndMatchScanDetailToNetworkAndCache(
WifiConfigurationTestUtil.createOpenNetwork());
verifyAddSingleNetworkAndMatchScanDetailToNetworkAndCache(
WifiConfigurationTestUtil.createWepNetwork());
verifyAddSingleNetworkAndMatchScanDetailToNetworkAndCache(
WifiConfigurationTestUtil.createPskNetwork());
verifyAddSingleNetworkAndMatchScanDetailToNetworkAndCache(
WifiConfigurationTestUtil.createEapNetwork());
verifyAddSingleNetworkAndMatchScanDetailToNetworkAndCache(
WifiConfigurationTestUtil.createSaeNetwork());
verifyAddSingleNetworkAndMatchScanDetailToNetworkAndCache(
WifiConfigurationTestUtil.createOweNetwork());
verifyAddSingleNetworkAndMatchScanDetailToNetworkAndCache(
WifiConfigurationTestUtil.createEapSuiteBNetwork());
}
/**
* Verifies that scan details with wrong SSID/authentication types are not matched using
* {@link WifiConfigManager#getConfiguredNetworkForScanDetailAndCache(ScanDetail)}
* to the added networks.
*/
@Test
public void testNoMatchScanDetailToNetwork() {
// First create networks of different types.
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
WifiConfiguration wepNetwork = WifiConfigurationTestUtil.createWepNetwork();
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration eapNetwork = WifiConfigurationTestUtil.createEapNetwork();
WifiConfiguration saeNetwork = WifiConfigurationTestUtil.createSaeNetwork();
WifiConfiguration oweNetwork = WifiConfigurationTestUtil.createOweNetwork();
WifiConfiguration eapSuiteBNetwork = WifiConfigurationTestUtil.createEapSuiteBNetwork();
// Now add them to WifiConfigManager.
verifyAddNetworkToWifiConfigManager(openNetwork);
verifyAddNetworkToWifiConfigManager(wepNetwork);
verifyAddNetworkToWifiConfigManager(pskNetwork);
verifyAddNetworkToWifiConfigManager(eapNetwork);
verifyAddNetworkToWifiConfigManager(saeNetwork);
verifyAddNetworkToWifiConfigManager(oweNetwork);
verifyAddNetworkToWifiConfigManager(eapSuiteBNetwork);
// Now create dummy scan detail corresponding to the networks.
ScanDetail openNetworkScanDetail = createScanDetailForNetwork(openNetwork);
ScanDetail wepNetworkScanDetail = createScanDetailForNetwork(wepNetwork);
ScanDetail pskNetworkScanDetail = createScanDetailForNetwork(pskNetwork);
ScanDetail eapNetworkScanDetail = createScanDetailForNetwork(eapNetwork);
ScanDetail saeNetworkScanDetail = createScanDetailForNetwork(saeNetwork);
ScanDetail oweNetworkScanDetail = createScanDetailForNetwork(oweNetwork);
ScanDetail eapSuiteBNetworkScanDetail = createScanDetailForNetwork(eapSuiteBNetwork);
// Now mix and match parameters from different scan details.
openNetworkScanDetail.getScanResult().SSID =
wepNetworkScanDetail.getScanResult().SSID;
wepNetworkScanDetail.getScanResult().capabilities =
pskNetworkScanDetail.getScanResult().capabilities;
pskNetworkScanDetail.getScanResult().capabilities =
eapNetworkScanDetail.getScanResult().capabilities;
eapNetworkScanDetail.getScanResult().capabilities =
saeNetworkScanDetail.getScanResult().capabilities;
saeNetworkScanDetail.getScanResult().capabilities =
oweNetworkScanDetail.getScanResult().capabilities;
oweNetworkScanDetail.getScanResult().capabilities =
eapSuiteBNetworkScanDetail.getScanResult().capabilities;
eapSuiteBNetworkScanDetail.getScanResult().capabilities =
openNetworkScanDetail.getScanResult().capabilities;
// Try to lookup a saved network using the modified scan details. All of these should fail.
assertNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
openNetworkScanDetail));
assertNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
wepNetworkScanDetail));
assertNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
pskNetworkScanDetail));
assertNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
eapNetworkScanDetail));
assertNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
saeNetworkScanDetail));
assertNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
oweNetworkScanDetail));
assertNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
eapSuiteBNetworkScanDetail));
// All the cache's should be empty as well.
assertNull(mWifiConfigManager.getScanDetailCacheForNetwork(openNetwork.networkId));
assertNull(mWifiConfigManager.getScanDetailCacheForNetwork(wepNetwork.networkId));
assertNull(mWifiConfigManager.getScanDetailCacheForNetwork(pskNetwork.networkId));
assertNull(mWifiConfigManager.getScanDetailCacheForNetwork(eapNetwork.networkId));
assertNull(mWifiConfigManager.getScanDetailCacheForNetwork(saeNetwork.networkId));
assertNull(mWifiConfigManager.getScanDetailCacheForNetwork(oweNetwork.networkId));
assertNull(mWifiConfigManager.getScanDetailCacheForNetwork(eapSuiteBNetwork.networkId));
}
/**
* Verifies that ScanDetail added for a network is cached correctly.
*/
@Test
public void testUpdateScanDetailForNetwork() {
// First add the provided network.
WifiConfiguration testNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(testNetwork);
// Now create a dummy scan detail corresponding to the network.
ScanDetail scanDetail = createScanDetailForNetwork(testNetwork);
ScanResult scanResult = scanDetail.getScanResult();
mWifiConfigManager.updateScanDetailForNetwork(result.getNetworkId(), scanDetail);
// Now retrieve the scan detail cache and ensure that the new scan detail is in cache.
ScanDetailCache retrievedScanDetailCache =
mWifiConfigManager.getScanDetailCacheForNetwork(result.getNetworkId());
assertEquals(1, retrievedScanDetailCache.size());
ScanResult retrievedScanResult = retrievedScanDetailCache.getScanResult(scanResult.BSSID);
ScanTestUtil.assertScanResultEquals(scanResult, retrievedScanResult);
}
/**
* Verifies that scan detail cache is trimmed down when the size of the cache for a network
* exceeds {@link WifiConfigManager#SCAN_CACHE_ENTRIES_MAX_SIZE}.
*/
@Test
public void testScanDetailCacheTrimForNetwork() {
// Add a single network.
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
verifyAddNetworkToWifiConfigManager(openNetwork);
ScanDetailCache scanDetailCache;
String testBssidPrefix = "00:a5:b8:c9:45:";
// Modify |BSSID| field in the scan result and add copies of scan detail
// |SCAN_CACHE_ENTRIES_MAX_SIZE| times.
int scanDetailNum = 1;
for (; scanDetailNum <= WifiConfigManager.SCAN_CACHE_ENTRIES_MAX_SIZE; scanDetailNum++) {
// Create dummy scan detail caches with different BSSID for the network.
ScanDetail scanDetail =
createScanDetailForNetwork(
openNetwork, String.format("%s%02x", testBssidPrefix, scanDetailNum));
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(scanDetail));
// The size of scan detail cache should keep growing until it hits
// |SCAN_CACHE_ENTRIES_MAX_SIZE|.
scanDetailCache =
mWifiConfigManager.getScanDetailCacheForNetwork(openNetwork.networkId);
assertEquals(scanDetailNum, scanDetailCache.size());
}
// Now add the |SCAN_CACHE_ENTRIES_MAX_SIZE + 1| entry. This should trigger the trim.
ScanDetail scanDetail =
createScanDetailForNetwork(
openNetwork, String.format("%s%02x", testBssidPrefix, scanDetailNum));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(scanDetail));
// Retrieve the scan detail cache and ensure that the size was trimmed down to
// |SCAN_CACHE_ENTRIES_TRIM_SIZE + 1|. The "+1" is to account for the new entry that
// was added after the trim.
scanDetailCache = mWifiConfigManager.getScanDetailCacheForNetwork(openNetwork.networkId);
assertEquals(WifiConfigManager.SCAN_CACHE_ENTRIES_TRIM_SIZE + 1, scanDetailCache.size());
}
/**
* Verifies that hasEverConnected is false for a newly added network.
*/
@Test
public void testAddNetworkHasEverConnectedFalse() {
verifyAddNetworkHasEverConnectedFalse(WifiConfigurationTestUtil.createOpenNetwork());
}
/**
* Verifies that hasEverConnected is false for a newly added network even when new config has
* mistakenly set HasEverConnected to true.
*/
@Test
public void testAddNetworkOverridesHasEverConnectedWhenTrueInNewConfig() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
openNetwork.getNetworkSelectionStatus().setHasEverConnected(true);
verifyAddNetworkHasEverConnectedFalse(openNetwork);
}
/**
* Verify that the |HasEverConnected| is set when
* {@link WifiConfigManager#updateNetworkAfterConnect(int)} is invoked.
*/
@Test
public void testUpdateConfigAfterConnectHasEverConnectedTrue() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
verifyAddNetworkHasEverConnectedFalse(openNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(openNetwork.networkId);
}
/**
* Verifies that hasEverConnected is cleared when a network config |preSharedKey| is updated.
*/
@Test
public void testUpdatePreSharedKeyClearsHasEverConnected() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkHasEverConnectedFalse(pskNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(pskNetwork.networkId);
// Now update the same network with a different psk.
String newPsk = "\"newpassword\"";
assertFalse(pskNetwork.preSharedKey.equals(newPsk));
pskNetwork.preSharedKey = newPsk;
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(pskNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |wepKeys| is updated.
*/
@Test
public void testUpdateWepKeysClearsHasEverConnected() {
WifiConfiguration wepNetwork = WifiConfigurationTestUtil.createWepNetwork();
verifyAddNetworkHasEverConnectedFalse(wepNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(wepNetwork.networkId);
// Now update the same network with a different wep.
assertFalse(wepNetwork.wepKeys[0].equals("newpassword"));
wepNetwork.wepKeys[0] = "newpassword";
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(wepNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |wepTxKeyIndex| is updated.
*/
@Test
public void testUpdateWepTxKeyClearsHasEverConnected() {
WifiConfiguration wepNetwork = WifiConfigurationTestUtil.createWepNetwork();
verifyAddNetworkHasEverConnectedFalse(wepNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(wepNetwork.networkId);
// Now update the same network with a different wep.
assertFalse(wepNetwork.wepTxKeyIndex == 3);
wepNetwork.wepTxKeyIndex = 3;
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(wepNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |allowedKeyManagement| is
* updated.
*/
@Test
public void testUpdateAllowedKeyManagementClearsHasEverConnected() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkHasEverConnectedFalse(pskNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(pskNetwork.networkId);
assertFalse(pskNetwork.allowedKeyManagement.get(WifiConfiguration.KeyMgmt.IEEE8021X));
pskNetwork.allowedKeyManagement.clear();
pskNetwork.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.IEEE8021X);
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(pskNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |allowedProtocol| is
* updated.
*/
@Test
public void testUpdateProtocolsClearsHasEverConnected() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkHasEverConnectedFalse(pskNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(pskNetwork.networkId);
assertFalse(pskNetwork.allowedProtocols.get(WifiConfiguration.Protocol.OSEN));
pskNetwork.allowedProtocols.set(WifiConfiguration.Protocol.OSEN);
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(pskNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |allowedAuthAlgorithms| is
* updated.
*/
@Test
public void testUpdateAllowedAuthAlgorithmsClearsHasEverConnected() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkHasEverConnectedFalse(pskNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(pskNetwork.networkId);
assertFalse(pskNetwork.allowedAuthAlgorithms.get(WifiConfiguration.AuthAlgorithm.LEAP));
pskNetwork.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.LEAP);
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(pskNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |allowedPairwiseCiphers| is
* updated.
*/
@Test
public void testUpdateAllowedPairwiseCiphersClearsHasEverConnected() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkHasEverConnectedFalse(pskNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(pskNetwork.networkId);
assertFalse(pskNetwork.allowedPairwiseCiphers.get(WifiConfiguration.PairwiseCipher.NONE));
pskNetwork.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.NONE);
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(pskNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |allowedGroup| is
* updated.
*/
@Test
public void testUpdateAllowedGroupCiphersClearsHasEverConnected() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkHasEverConnectedFalse(pskNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(pskNetwork.networkId);
assertTrue(pskNetwork.allowedGroupCiphers.get(WifiConfiguration.GroupCipher.WEP104));
pskNetwork.allowedGroupCiphers.clear(WifiConfiguration.GroupCipher.WEP104);
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(pskNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |hiddenSSID| is
* updated.
*/
@Test
public void testUpdateHiddenSSIDClearsHasEverConnected() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkHasEverConnectedFalse(pskNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(pskNetwork.networkId);
assertFalse(pskNetwork.hiddenSSID);
pskNetwork.hiddenSSID = true;
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(pskNetwork);
}
/**
* Verifies that hasEverConnected is cleared when a network config |requirePMF| is
* updated.
*/
@Test
public void testUpdateRequirePMFClearsHasEverConnected() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkHasEverConnectedFalse(pskNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(pskNetwork.networkId);
assertFalse(pskNetwork.requirePMF);
pskNetwork.requirePMF = true;
NetworkUpdateResult result =
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(pskNetwork);
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
assertFalse("Updating network credentials config must clear hasEverConnected.",
retrievedNetwork.getNetworkSelectionStatus().getHasEverConnected());
assertTrue(result.hasCredentialChanged());
}
/**
* Verifies that hasEverConnected is cleared when a network config |enterpriseConfig| is
* updated.
*/
@Test
public void testUpdateEnterpriseConfigClearsHasEverConnected() {
WifiConfiguration eapNetwork = WifiConfigurationTestUtil.createEapNetwork();
eapNetwork.enterpriseConfig =
WifiConfigurationTestUtil.createPEAPWifiEnterpriseConfigWithGTCPhase2();
verifyAddNetworkHasEverConnectedFalse(eapNetwork);
verifyUpdateNetworkAfterConnectHasEverConnectedTrue(eapNetwork.networkId);
assertFalse(eapNetwork.enterpriseConfig.getEapMethod() == WifiEnterpriseConfig.Eap.TLS);
eapNetwork.enterpriseConfig.setEapMethod(WifiEnterpriseConfig.Eap.TLS);
verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(eapNetwork);
}
/**
* Verifies that if the app sends back the masked passwords in an update, we ignore it.
*/
@Test
public void testUpdateIgnoresMaskedPasswords() {
WifiConfiguration someRandomNetworkWithAllMaskedFields =
WifiConfigurationTestUtil.createEapNetwork();
someRandomNetworkWithAllMaskedFields.wepKeys = WifiConfigurationTestUtil.TEST_WEP_KEYS;
someRandomNetworkWithAllMaskedFields.preSharedKey = WifiConfigurationTestUtil.TEST_PSK;
someRandomNetworkWithAllMaskedFields.enterpriseConfig.setPassword(
WifiConfigurationTestUtil.TEST_EAP_PASSWORD);
NetworkUpdateResult result =
verifyAddNetworkToWifiConfigManager(someRandomNetworkWithAllMaskedFields);
// All of these passwords must be masked in this retrieved network config.
WifiConfiguration retrievedNetworkWithMaskedPassword =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
assertPasswordsMaskedInWifiConfiguration(retrievedNetworkWithMaskedPassword);
// Ensure that the passwords are present internally.
WifiConfiguration retrievedNetworkWithPassword =
mWifiConfigManager.getConfiguredNetworkWithPassword(result.getNetworkId());
assertEquals(someRandomNetworkWithAllMaskedFields.preSharedKey,
retrievedNetworkWithPassword.preSharedKey);
assertEquals(someRandomNetworkWithAllMaskedFields.wepKeys,
retrievedNetworkWithPassword.wepKeys);
assertEquals(someRandomNetworkWithAllMaskedFields.enterpriseConfig.getPassword(),
retrievedNetworkWithPassword.enterpriseConfig.getPassword());
// Now update the same network config using the masked config.
verifyUpdateNetworkToWifiConfigManager(retrievedNetworkWithMaskedPassword);
// Retrieve the network config with password and ensure that they have not been overwritten
// with *.
retrievedNetworkWithPassword =
mWifiConfigManager.getConfiguredNetworkWithPassword(result.getNetworkId());
assertEquals(someRandomNetworkWithAllMaskedFields.preSharedKey,
retrievedNetworkWithPassword.preSharedKey);
assertEquals(someRandomNetworkWithAllMaskedFields.wepKeys,
retrievedNetworkWithPassword.wepKeys);
assertEquals(someRandomNetworkWithAllMaskedFields.enterpriseConfig.getPassword(),
retrievedNetworkWithPassword.enterpriseConfig.getPassword());
}
/**
* Verifies that randomized MAC address is masked out when we return
* external configs except when explicitly asked for MAC address.
*/
@Test
public void testGetConfiguredNetworksMasksRandomizedMac() {
int targetUidConfigNonCreator = TEST_CREATOR_UID + 100;
WifiConfiguration config = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(config);
MacAddress testMac = MacAddress.createRandomUnicastAddress();
mWifiConfigManager.setNetworkRandomizedMacAddress(result.getNetworkId(), testMac);
// Verify that randomized MAC address is masked when obtaining saved networks from
// invalid UID
List<WifiConfiguration> configs = mWifiConfigManager.getSavedNetworks(Process.INVALID_UID);
assertEquals(1, configs.size());
assertRandomizedMacAddressMaskedInWifiConfiguration(configs.get(0));
// Verify that randomized MAC address is unmasked when obtaining saved networks from
// system UID
configs = mWifiConfigManager.getSavedNetworks(Process.WIFI_UID);
assertEquals(1, configs.size());
assertEquals(testMac, configs.get(0).getRandomizedMacAddress());
// Verify that randomized MAC address is masked when obtaining saved networks from
// (carrier app) non-creator of the config
configs = mWifiConfigManager.getSavedNetworks(targetUidConfigNonCreator);
assertEquals(1, configs.size());
assertRandomizedMacAddressMaskedInWifiConfiguration(configs.get(0));
// Verify that randomized MAC address is unmasked when obtaining saved networks from
// (carrier app) creator of the config
configs = mWifiConfigManager.getSavedNetworks(TEST_CREATOR_UID);
assertEquals(1, configs.size());
assertEquals(testMac, configs.get(0).getRandomizedMacAddress());
// Verify that randomized MAC address is unmasked when getting list of privileged (with
// password) configurations
WifiConfiguration configWithRandomizedMac = mWifiConfigManager
.getConfiguredNetworkWithPassword(result.getNetworkId());
assertEquals(testMac, configWithRandomizedMac.getRandomizedMacAddress());
// Ensure that the MAC address is present when asked for config with MAC address.
configWithRandomizedMac = mWifiConfigManager
.getConfiguredNetworkWithoutMasking(result.getNetworkId());
assertEquals(testMac, configWithRandomizedMac.getRandomizedMacAddress());
}
/**
* Verifies that macRandomizationSetting is not masked out when MAC randomization is supported.
*/
@Test
public void testGetConfiguredNetworksNotMaskMacRandomizationSetting() {
WifiConfiguration config = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(config);
MacAddress testMac = MacAddress.createRandomUnicastAddress();
mWifiConfigManager.setNetworkRandomizedMacAddress(result.getNetworkId(), testMac);
// Verify macRandomizationSetting is not masked out when feature is supported.
List<WifiConfiguration> configs = mWifiConfigManager.getSavedNetworks(Process.WIFI_UID);
assertEquals(1, configs.size());
assertEquals(WifiConfiguration.RANDOMIZATION_PERSISTENT,
configs.get(0).macRandomizationSetting);
}
/**
* Verifies that macRandomizationSetting is masked out to WifiConfiguration.RANDOMIZATION_NONE
* when MAC randomization is not supported on the device.
*/
@Test
public void testGetConfiguredNetworksMasksMacRandomizationSetting() {
mResources.setBoolean(R.bool.config_wifi_connected_mac_randomization_supported, false);
createWifiConfigManager();
WifiConfiguration config = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(config);
MacAddress testMac = MacAddress.createRandomUnicastAddress();
mWifiConfigManager.setNetworkRandomizedMacAddress(result.getNetworkId(), testMac);
// Verify macRandomizationSetting is masked out when feature is unsupported.
List<WifiConfiguration> configs = mWifiConfigManager.getSavedNetworks(Process.WIFI_UID);
assertEquals(1, configs.size());
assertEquals(WifiConfiguration.RANDOMIZATION_NONE, configs.get(0).macRandomizationSetting);
}
/**
* Verifies that passwords are masked out when we return external configs except when
* explicitly asked for them.
*/
@Test
public void testGetConfiguredNetworksMasksPasswords() {
WifiConfiguration networkWithPasswords = WifiConfigurationTestUtil.createEapNetwork();
networkWithPasswords.wepKeys = WifiConfigurationTestUtil.TEST_WEP_KEYS;
networkWithPasswords.preSharedKey = WifiConfigurationTestUtil.TEST_PSK;
networkWithPasswords.enterpriseConfig.setPassword(
WifiConfigurationTestUtil.TEST_EAP_PASSWORD);
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(networkWithPasswords);
// All of these passwords must be masked in this retrieved network config.
WifiConfiguration retrievedNetworkWithMaskedPassword =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
assertPasswordsMaskedInWifiConfiguration(retrievedNetworkWithMaskedPassword);
// Ensure that the passwords are present when asked for configs with passwords.
WifiConfiguration retrievedNetworkWithPassword =
mWifiConfigManager.getConfiguredNetworkWithPassword(result.getNetworkId());
assertEquals(networkWithPasswords.preSharedKey, retrievedNetworkWithPassword.preSharedKey);
assertEquals(networkWithPasswords.wepKeys, retrievedNetworkWithPassword.wepKeys);
assertEquals(networkWithPasswords.enterpriseConfig.getPassword(),
retrievedNetworkWithPassword.enterpriseConfig.getPassword());
retrievedNetworkWithPassword =
mWifiConfigManager.getConfiguredNetworkWithoutMasking(result.getNetworkId());
assertEquals(networkWithPasswords.preSharedKey, retrievedNetworkWithPassword.preSharedKey);
assertEquals(networkWithPasswords.wepKeys, retrievedNetworkWithPassword.wepKeys);
assertEquals(networkWithPasswords.enterpriseConfig.getPassword(),
retrievedNetworkWithPassword.enterpriseConfig.getPassword());
}
/**
* Verifies the ordering of network list generated using
* {@link WifiConfigManager#retrievePnoNetworkList()}.
*/
@Test
public void testRetrievePnoList() {
// Create and add 3 networks.
WifiConfiguration network1 = WifiConfigurationTestUtil.createEapNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network3 = WifiConfigurationTestUtil.createOpenHiddenNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
verifyAddNetworkToWifiConfigManager(network3);
// Enable all of them.
assertTrue(mWifiConfigManager.enableNetwork(network1.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network2.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network3.networkId, false, TEST_CREATOR_UID));
// Now set scan results in 2 of them to set the corresponding
// {@link NetworkSelectionStatus#mSeenInLastQualifiedNetworkSelection} field.
assertTrue(mWifiConfigManager.setNetworkCandidateScanResult(
network1.networkId, createScanDetailForNetwork(network1).getScanResult(), 54));
assertTrue(mWifiConfigManager.setNetworkCandidateScanResult(
network3.networkId, createScanDetailForNetwork(network3).getScanResult(), 54));
// Now increment |network3|'s association count. This should ensure that this network
// is preferred over |network1|.
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network3.networkId));
// Retrieve the Pno network list & verify the order of the networks returned.
List<WifiScanner.PnoSettings.PnoNetwork> pnoNetworks =
mWifiConfigManager.retrievePnoNetworkList();
assertEquals(3, pnoNetworks.size());
assertEquals(network3.SSID, pnoNetworks.get(0).ssid);
assertEquals(network1.SSID, pnoNetworks.get(1).ssid);
assertEquals(network2.SSID, pnoNetworks.get(2).ssid);
// Now permanently disable |network3|. This should remove network 3 from the list.
assertTrue(mWifiConfigManager.disableNetwork(network3.networkId, TEST_CREATOR_UID));
// Retrieve the Pno network list again & verify the order of the networks returned.
pnoNetworks = mWifiConfigManager.retrievePnoNetworkList();
assertEquals(2, pnoNetworks.size());
assertEquals(network1.SSID, pnoNetworks.get(0).ssid);
assertEquals(network2.SSID, pnoNetworks.get(1).ssid);
}
/**
* Verifies frequencies are populated correctly for pno networks.
* {@link WifiConfigManager#retrievePnoNetworkList()}.
*/
@Test
public void testRetrievePnoListFrequencies() {
when(mFrameworkFacade.getIntegerSetting(eq(mContext),
eq(Settings.Global.WIFI_PNO_FREQUENCY_CULLING_ENABLED),
anyInt())).thenReturn(1);
mContentObserverPnoChannelCulling.onChange(false);
// Create and add 3 networks.
WifiConfiguration network1 = WifiConfigurationTestUtil.createEapNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
// Enable all of them.
assertTrue(mWifiConfigManager.enableNetwork(network1.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network2.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network1.networkId));
// Retrieve the Pno network list & verify the order of the networks returned.
// Frequencies should be empty since no scan results have been received yet.
List<WifiScanner.PnoSettings.PnoNetwork> pnoNetworks =
mWifiConfigManager.retrievePnoNetworkList();
assertEquals(2, pnoNetworks.size());
assertEquals(network1.SSID, pnoNetworks.get(0).ssid);
assertEquals(network2.SSID, pnoNetworks.get(1).ssid);
assertTrue("frequencies should be empty", pnoNetworks.get(0).frequencies.length == 0);
assertTrue("frequencies should be empty", pnoNetworks.get(1).frequencies.length == 0);
// Add frequencies to |network1|
ScanDetail scanDetail1 = createScanDetailForNetwork(network1, TEST_BSSID + "1",
TEST_RSSI, TEST_FREQUENCY_1);
ScanDetail scanDetail2 = createScanDetailForNetwork(network1, TEST_BSSID + "2",
TEST_RSSI, TEST_FREQUENCY_1);
ScanDetail scanDetail3 = createScanDetailForNetwork(network1, TEST_BSSID + "3",
TEST_RSSI, TEST_FREQUENCY_2);
ScanDetail scanDetail4 = createScanDetailForNetwork(network1, TEST_BSSID + "4",
TEST_RSSI, TEST_FREQUENCY_3);
// Set last seen timestamps so that when retrieving the frequencies for |network1|
// |TEST_FREQUENCY_2| gets included but |TEST_FREQUENCY_3| gets excluded.
scanDetail3.getScanResult().seen =
mClock.getWallClockMillis() - WifiConfigManager.MAX_PNO_SCAN_FREQUENCY_AGE_MS + 1;
scanDetail4.getScanResult().seen =
mClock.getWallClockMillis() - WifiConfigManager.MAX_PNO_SCAN_FREQUENCY_AGE_MS;
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(scanDetail1);
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(scanDetail2);
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(scanDetail3);
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(scanDetail4);
// Verify the frequencies are correct for |network1| and |TEST_FREQUENCY_3| is not in the
// list because it's older than the max age.
pnoNetworks = mWifiConfigManager.retrievePnoNetworkList();
assertEquals(2, pnoNetworks.size());
assertEquals(network1.SSID, pnoNetworks.get(0).ssid);
assertEquals(network2.SSID, pnoNetworks.get(1).ssid);
assertEquals(2, pnoNetworks.get(0).frequencies.length);
Arrays.sort(pnoNetworks.get(0).frequencies);
assertEquals(TEST_FREQUENCY_1, pnoNetworks.get(0).frequencies[0]);
assertEquals(TEST_FREQUENCY_2, pnoNetworks.get(0).frequencies[1]);
assertTrue("frequencies should be empty", pnoNetworks.get(1).frequencies.length == 0);
}
/**
* Verify that pno frequency culling is disabled by the flag properly.
* {@link WifiConfigManager#retrievePnoNetworkList()}.
*/
@Test
public void testRetrievePnoListFrequenciesFlagDisabled() {
when(mFrameworkFacade.getIntegerSetting(eq(mContext),
eq(Settings.Global.WIFI_PNO_FREQUENCY_CULLING_ENABLED),
anyInt())).thenReturn(0);
mContentObserverPnoChannelCulling.onChange(false);
WifiConfiguration network1 = WifiConfigurationTestUtil.createEapNetwork();
verifyAddNetworkToWifiConfigManager(network1);
assertTrue(mWifiConfigManager.enableNetwork(network1.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network1.networkId));
ScanDetail scanDetail1 = createScanDetailForNetwork(network1, TEST_BSSID + "1",
TEST_RSSI, TEST_FREQUENCY_1);
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(scanDetail1);
List<WifiScanner.PnoSettings.PnoNetwork> pnoNetworks =
mWifiConfigManager.retrievePnoNetworkList();
assertEquals(1, pnoNetworks.size());
assertEquals(network1.SSID, pnoNetworks.get(0).ssid);
assertEquals(0, pnoNetworks.get(0).frequencies.length);
}
/**
* Verifies the ordering of network list generated using
* {@link WifiConfigManager#retrievePnoNetworkList()}.
*/
@Test
public void testRetrievePnoListPrefersLastConnectedNetwork() {
when(mFrameworkFacade.getIntegerSetting(eq(mContext),
eq(Settings.Global.WIFI_PNO_RECENCY_SORTING_ENABLED),
anyInt())).thenReturn(1);
mContentObserverPnoRecencySorting.onChange(false);
// Create and add 3 networks.
WifiConfiguration network1 = WifiConfigurationTestUtil.createEapNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network3 = WifiConfigurationTestUtil.createOpenHiddenNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
verifyAddNetworkToWifiConfigManager(network3);
// Enable all of them.
assertTrue(mWifiConfigManager.enableNetwork(network1.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network2.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network3.networkId, false, TEST_CREATOR_UID));
long firstConnectionTimeMillis = 45677;
long secondConnectionTimeMillis = firstConnectionTimeMillis + 45;
// Now simulate first connection to |network1| at |firstConnectionTimeMillis|.
when(mClock.getWallClockMillis()).thenReturn(firstConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network1.networkId));
// Now simulate second connection to |network3| at |secondConnectionTimeMillis|.
when(mClock.getWallClockMillis()).thenReturn(secondConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network3.networkId));
// Retrieve the Pno network list & verify the order of the networks returned.
List<WifiScanner.PnoSettings.PnoNetwork> pnoNetworks =
mWifiConfigManager.retrievePnoNetworkList();
assertEquals(3, pnoNetworks.size());
assertEquals(network3.SSID, pnoNetworks.get(0).ssid);
assertEquals(network1.SSID, pnoNetworks.get(1).ssid);
assertEquals(network2.SSID, pnoNetworks.get(2).ssid);
}
/**
* Verifies the ordering of network list generated using
* {@link WifiConfigManager#retrievePnoNetworkList()}.
*/
@Test
public void testRetrievePnoListPrefersLastConnectedNetworkThenMostConnectedNetworks() {
when(mFrameworkFacade.getIntegerSetting(eq(mContext),
eq(Settings.Global.WIFI_PNO_RECENCY_SORTING_ENABLED),
anyInt())).thenReturn(1);
mContentObserverPnoRecencySorting.onChange(false);
// Create and add 3 networks.
WifiConfiguration network1 = WifiConfigurationTestUtil.createEapNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network3 = WifiConfigurationTestUtil.createOpenHiddenNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
verifyAddNetworkToWifiConfigManager(network3);
// Enable all of them.
assertTrue(mWifiConfigManager.enableNetwork(network1.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network2.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network3.networkId, false, TEST_CREATOR_UID));
long firstConnectionTimeMillis = 45677;
long secondConnectionTimeMillis = firstConnectionTimeMillis + 45;
long thirdConnectionTimeMillis = secondConnectionTimeMillis + 45;
long fourthConnectionTimeMillis = thirdConnectionTimeMillis + 45;
long fifthConnectionTimeMillis = fourthConnectionTimeMillis + 45;
long sixthConnectionTimeMillis = fifthConnectionTimeMillis + 45;
// Simulate 3 connections to |network2|
when(mClock.getWallClockMillis()).thenReturn(firstConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network2.networkId));
when(mClock.getWallClockMillis()).thenReturn(secondConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network2.networkId));
when(mClock.getWallClockMillis()).thenReturn(thirdConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network2.networkId));
// Simulate 2 connections to |network1|
when(mClock.getWallClockMillis()).thenReturn(fourthConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network1.networkId));
when(mClock.getWallClockMillis()).thenReturn(fifthConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network1.networkId));
// Simulate last connection to |network3|
when(mClock.getWallClockMillis()).thenReturn(sixthConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network3.networkId));
// Retrieve the Pno network list & verify the order of the networks returned.
List<WifiScanner.PnoSettings.PnoNetwork> pnoNetworks =
mWifiConfigManager.retrievePnoNetworkList();
assertEquals(3, pnoNetworks.size());
assertEquals(network3.SSID, pnoNetworks.get(0).ssid);
assertEquals(network2.SSID, pnoNetworks.get(1).ssid);
assertEquals(network1.SSID, pnoNetworks.get(2).ssid);
}
/**
* Verify that pno recency consideration feature is disabled by the flag.
* {@link WifiConfigManager#retrievePnoNetworkList()}.
*/
@Test
public void testRetrievePnoListRecencyFlagDisabled() {
when(mFrameworkFacade.getIntegerSetting(eq(mContext),
eq(Settings.Global.WIFI_PNO_RECENCY_SORTING_ENABLED),
anyInt())).thenReturn(0);
mContentObserverPnoRecencySorting.onChange(false);
// Create and add 3 networks.
WifiConfiguration network1 = WifiConfigurationTestUtil.createEapNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network3 = WifiConfigurationTestUtil.createOpenHiddenNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
verifyAddNetworkToWifiConfigManager(network3);
// Enable all of them.
assertTrue(mWifiConfigManager.enableNetwork(network1.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network2.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(network3.networkId, false, TEST_CREATOR_UID));
long firstConnectionTimeMillis = 45677;
long secondConnectionTimeMillis = firstConnectionTimeMillis + 45;
long thridConnectionTimeMillis = secondConnectionTimeMillis + 45;
// Simulate connecting to network1 2 times
when(mClock.getWallClockMillis()).thenReturn(firstConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network1.networkId));
when(mClock.getWallClockMillis()).thenReturn(secondConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network1.networkId));
// Simulate connecting to network2 once with the newest timestamp
when(mClock.getWallClockMillis()).thenReturn(thridConnectionTimeMillis);
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network2.networkId));
// Retrieve the Pno network list & verify the order of the networks returned.
List<WifiScanner.PnoSettings.PnoNetwork> pnoNetworks =
mWifiConfigManager.retrievePnoNetworkList();
assertEquals(3, pnoNetworks.size());
assertEquals(network1.SSID, pnoNetworks.get(0).ssid);
assertEquals(network2.SSID, pnoNetworks.get(1).ssid);
assertEquals(network3.SSID, pnoNetworks.get(2).ssid);
}
/**
* Verifies that the list of PNO networks does not contain ephemeral or passpoint networks
* {@link WifiConfigManager#retrievePnoNetworkList()}.
*/
@Test
public void testRetrievePnoListDoesNotContainEphemeralOrPasspointNetworks() throws Exception {
WifiConfiguration savedOpenNetwork = WifiConfigurationTestUtil.createOpenNetwork();
WifiConfiguration ephemeralNetwork = WifiConfigurationTestUtil.createEphemeralNetwork();
WifiConfiguration passpointNetwork = WifiConfigurationTestUtil.createPasspointNetwork();
verifyAddNetworkToWifiConfigManager(savedOpenNetwork);
verifyAddEphemeralNetworkToWifiConfigManager(ephemeralNetwork);
verifyAddPasspointNetworkToWifiConfigManager(passpointNetwork);
// Enable all of them.
assertTrue(mWifiConfigManager.enableNetwork(
savedOpenNetwork.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(
ephemeralNetwork.networkId, false, TEST_CREATOR_UID));
assertTrue(mWifiConfigManager.enableNetwork(
passpointNetwork.networkId, false, TEST_CREATOR_UID));
// Retrieve the Pno network list & verify the order of the networks returned.
List<WifiScanner.PnoSettings.PnoNetwork> pnoNetworks =
mWifiConfigManager.retrievePnoNetworkList();
assertEquals(1, pnoNetworks.size());
assertEquals(savedOpenNetwork.SSID, pnoNetworks.get(0).ssid);
}
/**
* Verifies that the list of PNO networks does not contain any permanently or temporarily
* disabled networks.
* {@link WifiConfigManager#retrievePnoNetworkList()}.
*/
@Test
public void testRetrievePnoListDoesNotContainDisabledNetworks() throws Exception {
// Create and add 2 networks.
WifiConfiguration network1 = WifiConfigurationTestUtil.createEapNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
NetworkUpdateResult result1 = verifyAddNetworkToWifiConfigManager(network1);
NetworkUpdateResult result2 = verifyAddNetworkToWifiConfigManager(network2);
// Enable all of them.
verifyUpdateNetworkSelectionStatus(
result1.getNetworkId(), NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
verifyUpdateNetworkSelectionStatus(
result2.getNetworkId(), NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
// Set network1 to temporarily disabled. The threshold for association rejection is 5, so
// disable it 5 times to actually mark it temporarily disabled.
int assocRejectReason = NetworkSelectionStatus.DISABLED_ASSOCIATION_REJECTION;
int assocRejectThreshold =
WifiConfigManager.NETWORK_SELECTION_DISABLE_THRESHOLD[assocRejectReason];
for (int i = 1; i <= assocRejectThreshold; i++) {
verifyUpdateNetworkSelectionStatus(result1.getNetworkId(), assocRejectReason, i);
}
// Set network 2 to permanently disabled.
verifyUpdateNetworkSelectionStatus(
result2.getNetworkId(), NetworkSelectionStatus.DISABLED_BY_WIFI_MANAGER, 0);
// Retrieve the Pno network list & verify both networks are not included.
List<WifiScanner.PnoSettings.PnoNetwork> pnoNetworks =
mWifiConfigManager.retrievePnoNetworkList();
assertEquals(0, pnoNetworks.size());
}
/**
* Verifies the linking of networks when they have the same default GW Mac address in
* {@link WifiConfigManager#getOrCreateScanDetailCacheForNetwork(WifiConfiguration)}.
*/
@Test
public void testNetworkLinkUsingGwMacAddress() {
WifiConfiguration network1 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network3 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
verifyAddNetworkToWifiConfigManager(network3);
// Set the same default GW mac address for all of the networks.
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network1.networkId, TEST_DEFAULT_GW_MAC_ADDRESS));
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network2.networkId, TEST_DEFAULT_GW_MAC_ADDRESS));
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network3.networkId, TEST_DEFAULT_GW_MAC_ADDRESS));
// Now create dummy scan detail corresponding to the networks.
ScanDetail networkScanDetail1 = createScanDetailForNetwork(network1);
ScanDetail networkScanDetail2 = createScanDetailForNetwork(network2);
ScanDetail networkScanDetail3 = createScanDetailForNetwork(network3);
// Now save all these scan details corresponding to each of this network and expect
// all of these networks to be linked with each other.
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail1));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail2));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail3));
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworks();
for (WifiConfiguration network : retrievedNetworks) {
assertEquals(2, network.linkedConfigurations.size());
for (WifiConfiguration otherNetwork : retrievedNetworks) {
if (otherNetwork == network) {
continue;
}
assertNotNull(network.linkedConfigurations.get(otherNetwork.configKey()));
}
}
}
/**
* Verifies the linking of networks when they have scan results with same first 16 ASCII of
* bssid in
* {@link WifiConfigManager#getOrCreateScanDetailCacheForNetwork(WifiConfiguration)}.
*/
@Test
public void testNetworkLinkUsingBSSIDMatch() {
WifiConfiguration network1 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network3 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
verifyAddNetworkToWifiConfigManager(network3);
// Create scan results with bssid which is different in only the last char.
ScanDetail networkScanDetail1 = createScanDetailForNetwork(network1, "af:89:56:34:56:67");
ScanDetail networkScanDetail2 = createScanDetailForNetwork(network2, "af:89:56:34:56:68");
ScanDetail networkScanDetail3 = createScanDetailForNetwork(network3, "af:89:56:34:56:69");
// Now save all these scan details corresponding to each of this network and expect
// all of these networks to be linked with each other.
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail1));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail2));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail3));
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworks();
for (WifiConfiguration network : retrievedNetworks) {
assertEquals(2, network.linkedConfigurations.size());
for (WifiConfiguration otherNetwork : retrievedNetworks) {
if (otherNetwork == network) {
continue;
}
assertNotNull(network.linkedConfigurations.get(otherNetwork.configKey()));
}
}
}
/**
* Verifies the linking of networks does not happen for non WPA networks when they have scan
* results with same first 16 ASCII of bssid in
* {@link WifiConfigManager#getOrCreateScanDetailCacheForNetwork(WifiConfiguration)}.
*/
@Test
public void testNoNetworkLinkUsingBSSIDMatchForNonWpaNetworks() {
WifiConfiguration network1 = WifiConfigurationTestUtil.createOpenNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
// Create scan results with bssid which is different in only the last char.
ScanDetail networkScanDetail1 = createScanDetailForNetwork(network1, "af:89:56:34:56:67");
ScanDetail networkScanDetail2 = createScanDetailForNetwork(network2, "af:89:56:34:56:68");
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail1));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail2));
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworks();
for (WifiConfiguration network : retrievedNetworks) {
assertNull(network.linkedConfigurations);
}
}
/**
* Verifies the linking of networks does not happen for networks with more than
* {@link WifiConfigManager#LINK_CONFIGURATION_MAX_SCAN_CACHE_ENTRIES} scan
* results with same first 16 ASCII of bssid in
* {@link WifiConfigManager#getOrCreateScanDetailCacheForNetwork(WifiConfiguration)}.
*/
@Test
public void testNoNetworkLinkUsingBSSIDMatchForNetworksWithHighScanDetailCacheSize() {
WifiConfiguration network1 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
// Create 7 scan results with bssid which is different in only the last char.
String test_bssid_base = "af:89:56:34:56:6";
int scan_result_num = 0;
for (; scan_result_num < WifiConfigManager.LINK_CONFIGURATION_MAX_SCAN_CACHE_ENTRIES + 1;
scan_result_num++) {
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network1, test_bssid_base + Integer.toString(scan_result_num));
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
// Now add 1 scan result to the other network with bssid which is different in only the
// last char.
ScanDetail networkScanDetail2 =
createScanDetailForNetwork(
network2, test_bssid_base + Integer.toString(scan_result_num++));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail2));
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworks();
for (WifiConfiguration network : retrievedNetworks) {
assertNull(network.linkedConfigurations);
}
}
/**
* Verifies the linking of networks when they have scan results with same first 16 ASCII of
* bssid in {@link WifiConfigManager#getOrCreateScanDetailCacheForNetwork(WifiConfiguration)}
* and then subsequently delinked when the networks have default gateway set which do not match.
*/
@Test
public void testNetworkLinkUsingBSSIDMatchAndThenUnlinkDueToGwMacAddress() {
WifiConfiguration network1 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
// Create scan results with bssid which is different in only the last char.
ScanDetail networkScanDetail1 = createScanDetailForNetwork(network1, "af:89:56:34:56:67");
ScanDetail networkScanDetail2 = createScanDetailForNetwork(network2, "af:89:56:34:56:68");
// Now save all these scan details corresponding to each of this network and expect
// all of these networks to be linked with each other.
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail1));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail2));
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworks();
for (WifiConfiguration network : retrievedNetworks) {
assertEquals(1, network.linkedConfigurations.size());
for (WifiConfiguration otherNetwork : retrievedNetworks) {
if (otherNetwork == network) {
continue;
}
assertNotNull(network.linkedConfigurations.get(otherNetwork.configKey()));
}
}
// Now Set different GW mac address for both the networks and ensure they're unlinked.
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network1.networkId, "de:ad:fe:45:23:34"));
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network2.networkId, "ad:de:fe:45:23:34"));
// Add some dummy scan results again to re-evaluate the linking of networks.
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
createScanDetailForNetwork(network1, "af:89:56:34:45:67")));
assertNotNull(mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
createScanDetailForNetwork(network1, "af:89:56:34:45:68")));
retrievedNetworks = mWifiConfigManager.getConfiguredNetworks();
for (WifiConfiguration network : retrievedNetworks) {
assertNull(network.linkedConfigurations);
}
}
/**
* Verifies the creation of channel list using
* {@link WifiConfigManager#fetchChannelSetForNetworkForPartialScan(int, long, int)}.
*/
@Test
public void testFetchChannelSetForNetwork() {
WifiConfiguration network = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network);
// Create 5 scan results with different bssid's & frequencies.
String test_bssid_base = "af:89:56:34:56:6";
for (int i = 0; i < TEST_FREQ_LIST.length; i++) {
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network, test_bssid_base + Integer.toString(i), 0, TEST_FREQ_LIST[i]);
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
assertEquals(new HashSet<Integer>(Arrays.asList(TEST_FREQ_LIST)),
mWifiConfigManager.fetchChannelSetForNetworkForPartialScan(network.networkId, 1,
TEST_FREQ_LIST[4]));
}
/**
* Verifies the creation of channel list using
* {@link WifiConfigManager#fetchChannelSetForNetworkForPartialScan(int, long, int)} and
* ensures that the frequenecy of the currently connected network is in the returned
* channel set.
*/
@Test
public void testFetchChannelSetForNetworkIncludeCurrentNetwork() {
WifiConfiguration network = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network);
// Create 5 scan results with different bssid's & frequencies.
String test_bssid_base = "af:89:56:34:56:6";
for (int i = 0; i < TEST_FREQ_LIST.length; i++) {
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network, test_bssid_base + Integer.toString(i), 0, TEST_FREQ_LIST[i]);
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
// Currently connected network frequency 2427 is not in the TEST_FREQ_LIST
Set<Integer> freqs = mWifiConfigManager.fetchChannelSetForNetworkForPartialScan(
network.networkId, 1, 2427);
assertEquals(true, freqs.contains(2427));
}
/**
* Verifies the creation of channel list using
* {@link WifiConfigManager#fetchChannelSetForNetworkForPartialScan(int, long, int)} and
* ensures that scan results which have a timestamp beyond the provided age are not used
* in the channel list.
*/
@Test
public void testFetchChannelSetForNetworkIgnoresStaleScanResults() {
WifiConfiguration network = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network);
long wallClockBase = 0;
// Create 5 scan results with different bssid's & frequencies.
String test_bssid_base = "af:89:56:34:56:6";
for (int i = 0; i < TEST_FREQ_LIST.length; i++) {
// Increment the seen value in the scan results for each of them.
when(mClock.getWallClockMillis()).thenReturn(wallClockBase + i);
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network, test_bssid_base + Integer.toString(i), 0, TEST_FREQ_LIST[i]);
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
int ageInMillis = 4;
// Now fetch only scan results which are 4 millis stale. This should ignore the first
// scan result.
assertEquals(
new HashSet<>(Arrays.asList(
Arrays.copyOfRange(
TEST_FREQ_LIST,
TEST_FREQ_LIST.length - ageInMillis, TEST_FREQ_LIST.length))),
mWifiConfigManager.fetchChannelSetForNetworkForPartialScan(
network.networkId, ageInMillis, TEST_FREQ_LIST[4]));
}
/**
* Verifies the creation of channel list using
* {@link WifiConfigManager#fetchChannelSetForNetworkForPartialScan(int, long, int)} and
* ensures that the list size does not exceed the max configured for the device.
*/
@Test
public void testFetchChannelSetForNetworkIsLimitedToConfiguredSize() {
// Need to recreate the WifiConfigManager instance for this test to modify the config
// value which is read only in the constructor.
int maxListSize = 3;
mResources.setInteger(
R.integer.config_wifi_framework_associated_partial_scan_max_num_active_channels,
maxListSize);
createWifiConfigManager();
WifiConfiguration network = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network);
// Create 5 scan results with different bssid's & frequencies.
String test_bssid_base = "af:89:56:34:56:6";
for (int i = 0; i < TEST_FREQ_LIST.length; i++) {
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network, test_bssid_base + Integer.toString(i), 0, TEST_FREQ_LIST[i]);
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
// Ensure that the fetched list size is limited.
assertEquals(maxListSize,
mWifiConfigManager.fetchChannelSetForNetworkForPartialScan(
network.networkId, 1, TEST_FREQ_LIST[4]).size());
}
/**
* Verifies the creation of channel list using
* {@link WifiConfigManager#fetchChannelSetForNetworkForPartialScan(int, long, int)} and
* ensures that scan results from linked networks are used in the channel list.
*/
@Test
public void testFetchChannelSetForNetworkIncludesLinkedNetworks() {
WifiConfiguration network1 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
String test_bssid_base = "af:89:56:34:56:6";
int TEST_FREQ_LISTIdx = 0;
// Create 3 scan results with different bssid's & frequencies for network 1.
for (; TEST_FREQ_LISTIdx < TEST_FREQ_LIST.length / 2; TEST_FREQ_LISTIdx++) {
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network1, test_bssid_base + Integer.toString(TEST_FREQ_LISTIdx), 0,
TEST_FREQ_LIST[TEST_FREQ_LISTIdx]);
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
// Create 3 scan results with different bssid's & frequencies for network 2.
for (; TEST_FREQ_LISTIdx < TEST_FREQ_LIST.length; TEST_FREQ_LISTIdx++) {
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network2, test_bssid_base + Integer.toString(TEST_FREQ_LISTIdx), 0,
TEST_FREQ_LIST[TEST_FREQ_LISTIdx]);
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
// Link the 2 configurations together using the GwMacAddress.
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network1.networkId, TEST_DEFAULT_GW_MAC_ADDRESS));
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network2.networkId, TEST_DEFAULT_GW_MAC_ADDRESS));
// The channel list fetched should include scan results from both the linked networks.
assertEquals(new HashSet<Integer>(Arrays.asList(TEST_FREQ_LIST)),
mWifiConfigManager.fetchChannelSetForNetworkForPartialScan(network1.networkId, 1,
TEST_FREQ_LIST[0]));
assertEquals(new HashSet<Integer>(Arrays.asList(TEST_FREQ_LIST)),
mWifiConfigManager.fetchChannelSetForNetworkForPartialScan(network2.networkId, 1,
TEST_FREQ_LIST[0]));
}
/**
* Verifies the creation of channel list using
* {@link WifiConfigManager#fetchChannelSetForNetworkForPartialScan(int, long, int)} and
* ensures that scan results from linked networks are used in the channel list and that the
* list size does not exceed the max configured for the device.
*/
@Test
public void testFetchChannelSetForNetworkIncludesLinkedNetworksIsLimitedToConfiguredSize() {
// Need to recreate the WifiConfigManager instance for this test to modify the config
// value which is read only in the constructor.
int maxListSize = 3;
mResources.setInteger(
R.integer.config_wifi_framework_associated_partial_scan_max_num_active_channels,
maxListSize);
createWifiConfigManager();
WifiConfiguration network1 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
String test_bssid_base = "af:89:56:34:56:6";
int TEST_FREQ_LISTIdx = 0;
// Create 3 scan results with different bssid's & frequencies for network 1.
for (; TEST_FREQ_LISTIdx < TEST_FREQ_LIST.length / 2; TEST_FREQ_LISTIdx++) {
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network1, test_bssid_base + Integer.toString(TEST_FREQ_LISTIdx), 0,
TEST_FREQ_LIST[TEST_FREQ_LISTIdx]);
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
// Create 3 scan results with different bssid's & frequencies for network 2.
for (; TEST_FREQ_LISTIdx < TEST_FREQ_LIST.length; TEST_FREQ_LISTIdx++) {
ScanDetail networkScanDetail =
createScanDetailForNetwork(
network2, test_bssid_base + Integer.toString(TEST_FREQ_LISTIdx), 0,
TEST_FREQ_LIST[TEST_FREQ_LISTIdx]);
assertNotNull(
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(
networkScanDetail));
}
// Link the 2 configurations together using the GwMacAddress.
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network1.networkId, TEST_DEFAULT_GW_MAC_ADDRESS));
assertTrue(mWifiConfigManager.setNetworkDefaultGwMacAddress(
network2.networkId, TEST_DEFAULT_GW_MAC_ADDRESS));
// Ensure that the fetched list size is limited.
assertEquals(maxListSize,
mWifiConfigManager.fetchChannelSetForNetworkForPartialScan(
network1.networkId, 1, TEST_FREQ_LIST[0]).size());
assertEquals(maxListSize,
mWifiConfigManager.fetchChannelSetForNetworkForPartialScan(
network2.networkId, 1, TEST_FREQ_LIST[0]).size());
}
/**
* Verifies the foreground user switch using {@link WifiConfigManager#handleUserSwitch(int)}
* and ensures that any shared private networks networkId is not changed.
* Test scenario:
* 1. Load the shared networks from shared store and user 1 store.
* 2. Switch to user 2 and ensure that the shared network's Id is not changed.
*/
@Test
public void testHandleUserSwitchDoesNotChangeSharedNetworksId() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
int appId = 674;
long currentTimeMs = 67823;
when(mClock.getWallClockMillis()).thenReturn(currentTimeMs);
// Create 3 networks. 1 for user1, 1 for user2 and 1 shared.
final WifiConfiguration user1Network = WifiConfigurationTestUtil.createPskNetwork();
user1Network.shared = false;
user1Network.creatorUid = UserHandle.getUid(user1, appId);
final WifiConfiguration user2Network = WifiConfigurationTestUtil.createPskNetwork();
user2Network.shared = false;
user2Network.creatorUid = UserHandle.getUid(user2, appId);
final WifiConfiguration sharedNetwork1 = WifiConfigurationTestUtil.createPskNetwork();
final WifiConfiguration sharedNetwork2 = WifiConfigurationTestUtil.createPskNetwork();
// Set up the store data that is loaded initially.
List<WifiConfiguration> sharedNetworks = new ArrayList<WifiConfiguration>() {
{
add(sharedNetwork1);
add(sharedNetwork2);
}
};
List<WifiConfiguration> user1Networks = new ArrayList<WifiConfiguration>() {
{
add(user1Network);
}
};
Map<String, Long> deletedSsidsToTimeMap = new HashMap<String, Long>() {
{
put(TEST_SSID, currentTimeMs);
}
};
setupStoreDataForRead(sharedNetworks, user1Networks, deletedSsidsToTimeMap);
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
// Fetch the network ID's assigned to the shared networks initially.
int sharedNetwork1Id = WifiConfiguration.INVALID_NETWORK_ID;
int sharedNetwork2Id = WifiConfiguration.INVALID_NETWORK_ID;
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
for (WifiConfiguration network : retrievedNetworks) {
if (network.configKey().equals(sharedNetwork1.configKey())) {
sharedNetwork1Id = network.networkId;
} else if (network.configKey().equals(sharedNetwork2.configKey())) {
sharedNetwork2Id = network.networkId;
}
}
assertTrue(sharedNetwork1Id != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(sharedNetwork2Id != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(mWifiConfigManager.wasEphemeralNetworkDeleted(TEST_SSID));
// Set up the user 2 store data that is loaded at user switch.
List<WifiConfiguration> user2Networks = new ArrayList<WifiConfiguration>() {
{
add(user2Network);
}
};
setupStoreDataForUserRead(user2Networks, new HashMap<>());
// Now switch the user to user 2 and ensure that shared network's IDs have not changed.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(true);
mWifiConfigManager.handleUserSwitch(user2);
verify(mWifiConfigStore).switchUserStoresAndRead(any(List.class));
// Again fetch the network ID's assigned to the shared networks and ensure they have not
// changed.
int updatedSharedNetwork1Id = WifiConfiguration.INVALID_NETWORK_ID;
int updatedSharedNetwork2Id = WifiConfiguration.INVALID_NETWORK_ID;
retrievedNetworks = mWifiConfigManager.getConfiguredNetworksWithPasswords();
for (WifiConfiguration network : retrievedNetworks) {
if (network.configKey().equals(sharedNetwork1.configKey())) {
updatedSharedNetwork1Id = network.networkId;
} else if (network.configKey().equals(sharedNetwork2.configKey())) {
updatedSharedNetwork2Id = network.networkId;
}
}
assertEquals(sharedNetwork1Id, updatedSharedNetwork1Id);
assertEquals(sharedNetwork2Id, updatedSharedNetwork2Id);
assertFalse(mWifiConfigManager.wasEphemeralNetworkDeleted(TEST_SSID));
}
/**
* Verifies the foreground user switch using {@link WifiConfigManager#handleUserSwitch(int)}
* and ensures that any old user private networks are not visible anymore.
* Test scenario:
* 1. Load the shared networks from shared store and user 1 store.
* 2. Switch to user 2 and ensure that the user 1's private network has been removed.
*/
@Test
public void testHandleUserSwitchRemovesOldUserPrivateNetworks() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
int appId = 674;
// Create 3 networks. 1 for user1, 1 for user2 and 1 shared.
final WifiConfiguration user1Network = WifiConfigurationTestUtil.createPskNetwork();
user1Network.shared = false;
user1Network.creatorUid = UserHandle.getUid(user1, appId);
final WifiConfiguration user2Network = WifiConfigurationTestUtil.createPskNetwork();
user2Network.shared = false;
user2Network.creatorUid = UserHandle.getUid(user2, appId);
final WifiConfiguration sharedNetwork = WifiConfigurationTestUtil.createPskNetwork();
// Set up the store data that is loaded initially.
List<WifiConfiguration> sharedNetworks = new ArrayList<WifiConfiguration>() {
{
add(sharedNetwork);
}
};
List<WifiConfiguration> user1Networks = new ArrayList<WifiConfiguration>() {
{
add(user1Network);
}
};
setupStoreDataForRead(sharedNetworks, user1Networks, new HashMap<>());
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
// Fetch the network ID assigned to the user 1 network initially.
int user1NetworkId = WifiConfiguration.INVALID_NETWORK_ID;
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
for (WifiConfiguration network : retrievedNetworks) {
if (network.configKey().equals(user1Network.configKey())) {
user1NetworkId = network.networkId;
}
}
// Set up the user 2 store data that is loaded at user switch.
List<WifiConfiguration> user2Networks = new ArrayList<WifiConfiguration>() {
{
add(user2Network);
}
};
setupStoreDataForUserRead(user2Networks, new HashMap<>());
// Now switch the user to user 2 and ensure that user 1's private network has been removed.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(true);
Set<Integer> removedNetworks = mWifiConfigManager.handleUserSwitch(user2);
verify(mWifiConfigStore).switchUserStoresAndRead(any(List.class));
assertTrue((removedNetworks.size() == 1) && (removedNetworks.contains(user1NetworkId)));
// Set the expected networks to be |sharedNetwork| and |user2Network|.
List<WifiConfiguration> expectedNetworks = new ArrayList<WifiConfiguration>() {
{
add(sharedNetwork);
add(user2Network);
}
};
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
expectedNetworks, mWifiConfigManager.getConfiguredNetworksWithPasswords());
// Send another user switch indication with the same user 2. This should be ignored and
// hence should not remove any new networks.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(true);
removedNetworks = mWifiConfigManager.handleUserSwitch(user2);
assertTrue(removedNetworks.isEmpty());
}
/**
* Verifies the foreground user switch using {@link WifiConfigManager#handleUserSwitch(int)}
* and ensures that user switch from a user with no private networks is handled.
* Test scenario:
* 1. Load the shared networks from shared store and emptu user 1 store.
* 2. Switch to user 2 and ensure that no private networks were removed.
*/
@Test
public void testHandleUserSwitchWithNoOldUserPrivateNetworks() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
int appId = 674;
// Create 2 networks. 1 for user2 and 1 shared.
final WifiConfiguration user2Network = WifiConfigurationTestUtil.createPskNetwork();
user2Network.shared = false;
user2Network.creatorUid = UserHandle.getUid(user2, appId);
final WifiConfiguration sharedNetwork = WifiConfigurationTestUtil.createPskNetwork();
// Set up the store data that is loaded initially.
List<WifiConfiguration> sharedNetworks = new ArrayList<WifiConfiguration>() {
{
add(sharedNetwork);
}
};
setupStoreDataForRead(sharedNetworks, new ArrayList<>(), new HashMap<>());
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
// Set up the user 2 store data that is loaded at user switch.
List<WifiConfiguration> user2Networks = new ArrayList<WifiConfiguration>() {
{
add(user2Network);
}
};
setupStoreDataForUserRead(user2Networks, new HashMap<>());
// Now switch the user to user 2 and ensure that no private network has been removed.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(true);
Set<Integer> removedNetworks = mWifiConfigManager.handleUserSwitch(user2);
verify(mWifiConfigStore).switchUserStoresAndRead(any(List.class));
assertTrue(removedNetworks.isEmpty());
}
/**
* Verifies the foreground user switch using {@link WifiConfigManager#handleUserSwitch(int)}
* and ensures that any non current user private networks are moved to shared store file.
* This test simulates the following test case:
* 1. Loads the shared networks from shared store at bootup.
* 2. Load the private networks from user store on user 1 unlock.
* 3. Switch to user 2 and ensure that the user 2's private network has been moved to user 2's
* private store file.
*/
@Test
public void testHandleUserSwitchPushesOtherPrivateNetworksToSharedStore() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
int appId = 674;
// Create 3 networks. 1 for user1, 1 for user2 and 1 shared.
final WifiConfiguration user1Network = WifiConfigurationTestUtil.createPskNetwork();
user1Network.shared = false;
user1Network.creatorUid = UserHandle.getUid(user1, appId);
final WifiConfiguration user2Network = WifiConfigurationTestUtil.createPskNetwork();
user2Network.shared = false;
user2Network.creatorUid = UserHandle.getUid(user2, appId);
final WifiConfiguration sharedNetwork = WifiConfigurationTestUtil.createPskNetwork();
// Set up the shared store data that is loaded at bootup. User 2's private network
// is still in shared store because they have not yet logged-in after upgrade.
List<WifiConfiguration> sharedNetworks = new ArrayList<WifiConfiguration>() {
{
add(sharedNetwork);
add(user2Network);
}
};
setupStoreDataForRead(sharedNetworks, new ArrayList<>(), new HashMap<>());
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
// Set up the user store data that is loaded at user unlock.
List<WifiConfiguration> userNetworks = new ArrayList<WifiConfiguration>() {
{
add(user1Network);
}
};
setupStoreDataForUserRead(userNetworks, new HashMap<>());
mWifiConfigManager.handleUserUnlock(user1);
verify(mWifiConfigStore).switchUserStoresAndRead(any(List.class));
// Capture the written data for the user 1 and ensure that it corresponds to what was
// setup.
Pair<List<WifiConfiguration>, List<WifiConfiguration>> writtenNetworkList =
captureWriteNetworksListStoreData();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
sharedNetworks, writtenNetworkList.first);
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
userNetworks, writtenNetworkList.second);
// Now switch the user to user2 and ensure that user 2's private network has been moved to
// the user store.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(true);
mWifiConfigManager.handleUserSwitch(user2);
// Set the expected network list before comparing. user1Network should be in shared data.
// Note: In the real world, user1Network will no longer be visible now because it should
// already be in user1's private store file. But, we're purposefully exposing it
// via |loadStoreData| to test if other user's private networks are pushed to shared store.
List<WifiConfiguration> expectedSharedNetworks = new ArrayList<WifiConfiguration>() {
{
add(sharedNetwork);
add(user1Network);
}
};
List<WifiConfiguration> expectedUserNetworks = new ArrayList<WifiConfiguration>() {
{
add(user2Network);
}
};
// Capture the first written data triggered for saving the old user's network
// configurations.
writtenNetworkList = captureWriteNetworksListStoreData();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
sharedNetworks, writtenNetworkList.first);
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
userNetworks, writtenNetworkList.second);
// Now capture the next written data triggered after the switch and ensure that user 2's
// network is now in user store data.
writtenNetworkList = captureWriteNetworksListStoreData();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
expectedSharedNetworks, writtenNetworkList.first);
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
expectedUserNetworks, writtenNetworkList.second);
}
/**
* Verify that unlocking an user that owns a legacy Passpoint configuration (which is stored
* temporarily in the share store) will migrate it to PasspointManager and removed from
* the list of configured networks.
*
* @throws Exception
*/
@Test
public void testHandleUserUnlockRemovePasspointConfigFromSharedConfig() throws Exception {
int user1 = TEST_DEFAULT_USER;
int appId = 674;
final WifiConfiguration passpointConfig =
WifiConfigurationTestUtil.createPasspointNetwork();
passpointConfig.creatorUid = UserHandle.getUid(user1, appId);
passpointConfig.isLegacyPasspointConfig = true;
// Set up the shared store data to contain one legacy Passpoint configuration.
List<WifiConfiguration> sharedNetworks = new ArrayList<WifiConfiguration>() {
{
add(passpointConfig);
}
};
setupStoreDataForRead(sharedNetworks, new ArrayList<>(), new HashMap<>());
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
assertEquals(1, mWifiConfigManager.getConfiguredNetworks().size());
// Unlock the owner of the legacy Passpoint configuration, verify it is removed from
// the configured networks (migrated to PasspointManager).
setupStoreDataForUserRead(new ArrayList<WifiConfiguration>(), new HashMap<>());
mWifiConfigManager.handleUserUnlock(user1);
verify(mWifiConfigStore).switchUserStoresAndRead(any(List.class));
Pair<List<WifiConfiguration>, List<WifiConfiguration>> writtenNetworkList =
captureWriteNetworksListStoreData();
assertTrue(writtenNetworkList.first.isEmpty());
assertTrue(writtenNetworkList.second.isEmpty());
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
}
/**
* Verifies the foreground user switch using {@link WifiConfigManager#handleUserSwitch(int)}
* and {@link WifiConfigManager#handleUserUnlock(int)} and ensures that the new store is
* read immediately if the user is unlocked during the switch.
*/
@Test
public void testHandleUserSwitchWhenUnlocked() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
// Set up the internal data first.
assertTrue(mWifiConfigManager.loadFromStore());
setupStoreDataForUserRead(new ArrayList<>(), new HashMap<>());
// user2 is unlocked and switched to foreground.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(true);
mWifiConfigManager.handleUserSwitch(user2);
// Ensure that the read was invoked.
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.switchUserStoresAndRead(any(List.class));
}
/**
* Verifies the foreground user switch using {@link WifiConfigManager#handleUserSwitch(int)}
* and {@link WifiConfigManager#handleUserUnlock(int)} and ensures that the new store is not
* read until the user is unlocked.
*/
@Test
public void testHandleUserSwitchWhenLocked() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
// Set up the internal data first.
assertTrue(mWifiConfigManager.loadFromStore());
// user2 is locked and switched to foreground.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(false);
mWifiConfigManager.handleUserSwitch(user2);
// Ensure that the read was not invoked.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
// Now try unlocking some other user (user1), this should be ignored.
mWifiConfigManager.handleUserUnlock(user1);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
setupStoreDataForUserRead(new ArrayList<>(), new HashMap<>());
// Unlock the user2 and ensure that we read the data now.
mWifiConfigManager.handleUserUnlock(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.switchUserStoresAndRead(any(List.class));
}
/**
* Verifies that the user stop handling using {@link WifiConfigManager#handleUserStop(int)}
* and ensures that the store is written only when the foreground user is stopped.
*/
@Test
public void testHandleUserStop() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
// Set up the internal data first.
assertTrue(mWifiConfigManager.loadFromStore());
// Try stopping background user2 first, this should not do anything.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(false);
mWifiConfigManager.handleUserStop(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
// Now try stopping the foreground user1, this should trigger a write to store.
mWifiConfigManager.handleUserStop(user1);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
mContextConfigStoreMockOrder.verify(mWifiConfigStore).write(anyBoolean());
}
/**
* Verifies that the user stop handling using {@link WifiConfigManager#handleUserStop(int)}
* and ensures that the shared data is not lost when the foreground user is stopped.
*/
@Test
public void testHandleUserStopDoesNotClearSharedData() throws Exception {
int user1 = TEST_DEFAULT_USER;
//
// Setup the database for the user before initiating stop.
//
int appId = 674;
// Create 2 networks. 1 for user1, and 1 shared.
final WifiConfiguration user1Network = WifiConfigurationTestUtil.createPskNetwork();
user1Network.shared = false;
user1Network.creatorUid = UserHandle.getUid(user1, appId);
final WifiConfiguration sharedNetwork = WifiConfigurationTestUtil.createPskNetwork();
// Set up the store data that is loaded initially.
List<WifiConfiguration> sharedNetworks = new ArrayList<WifiConfiguration>() {
{
add(sharedNetwork);
}
};
List<WifiConfiguration> user1Networks = new ArrayList<WifiConfiguration>() {
{
add(user1Network);
}
};
setupStoreDataForRead(sharedNetworks, user1Networks, new HashMap<>());
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
// Ensure that we have 2 networks in the database before the stop.
assertEquals(2, mWifiConfigManager.getConfiguredNetworks().size());
mWifiConfigManager.handleUserStop(user1);
// Ensure that we only have 1 shared network in the database after the stop.
assertEquals(1, mWifiConfigManager.getConfiguredNetworks().size());
assertEquals(sharedNetwork.SSID, mWifiConfigManager.getConfiguredNetworks().get(0).SSID);
}
/**
* Verifies the foreground user unlock via {@link WifiConfigManager#handleUserUnlock(int)}
* results in a store read after bootup.
*/
@Test
public void testHandleUserUnlockAfterBootup() throws Exception {
int user1 = TEST_DEFAULT_USER;
// Set up the internal data first.
assertTrue(mWifiConfigManager.loadFromStore());
mContextConfigStoreMockOrder.verify(mWifiConfigStore).read();
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
setupStoreDataForUserRead(new ArrayList<>(), new HashMap<>());
// Unlock the user1 (default user) for the first time and ensure that we read the data.
mWifiConfigManager.handleUserUnlock(user1);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).read();
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.switchUserStoresAndRead(any(List.class));
mContextConfigStoreMockOrder.verify(mWifiConfigStore).write(anyBoolean());
}
/**
* Verifies that the store read after bootup received after
* foreground user unlock via {@link WifiConfigManager#handleUserUnlock(int)}
* results in a user store read.
*/
@Test
public void testHandleBootupAfterUserUnlock() throws Exception {
int user1 = TEST_DEFAULT_USER;
// Unlock the user1 (default user) for the first time and ensure that we don't read the
// data.
mWifiConfigManager.handleUserUnlock(user1);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).read();
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
setupStoreDataForUserRead(new ArrayList<WifiConfiguration>(), new HashMap<>());
// Read from store now.
assertTrue(mWifiConfigManager.loadFromStore());
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.setUserStores(any(List.class));
mContextConfigStoreMockOrder.verify(mWifiConfigStore).read();
}
/**
* Verifies that the store read after bootup received after
* a user switch via {@link WifiConfigManager#handleUserSwitch(int)}
* results in a user store read.
*/
@Test
public void testHandleBootupAfterUserSwitch() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
// Switch from user1 to user2 and ensure that we don't read or write any data
// (need to wait for loadFromStore invocation).
mWifiConfigManager.handleUserSwitch(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).read();
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
// Now load from the store.
assertTrue(mWifiConfigManager.loadFromStore());
mContextConfigStoreMockOrder.verify(mWifiConfigStore).read();
// Unlock the user2 and ensure that we read from the user store.
setupStoreDataForUserRead(new ArrayList<>(), new HashMap<>());
mWifiConfigManager.handleUserUnlock(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.switchUserStoresAndRead(any(List.class));
}
/**
* Verifies that the store read after bootup received after
* a previous user unlock and user switch via {@link WifiConfigManager#handleUserSwitch(int)}
* results in a user store read.
*/
@Test
public void testHandleBootupAfterPreviousUserUnlockAndSwitch() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
// Unlock the user1 (default user) for the first time and ensure that we don't read the data
// (need to wait for loadFromStore invocation).
mWifiConfigManager.handleUserUnlock(user1);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).read();
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
// Switch from user1 to user2 and ensure that we don't read or write any data
// (need to wait for loadFromStore invocation).
mWifiConfigManager.handleUserSwitch(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).read();
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
// Now load from the store.
assertTrue(mWifiConfigManager.loadFromStore());
mContextConfigStoreMockOrder.verify(mWifiConfigStore).read();
// Unlock the user2 and ensure that we read from the user store.
setupStoreDataForUserRead(new ArrayList<>(), new HashMap<>());
mWifiConfigManager.handleUserUnlock(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.switchUserStoresAndRead(any(List.class));
}
/**
* Verifies that the store read after bootup received after
* a user switch and unlock of a previous user via {@link WifiConfigManager#
* handleUserSwitch(int)} results in a user store read.
*/
@Test
public void testHandleBootupAfterUserSwitchAndPreviousUserUnlock() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
// Switch from user1 to user2 and ensure that we don't read or write any data
// (need to wait for loadFromStore invocation).
mWifiConfigManager.handleUserSwitch(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).read();
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
// Unlock the user1 for the first time and ensure that we don't read the data
mWifiConfigManager.handleUserUnlock(user1);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).read();
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
// Now load from the store.
assertTrue(mWifiConfigManager.loadFromStore());
mContextConfigStoreMockOrder.verify(mWifiConfigStore).read();
// Unlock the user2 and ensure that we read from the user store.
setupStoreDataForUserRead(new ArrayList<>(), new HashMap<>());
mWifiConfigManager.handleUserUnlock(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.switchUserStoresAndRead(any(List.class));
}
/**
* Verifies the foreground user unlock via {@link WifiConfigManager#handleUserUnlock(int)} does
* not always result in a store read unless the user had switched or just booted up.
*/
@Test
public void testHandleUserUnlockWithoutSwitchOrBootup() throws Exception {
int user1 = TEST_DEFAULT_USER;
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
// Set up the internal data first.
assertTrue(mWifiConfigManager.loadFromStore());
setupStoreDataForUserRead(new ArrayList<>(), new HashMap<>());
// user2 is unlocked and switched to foreground.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(true);
mWifiConfigManager.handleUserSwitch(user2);
// Ensure that the read was invoked.
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.switchUserStoresAndRead(any(List.class));
// Unlock the user2 again and ensure that we don't read the data now.
mWifiConfigManager.handleUserUnlock(user2);
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never())
.switchUserStoresAndRead(any(List.class));
}
/**
* Verifies the private network addition using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}
* by a non foreground user is rejected.
*/
@Test
public void testAddNetworkUsingBackgroundUserUId() throws Exception {
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
int creatorUid = UserHandle.getUid(user2, 674);
// Create a network for user2 try adding it. This should be rejected.
final WifiConfiguration user2Network = WifiConfigurationTestUtil.createPskNetwork();
NetworkUpdateResult result = addNetworkToWifiConfigManager(user2Network, creatorUid);
assertFalse(result.isSuccess());
}
/**
* Verifies the private network addition using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)}
* by SysUI is always accepted.
*/
@Test
public void testAddNetworkUsingSysUiUid() throws Exception {
// Set up the user profiles stuff. Needed for |WifiConfigurationUtil.isVisibleToAnyProfile|
int user2 = TEST_DEFAULT_USER + 1;
setupUserProfiles(user2);
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(false);
mWifiConfigManager.handleUserSwitch(user2);
// Create a network for user2 try adding it. This should be rejected.
final WifiConfiguration user2Network = WifiConfigurationTestUtil.createPskNetwork();
NetworkUpdateResult result = addNetworkToWifiConfigManager(user2Network, TEST_SYSUI_UID);
assertTrue(result.isSuccess());
}
/**
* Verifies the loading of networks using {@link WifiConfigManager#loadFromStore()}
* attempts to read from the stores even when the store files are not present.
*/
@Test
public void testFreshInstallLoadFromStore() throws Exception {
when(mWifiConfigStore.areStoresPresent()).thenReturn(false);
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
assertTrue(mWifiConfigManager.getConfiguredNetworksWithPasswords().isEmpty());
}
/**
* Verifies the loading of networks using {@link WifiConfigManager#loadFromStore()}
* attempts to read from the stores even if the store files are not present and the
* user unlock already comes in.
*/
@Test
public void testFreshInstallLoadFromStoreAfterUserUnlock() throws Exception {
when(mWifiConfigStore.areStoresPresent()).thenReturn(false);
int user1 = TEST_DEFAULT_USER;
// Unlock the user1 (default user) for the first time and ensure that we don't read the
// data.
mWifiConfigManager.handleUserUnlock(user1);
verify(mWifiConfigStore, never()).read();
// Read from store now.
assertTrue(mWifiConfigManager.loadFromStore());
// Ensure that the read was invoked.
verify(mWifiConfigStore).read();
}
/**
* Verifies the user switch using {@link WifiConfigManager#handleUserSwitch(int)} is handled
* when the store files (new or legacy) are not present.
*/
@Test
public void testHandleUserSwitchAfterFreshInstall() throws Exception {
int user2 = TEST_DEFAULT_USER + 1;
when(mWifiConfigStore.areStoresPresent()).thenReturn(false);
assertTrue(mWifiConfigManager.loadFromStore());
verify(mWifiConfigStore).read();
setupStoreDataForUserRead(new ArrayList<>(), new HashMap<>());
// Now switch the user to user 2.
when(mUserManager.isUserUnlockingOrUnlocked(user2)).thenReturn(true);
mWifiConfigManager.handleUserSwitch(user2);
// Ensure that the read was invoked.
mContextConfigStoreMockOrder.verify(mWifiConfigStore)
.switchUserStoresAndRead(any(List.class));
}
/**
* Verifies that the last user selected network parameter is set when
* {@link WifiConfigManager#enableNetwork(int, boolean, int)} with disableOthers flag is set
* to true and cleared when either {@link WifiConfigManager#disableNetwork(int, int)} or
* {@link WifiConfigManager#removeNetwork(int, int)} is invoked using the same network ID.
*/
@Test
public void testLastSelectedNetwork() throws Exception {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
when(mClock.getElapsedSinceBootMillis()).thenReturn(67L);
assertTrue(mWifiConfigManager.enableNetwork(
result.getNetworkId(), true, TEST_CREATOR_UID));
assertEquals(result.getNetworkId(), mWifiConfigManager.getLastSelectedNetwork());
assertEquals(67, mWifiConfigManager.getLastSelectedTimeStamp());
// Now disable the network and ensure that the last selected flag is cleared.
assertTrue(mWifiConfigManager.disableNetwork(result.getNetworkId(), TEST_CREATOR_UID));
assertEquals(
WifiConfiguration.INVALID_NETWORK_ID, mWifiConfigManager.getLastSelectedNetwork());
// Enable it again and remove the network to ensure that the last selected flag was cleared.
assertTrue(mWifiConfigManager.enableNetwork(
result.getNetworkId(), true, TEST_CREATOR_UID));
assertEquals(result.getNetworkId(), mWifiConfigManager.getLastSelectedNetwork());
assertEquals(openNetwork.configKey(), mWifiConfigManager.getLastSelectedNetworkConfigKey());
assertTrue(mWifiConfigManager.removeNetwork(result.getNetworkId(), TEST_CREATOR_UID));
assertEquals(
WifiConfiguration.INVALID_NETWORK_ID, mWifiConfigManager.getLastSelectedNetwork());
}
/**
* Verifies that all the networks for the provided app is removed when
* {@link WifiConfigManager#removeNetworksForApp(ApplicationInfo)} is invoked.
*/
@Test
public void testRemoveNetworksForApp() throws Exception {
when(mPackageManager.getNameForUid(TEST_CREATOR_UID)).thenReturn(TEST_CREATOR_NAME);
verifyRemoveNetworksForApp();
}
/**
* Verifies that all the networks for the provided app is removed when
* {@link WifiConfigManager#removeNetworksForApp(ApplicationInfo)} is invoked.
*/
@Test
public void testRemoveNetworksForAppUsingSharedUid() throws Exception {
when(mPackageManager.getNameForUid(TEST_CREATOR_UID))
.thenReturn(TEST_CREATOR_NAME + ":" + TEST_CREATOR_UID);
verifyRemoveNetworksForApp();
}
/**
* Verifies that all the networks for the provided user is removed when
* {@link WifiConfigManager#removeNetworksForUser(int)} is invoked.
*/
@Test
public void testRemoveNetworksForUser() throws Exception {
verifyAddNetworkToWifiConfigManager(WifiConfigurationTestUtil.createOpenNetwork());
verifyAddNetworkToWifiConfigManager(WifiConfigurationTestUtil.createPskNetwork());
verifyAddNetworkToWifiConfigManager(WifiConfigurationTestUtil.createWepNetwork());
assertFalse(mWifiConfigManager.getConfiguredNetworks().isEmpty());
assertEquals(3, mWifiConfigManager.removeNetworksForUser(TEST_DEFAULT_USER).size());
// Ensure all the networks are removed now.
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
}
/**
* Verifies that the connect choice is removed from all networks when
* {@link WifiConfigManager#removeNetwork(int, int)} is invoked.
*/
@Test
public void testRemoveNetworkRemovesConnectChoice() throws Exception {
WifiConfiguration network1 = WifiConfigurationTestUtil.createOpenNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration network3 = WifiConfigurationTestUtil.createPskNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
verifyAddNetworkToWifiConfigManager(network3);
// Set connect choice of network 2 over network 1.
assertTrue(
mWifiConfigManager.setNetworkConnectChoice(
network1.networkId, network2.configKey(), 78L));
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetwork(network1.networkId);
assertEquals(
network2.configKey(),
retrievedNetwork.getNetworkSelectionStatus().getConnectChoice());
// Remove network 3 and ensure that the connect choice on network 1 is not removed.
assertTrue(mWifiConfigManager.removeNetwork(network3.networkId, TEST_CREATOR_UID));
retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(network1.networkId);
assertEquals(
network2.configKey(),
retrievedNetwork.getNetworkSelectionStatus().getConnectChoice());
// Now remove network 2 and ensure that the connect choice on network 1 is removed..
assertTrue(mWifiConfigManager.removeNetwork(network2.networkId, TEST_CREATOR_UID));
retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(network1.networkId);
assertNotEquals(
network2.configKey(),
retrievedNetwork.getNetworkSelectionStatus().getConnectChoice());
// This should have triggered 2 buffered writes. 1 for setting the connect choice, 1 for
// clearing it after network removal.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, times(2)).write(eq(false));
}
/**
* Verifies that all the ephemeral and passpoint networks are removed when
* {@link WifiConfigManager#removeAllEphemeralOrPasspointConfiguredNetworks()} is invoked.
*/
@Test
public void testRemoveAllEphemeralOrPasspointConfiguredNetworks() throws Exception {
WifiConfiguration savedOpenNetwork = WifiConfigurationTestUtil.createOpenNetwork();
WifiConfiguration ephemeralNetwork = WifiConfigurationTestUtil.createEphemeralNetwork();
WifiConfiguration passpointNetwork = WifiConfigurationTestUtil.createPasspointNetwork();
verifyAddNetworkToWifiConfigManager(savedOpenNetwork);
verifyAddEphemeralNetworkToWifiConfigManager(ephemeralNetwork);
verifyAddPasspointNetworkToWifiConfigManager(passpointNetwork);
List<WifiConfiguration> expectedConfigsBeforeRemove = new ArrayList<WifiConfiguration>() {{
add(savedOpenNetwork);
add(ephemeralNetwork);
add(passpointNetwork);
}};
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
expectedConfigsBeforeRemove, mWifiConfigManager.getConfiguredNetworks());
assertTrue(mWifiConfigManager.removeAllEphemeralOrPasspointConfiguredNetworks());
List<WifiConfiguration> expectedConfigsAfterRemove = new ArrayList<WifiConfiguration>() {{
add(savedOpenNetwork);
}};
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
expectedConfigsAfterRemove, mWifiConfigManager.getConfiguredNetworks());
// No more ephemeral or passpoint networks to remove now.
assertFalse(mWifiConfigManager.removeAllEphemeralOrPasspointConfiguredNetworks());
}
/**
* Verifies that Passpoint network corresponding with given FQDN is removed.
*
* @throws Exception
*/
@Test
public void testRemovePasspointConfiguredNetwork() throws Exception {
WifiConfiguration passpointNetwork = WifiConfigurationTestUtil.createPasspointNetwork();
verifyAddPasspointNetworkToWifiConfigManager(passpointNetwork);
assertTrue(mWifiConfigManager.removePasspointConfiguredNetwork(
WifiConfigurationTestUtil.TEST_FQDN));
}
/**
* Verifies that the modification of a single network using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} and ensures that any
* updates to the network config in
* {@link WifiKeyStore#updateNetworkKeys(WifiConfiguration, WifiConfiguration)} is reflected
* in the internal database.
*/
@Test
public void testUpdateSingleNetworkWithKeysUpdate() {
WifiConfiguration network = WifiConfigurationTestUtil.createEapNetwork();
network.enterpriseConfig =
WifiConfigurationTestUtil.createPEAPWifiEnterpriseConfigWithGTCPhase2();
verifyAddNetworkToWifiConfigManager(network);
// Now verify that network configurations match before we make any change.
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network,
mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
// Modify the network ca_cert field in updateNetworkKeys method during a network
// config update.
final String newCaCertAlias = "test";
assertNotEquals(newCaCertAlias, network.enterpriseConfig.getCaCertificateAlias());
doAnswer(new AnswerWithArguments() {
public boolean answer(WifiConfiguration newConfig, WifiConfiguration existingConfig) {
newConfig.enterpriseConfig.setCaCertificateAlias(newCaCertAlias);
return true;
}
}).when(mWifiKeyStore).updateNetworkKeys(
any(WifiConfiguration.class), any(WifiConfiguration.class));
verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(network);
// Now verify that the keys update is reflected in the configuration fetched from internal
// db.
network.enterpriseConfig.setCaCertificateAlias(newCaCertAlias);
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network,
mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
}
/**
* Verifies that the dump method prints out all the saved network details with passwords masked.
* {@link WifiConfigManager#dump(FileDescriptor, PrintWriter, String[])}.
*/
@Test
public void testDump() {
WifiConfiguration pskNetwork = WifiConfigurationTestUtil.createPskNetwork();
WifiConfiguration eapNetwork = WifiConfigurationTestUtil.createEapNetwork();
eapNetwork.enterpriseConfig.setPassword("blah");
verifyAddNetworkToWifiConfigManager(pskNetwork);
verifyAddNetworkToWifiConfigManager(eapNetwork);
StringWriter stringWriter = new StringWriter();
mWifiConfigManager.dump(
new FileDescriptor(), new PrintWriter(stringWriter), new String[0]);
String dumpString = stringWriter.toString();
// Ensure that the network SSIDs were dumped out.
assertTrue(dumpString.contains(pskNetwork.SSID));
assertTrue(dumpString.contains(eapNetwork.SSID));
// Ensure that the network passwords were not dumped out.
assertFalse(dumpString.contains(pskNetwork.preSharedKey));
assertFalse(dumpString.contains(eapNetwork.enterpriseConfig.getPassword()));
}
/**
* Verifies the ordering of network list generated using
* {@link WifiConfigManager#retrieveHiddenNetworkList()}.
*/
@Test
public void testRetrieveHiddenList() {
// Create and add 3 networks.
WifiConfiguration network1 = WifiConfigurationTestUtil.createWepHiddenNetwork();
WifiConfiguration network2 = WifiConfigurationTestUtil.createPskHiddenNetwork();
WifiConfiguration network3 = WifiConfigurationTestUtil.createOpenHiddenNetwork();
verifyAddNetworkToWifiConfigManager(network1);
verifyAddNetworkToWifiConfigManager(network2);
verifyAddNetworkToWifiConfigManager(network3);
// Now set scan results in 2 of them to set the corresponding
// {@link NetworkSelectionStatus#mSeenInLastQualifiedNetworkSelection} field.
assertTrue(mWifiConfigManager.setNetworkCandidateScanResult(
network1.networkId, createScanDetailForNetwork(network1).getScanResult(), 54));
assertTrue(mWifiConfigManager.setNetworkCandidateScanResult(
network3.networkId, createScanDetailForNetwork(network3).getScanResult(), 54));
// Now increment |network3|'s association count. This should ensure that this network
// is preferred over |network1|.
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(network3.networkId));
// Retrieve the hidden network list & verify the order of the networks returned.
List<WifiScanner.ScanSettings.HiddenNetwork> hiddenNetworks =
mWifiConfigManager.retrieveHiddenNetworkList();
assertEquals(3, hiddenNetworks.size());
assertEquals(network3.SSID, hiddenNetworks.get(0).ssid);
assertEquals(network1.SSID, hiddenNetworks.get(1).ssid);
assertEquals(network2.SSID, hiddenNetworks.get(2).ssid);
}
/**
* Verifies the addition of network configurations using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} with same SSID and
* default key mgmt does not add duplicate network configs.
*/
@Test
public void testAddMultipleNetworksWithSameSSIDAndDefaultKeyMgmt() {
final String ssid = "\"test_blah\"";
// Add a network with the above SSID and default key mgmt and ensure it was added
// successfully.
WifiConfiguration network1 = new WifiConfiguration();
network1.SSID = ssid;
NetworkUpdateResult result = addNetworkToWifiConfigManager(network1);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(result.isNewNetwork());
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
assertEquals(1, retrievedNetworks.size());
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network1, retrievedNetworks.get(0));
// Now add a second network with the same SSID and default key mgmt and ensure that it
// didn't add a new duplicate network.
WifiConfiguration network2 = new WifiConfiguration();
network2.SSID = ssid;
result = addNetworkToWifiConfigManager(network2);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertFalse(result.isNewNetwork());
retrievedNetworks = mWifiConfigManager.getConfiguredNetworksWithPasswords();
assertEquals(1, retrievedNetworks.size());
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network2, retrievedNetworks.get(0));
}
/**
* Verifies the addition of network configurations using
* {@link WifiConfigManager#addOrUpdateNetwork(WifiConfiguration, int)} with same SSID and
* different key mgmt should add different network configs.
*/
@Test
public void testAddMultipleNetworksWithSameSSIDAndDifferentKeyMgmt() {
final String ssid = "\"test_blah\"";
// Add a network with the above SSID and WPA_PSK key mgmt and ensure it was added
// successfully.
WifiConfiguration network1 = new WifiConfiguration();
network1.SSID = ssid;
network1.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.WPA_PSK);
network1.preSharedKey = "\"test_blah\"";
NetworkUpdateResult result = addNetworkToWifiConfigManager(network1);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(result.isNewNetwork());
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
assertEquals(1, retrievedNetworks.size());
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network1, retrievedNetworks.get(0));
// Now add a second network with the same SSID and NONE key mgmt and ensure that it
// does add a new network.
WifiConfiguration network2 = new WifiConfiguration();
network2.SSID = ssid;
network2.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.NONE);
result = addNetworkToWifiConfigManager(network2);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(result.isNewNetwork());
retrievedNetworks = mWifiConfigManager.getConfiguredNetworksWithPasswords();
assertEquals(2, retrievedNetworks.size());
List<WifiConfiguration> networks = Arrays.asList(network1, network2);
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
}
/**
* Verifies that adding a network with a proxy, without having permission OVERRIDE_WIFI_CONFIG,
* holding device policy, or profile owner policy fails.
*/
@Test
public void testAddNetworkWithProxyFails() {
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
false, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithStaticProxy(),
false, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
}
/**
* Verifies that adding a network with a PAC or STATIC proxy with permission
* OVERRIDE_WIFI_CONFIG is successful
*/
@Test
public void testAddNetworkWithProxyWithConfOverride() {
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
true, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
true, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithStaticProxy(),
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
}
/**
* Verifies that adding a network with a PAC or STATIC proxy, while holding policy
* {@link DeviceAdminInfo.USES_POLICY_PROFILE_OWNER} is successful
*/
@Test
public void testAddNetworkWithProxyAsProfileOwner() {
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithStaticProxy(),
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
}
/**
* Verifies that adding a network with a PAC or STATIC proxy, while holding policy
* {@link DeviceAdminInfo.USES_POLICY_DEVICE_OWNER} is successful
*/
@Test
public void testAddNetworkWithProxyAsDeviceOwner() {
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
true, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
true, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithStaticProxy(),
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
}
/**
* Verifies that updating a network (that has no proxy) and adding a PAC or STATIC proxy fails
* without being able to override configs, or holding Device or Profile owner policies.
*/
@Test
public void testUpdateNetworkAddProxyFails() {
WifiConfiguration network = WifiConfigurationTestUtil.createOpenHiddenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(network);
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
false, // assertSuccess
result.getNetworkId()); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithStaticProxy(),
false, // assertSuccess
result.getNetworkId()); // Update networkID
}
/**
* Verifies that updating a network and adding a proxy is successful in the cases where app can
* override configs, holds policy {@link DeviceAdminInfo.USES_POLICY_PROFILE_OWNER},
* and holds policy {@link DeviceAdminInfo.USES_POLICY_DEVICE_OWNER}, and that it fails
* otherwise.
*/
@Test
public void testUpdateNetworkAddProxyWithPermissionAndSystem() {
// Testing updating network with uid permission OVERRIDE_WIFI_CONFIG
WifiConfiguration network = WifiConfigurationTestUtil.createOpenHiddenNetwork();
NetworkUpdateResult result = addNetworkToWifiConfigManager(network, TEST_CREATOR_UID);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
true, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
true, // assertSuccess
result.getNetworkId()); // Update networkID
network = WifiConfigurationTestUtil.createOpenHiddenNetwork();
result = addNetworkToWifiConfigManager(network, TEST_CREATOR_UID);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withNetworkSetupWizard
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
true, // assertSuccess
result.getNetworkId()); // Update networkID
// Testing updating network with proxy while holding Profile Owner policy
network = WifiConfigurationTestUtil.createOpenHiddenNetwork();
result = addNetworkToWifiConfigManager(network, TEST_NO_PERM_UID);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
true, // assertSuccess
result.getNetworkId()); // Update networkID
// Testing updating network with proxy while holding Device Owner Policy
network = WifiConfigurationTestUtil.createOpenHiddenNetwork();
result = addNetworkToWifiConfigManager(network, TEST_NO_PERM_UID);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
true, // withDeviceOwnerPolicy
WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy(),
true, // assertSuccess
result.getNetworkId()); // Update networkID
}
/**
* Verifies that updating a network that has a proxy without changing the proxy, can succeed
* without proxy specific permissions.
*/
@Test
public void testUpdateNetworkUnchangedProxy() {
IpConfiguration ipConf = WifiConfigurationTestUtil.createDHCPIpConfigurationWithPacProxy();
// First create a WifiConfiguration with proxy
NetworkUpdateResult result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
// Update the network while using the same ipConf, and no proxy specific permissions
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf,
true, // assertSuccess
result.getNetworkId()); // Update networkID
}
/**
* Verifies that updating a network with a different proxy succeeds in the cases where app can
* override configs, holds policy {@link DeviceAdminInfo.USES_POLICY_PROFILE_OWNER},
* and holds policy {@link DeviceAdminInfo.USES_POLICY_DEVICE_OWNER}, and that it fails
* otherwise.
*/
@Test
public void testUpdateNetworkDifferentProxy() {
// Create two proxy configurations of the same type, but different values
IpConfiguration ipConf1 =
WifiConfigurationTestUtil.createDHCPIpConfigurationWithSpecificProxy(
WifiConfigurationTestUtil.STATIC_PROXY_SETTING,
TEST_STATIC_PROXY_HOST_1,
TEST_STATIC_PROXY_PORT_1,
TEST_STATIC_PROXY_EXCLUSION_LIST_1,
TEST_PAC_PROXY_LOCATION_1);
IpConfiguration ipConf2 =
WifiConfigurationTestUtil.createDHCPIpConfigurationWithSpecificProxy(
WifiConfigurationTestUtil.STATIC_PROXY_SETTING,
TEST_STATIC_PROXY_HOST_2,
TEST_STATIC_PROXY_PORT_2,
TEST_STATIC_PROXY_EXCLUSION_LIST_2,
TEST_PAC_PROXY_LOCATION_2);
// Update with Conf Override
NetworkUpdateResult result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
true, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf1,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
true, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf2,
true, // assertSuccess
result.getNetworkId()); // Update networkID
// Update as Device Owner
result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
true, // withDeviceOwnerPolicy
ipConf1,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
true, // withDeviceOwnerPolicy
ipConf2,
true, // assertSuccess
result.getNetworkId()); // Update networkID
// Update as Profile Owner
result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf1,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf2,
true, // assertSuccess
result.getNetworkId()); // Update networkID
// Update with no permissions (should fail)
result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf1,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf2,
false, // assertSuccess
result.getNetworkId()); // Update networkID
}
/**
* Verifies that updating a network removing its proxy succeeds in the cases where app can
* override configs, holds policy {@link DeviceAdminInfo.USES_POLICY_PROFILE_OWNER},
* and holds policy {@link DeviceAdminInfo.USES_POLICY_DEVICE_OWNER}, and that it fails
* otherwise.
*/
@Test
public void testUpdateNetworkRemoveProxy() {
// Create two different IP configurations, one with a proxy and another without.
IpConfiguration ipConf1 =
WifiConfigurationTestUtil.createDHCPIpConfigurationWithSpecificProxy(
WifiConfigurationTestUtil.STATIC_PROXY_SETTING,
TEST_STATIC_PROXY_HOST_1,
TEST_STATIC_PROXY_PORT_1,
TEST_STATIC_PROXY_EXCLUSION_LIST_1,
TEST_PAC_PROXY_LOCATION_1);
IpConfiguration ipConf2 =
WifiConfigurationTestUtil.createDHCPIpConfigurationWithSpecificProxy(
WifiConfigurationTestUtil.NONE_PROXY_SETTING,
TEST_STATIC_PROXY_HOST_2,
TEST_STATIC_PROXY_PORT_2,
TEST_STATIC_PROXY_EXCLUSION_LIST_2,
TEST_PAC_PROXY_LOCATION_2);
// Update with Conf Override
NetworkUpdateResult result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
true, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf1,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
true, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf2,
true, // assertSuccess
result.getNetworkId()); // Update networkID
// Update as Device Owner
result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
true, // withDeviceOwnerPolicy
ipConf1,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
true, // withDeviceOwnerPolicy
ipConf2,
true, // assertSuccess
result.getNetworkId()); // Update networkID
// Update as Profile Owner
result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf1,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf2,
true, // assertSuccess
result.getNetworkId()); // Update networkID
// Update with no permissions (should fail)
result = verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
true, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf1,
true, // assertSuccess
WifiConfiguration.INVALID_NETWORK_ID); // Update networkID
verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
false, // withNetworkSettings
false, // withProfileOwnerPolicy
false, // withDeviceOwnerPolicy
ipConf2,
false, // assertSuccess
result.getNetworkId()); // Update networkID
}
/**
* Verifies that the app specified BSSID is converted and saved in lower case.
*/
@Test
public void testAppSpecifiedBssidIsSavedInLowerCase() {
final String bssid = "0A:08:5C:BB:89:6D"; // upper case
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
openNetwork.BSSID = bssid;
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
WifiConfiguration retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(
result.getNetworkId());
assertNotEquals(retrievedNetwork.BSSID, bssid);
assertEquals(retrievedNetwork.BSSID, bssid.toLowerCase());
}
/**
* Verifies that the method setNetworkRandomizedMacAddress changes the randomized MAC
* address variable in the internal configuration.
*/
@Test
public void testSetNetworkRandomizedMacAddressUpdatesInternalMacAddress() {
WifiConfiguration originalConfig = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(originalConfig);
// Verify that internal randomized MAC address does not change from
// from setting external randomized MAC address
MacAddress originalMac = originalConfig.getOrCreateRandomizedMacAddress();
WifiConfiguration retrievedConfig = mWifiConfigManager
.getConfiguredNetworkWithoutMasking(result.getNetworkId());
assertNotEquals(originalMac, retrievedConfig.getRandomizedMacAddress());
// Verify that changing randomized MAC address through setNetworkRandomizedMacAddress
// changes the internal randomized MAC address
MacAddress newMac = MacAddress.createRandomUnicastAddress();
mWifiConfigManager.setNetworkRandomizedMacAddress(result.getNetworkId(), newMac);
retrievedConfig = mWifiConfigManager
.getConfiguredNetworkWithoutMasking(result.getNetworkId());
assertEquals(newMac, retrievedConfig.getRandomizedMacAddress());
}
/**
* Verifies that the method resetSimNetworks updates SIM presence status and SIM configs.
*/
@Test
public void testResetSimNetworks() {
String expectedIdentity = "13214561234567890@wlan.mnc456.mcc321.3gppnetwork.org";
when(mDataTelephonyManager.getSubscriberId()).thenReturn("3214561234567890");
when(mDataTelephonyManager.getSimState()).thenReturn(TelephonyManager.SIM_STATE_READY);
when(mDataTelephonyManager.getSimOperator()).thenReturn("321456");
when(mDataTelephonyManager.getCarrierInfoForImsiEncryption(anyInt())).thenReturn(null);
WifiConfiguration network = WifiConfigurationTestUtil.createEapNetwork();
WifiConfiguration simNetwork = WifiConfigurationTestUtil.createEapNetwork(
WifiEnterpriseConfig.Eap.SIM, WifiEnterpriseConfig.Phase2.NONE);
WifiConfiguration peapSimNetwork = WifiConfigurationTestUtil.createEapNetwork(
WifiEnterpriseConfig.Eap.PEAP, WifiEnterpriseConfig.Phase2.SIM);
network.enterpriseConfig.setIdentity("identity1");
network.enterpriseConfig.setAnonymousIdentity("anonymous_identity1");
simNetwork.enterpriseConfig.setIdentity("identity2");
simNetwork.enterpriseConfig.setAnonymousIdentity("anonymous_identity2");
peapSimNetwork.enterpriseConfig.setIdentity("identity3");
peapSimNetwork.enterpriseConfig.setAnonymousIdentity("anonymous_identity3");
verifyAddNetworkToWifiConfigManager(network);
verifyAddNetworkToWifiConfigManager(simNetwork);
verifyAddNetworkToWifiConfigManager(peapSimNetwork);
// SIM was removed, resetting SIM Networks
mWifiConfigManager.resetSimNetworks();
// Verify SIM configs are reset and non-SIM configs are not changed.
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network,
mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
WifiConfiguration retrievedSimNetwork =
mWifiConfigManager.getConfiguredNetwork(simNetwork.networkId);
assertEquals("", retrievedSimNetwork.enterpriseConfig.getAnonymousIdentity());
assertEquals("", retrievedSimNetwork.enterpriseConfig.getIdentity());
WifiConfiguration retrievedPeapSimNetwork =
mWifiConfigManager.getConfiguredNetwork(peapSimNetwork.networkId);
assertEquals(expectedIdentity, retrievedPeapSimNetwork.enterpriseConfig.getIdentity());
assertNotEquals("", retrievedPeapSimNetwork.enterpriseConfig.getAnonymousIdentity());
}
/**
* {@link WifiConfigManager#resetSimNetworks()} should reset all non-PEAP SIM networks, no
* matter if {@link com.android.server.wifi.util.TelephonyUtil#getSimIdentity(TelephonyManager,
* TelephonyUtil, WifiConfiguration, CarrierNetworkConfig) TelephonyUtil#getSimIdentity}
* returns null or not.
*/
@Test
public void testResetSimNetworks_getSimIdentityNull_shouldResetAllNonPeapSimIdentities() {
when(mDataTelephonyManager.getSubscriberId()).thenReturn("3214561234567890");
when(mDataTelephonyManager.getSimState()).thenReturn(TelephonyManager.SIM_STATE_READY);
when(mDataTelephonyManager.getSimOperator()).thenReturn("321456");
when(mDataTelephonyManager.getCarrierInfoForImsiEncryption(anyInt())).thenReturn(null);
// null CarrierNetworkConfig => getSimIdentity returns null => PEAP identity unchanged
when(mWifiInjector.getCarrierNetworkConfig()).thenReturn(null);
WifiConfiguration peapSimNetwork = WifiConfigurationTestUtil.createEapNetwork(
WifiEnterpriseConfig.Eap.PEAP, WifiEnterpriseConfig.Phase2.SIM);
peapSimNetwork.enterpriseConfig.setIdentity("identity_peap");
peapSimNetwork.enterpriseConfig.setAnonymousIdentity("anonymous_identity_peap");
verifyAddNetworkToWifiConfigManager(peapSimNetwork);
WifiConfiguration network = WifiConfigurationTestUtil.createEapNetwork();
network.enterpriseConfig.setIdentity("identity");
network.enterpriseConfig.setAnonymousIdentity("anonymous_identity");
verifyAddNetworkToWifiConfigManager(network);
WifiConfiguration simNetwork = WifiConfigurationTestUtil.createEapNetwork(
WifiEnterpriseConfig.Eap.SIM, WifiEnterpriseConfig.Phase2.NONE);
simNetwork.enterpriseConfig.setIdentity("identity_eap_sim");
simNetwork.enterpriseConfig.setAnonymousIdentity("anonymous_identity_eap_sim");
verifyAddNetworkToWifiConfigManager(simNetwork);
// SIM was removed, resetting SIM Networks
mWifiConfigManager.resetSimNetworks();
// EAP non-SIM network should be unchanged
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network, mWifiConfigManager.getConfiguredNetworkWithPassword(network.networkId));
// EAP-SIM network should have identity & anonymous identity reset
WifiConfiguration retrievedSimNetwork =
mWifiConfigManager.getConfiguredNetwork(simNetwork.networkId);
assertEquals("", retrievedSimNetwork.enterpriseConfig.getAnonymousIdentity());
assertEquals("", retrievedSimNetwork.enterpriseConfig.getIdentity());
// PEAP network should have unchanged identity & anonymous identity
WifiConfiguration retrievedPeapSimNetwork =
mWifiConfigManager.getConfiguredNetwork(peapSimNetwork.networkId);
assertEquals("identity_peap", retrievedPeapSimNetwork.enterpriseConfig.getIdentity());
assertEquals("anonymous_identity_peap",
retrievedPeapSimNetwork.enterpriseConfig.getAnonymousIdentity());
}
/**
* Verifies that SIM configs are reset on {@link WifiConfigManager#loadFromStore()}.
*/
@Test
public void testLoadFromStoreResetsSimIdentity() {
when(mDataTelephonyManager.getSubscriberId()).thenReturn("3214561234567890");
when(mDataTelephonyManager.getSimState()).thenReturn(TelephonyManager.SIM_STATE_READY);
when(mDataTelephonyManager.getSimOperator()).thenReturn("321456");
when(mDataTelephonyManager.getCarrierInfoForImsiEncryption(anyInt())).thenReturn(null);
WifiConfiguration simNetwork = WifiConfigurationTestUtil.createEapNetwork(
WifiEnterpriseConfig.Eap.SIM, WifiEnterpriseConfig.Phase2.NONE);
simNetwork.enterpriseConfig.setIdentity("identity");
simNetwork.enterpriseConfig.setAnonymousIdentity("anonymous_identity");
WifiConfiguration peapSimNetwork = WifiConfigurationTestUtil.createEapNetwork(
WifiEnterpriseConfig.Eap.PEAP, WifiEnterpriseConfig.Phase2.NONE);
peapSimNetwork.enterpriseConfig.setIdentity("identity");
peapSimNetwork.enterpriseConfig.setAnonymousIdentity("anonymous_identity");
// Set up the store data.
List<WifiConfiguration> sharedNetworks = new ArrayList<WifiConfiguration>() {
{
add(simNetwork);
add(peapSimNetwork);
}
};
setupStoreDataForRead(sharedNetworks, new ArrayList<>(), new HashMap<>());
// read from store now
assertTrue(mWifiConfigManager.loadFromStore());
// assert that the expected identities are reset
WifiConfiguration retrievedSimNetwork =
mWifiConfigManager.getConfiguredNetwork(simNetwork.networkId);
assertEquals("", retrievedSimNetwork.enterpriseConfig.getIdentity());
assertEquals("", retrievedSimNetwork.enterpriseConfig.getAnonymousIdentity());
WifiConfiguration retrievedPeapNetwork =
mWifiConfigManager.getConfiguredNetwork(peapSimNetwork.networkId);
assertEquals("identity", retrievedPeapNetwork.enterpriseConfig.getIdentity());
assertEquals("anonymous_identity",
retrievedPeapNetwork.enterpriseConfig.getAnonymousIdentity());
}
/**
* Verifies the deletion of ephemeral network using
* {@link WifiConfigManager#disableEphemeralNetwork(String)}.
*/
@Test
public void testDisableEphemeralNetwork() throws Exception {
WifiConfiguration ephemeralNetwork = WifiConfigurationTestUtil.createEphemeralNetwork();
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(ephemeralNetwork);
verifyAddEphemeralNetworkToWifiConfigManager(ephemeralNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
verifyExpiryOfTimeout(ephemeralNetwork);
}
/**
* Verifies the disconnection of Passpoint network using
* {@link WifiConfigManager#disableEphemeralNetwork(String)}.
*/
@Test
public void testDisablePasspointNetwork() throws Exception {
WifiConfiguration passpointNetwork = WifiConfigurationTestUtil.createPasspointNetwork();
verifyAddPasspointNetworkToWifiConfigManager(passpointNetwork);
List<WifiConfiguration> networks = new ArrayList<>();
networks.add(passpointNetwork);
List<WifiConfiguration> retrievedNetworks =
mWifiConfigManager.getConfiguredNetworksWithPasswords();
WifiConfigurationTestUtil.assertConfigurationsEqualForConfigManagerAddOrUpdate(
networks, retrievedNetworks);
verifyExpiryOfTimeout(passpointNetwork);
}
/**
* Verifies the disconnection of Passpoint network using
* {@link WifiConfigManager#disableEphemeralNetwork(String)} and ensures that any user choice
* set over other networks is removed.
*/
@Test
public void testDisablePasspointNetworkRemovesUserChoice() throws Exception {
WifiConfiguration passpointNetwork = WifiConfigurationTestUtil.createPasspointNetwork();
WifiConfiguration savedNetwork = WifiConfigurationTestUtil.createOpenNetwork();
verifyAddNetworkToWifiConfigManager(savedNetwork);
verifyAddPasspointNetworkToWifiConfigManager(passpointNetwork);
// Set connect choice of passpoint network over saved network.
assertTrue(
mWifiConfigManager.setNetworkConnectChoice(
savedNetwork.networkId, passpointNetwork.configKey(), 78L));
WifiConfiguration retrievedSavedNetwork =
mWifiConfigManager.getConfiguredNetwork(savedNetwork.networkId);
assertEquals(
passpointNetwork.configKey(),
retrievedSavedNetwork.getNetworkSelectionStatus().getConnectChoice());
// Disable the passpoint network & ensure the user choice is now removed from saved network.
mWifiConfigManager.disableEphemeralNetwork(passpointNetwork.SSID);
retrievedSavedNetwork = mWifiConfigManager.getConfiguredNetwork(savedNetwork.networkId);
assertNull(retrievedSavedNetwork.getNetworkSelectionStatus().getConnectChoice());
}
private void verifyExpiryOfTimeout(WifiConfiguration config) {
// Disable the ephemeral network.
long disableTimeMs = 546643L;
long currentTimeMs = disableTimeMs;
when(mClock.getWallClockMillis()).thenReturn(currentTimeMs);
mWifiConfigManager.disableEphemeralNetwork(config.SSID);
// Before the expiry of timeout.
currentTimeMs = disableTimeMs + WifiConfigManager.DELETED_EPHEMERAL_SSID_EXPIRY_MS - 1;
when(mClock.getWallClockMillis()).thenReturn(currentTimeMs);
assertTrue(mWifiConfigManager.wasEphemeralNetworkDeleted(config.SSID));
// After the expiry of timeout.
currentTimeMs = disableTimeMs + WifiConfigManager.DELETED_EPHEMERAL_SSID_EXPIRY_MS + 1;
when(mClock.getWallClockMillis()).thenReturn(currentTimeMs);
assertFalse(mWifiConfigManager.wasEphemeralNetworkDeleted(config.SSID));
}
private NetworkUpdateResult verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
boolean withNetworkSettings,
boolean withProfileOwnerPolicy,
boolean withDeviceOwnerPolicy,
IpConfiguration ipConfiguration,
boolean assertSuccess,
int networkId) {
return verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(withNetworkSettings,
false, withProfileOwnerPolicy, withDeviceOwnerPolicy, ipConfiguration,
assertSuccess, networkId);
}
private NetworkUpdateResult verifyAddOrUpdateNetworkWithProxySettingsAndPermissions(
boolean withNetworkSettings,
boolean withNetworkSetupWizard,
boolean withProfileOwnerPolicy,
boolean withDeviceOwnerPolicy,
IpConfiguration ipConfiguration,
boolean assertSuccess,
int networkId) {
WifiConfiguration network;
if (networkId == WifiConfiguration.INVALID_NETWORK_ID) {
network = WifiConfigurationTestUtil.createOpenHiddenNetwork();
} else {
network = mWifiConfigManager.getConfiguredNetwork(networkId);
}
network.setIpConfiguration(ipConfiguration);
when(mDevicePolicyManagerInternal.isActiveAdminWithPolicy(anyInt(),
eq(DeviceAdminInfo.USES_POLICY_PROFILE_OWNER)))
.thenReturn(withProfileOwnerPolicy);
when(mDevicePolicyManagerInternal.isActiveAdminWithPolicy(anyInt(),
eq(DeviceAdminInfo.USES_POLICY_DEVICE_OWNER)))
.thenReturn(withDeviceOwnerPolicy);
when(mWifiPermissionsUtil.checkNetworkSettingsPermission(anyInt()))
.thenReturn(withNetworkSettings);
when(mWifiPermissionsUtil.checkNetworkSetupWizardPermission(anyInt()))
.thenReturn(withNetworkSetupWizard);
int uid = withNetworkSettings || withNetworkSetupWizard
? TEST_CREATOR_UID
: TEST_NO_PERM_UID;
NetworkUpdateResult result = addNetworkToWifiConfigManager(network, uid);
assertEquals(assertSuccess, result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
return result;
}
private void createWifiConfigManager() {
mWifiConfigManager =
new WifiConfigManager(
mContext, mClock, mUserManager, mTelephonyManager,
mWifiKeyStore, mWifiConfigStore,
mWifiPermissionsUtil, mWifiPermissionsWrapper, mWifiInjector,
mNetworkListSharedStoreData, mNetworkListUserStoreData,
mDeletedEphemeralSsidsStoreData, mRandomizedMacStoreData,
mFrameworkFacade, mLooper.getLooper());
mWifiConfigManager.enableVerboseLogging(1);
}
/**
* This method sets defaults in the provided WifiConfiguration object if not set
* so that it can be used for comparison with the configuration retrieved from
* WifiConfigManager.
*/
private void setDefaults(WifiConfiguration configuration) {
if (configuration.allowedAuthAlgorithms.isEmpty()) {
configuration.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.OPEN);
}
if (configuration.allowedProtocols.isEmpty()) {
configuration.allowedProtocols.set(WifiConfiguration.Protocol.RSN);
configuration.allowedProtocols.set(WifiConfiguration.Protocol.WPA);
}
if (configuration.allowedKeyManagement.isEmpty()) {
configuration.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.WPA_PSK);
configuration.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.WPA_EAP);
}
if (configuration.allowedPairwiseCiphers.isEmpty()) {
configuration.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.CCMP);
configuration.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.TKIP);
}
if (configuration.allowedGroupCiphers.isEmpty()) {
configuration.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.CCMP);
configuration.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.TKIP);
configuration.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.WEP40);
configuration.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.WEP104);
}
if (configuration.getIpAssignment() == IpConfiguration.IpAssignment.UNASSIGNED) {
configuration.setIpAssignment(IpConfiguration.IpAssignment.DHCP);
}
if (configuration.getProxySettings() == IpConfiguration.ProxySettings.UNASSIGNED) {
configuration.setProxySettings(IpConfiguration.ProxySettings.NONE);
}
configuration.status = WifiConfiguration.Status.DISABLED;
configuration.getNetworkSelectionStatus().setNetworkSelectionStatus(
NetworkSelectionStatus.NETWORK_SELECTION_PERMANENTLY_DISABLED);
configuration.getNetworkSelectionStatus().setNetworkSelectionDisableReason(
NetworkSelectionStatus.DISABLED_BY_WIFI_MANAGER);
}
/**
* Modifies the provided configuration with creator uid, package name
* and time.
*/
private void setCreationDebugParams(WifiConfiguration configuration, int uid,
String packageName) {
configuration.creatorUid = configuration.lastUpdateUid = uid;
configuration.creatorName = configuration.lastUpdateName = packageName;
configuration.creationTime = configuration.updateTime =
WifiConfigManager.createDebugTimeStampString(
TEST_WALLCLOCK_CREATION_TIME_MILLIS);
}
/**
* Modifies the provided configuration with update uid, package name
* and time.
*/
private void setUpdateDebugParams(WifiConfiguration configuration) {
configuration.lastUpdateUid = TEST_UPDATE_UID;
configuration.lastUpdateName = TEST_UPDATE_NAME;
configuration.updateTime =
WifiConfigManager.createDebugTimeStampString(TEST_WALLCLOCK_UPDATE_TIME_MILLIS);
}
/**
* Modifies the provided WifiConfiguration with the specified bssid value. Also, asserts that
* the existing |BSSID| field is not the same value as the one being set
*/
private void assertAndSetNetworkBSSID(WifiConfiguration configuration, String bssid) {
assertNotEquals(bssid, configuration.BSSID);
configuration.BSSID = bssid;
}
/**
* Modifies the provided WifiConfiguration with the specified |IpConfiguration| object. Also,
* asserts that the existing |mIpConfiguration| field is not the same value as the one being set
*/
private void assertAndSetNetworkIpConfiguration(
WifiConfiguration configuration, IpConfiguration ipConfiguration) {
assertNotEquals(ipConfiguration, configuration.getIpConfiguration());
configuration.setIpConfiguration(ipConfiguration);
}
/**
* Modifies the provided WifiConfiguration with the specified |wepKeys| value and
* |wepTxKeyIndex|.
*/
private void assertAndSetNetworkWepKeysAndTxIndex(
WifiConfiguration configuration, String[] wepKeys, int wepTxKeyIdx) {
assertNotEquals(wepKeys, configuration.wepKeys);
assertNotEquals(wepTxKeyIdx, configuration.wepTxKeyIndex);
configuration.wepKeys = Arrays.copyOf(wepKeys, wepKeys.length);
configuration.wepTxKeyIndex = wepTxKeyIdx;
}
/**
* Modifies the provided WifiConfiguration with the specified |preSharedKey| value.
*/
private void assertAndSetNetworkPreSharedKey(
WifiConfiguration configuration, String preSharedKey) {
assertNotEquals(preSharedKey, configuration.preSharedKey);
configuration.preSharedKey = preSharedKey;
}
/**
* Modifies the provided WifiConfiguration with the specified enteprise |password| value.
*/
private void assertAndSetNetworkEnterprisePassword(
WifiConfiguration configuration, String password) {
assertNotEquals(password, configuration.enterpriseConfig.getPassword());
configuration.enterpriseConfig.setPassword(password);
}
/**
* Helper method to capture the networks list store data that will be written by
* WifiConfigStore.write() method.
*/
private Pair<List<WifiConfiguration>, List<WifiConfiguration>>
captureWriteNetworksListStoreData() {
try {
ArgumentCaptor<ArrayList> sharedConfigsCaptor =
ArgumentCaptor.forClass(ArrayList.class);
ArgumentCaptor<ArrayList> userConfigsCaptor =
ArgumentCaptor.forClass(ArrayList.class);
mNetworkListStoreDataMockOrder.verify(mNetworkListSharedStoreData)
.setConfigurations(sharedConfigsCaptor.capture());
mNetworkListStoreDataMockOrder.verify(mNetworkListUserStoreData)
.setConfigurations(userConfigsCaptor.capture());
mContextConfigStoreMockOrder.verify(mWifiConfigStore).write(anyBoolean());
return Pair.create(sharedConfigsCaptor.getValue(), userConfigsCaptor.getValue());
} catch (Exception e) {
fail("Exception encountered during write " + e);
}
return null;
}
/**
* Returns whether the provided network was in the store data or not.
*/
private boolean isNetworkInConfigStoreData(WifiConfiguration configuration) {
Pair<List<WifiConfiguration>, List<WifiConfiguration>> networkListStoreData =
captureWriteNetworksListStoreData();
if (networkListStoreData == null) {
return false;
}
List<WifiConfiguration> networkList = new ArrayList<>();
networkList.addAll(networkListStoreData.first);
networkList.addAll(networkListStoreData.second);
return isNetworkInConfigStoreData(configuration, networkList);
}
/**
* Returns whether the provided network was in the store data or not.
*/
private boolean isNetworkInConfigStoreData(
WifiConfiguration configuration, List<WifiConfiguration> networkList) {
boolean foundNetworkInStoreData = false;
for (WifiConfiguration retrievedConfig : networkList) {
if (retrievedConfig.configKey().equals(configuration.configKey())) {
foundNetworkInStoreData = true;
break;
}
}
return foundNetworkInStoreData;
}
/**
* Setup expectations for WifiNetworksListStoreData and DeletedEphemeralSsidsStoreData
* after WifiConfigStore#read.
*/
private void setupStoreDataForRead(List<WifiConfiguration> sharedConfigurations,
List<WifiConfiguration> userConfigurations, Map<String, Long> deletedEphemeralSsids) {
when(mNetworkListSharedStoreData.getConfigurations())
.thenReturn(sharedConfigurations);
when(mNetworkListUserStoreData.getConfigurations()).thenReturn(userConfigurations);
when(mDeletedEphemeralSsidsStoreData.getSsidToTimeMap()).thenReturn(deletedEphemeralSsids);
}
/**
* Setup expectations for WifiNetworksListStoreData and DeletedEphemeralSsidsStoreData
* after WifiConfigStore#switchUserStoresAndRead.
*/
private void setupStoreDataForUserRead(List<WifiConfiguration> userConfigurations,
Map<String, Long> deletedEphemeralSsids) {
when(mNetworkListUserStoreData.getConfigurations()).thenReturn(userConfigurations);
when(mDeletedEphemeralSsidsStoreData.getSsidToTimeMap()).thenReturn(deletedEphemeralSsids);
}
/**
* Verifies that the provided network was not present in the last config store write.
*/
private void verifyNetworkNotInConfigStoreData(WifiConfiguration configuration) {
assertFalse(isNetworkInConfigStoreData(configuration));
}
/**
* Verifies that the provided network was present in the last config store write.
*/
private void verifyNetworkInConfigStoreData(WifiConfiguration configuration) {
assertTrue(isNetworkInConfigStoreData(configuration));
}
private void assertPasswordsMaskedInWifiConfiguration(WifiConfiguration configuration) {
if (!TextUtils.isEmpty(configuration.preSharedKey)) {
assertEquals(WifiConfigManager.PASSWORD_MASK, configuration.preSharedKey);
}
if (configuration.wepKeys != null) {
for (int i = 0; i < configuration.wepKeys.length; i++) {
if (!TextUtils.isEmpty(configuration.wepKeys[i])) {
assertEquals(WifiConfigManager.PASSWORD_MASK, configuration.wepKeys[i]);
}
}
}
if (!TextUtils.isEmpty(configuration.enterpriseConfig.getPassword())) {
assertEquals(
WifiConfigManager.PASSWORD_MASK,
configuration.enterpriseConfig.getPassword());
}
}
private void assertRandomizedMacAddressMaskedInWifiConfiguration(
WifiConfiguration configuration) {
MacAddress defaultMac = MacAddress.fromString(WifiInfo.DEFAULT_MAC_ADDRESS);
MacAddress randomizedMacAddress = configuration.getRandomizedMacAddress();
if (randomizedMacAddress != null) {
assertEquals(defaultMac, randomizedMacAddress);
}
}
/**
* Verifies that the network was present in the network change broadcast and returns the
* change reason.
*/
private int verifyNetworkInBroadcastAndReturnReason(WifiConfiguration configuration) {
ArgumentCaptor<Intent> intentCaptor = ArgumentCaptor.forClass(Intent.class);
ArgumentCaptor<UserHandle> userHandleCaptor = ArgumentCaptor.forClass(UserHandle.class);
mContextConfigStoreMockOrder.verify(mContext)
.sendBroadcastAsUser(intentCaptor.capture(), userHandleCaptor.capture());
assertEquals(userHandleCaptor.getValue(), UserHandle.ALL);
Intent intent = intentCaptor.getValue();
int changeReason = intent.getIntExtra(WifiManager.EXTRA_CHANGE_REASON, -1);
WifiConfiguration retrievedConfig =
(WifiConfiguration) intent.getExtra(WifiManager.EXTRA_WIFI_CONFIGURATION);
assertEquals(retrievedConfig.configKey(), configuration.configKey());
// Verify that all the passwords are masked in the broadcast configuration.
assertPasswordsMaskedInWifiConfiguration(retrievedConfig);
return changeReason;
}
/**
* Verifies that we sent out an add broadcast with the provided network.
*/
private void verifyNetworkAddBroadcast(WifiConfiguration configuration) {
assertEquals(
verifyNetworkInBroadcastAndReturnReason(configuration),
WifiManager.CHANGE_REASON_ADDED);
}
/**
* Verifies that we sent out an update broadcast with the provided network.
*/
private void verifyNetworkUpdateBroadcast(WifiConfiguration configuration) {
assertEquals(
verifyNetworkInBroadcastAndReturnReason(configuration),
WifiManager.CHANGE_REASON_CONFIG_CHANGE);
}
/**
* Verifies that we sent out a remove broadcast with the provided network.
*/
private void verifyNetworkRemoveBroadcast(WifiConfiguration configuration) {
assertEquals(
verifyNetworkInBroadcastAndReturnReason(configuration),
WifiManager.CHANGE_REASON_REMOVED);
}
private void verifyWifiConfigStoreRead() {
assertTrue(mWifiConfigManager.loadFromStore());
mContextConfigStoreMockOrder.verify(mContext)
.sendBroadcastAsUser(any(Intent.class), any(UserHandle.class));
}
private void triggerStoreReadIfNeeded() {
// Trigger a store read if not already done.
if (!mStoreReadTriggered) {
verifyWifiConfigStoreRead();
mStoreReadTriggered = true;
}
}
/**
* Adds the provided configuration to WifiConfigManager with uid = TEST_CREATOR_UID.
*/
private NetworkUpdateResult addNetworkToWifiConfigManager(WifiConfiguration configuration) {
return addNetworkToWifiConfigManager(configuration, TEST_CREATOR_UID, null);
}
/**
* Adds the provided configuration to WifiConfigManager with uid specified.
*/
private NetworkUpdateResult addNetworkToWifiConfigManager(WifiConfiguration configuration,
int uid) {
return addNetworkToWifiConfigManager(configuration, uid, null);
}
/**
* Adds the provided configuration to WifiConfigManager and modifies the provided configuration
* with creator/update uid, package name and time. This also sets defaults for fields not
* populated.
* These fields are populated internally by WifiConfigManager and hence we need
* to modify the configuration before we compare the added network with the retrieved network.
* This method also triggers a store read if not already done.
*/
private NetworkUpdateResult addNetworkToWifiConfigManager(WifiConfiguration configuration,
int uid,
@Nullable String packageName) {
clearInvocations(mContext, mWifiConfigStore, mNetworkListSharedStoreData,
mNetworkListUserStoreData);
triggerStoreReadIfNeeded();
when(mClock.getWallClockMillis()).thenReturn(TEST_WALLCLOCK_CREATION_TIME_MILLIS);
NetworkUpdateResult result =
mWifiConfigManager.addOrUpdateNetwork(configuration, uid, packageName);
setDefaults(configuration);
setCreationDebugParams(
configuration, uid, packageName != null ? packageName : TEST_CREATOR_NAME);
configuration.networkId = result.getNetworkId();
return result;
}
/**
* Add network to WifiConfigManager and ensure that it was successful.
*/
private NetworkUpdateResult verifyAddNetworkToWifiConfigManager(
WifiConfiguration configuration) {
NetworkUpdateResult result = addNetworkToWifiConfigManager(configuration);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(result.isNewNetwork());
assertTrue(result.hasIpChanged());
assertTrue(result.hasProxyChanged());
verifyNetworkAddBroadcast(configuration);
// Verify that the config store write was triggered with this new configuration.
verifyNetworkInConfigStoreData(configuration);
return result;
}
/**
* Add ephemeral network to WifiConfigManager and ensure that it was successful.
*/
private NetworkUpdateResult verifyAddEphemeralNetworkToWifiConfigManager(
WifiConfiguration configuration) throws Exception {
NetworkUpdateResult result = addNetworkToWifiConfigManager(configuration);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(result.isNewNetwork());
assertTrue(result.hasIpChanged());
assertTrue(result.hasProxyChanged());
verifyNetworkAddBroadcast(configuration);
// Ensure that the write was not invoked for ephemeral network addition.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
return result;
}
/**
* Add ephemeral network to WifiConfigManager and ensure that it was successful.
*/
private NetworkUpdateResult verifyAddSuggestionOrRequestNetworkToWifiConfigManager(
WifiConfiguration configuration) throws Exception {
NetworkUpdateResult result =
addNetworkToWifiConfigManager(configuration, TEST_CREATOR_UID, TEST_CREATOR_NAME);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(result.isNewNetwork());
assertTrue(result.hasIpChanged());
assertTrue(result.hasProxyChanged());
verifyNetworkAddBroadcast(configuration);
// Ensure that the write was not invoked for ephemeral network addition.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
return result;
}
/**
* Add Passpoint network to WifiConfigManager and ensure that it was successful.
*/
private NetworkUpdateResult verifyAddPasspointNetworkToWifiConfigManager(
WifiConfiguration configuration) throws Exception {
NetworkUpdateResult result = addNetworkToWifiConfigManager(configuration);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertTrue(result.isNewNetwork());
assertTrue(result.hasIpChanged());
assertTrue(result.hasProxyChanged());
// Verify keys are not being installed.
verify(mWifiKeyStore, never()).updateNetworkKeys(any(WifiConfiguration.class),
any(WifiConfiguration.class));
verifyNetworkAddBroadcast(configuration);
// Ensure that the write was not invoked for Passpoint network addition.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
return result;
}
/**
* Updates the provided configuration to WifiConfigManager and modifies the provided
* configuration with update uid, package name and time.
* These fields are populated internally by WifiConfigManager and hence we need
* to modify the configuration before we compare the added network with the retrieved network.
*/
private NetworkUpdateResult updateNetworkToWifiConfigManager(WifiConfiguration configuration) {
clearInvocations(mContext, mWifiConfigStore, mNetworkListSharedStoreData,
mNetworkListUserStoreData);
when(mClock.getWallClockMillis()).thenReturn(TEST_WALLCLOCK_UPDATE_TIME_MILLIS);
NetworkUpdateResult result =
mWifiConfigManager.addOrUpdateNetwork(configuration, TEST_UPDATE_UID);
setUpdateDebugParams(configuration);
return result;
}
/**
* Update network to WifiConfigManager config change and ensure that it was successful.
*/
private NetworkUpdateResult verifyUpdateNetworkToWifiConfigManager(
WifiConfiguration configuration) {
NetworkUpdateResult result = updateNetworkToWifiConfigManager(configuration);
assertTrue(result.getNetworkId() != WifiConfiguration.INVALID_NETWORK_ID);
assertFalse(result.isNewNetwork());
verifyNetworkUpdateBroadcast(configuration);
// Verify that the config store write was triggered with this new configuration.
verifyNetworkInConfigStoreData(configuration);
return result;
}
/**
* Update network to WifiConfigManager without IP config change and ensure that it was
* successful.
*/
private NetworkUpdateResult verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(
WifiConfiguration configuration) {
NetworkUpdateResult result = verifyUpdateNetworkToWifiConfigManager(configuration);
assertFalse(result.hasIpChanged());
assertFalse(result.hasProxyChanged());
return result;
}
/**
* Update network to WifiConfigManager with IP config change and ensure that it was
* successful.
*/
private NetworkUpdateResult verifyUpdateNetworkToWifiConfigManagerWithIpChange(
WifiConfiguration configuration) {
NetworkUpdateResult result = verifyUpdateNetworkToWifiConfigManager(configuration);
assertTrue(result.hasIpChanged());
assertTrue(result.hasProxyChanged());
return result;
}
/**
* Removes network from WifiConfigManager and ensure that it was successful.
*/
private void verifyRemoveNetworkFromWifiConfigManager(
WifiConfiguration configuration) {
assertTrue(mWifiConfigManager.removeNetwork(configuration.networkId, TEST_CREATOR_UID));
verifyNetworkRemoveBroadcast(configuration);
// Verify if the config store write was triggered without this new configuration.
verifyNetworkNotInConfigStoreData(configuration);
}
/**
* Removes ephemeral network from WifiConfigManager and ensure that it was successful.
*/
private void verifyRemoveEphemeralNetworkFromWifiConfigManager(
WifiConfiguration configuration) throws Exception {
assertTrue(mWifiConfigManager.removeNetwork(configuration.networkId, TEST_CREATOR_UID));
verifyNetworkRemoveBroadcast(configuration);
// Ensure that the write was not invoked for ephemeral network remove.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
}
/**
* Removes Passpoint network from WifiConfigManager and ensure that it was successful.
*/
private void verifyRemovePasspointNetworkFromWifiConfigManager(
WifiConfiguration configuration) throws Exception {
assertTrue(mWifiConfigManager.removeNetwork(configuration.networkId, TEST_CREATOR_UID));
// Verify keys are not being removed.
verify(mWifiKeyStore, never()).removeKeys(any(WifiEnterpriseConfig.class));
verifyNetworkRemoveBroadcast(configuration);
// Ensure that the write was not invoked for Passpoint network remove.
mContextConfigStoreMockOrder.verify(mWifiConfigStore, never()).write(anyBoolean());
}
/**
* Verifies the provided network's public status and ensures that the network change broadcast
* has been sent out.
*/
private void verifyUpdateNetworkStatus(WifiConfiguration configuration, int status) {
assertEquals(status, configuration.status);
verifyNetworkUpdateBroadcast(configuration);
}
/**
* Verifies the network's selection status update.
*
* For temporarily disabled reasons, the method ensures that the status has changed only if
* disable reason counter has exceeded the threshold.
*
* For permanently disabled/enabled reasons, the method ensures that the public status has
* changed and the network change broadcast has been sent out.
*/
private void verifyUpdateNetworkSelectionStatus(
int networkId, int reason, int temporaryDisableReasonCounter) {
when(mClock.getElapsedSinceBootMillis())
.thenReturn(TEST_ELAPSED_UPDATE_NETWORK_SELECTION_TIME_MILLIS);
// Fetch the current status of the network before we try to update the status.
WifiConfiguration retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(networkId);
NetworkSelectionStatus currentStatus = retrievedNetwork.getNetworkSelectionStatus();
int currentDisableReason = currentStatus.getNetworkSelectionDisableReason();
// First set the status to the provided reason.
assertTrue(mWifiConfigManager.updateNetworkSelectionStatus(networkId, reason));
// Now fetch the network configuration and verify the new status of the network.
retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(networkId);
NetworkSelectionStatus retrievedStatus = retrievedNetwork.getNetworkSelectionStatus();
int retrievedDisableReason = retrievedStatus.getNetworkSelectionDisableReason();
long retrievedDisableTime = retrievedStatus.getDisableTime();
int retrievedDisableReasonCounter = retrievedStatus.getDisableReasonCounter(reason);
int disableReasonThreshold =
WifiConfigManager.NETWORK_SELECTION_DISABLE_THRESHOLD[reason];
if (reason == NetworkSelectionStatus.NETWORK_SELECTION_ENABLE) {
assertEquals(reason, retrievedDisableReason);
assertTrue(retrievedStatus.isNetworkEnabled());
assertEquals(
NetworkSelectionStatus.INVALID_NETWORK_SELECTION_DISABLE_TIMESTAMP,
retrievedDisableTime);
verifyUpdateNetworkStatus(retrievedNetwork, WifiConfiguration.Status.ENABLED);
} else if (reason < NetworkSelectionStatus.DISABLED_TLS_VERSION_MISMATCH) {
// For temporarily disabled networks, we need to ensure that the current status remains
// until the threshold is crossed.
assertEquals(temporaryDisableReasonCounter, retrievedDisableReasonCounter);
if (retrievedDisableReasonCounter < disableReasonThreshold) {
assertEquals(currentDisableReason, retrievedDisableReason);
assertEquals(
currentStatus.getNetworkSelectionStatus(),
retrievedStatus.getNetworkSelectionStatus());
} else {
assertEquals(reason, retrievedDisableReason);
assertTrue(retrievedStatus.isNetworkTemporaryDisabled());
assertEquals(
TEST_ELAPSED_UPDATE_NETWORK_SELECTION_TIME_MILLIS, retrievedDisableTime);
}
} else if (reason < NetworkSelectionStatus.NETWORK_SELECTION_DISABLED_MAX) {
assertEquals(reason, retrievedDisableReason);
assertTrue(retrievedStatus.isNetworkPermanentlyDisabled());
assertEquals(
NetworkSelectionStatus.INVALID_NETWORK_SELECTION_DISABLE_TIMESTAMP,
retrievedDisableTime);
verifyUpdateNetworkStatus(retrievedNetwork, WifiConfiguration.Status.DISABLED);
}
}
/**
* Creates a scan detail corresponding to the provided network and given BSSID, level &frequency
* values.
*/
private ScanDetail createScanDetailForNetwork(
WifiConfiguration configuration, String bssid, int level, int frequency) {
return WifiConfigurationTestUtil.createScanDetailForNetwork(configuration, bssid, level,
frequency, mClock.getUptimeSinceBootMillis(), mClock.getWallClockMillis());
}
/**
* Creates a scan detail corresponding to the provided network and BSSID value.
*/
private ScanDetail createScanDetailForNetwork(WifiConfiguration configuration, String bssid) {
return createScanDetailForNetwork(configuration, bssid, 0, 0);
}
/**
* Creates a scan detail corresponding to the provided network and fixed BSSID value.
*/
private ScanDetail createScanDetailForNetwork(WifiConfiguration configuration) {
return createScanDetailForNetwork(configuration, TEST_BSSID);
}
/**
* Adds the provided network and then creates a scan detail corresponding to the network. The
* method then creates a ScanDetail corresponding to the network and ensures that the network
* is properly matched using
* {@link WifiConfigManager#getConfiguredNetworkForScanDetailAndCache(ScanDetail)} and also
* verifies that the provided scan detail was cached,
*/
private void verifyAddSingleNetworkAndMatchScanDetailToNetworkAndCache(
WifiConfiguration network) {
// First add the provided network.
verifyAddNetworkToWifiConfigManager(network);
// Now create a dummy scan detail corresponding to the network.
ScanDetail scanDetail = createScanDetailForNetwork(network);
ScanResult scanResult = scanDetail.getScanResult();
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetworkForScanDetailAndCache(scanDetail);
// Retrieve the network with password data for comparison.
retrievedNetwork =
mWifiConfigManager.getConfiguredNetworkWithPassword(retrievedNetwork.networkId);
WifiConfigurationTestUtil.assertConfigurationEqualForConfigManagerAddOrUpdate(
network, retrievedNetwork);
// Now retrieve the scan detail cache and ensure that the new scan detail is in cache.
ScanDetailCache retrievedScanDetailCache =
mWifiConfigManager.getScanDetailCacheForNetwork(network.networkId);
assertEquals(1, retrievedScanDetailCache.size());
ScanResult retrievedScanResult = retrievedScanDetailCache.getScanResult(scanResult.BSSID);
ScanTestUtil.assertScanResultEquals(scanResult, retrievedScanResult);
}
/**
* Adds a new network and verifies that the |HasEverConnected| flag is set to false.
*/
private void verifyAddNetworkHasEverConnectedFalse(WifiConfiguration network) {
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(network);
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
assertFalse("Adding a new network should not have hasEverConnected set to true.",
retrievedNetwork.getNetworkSelectionStatus().getHasEverConnected());
}
/**
* Updates an existing network with some credential change and verifies that the
* |HasEverConnected| flag is set to false.
*/
private void verifyUpdateNetworkWithCredentialChangeHasEverConnectedFalse(
WifiConfiguration network) {
NetworkUpdateResult result = verifyUpdateNetworkToWifiConfigManagerWithoutIpChange(network);
WifiConfiguration retrievedNetwork =
mWifiConfigManager.getConfiguredNetwork(result.getNetworkId());
assertFalse("Updating network credentials config should clear hasEverConnected.",
retrievedNetwork.getNetworkSelectionStatus().getHasEverConnected());
assertTrue(result.hasCredentialChanged());
}
/**
* Updates an existing network after connection using
* {@link WifiConfigManager#updateNetworkAfterConnect(int)} and asserts that the
* |HasEverConnected| flag is set to true.
*/
private void verifyUpdateNetworkAfterConnectHasEverConnectedTrue(int networkId) {
assertTrue(mWifiConfigManager.updateNetworkAfterConnect(networkId));
WifiConfiguration retrievedNetwork = mWifiConfigManager.getConfiguredNetwork(networkId);
assertTrue("hasEverConnected expected to be true after connection.",
retrievedNetwork.getNetworkSelectionStatus().getHasEverConnected());
}
/**
* Sets up a user profiles for WifiConfigManager testing.
*
* @param userId Id of the user.
*/
private void setupUserProfiles(int userId) {
final UserInfo userInfo =
new UserInfo(userId, Integer.toString(userId), UserInfo.FLAG_PRIMARY);
List<UserInfo> userProfiles = Arrays.asList(userInfo);
when(mUserManager.getProfiles(userId)).thenReturn(userProfiles);
when(mUserManager.isUserUnlockingOrUnlocked(userId)).thenReturn(true);
}
private void verifyRemoveNetworksForApp() {
verifyAddNetworkToWifiConfigManager(WifiConfigurationTestUtil.createOpenNetwork());
verifyAddNetworkToWifiConfigManager(WifiConfigurationTestUtil.createPskNetwork());
verifyAddNetworkToWifiConfigManager(WifiConfigurationTestUtil.createWepNetwork());
assertFalse(mWifiConfigManager.getConfiguredNetworks().isEmpty());
ApplicationInfo app = new ApplicationInfo();
app.uid = TEST_CREATOR_UID;
app.packageName = TEST_CREATOR_NAME;
assertEquals(3, mWifiConfigManager.removeNetworksForApp(app).size());
// Ensure all the networks are removed now.
assertTrue(mWifiConfigManager.getConfiguredNetworks().isEmpty());
}
/**
* Verifies SSID blacklist consistent with Watchdog trigger.
*
* Expected behavior: A SSID won't gets blacklisted if there only signle SSID
* be observed and Watchdog trigger is activated.
*/
@Test
public void verifyConsistentWatchdogAndSsidBlacklist() {
WifiConfiguration openNetwork = WifiConfigurationTestUtil.createOpenNetwork();
NetworkUpdateResult result = verifyAddNetworkToWifiConfigManager(openNetwork);
when(mWifiInjector.getWifiLastResortWatchdog().shouldIgnoreSsidUpdate())
.thenReturn(true);
int networkId = result.getNetworkId();
// First set it to enabled.
verifyUpdateNetworkSelectionStatus(
networkId, NetworkSelectionStatus.NETWORK_SELECTION_ENABLE, 0);
int assocRejectReason = NetworkSelectionStatus.DISABLED_ASSOCIATION_REJECTION;
int assocRejectThreshold =
WifiConfigManager.NETWORK_SELECTION_DISABLE_THRESHOLD[assocRejectReason];
for (int i = 1; i <= assocRejectThreshold; i++) {
assertFalse(mWifiConfigManager.updateNetworkSelectionStatus(
networkId, assocRejectReason));
}
assertFalse(mWifiConfigManager.getConfiguredNetwork(networkId)
.getNetworkSelectionStatus().isNetworkTemporaryDisabled());
}
}