/* * Copyright (C) 2011 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; import static android.content.Intent.ACTION_UID_REMOVED; import static android.content.Intent.EXTRA_UID; import static android.net.ConnectivityManager.CONNECTIVITY_ACTION_IMMEDIATE; import static android.net.ConnectivityManager.TYPE_WIFI; import static android.net.NetworkPolicy.LIMIT_DISABLED; import static android.net.NetworkPolicy.WARNING_DISABLED; import static android.net.NetworkPolicyManager.POLICY_NONE; import static android.net.NetworkPolicyManager.POLICY_REJECT_METERED_BACKGROUND; import static android.net.NetworkPolicyManager.RULE_ALLOW_ALL; import static android.net.NetworkPolicyManager.RULE_REJECT_METERED; import static android.net.NetworkPolicyManager.computeLastCycleBoundary; import static android.net.NetworkPolicyManager.computeNextCycleBoundary; import static android.net.TrafficStats.KB_IN_BYTES; import static android.net.TrafficStats.MB_IN_BYTES; import static android.text.format.DateUtils.DAY_IN_MILLIS; import static android.text.format.DateUtils.MINUTE_IN_MILLIS; import static android.text.format.Time.TIMEZONE_UTC; import static com.android.server.net.NetworkPolicyManagerService.TYPE_LIMIT; import static com.android.server.net.NetworkPolicyManagerService.TYPE_LIMIT_SNOOZED; import static com.android.server.net.NetworkPolicyManagerService.TYPE_WARNING; import static org.easymock.EasyMock.anyInt; import static org.easymock.EasyMock.anyLong; import static org.easymock.EasyMock.aryEq; import static org.easymock.EasyMock.capture; import static org.easymock.EasyMock.createMock; import static org.easymock.EasyMock.eq; import static org.easymock.EasyMock.expect; import static org.easymock.EasyMock.expectLastCall; import static org.easymock.EasyMock.isA; import android.app.IActivityManager; import android.app.INotificationManager; import android.app.IProcessObserver; import android.app.Notification; import android.content.Intent; import android.content.pm.PackageInfo; import android.content.pm.PackageManager; import android.content.pm.Signature; import android.net.ConnectivityManager; import android.net.IConnectivityManager; import android.net.INetworkManagementEventObserver; import android.net.INetworkPolicyListener; import android.net.INetworkStatsService; import android.net.LinkProperties; import android.net.NetworkInfo; import android.net.NetworkInfo.DetailedState; import android.net.NetworkPolicy; import android.net.NetworkState; import android.net.NetworkStats; import android.net.NetworkTemplate; import android.os.Binder; import android.os.INetworkManagementService; import android.os.IPowerManager; import android.os.MessageQueue.IdleHandler; import android.os.UserHandle; import android.test.AndroidTestCase; import android.test.mock.MockPackageManager; import android.test.suitebuilder.annotation.LargeTest; import android.test.suitebuilder.annotation.Suppress; import android.text.format.Time; import android.util.TrustedTime; import com.android.server.net.NetworkPolicyManagerService; import com.google.common.util.concurrent.AbstractFuture; import org.easymock.Capture; import org.easymock.EasyMock; import org.easymock.IAnswer; import java.io.File; import java.util.LinkedHashSet; import java.util.concurrent.ExecutionException; import java.util.concurrent.Future; import java.util.concurrent.TimeUnit; import java.util.concurrent.TimeoutException; import java.util.logging.Handler; import libcore.io.IoUtils; /** * Tests for {@link NetworkPolicyManagerService}. */ @LargeTest public class NetworkPolicyManagerServiceTest extends AndroidTestCase { private static final String TAG = "NetworkPolicyManagerServiceTest"; private static final long TEST_START = 1194220800000L; private static final String TEST_IFACE = "test0"; private static final String TEST_SSID = "AndroidAP"; private static NetworkTemplate sTemplateWifi = NetworkTemplate.buildTemplateWifi(TEST_SSID); private BroadcastInterceptingContext mServiceContext; private File mPolicyDir; private IActivityManager mActivityManager; private IPowerManager mPowerManager; private INetworkStatsService mStatsService; private INetworkManagementService mNetworkManager; private INetworkPolicyListener mPolicyListener; private TrustedTime mTime; private IConnectivityManager mConnManager; private INotificationManager mNotifManager; private NetworkPolicyManagerService mService; private IProcessObserver mProcessObserver; private INetworkManagementEventObserver mNetworkObserver; private Binder mStubBinder = new Binder(); private long mStartTime; private long mElapsedRealtime; private static final int USER_ID = 0; private static final int APP_ID_A = android.os.Process.FIRST_APPLICATION_UID + 800; private static final int APP_ID_B = android.os.Process.FIRST_APPLICATION_UID + 801; private static final int UID_A = UserHandle.getUid(USER_ID, APP_ID_A); private static final int UID_B = UserHandle.getUid(USER_ID, APP_ID_B); private static final int PID_1 = 400; private static final int PID_2 = 401; private static final int PID_3 = 402; @Override public void setUp() throws Exception { super.setUp(); setCurrentTimeMillis(TEST_START); // intercept various broadcasts, and pretend that uids have packages mServiceContext = new BroadcastInterceptingContext(getContext()) { @Override public PackageManager getPackageManager() { return new MockPackageManager() { @Override public String[] getPackagesForUid(int uid) { return new String[] { "com.example" }; } @Override public PackageInfo getPackageInfo(String packageName, int flags) { final PackageInfo info = new PackageInfo(); final Signature signature; if ("android".equals(packageName)) { signature = new Signature("F00D"); } else { signature = new Signature("DEAD"); } info.signatures = new Signature[] { signature }; return info; } }; } @Override public void startActivity(Intent intent) { // ignored } }; mPolicyDir = getContext().getFilesDir(); if (mPolicyDir.exists()) { IoUtils.deleteContents(mPolicyDir); } mActivityManager = createMock(IActivityManager.class); mPowerManager = createMock(IPowerManager.class); mStatsService = createMock(INetworkStatsService.class); mNetworkManager = createMock(INetworkManagementService.class); mPolicyListener = createMock(INetworkPolicyListener.class); mTime = createMock(TrustedTime.class); mConnManager = createMock(IConnectivityManager.class); mNotifManager = createMock(INotificationManager.class); mService = new NetworkPolicyManagerService(mServiceContext, mActivityManager, mPowerManager, mStatsService, mNetworkManager, mTime, mPolicyDir, true); mService.bindConnectivityManager(mConnManager); mService.bindNotificationManager(mNotifManager); // RemoteCallbackList needs a binder to use as key expect(mPolicyListener.asBinder()).andReturn(mStubBinder).atLeastOnce(); replay(); mService.registerListener(mPolicyListener); verifyAndReset(); // catch IProcessObserver during systemReady() final Capture processObserver = new Capture(); mActivityManager.registerProcessObserver(capture(processObserver)); expectLastCall().atLeastOnce(); // catch INetworkManagementEventObserver during systemReady() final Capture networkObserver = new Capture< INetworkManagementEventObserver>(); mNetworkManager.registerObserver(capture(networkObserver)); expectLastCall().atLeastOnce(); // expect to answer screen status during systemReady() expect(mPowerManager.isInteractive()).andReturn(true).atLeastOnce(); expect(mNetworkManager.isBandwidthControlEnabled()).andReturn(true).atLeastOnce(); expectCurrentTime(); replay(); mService.systemReady(); verifyAndReset(); mProcessObserver = processObserver.getValue(); mNetworkObserver = networkObserver.getValue(); } @Override public void tearDown() throws Exception { for (File file : mPolicyDir.listFiles()) { file.delete(); } mServiceContext = null; mPolicyDir = null; mActivityManager = null; mPowerManager = null; mStatsService = null; mPolicyListener = null; mTime = null; mService = null; mProcessObserver = null; super.tearDown(); } @Suppress public void testPolicyChangeTriggersBroadcast() throws Exception { mService.setUidPolicy(APP_ID_A, POLICY_NONE); // change background policy and expect broadcast final Future backgroundChanged = mServiceContext.nextBroadcastIntent( ConnectivityManager.ACTION_BACKGROUND_DATA_SETTING_CHANGED); mService.setUidPolicy(APP_ID_A, POLICY_REJECT_METERED_BACKGROUND); backgroundChanged.get(); } public void testPidForegroundCombined() throws Exception { IdleFuture idle; // push all uid into background idle = expectIdle(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, false); mProcessObserver.onForegroundActivitiesChanged(PID_2, UID_A, false); mProcessObserver.onForegroundActivitiesChanged(PID_3, UID_B, false); idle.get(); assertFalse(mService.isUidForeground(UID_A)); assertFalse(mService.isUidForeground(UID_B)); // push one of the shared pids into foreground idle = expectIdle(); mProcessObserver.onForegroundActivitiesChanged(PID_2, UID_A, true); idle.get(); assertTrue(mService.isUidForeground(UID_A)); assertFalse(mService.isUidForeground(UID_B)); // and swap another uid into foreground idle = expectIdle(); mProcessObserver.onForegroundActivitiesChanged(PID_2, UID_A, false); mProcessObserver.onForegroundActivitiesChanged(PID_3, UID_B, true); idle.get(); assertFalse(mService.isUidForeground(UID_A)); assertTrue(mService.isUidForeground(UID_B)); // push both pid into foreground idle = expectIdle(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, true); mProcessObserver.onForegroundActivitiesChanged(PID_2, UID_A, true); idle.get(); assertTrue(mService.isUidForeground(UID_A)); // pull one out, should still be foreground idle = expectIdle(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, false); idle.get(); assertTrue(mService.isUidForeground(UID_A)); // pull final pid out, should now be background idle = expectIdle(); mProcessObserver.onForegroundActivitiesChanged(PID_2, UID_A, false); idle.get(); assertFalse(mService.isUidForeground(UID_A)); } public void testScreenChangesRules() throws Exception { Future future; expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, true); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, true); future.get(); verifyAndReset(); // push strict policy for foreground uid, verify ALLOW rule expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, true); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mService.setUidPolicy(APP_ID_A, POLICY_REJECT_METERED_BACKGROUND); future.get(); verifyAndReset(); // now turn screen off and verify REJECT rule expect(mPowerManager.isInteractive()).andReturn(false).atLeastOnce(); expectSetUidNetworkRules(UID_A, true); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_REJECT_METERED); replay(); mServiceContext.sendBroadcast(new Intent(Intent.ACTION_SCREEN_OFF)); future.get(); verifyAndReset(); // and turn screen back on, verify ALLOW rule restored expect(mPowerManager.isInteractive()).andReturn(true).atLeastOnce(); expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, true); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mServiceContext.sendBroadcast(new Intent(Intent.ACTION_SCREEN_ON)); future.get(); verifyAndReset(); } public void testPolicyNone() throws Exception { Future future; expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, true); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, true); future.get(); verifyAndReset(); // POLICY_NONE should RULE_ALLOW in foreground expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, true); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mService.setUidPolicy(APP_ID_A, POLICY_NONE); future.get(); verifyAndReset(); // POLICY_NONE should RULE_ALLOW in background expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, false); future.get(); verifyAndReset(); } public void testPolicyReject() throws Exception { Future future; // POLICY_REJECT should RULE_ALLOW in background expectSetUidNetworkRules(UID_A, true); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_REJECT_METERED); replay(); mService.setUidPolicy(APP_ID_A, POLICY_REJECT_METERED_BACKGROUND); future.get(); verifyAndReset(); // POLICY_REJECT should RULE_ALLOW in foreground expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, true); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, true); future.get(); verifyAndReset(); // POLICY_REJECT should RULE_REJECT in background expectSetUidNetworkRules(UID_A, true); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_REJECT_METERED); replay(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, false); future.get(); verifyAndReset(); } public void testPolicyRejectAddRemove() throws Exception { Future future; // POLICY_NONE should have RULE_ALLOW in background expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mProcessObserver.onForegroundActivitiesChanged(PID_1, UID_A, false); mService.setUidPolicy(APP_ID_A, POLICY_NONE); future.get(); verifyAndReset(); // adding POLICY_REJECT should cause RULE_REJECT expectSetUidNetworkRules(UID_A, true); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_REJECT_METERED); replay(); mService.setUidPolicy(APP_ID_A, POLICY_REJECT_METERED_BACKGROUND); future.get(); verifyAndReset(); // removing POLICY_REJECT should return us to RULE_ALLOW expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); mService.setUidPolicy(APP_ID_A, POLICY_NONE); future.get(); verifyAndReset(); } public void testLastCycleBoundaryThisMonth() throws Exception { // assume cycle day of "5th", which should be in same month final long currentTime = parseTime("2007-11-14T00:00:00.000Z"); final long expectedCycle = parseTime("2007-11-05T00:00:00.000Z"); final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 5, TIMEZONE_UTC, 1024L, 1024L, false); final long actualCycle = computeLastCycleBoundary(currentTime, policy); assertTimeEquals(expectedCycle, actualCycle); } public void testLastCycleBoundaryLastMonth() throws Exception { // assume cycle day of "20th", which should be in last month final long currentTime = parseTime("2007-11-14T00:00:00.000Z"); final long expectedCycle = parseTime("2007-10-20T00:00:00.000Z"); final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 20, TIMEZONE_UTC, 1024L, 1024L, false); final long actualCycle = computeLastCycleBoundary(currentTime, policy); assertTimeEquals(expectedCycle, actualCycle); } public void testLastCycleBoundaryThisMonthFebruary() throws Exception { // assume cycle day of "30th" in february; should go to january final long currentTime = parseTime("2007-02-14T00:00:00.000Z"); final long expectedCycle = parseTime("2007-01-30T00:00:00.000Z"); final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 30, TIMEZONE_UTC, 1024L, 1024L, false); final long actualCycle = computeLastCycleBoundary(currentTime, policy); assertTimeEquals(expectedCycle, actualCycle); } public void testLastCycleBoundaryLastMonthFebruary() throws Exception { // assume cycle day of "30th" in february, which should clamp final long currentTime = parseTime("2007-03-14T00:00:00.000Z"); final long expectedCycle = parseTime("2007-02-28T23:59:59.000Z"); final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 30, TIMEZONE_UTC, 1024L, 1024L, false); final long actualCycle = computeLastCycleBoundary(currentTime, policy); assertTimeEquals(expectedCycle, actualCycle); } public void testCycleBoundaryLeapYear() throws Exception { final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 29, TIMEZONE_UTC, 1024L, 1024L, false); assertTimeEquals(parseTime("2012-01-29T00:00:00.000Z"), computeNextCycleBoundary(parseTime("2012-01-14T00:00:00.000Z"), policy)); assertTimeEquals(parseTime("2012-02-29T00:00:00.000Z"), computeNextCycleBoundary(parseTime("2012-02-14T00:00:00.000Z"), policy)); assertTimeEquals(parseTime("2012-02-29T00:00:00.000Z"), computeLastCycleBoundary(parseTime("2012-03-14T00:00:00.000Z"), policy)); assertTimeEquals(parseTime("2012-03-29T00:00:00.000Z"), computeNextCycleBoundary(parseTime("2012-03-14T00:00:00.000Z"), policy)); assertTimeEquals(parseTime("2007-01-29T00:00:00.000Z"), computeNextCycleBoundary(parseTime("2007-01-14T00:00:00.000Z"), policy)); assertTimeEquals(parseTime("2007-02-28T23:59:59.000Z"), computeNextCycleBoundary(parseTime("2007-02-14T00:00:00.000Z"), policy)); assertTimeEquals(parseTime("2007-02-28T23:59:59.000Z"), computeLastCycleBoundary(parseTime("2007-03-14T00:00:00.000Z"), policy)); assertTimeEquals(parseTime("2007-03-29T00:00:00.000Z"), computeNextCycleBoundary(parseTime("2007-03-14T00:00:00.000Z"), policy)); } public void testNextCycleTimezoneAfterUtc() throws Exception { // US/Central is UTC-6 final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 10, "US/Central", 1024L, 1024L, false); assertTimeEquals(parseTime("2012-01-10T06:00:00.000Z"), computeNextCycleBoundary(parseTime("2012-01-05T00:00:00.000Z"), policy)); } public void testNextCycleTimezoneBeforeUtc() throws Exception { // Israel is UTC+2 final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 10, "Israel", 1024L, 1024L, false); assertTimeEquals(parseTime("2012-01-09T22:00:00.000Z"), computeNextCycleBoundary(parseTime("2012-01-05T00:00:00.000Z"), policy)); } public void testNextCycleSane() throws Exception { final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 31, TIMEZONE_UTC, WARNING_DISABLED, LIMIT_DISABLED, false); final LinkedHashSet seen = new LinkedHashSet(); // walk forwards, ensuring that cycle boundaries don't get stuck long currentCycle = computeNextCycleBoundary(parseTime("2011-08-01T00:00:00.000Z"), policy); for (int i = 0; i < 128; i++) { long nextCycle = computeNextCycleBoundary(currentCycle, policy); assertEqualsFuzzy(DAY_IN_MILLIS * 30, nextCycle - currentCycle, DAY_IN_MILLIS * 3); assertUnique(seen, nextCycle); currentCycle = nextCycle; } } public void testLastCycleSane() throws Exception { final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 31, TIMEZONE_UTC, WARNING_DISABLED, LIMIT_DISABLED, false); final LinkedHashSet seen = new LinkedHashSet(); // walk backwards, ensuring that cycle boundaries look sane long currentCycle = computeLastCycleBoundary(parseTime("2011-08-04T00:00:00.000Z"), policy); for (int i = 0; i < 128; i++) { long lastCycle = computeLastCycleBoundary(currentCycle, policy); assertEqualsFuzzy(DAY_IN_MILLIS * 30, currentCycle - lastCycle, DAY_IN_MILLIS * 3); assertUnique(seen, lastCycle); currentCycle = lastCycle; } } public void testCycleTodayJanuary() throws Exception { final NetworkPolicy policy = new NetworkPolicy( sTemplateWifi, 14, "US/Pacific", 1024L, 1024L, false); assertTimeEquals(parseTime("2013-01-14T00:00:00.000-08:00"), computeNextCycleBoundary(parseTime("2013-01-13T23:59:59.000-08:00"), policy)); assertTimeEquals(parseTime("2013-02-14T00:00:00.000-08:00"), computeNextCycleBoundary(parseTime("2013-01-14T00:00:01.000-08:00"), policy)); assertTimeEquals(parseTime("2013-02-14T00:00:00.000-08:00"), computeNextCycleBoundary(parseTime("2013-01-14T15:11:00.000-08:00"), policy)); assertTimeEquals(parseTime("2012-12-14T00:00:00.000-08:00"), computeLastCycleBoundary(parseTime("2013-01-13T23:59:59.000-08:00"), policy)); assertTimeEquals(parseTime("2013-01-14T00:00:00.000-08:00"), computeLastCycleBoundary(parseTime("2013-01-14T00:00:01.000-08:00"), policy)); assertTimeEquals(parseTime("2013-01-14T00:00:00.000-08:00"), computeLastCycleBoundary(parseTime("2013-01-14T15:11:00.000-08:00"), policy)); } public void testNetworkPolicyAppliedCycleLastMonth() throws Exception { NetworkState[] state = null; NetworkStats stats = null; Future future; final long TIME_FEB_15 = 1171497600000L; final long TIME_MAR_10 = 1173484800000L; final int CYCLE_DAY = 15; setCurrentTimeMillis(TIME_MAR_10); // first, pretend that wifi network comes online. no policy active, // which means we shouldn't push limit to interface. state = new NetworkState[] { buildWifi() }; expect(mConnManager.getAllNetworkState()).andReturn(state).atLeastOnce(); expectCurrentTime(); expectClearNotifications(); expectAdvisePersistThreshold(); future = expectMeteredIfacesChanged(); replay(); mServiceContext.sendBroadcast(new Intent(CONNECTIVITY_ACTION_IMMEDIATE)); future.get(); verifyAndReset(); // now change cycle to be on 15th, and test in early march, to verify we // pick cycle day in previous month. expect(mConnManager.getAllNetworkState()).andReturn(state).atLeastOnce(); expectCurrentTime(); // pretend that 512 bytes total have happened stats = new NetworkStats(getElapsedRealtime(), 1) .addIfaceValues(TEST_IFACE, 256L, 2L, 256L, 2L); expect(mStatsService.getNetworkTotalBytes(sTemplateWifi, TIME_FEB_15, TIME_MAR_10)) .andReturn(stats.getTotalBytes()).atLeastOnce(); expectPolicyDataEnable(TYPE_WIFI, true); // TODO: consider making strongly ordered mock expectRemoveInterfaceQuota(TEST_IFACE); expectSetInterfaceQuota(TEST_IFACE, (2 * MB_IN_BYTES) - 512); expectClearNotifications(); expectAdvisePersistThreshold(); future = expectMeteredIfacesChanged(TEST_IFACE); replay(); setNetworkPolicies(new NetworkPolicy( sTemplateWifi, CYCLE_DAY, TIMEZONE_UTC, 1 * MB_IN_BYTES, 2 * MB_IN_BYTES, false)); future.get(); verifyAndReset(); } public void testUidRemovedPolicyCleared() throws Exception { Future future; // POLICY_REJECT should RULE_REJECT in background expectSetUidNetworkRules(UID_A, true); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_REJECT_METERED); replay(); mService.setUidPolicy(APP_ID_A, POLICY_REJECT_METERED_BACKGROUND); future.get(); verifyAndReset(); // uninstall should clear RULE_REJECT expectSetUidNetworkRules(UID_A, false); expectSetUidForeground(UID_A, false); future = expectRulesChanged(UID_A, RULE_ALLOW_ALL); replay(); final Intent intent = new Intent(ACTION_UID_REMOVED); intent.putExtra(EXTRA_UID, UID_A); mServiceContext.sendBroadcast(intent); future.get(); verifyAndReset(); } public void testOverWarningLimitNotification() throws Exception { NetworkState[] state = null; NetworkStats stats = null; Future future; Future tagFuture; final long TIME_FEB_15 = 1171497600000L; final long TIME_MAR_10 = 1173484800000L; final int CYCLE_DAY = 15; setCurrentTimeMillis(TIME_MAR_10); // assign wifi policy state = new NetworkState[] {}; stats = new NetworkStats(getElapsedRealtime(), 1) .addIfaceValues(TEST_IFACE, 0L, 0L, 0L, 0L); { expectCurrentTime(); expect(mConnManager.getAllNetworkState()).andReturn(state).atLeastOnce(); expect(mStatsService.getNetworkTotalBytes(sTemplateWifi, TIME_FEB_15, currentTimeMillis())) .andReturn(stats.getTotalBytes()).atLeastOnce(); expectPolicyDataEnable(TYPE_WIFI, true); expectClearNotifications(); expectAdvisePersistThreshold(); future = expectMeteredIfacesChanged(); replay(); setNetworkPolicies(new NetworkPolicy(sTemplateWifi, CYCLE_DAY, TIMEZONE_UTC, 1 * MB_IN_BYTES, 2 * MB_IN_BYTES, false)); future.get(); verifyAndReset(); } // bring up wifi network incrementCurrentTime(MINUTE_IN_MILLIS); state = new NetworkState[] { buildWifi() }; stats = new NetworkStats(getElapsedRealtime(), 1) .addIfaceValues(TEST_IFACE, 0L, 0L, 0L, 0L); { expectCurrentTime(); expect(mConnManager.getAllNetworkState()).andReturn(state).atLeastOnce(); expect(mStatsService.getNetworkTotalBytes(sTemplateWifi, TIME_FEB_15, currentTimeMillis())) .andReturn(stats.getTotalBytes()).atLeastOnce(); expectPolicyDataEnable(TYPE_WIFI, true); expectRemoveInterfaceQuota(TEST_IFACE); expectSetInterfaceQuota(TEST_IFACE, 2 * MB_IN_BYTES); expectClearNotifications(); expectAdvisePersistThreshold(); future = expectMeteredIfacesChanged(TEST_IFACE); replay(); mServiceContext.sendBroadcast(new Intent(CONNECTIVITY_ACTION_IMMEDIATE)); future.get(); verifyAndReset(); } // go over warning, which should kick notification incrementCurrentTime(MINUTE_IN_MILLIS); stats = new NetworkStats(getElapsedRealtime(), 1) .addIfaceValues(TEST_IFACE, 1536 * KB_IN_BYTES, 15L, 0L, 0L); { expectCurrentTime(); expect(mStatsService.getNetworkTotalBytes(sTemplateWifi, TIME_FEB_15, currentTimeMillis())) .andReturn(stats.getTotalBytes()).atLeastOnce(); expectPolicyDataEnable(TYPE_WIFI, true); expectForceUpdate(); expectClearNotifications(); tagFuture = expectEnqueueNotification(); replay(); mNetworkObserver.limitReached(null, TEST_IFACE); assertNotificationType(TYPE_WARNING, tagFuture.get()); verifyAndReset(); } // go over limit, which should kick notification and dialog incrementCurrentTime(MINUTE_IN_MILLIS); stats = new NetworkStats(getElapsedRealtime(), 1) .addIfaceValues(TEST_IFACE, 5 * MB_IN_BYTES, 512L, 0L, 0L); { expectCurrentTime(); expect(mStatsService.getNetworkTotalBytes(sTemplateWifi, TIME_FEB_15, currentTimeMillis())) .andReturn(stats.getTotalBytes()).atLeastOnce(); expectPolicyDataEnable(TYPE_WIFI, false); expectForceUpdate(); expectClearNotifications(); tagFuture = expectEnqueueNotification(); replay(); mNetworkObserver.limitReached(null, TEST_IFACE); assertNotificationType(TYPE_LIMIT, tagFuture.get()); verifyAndReset(); } // now snooze policy, which should remove quota incrementCurrentTime(MINUTE_IN_MILLIS); { expectCurrentTime(); expect(mConnManager.getAllNetworkState()).andReturn(state).atLeastOnce(); expect(mStatsService.getNetworkTotalBytes(sTemplateWifi, TIME_FEB_15, currentTimeMillis())) .andReturn(stats.getTotalBytes()).atLeastOnce(); expectPolicyDataEnable(TYPE_WIFI, true); // snoozed interface still has high quota so background data is // still restricted. expectRemoveInterfaceQuota(TEST_IFACE); expectSetInterfaceQuota(TEST_IFACE, Long.MAX_VALUE); expectAdvisePersistThreshold(); expectMeteredIfacesChanged(TEST_IFACE); future = expectClearNotifications(); tagFuture = expectEnqueueNotification(); replay(); mService.snoozeLimit(sTemplateWifi); assertNotificationType(TYPE_LIMIT_SNOOZED, tagFuture.get()); future.get(); verifyAndReset(); } } public void testMeteredNetworkWithoutLimit() throws Exception { NetworkState[] state = null; NetworkStats stats = null; Future future; Future tagFuture; final long TIME_FEB_15 = 1171497600000L; final long TIME_MAR_10 = 1173484800000L; final int CYCLE_DAY = 15; setCurrentTimeMillis(TIME_MAR_10); // bring up wifi network with metered policy state = new NetworkState[] { buildWifi() }; stats = new NetworkStats(getElapsedRealtime(), 1) .addIfaceValues(TEST_IFACE, 0L, 0L, 0L, 0L); { expectCurrentTime(); expect(mConnManager.getAllNetworkState()).andReturn(state).atLeastOnce(); expect(mStatsService.getNetworkTotalBytes(sTemplateWifi, TIME_FEB_15, currentTimeMillis())) .andReturn(stats.getTotalBytes()).atLeastOnce(); expectPolicyDataEnable(TYPE_WIFI, true); expectRemoveInterfaceQuota(TEST_IFACE); expectSetInterfaceQuota(TEST_IFACE, Long.MAX_VALUE); expectClearNotifications(); expectAdvisePersistThreshold(); future = expectMeteredIfacesChanged(TEST_IFACE); replay(); setNetworkPolicies(new NetworkPolicy( sTemplateWifi, CYCLE_DAY, TIMEZONE_UTC, WARNING_DISABLED, LIMIT_DISABLED, true)); future.get(); verifyAndReset(); } } private static long parseTime(String time) { final Time result = new Time(); result.parse3339(time); return result.toMillis(true); } private void setNetworkPolicies(NetworkPolicy... policies) { mService.setNetworkPolicies(policies); } private static NetworkState buildWifi() { final NetworkInfo info = new NetworkInfo(TYPE_WIFI, 0, null, null); info.setDetailedState(DetailedState.CONNECTED, null, null); final LinkProperties prop = new LinkProperties(); prop.setInterfaceName(TEST_IFACE); return new NetworkState(info, prop, null, null, null, TEST_SSID); } private void expectCurrentTime() throws Exception { expect(mTime.forceRefresh()).andReturn(false).anyTimes(); expect(mTime.hasCache()).andReturn(true).anyTimes(); expect(mTime.currentTimeMillis()).andReturn(currentTimeMillis()).anyTimes(); expect(mTime.getCacheAge()).andReturn(0L).anyTimes(); expect(mTime.getCacheCertainty()).andReturn(0L).anyTimes(); } private void expectForceUpdate() throws Exception { mStatsService.forceUpdate(); expectLastCall().atLeastOnce(); } private Future expectClearNotifications() throws Exception { final FutureAnswer future = new FutureAnswer(); mNotifManager.cancelNotificationWithTag( isA(String.class), isA(String.class), anyInt(), anyInt()); expectLastCall().andAnswer(future).anyTimes(); return future; } private Future expectEnqueueNotification() throws Exception { final FutureCapture tag = new FutureCapture(); mNotifManager.enqueueNotificationWithTag(isA(String.class), isA(String.class), capture(tag.capture), anyInt(), isA(Notification.class), isA(int[].class), UserHandle.myUserId()); return tag; } private void expectSetInterfaceQuota(String iface, long quotaBytes) throws Exception { mNetworkManager.setInterfaceQuota(iface, quotaBytes); expectLastCall().atLeastOnce(); } private void expectRemoveInterfaceQuota(String iface) throws Exception { mNetworkManager.removeInterfaceQuota(iface); expectLastCall().atLeastOnce(); } private void expectSetInterfaceAlert(String iface, long alertBytes) throws Exception { mNetworkManager.setInterfaceAlert(iface, alertBytes); expectLastCall().atLeastOnce(); } private void expectRemoveInterfaceAlert(String iface) throws Exception { mNetworkManager.removeInterfaceAlert(iface); expectLastCall().atLeastOnce(); } private void expectSetUidNetworkRules(int uid, boolean rejectOnQuotaInterfaces) throws Exception { mNetworkManager.setUidNetworkRules(uid, rejectOnQuotaInterfaces); expectLastCall().atLeastOnce(); } private void expectSetUidForeground(int uid, boolean uidForeground) throws Exception { mStatsService.setUidForeground(uid, uidForeground); expectLastCall().atLeastOnce(); } private Future expectRulesChanged(int uid, int policy) throws Exception { final FutureAnswer future = new FutureAnswer(); mPolicyListener.onUidRulesChanged(eq(uid), eq(policy)); expectLastCall().andAnswer(future); return future; } private Future expectMeteredIfacesChanged(String... ifaces) throws Exception { final FutureAnswer future = new FutureAnswer(); mPolicyListener.onMeteredIfacesChanged(aryEq(ifaces)); expectLastCall().andAnswer(future); return future; } private Future expectPolicyDataEnable(int type, boolean enabled) throws Exception { // TODO: bring back this test return null; } private void expectAdvisePersistThreshold() throws Exception { mStatsService.advisePersistThreshold(anyLong()); expectLastCall().anyTimes(); } private static class TestAbstractFuture extends AbstractFuture { @Override public T get() throws InterruptedException, ExecutionException { try { return get(5, TimeUnit.SECONDS); } catch (TimeoutException e) { throw new RuntimeException(e); } } } private static class FutureAnswer extends TestAbstractFuture implements IAnswer { @Override public Void answer() { set(null); return null; } } private static class FutureCapture extends TestAbstractFuture { public Capture capture = new Capture() { @Override public void setValue(T value) { super.setValue(value); set(value); } }; } private static class IdleFuture extends AbstractFuture implements IdleHandler { @Override public Void get() throws InterruptedException, ExecutionException { try { return get(5, TimeUnit.SECONDS); } catch (TimeoutException e) { throw new RuntimeException(e); } } @Override public boolean queueIdle() { set(null); return false; } } /** * Wait until {@link #mService} internal {@link Handler} is idle. */ private IdleFuture expectIdle() { final IdleFuture future = new IdleFuture(); mService.addIdleHandler(future); return future; } private static void assertTimeEquals(long expected, long actual) { if (expected != actual) { fail("expected " + formatTime(expected) + " but was actually " + formatTime(actual)); } } private static String formatTime(long millis) { final Time time = new Time(Time.TIMEZONE_UTC); time.set(millis); return time.format3339(false); } private static void assertEqualsFuzzy(long expected, long actual, long fuzzy) { final long low = expected - fuzzy; final long high = expected + fuzzy; if (actual < low || actual > high) { fail("value " + actual + " is outside [" + low + "," + high + "]"); } } private static void assertUnique(LinkedHashSet seen, Long value) { if (!seen.add(value)) { fail("found duplicate time " + value + " in series " + seen.toString()); } } private static void assertNotificationType(int expected, String actualTag) { assertEquals( Integer.toString(expected), actualTag.substring(actualTag.lastIndexOf(':') + 1)); } private long getElapsedRealtime() { return mElapsedRealtime; } private void setCurrentTimeMillis(long currentTimeMillis) { mStartTime = currentTimeMillis; mElapsedRealtime = 0L; } private long currentTimeMillis() { return mStartTime + mElapsedRealtime; } private void incrementCurrentTime(long duration) { mElapsedRealtime += duration; } private void replay() { EasyMock.replay(mActivityManager, mPowerManager, mStatsService, mPolicyListener, mNetworkManager, mTime, mConnManager, mNotifManager); } private void verifyAndReset() { EasyMock.verify(mActivityManager, mPowerManager, mStatsService, mPolicyListener, mNetworkManager, mTime, mConnManager, mNotifManager); EasyMock.reset(mActivityManager, mPowerManager, mStatsService, mPolicyListener, mNetworkManager, mTime, mConnManager, mNotifManager); } }