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android / platform / frameworks / base / 060f8820351d5853f169c3b416824b176a0a24e9 / . / services / core / java / com / android / server / net / NetworkPolicyManagerService.java
blob: 8f9cc47f92245edce889ec677250f7d5dc7ea84a [file] [log] [blame]
/*
* 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.net;
import static android.Manifest.permission.ACCESS_NETWORK_STATE;
import static android.Manifest.permission.CONNECTIVITY_INTERNAL;
import static android.Manifest.permission.DUMP;
import static android.Manifest.permission.MANAGE_NETWORK_POLICY;
import static android.Manifest.permission.READ_NETWORK_USAGE_HISTORY;
import static android.Manifest.permission.READ_PHONE_STATE;
import static android.Manifest.permission.READ_PRIVILEGED_PHONE_STATE;
import static android.content.Intent.ACTION_PACKAGE_ADDED;
import static android.content.Intent.ACTION_UID_REMOVED;
import static android.content.Intent.ACTION_USER_ADDED;
import static android.content.Intent.ACTION_USER_REMOVED;
import static android.content.Intent.EXTRA_UID;
import static android.net.ConnectivityManager.CONNECTIVITY_ACTION;
import static android.net.ConnectivityManager.RESTRICT_BACKGROUND_STATUS_DISABLED;
import static android.net.ConnectivityManager.RESTRICT_BACKGROUND_STATUS_ENABLED;
import static android.net.ConnectivityManager.RESTRICT_BACKGROUND_STATUS_WHITELISTED;
import static android.net.ConnectivityManager.TYPE_MOBILE;
import static android.net.ConnectivityManager.TYPE_WIMAX;
import static android.net.ConnectivityManager.isNetworkTypeMobile;
import static android.net.NetworkPolicy.CYCLE_NONE;
import static android.net.NetworkPolicy.LIMIT_DISABLED;
import static android.net.NetworkPolicy.SNOOZE_NEVER;
import static android.net.NetworkPolicy.WARNING_DISABLED;
import static android.net.NetworkPolicyManager.EXTRA_NETWORK_TEMPLATE;
import static android.net.NetworkPolicyManager.FIREWALL_CHAIN_DOZABLE;
import static android.net.NetworkPolicyManager.FIREWALL_CHAIN_POWERSAVE;
import static android.net.NetworkPolicyManager.FIREWALL_CHAIN_STANDBY;
import static android.net.NetworkPolicyManager.FIREWALL_RULE_ALLOW;
import static android.net.NetworkPolicyManager.FIREWALL_RULE_DEFAULT;
import static android.net.NetworkPolicyManager.FIREWALL_RULE_DENY;
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_ALLOW_METERED;
import static android.net.NetworkPolicyManager.MASK_METERED_NETWORKS;
import static android.net.NetworkPolicyManager.MASK_ALL_NETWORKS;
import static android.net.NetworkPolicyManager.RULE_NONE;
import static android.net.NetworkPolicyManager.RULE_REJECT_ALL;
import static android.net.NetworkPolicyManager.RULE_REJECT_METERED;
import static android.net.NetworkPolicyManager.RULE_TEMPORARY_ALLOW_METERED;
import static android.net.NetworkPolicyManager.computeLastCycleBoundary;
import static android.net.NetworkPolicyManager.uidRulesToString;
import static android.net.NetworkTemplate.MATCH_MOBILE_3G_LOWER;
import static android.net.NetworkTemplate.MATCH_MOBILE_4G;
import static android.net.NetworkTemplate.MATCH_MOBILE_ALL;
import static android.net.NetworkTemplate.MATCH_WIFI;
import static android.net.NetworkTemplate.buildTemplateMobileAll;
import static android.net.TrafficStats.MB_IN_BYTES;
import static android.net.wifi.WifiManager.CHANGE_REASON_ADDED;
import static android.net.wifi.WifiManager.CHANGE_REASON_REMOVED;
import static android.net.wifi.WifiManager.CONFIGURED_NETWORKS_CHANGED_ACTION;
import static android.net.wifi.WifiManager.EXTRA_CHANGE_REASON;
import static android.net.wifi.WifiManager.EXTRA_NETWORK_INFO;
import static android.net.wifi.WifiManager.EXTRA_WIFI_CONFIGURATION;
import static android.net.wifi.WifiManager.EXTRA_WIFI_INFO;
import static android.text.format.DateUtils.DAY_IN_MILLIS;
import static com.android.internal.util.ArrayUtils.appendInt;
import static com.android.internal.util.Preconditions.checkNotNull;
import static com.android.internal.util.XmlUtils.readBooleanAttribute;
import static com.android.internal.util.XmlUtils.readIntAttribute;
import static com.android.internal.util.XmlUtils.readLongAttribute;
import static com.android.internal.util.XmlUtils.writeBooleanAttribute;
import static com.android.internal.util.XmlUtils.writeIntAttribute;
import static com.android.internal.util.XmlUtils.writeLongAttribute;
import static com.android.server.NetworkManagementService.LIMIT_GLOBAL_ALERT;
import static com.android.server.net.NetworkStatsService.ACTION_NETWORK_STATS_UPDATED;
import static org.xmlpull.v1.XmlPullParser.END_DOCUMENT;
import static org.xmlpull.v1.XmlPullParser.END_TAG;
import static org.xmlpull.v1.XmlPullParser.START_TAG;
import android.Manifest;
import android.annotation.IntDef;
import android.app.ActivityManager;
import android.app.AppGlobals;
import android.app.AppOpsManager;
import android.app.IActivityManager;
import android.app.INotificationManager;
import android.app.IUidObserver;
import android.app.Notification;
import android.app.PendingIntent;
import android.app.usage.UsageStatsManagerInternal;
import android.content.BroadcastReceiver;
import android.content.ComponentName;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.pm.ApplicationInfo;
import android.content.pm.IPackageManager;
import android.content.pm.PackageManager;
import android.content.pm.PackageManager.NameNotFoundException;
import android.content.pm.UserInfo;
import android.content.res.Resources;
import android.net.ConnectivityManager;
import android.net.IConnectivityManager;
import android.net.INetworkManagementEventObserver;
import android.net.INetworkPolicyListener;
import android.net.INetworkPolicyManager;
import android.net.INetworkStatsService;
import android.net.LinkProperties;
import android.net.NetworkIdentity;
import android.net.NetworkInfo;
import android.net.NetworkPolicy;
import android.net.NetworkPolicyManager;
import android.net.NetworkQuotaInfo;
import android.net.NetworkState;
import android.net.NetworkTemplate;
import android.net.wifi.WifiConfiguration;
import android.net.wifi.WifiInfo;
import android.net.wifi.WifiManager;
import android.os.Binder;
import android.os.Environment;
import android.os.Handler;
import android.os.HandlerThread;
import android.os.IDeviceIdleController;
import android.os.INetworkManagementService;
import android.os.IPowerManager;
import android.os.Message;
import android.os.MessageQueue.IdleHandler;
import android.os.PowerManager;
import android.os.PowerManagerInternal;
import android.os.RemoteCallbackList;
import android.os.RemoteException;
import android.os.ResultReceiver;
import android.os.ServiceManager;
import android.os.UserHandle;
import android.os.UserManager;
import android.provider.Settings;
import android.telephony.SubscriptionManager;
import android.telephony.TelephonyManager;
import android.text.format.Formatter;
import android.text.format.Time;
import android.util.ArrayMap;
import android.util.ArraySet;
import android.util.AtomicFile;
import android.util.DebugUtils;
import android.util.Log;
import android.util.NtpTrustedTime;
import android.util.Pair;
import android.util.Slog;
import android.util.SparseBooleanArray;
import android.util.SparseIntArray;
import android.util.TrustedTime;
import android.util.Xml;
import com.android.internal.R;
import com.android.internal.annotations.GuardedBy;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.content.PackageMonitor;
import com.android.internal.util.ArrayUtils;
import com.android.internal.util.FastXmlSerializer;
import com.android.internal.util.IndentingPrintWriter;
import com.android.server.DeviceIdleController;
import com.android.server.EventLogTags;
import com.android.server.LocalServices;
import com.android.server.SystemConfig;
import libcore.io.IoUtils;
import com.google.android.collect.Lists;
import org.xmlpull.v1.XmlPullParser;
import org.xmlpull.v1.XmlPullParserException;
import org.xmlpull.v1.XmlSerializer;
import java.io.File;
import java.io.FileDescriptor;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.PrintWriter;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
/**
* Service that maintains low-level network policy rules, using
* {@link NetworkStatsService} statistics to drive those rules.
* <p>
* Derives active rules by combining a given policy with other system status,
* and delivers to listeners, such as {@link ConnectivityManager}, for
* enforcement.
*
* <p>
* This class uses 2-3 locks to synchronize state:
* <ul>
* <li>{@code mUidRulesFirstLock}: used to guard state related to individual UIDs (such as firewall
* rules).
* <li>{@code mNetworkPoliciesSecondLock}: used to guard state related to network interfaces (such
* as network policies).
* <li>{@code allLocks}: not a "real" lock, but an indication (through @GuardedBy) that all locks
* must be held.
* </ul>
*
* <p>
* As such, methods that require synchronization have the following prefixes:
* <ul>
* <li>{@code UL()}: require the "UID" lock ({@code mUidRulesFirstLock}).
* <li>{@code NL()}: require the "Network" lock ({@code mNetworkPoliciesSecondLock}).
* <li>{@code AL()}: require all locks, which must be obtained in order ({@code mUidRulesFirstLock}
* first, then {@code mNetworkPoliciesSecondLock}, then {@code mYetAnotherGuardThirdLock}, etc..
* </ul>
*/
public class NetworkPolicyManagerService extends INetworkPolicyManager.Stub {
static final String TAG = "NetworkPolicy";
private static final boolean LOGD = false;
private static final boolean LOGV = false;
private static final int VERSION_INIT = 1;
private static final int VERSION_ADDED_SNOOZE = 2;
private static final int VERSION_ADDED_RESTRICT_BACKGROUND = 3;
private static final int VERSION_ADDED_METERED = 4;
private static final int VERSION_SPLIT_SNOOZE = 5;
private static final int VERSION_ADDED_TIMEZONE = 6;
private static final int VERSION_ADDED_INFERRED = 7;
private static final int VERSION_SWITCH_APP_ID = 8;
private static final int VERSION_ADDED_NETWORK_ID = 9;
private static final int VERSION_SWITCH_UID = 10;
private static final int VERSION_LATEST = VERSION_SWITCH_UID;
@VisibleForTesting
public static final int TYPE_WARNING = 0x1;
@VisibleForTesting
public static final int TYPE_LIMIT = 0x2;
@VisibleForTesting
public static final int TYPE_LIMIT_SNOOZED = 0x3;
private static final String TAG_POLICY_LIST = "policy-list";
private static final String TAG_NETWORK_POLICY = "network-policy";
private static final String TAG_UID_POLICY = "uid-policy";
private static final String TAG_APP_POLICY = "app-policy";
private static final String TAG_WHITELIST = "whitelist";
private static final String TAG_RESTRICT_BACKGROUND = "restrict-background";
private static final String TAG_REVOKED_RESTRICT_BACKGROUND = "revoked-restrict-background";
private static final String ATTR_VERSION = "version";
private static final String ATTR_RESTRICT_BACKGROUND = "restrictBackground";
private static final String ATTR_NETWORK_TEMPLATE = "networkTemplate";
private static final String ATTR_SUBSCRIBER_ID = "subscriberId";
private static final String ATTR_NETWORK_ID = "networkId";
private static final String ATTR_CYCLE_DAY = "cycleDay";
private static final String ATTR_CYCLE_TIMEZONE = "cycleTimezone";
private static final String ATTR_WARNING_BYTES = "warningBytes";
private static final String ATTR_LIMIT_BYTES = "limitBytes";
private static final String ATTR_LAST_SNOOZE = "lastSnooze";
private static final String ATTR_LAST_WARNING_SNOOZE = "lastWarningSnooze";
private static final String ATTR_LAST_LIMIT_SNOOZE = "lastLimitSnooze";
private static final String ATTR_METERED = "metered";
private static final String ATTR_INFERRED = "inferred";
private static final String ATTR_UID = "uid";
private static final String ATTR_APP_ID = "appId";
private static final String ATTR_POLICY = "policy";
private static final String ACTION_ALLOW_BACKGROUND =
"com.android.server.net.action.ALLOW_BACKGROUND";
private static final String ACTION_SNOOZE_WARNING =
"com.android.server.net.action.SNOOZE_WARNING";
private static final long TIME_CACHE_MAX_AGE = DAY_IN_MILLIS;
private static final int MSG_RULES_CHANGED = 1;
private static final int MSG_METERED_IFACES_CHANGED = 2;
private static final int MSG_LIMIT_REACHED = 5;
private static final int MSG_RESTRICT_BACKGROUND_CHANGED = 6;
private static final int MSG_ADVISE_PERSIST_THRESHOLD = 7;
private static final int MSG_SCREEN_ON_CHANGED = 8;
private static final int MSG_RESTRICT_BACKGROUND_WHITELIST_CHANGED = 9;
private static final int MSG_UPDATE_INTERFACE_QUOTA = 10;
private static final int MSG_REMOVE_INTERFACE_QUOTA = 11;
private static final int MSG_RESTRICT_BACKGROUND_BLACKLIST_CHANGED = 12;
private final Context mContext;
private final IActivityManager mActivityManager;
private final IPowerManager mPowerManager;
private final INetworkStatsService mNetworkStats;
private final INetworkManagementService mNetworkManager;
private UsageStatsManagerInternal mUsageStats;
private final TrustedTime mTime;
private final UserManager mUserManager;
private IConnectivityManager mConnManager;
private INotificationManager mNotifManager;
private PowerManagerInternal mPowerManagerInternal;
private IDeviceIdleController mDeviceIdleController;
// See main javadoc for instructions on how to use these locks.
final Object mUidRulesFirstLock = new Object();
final Object mNetworkPoliciesSecondLock = new Object();
@GuardedBy("allLocks") volatile boolean mSystemReady;
@GuardedBy("mUidRulesFirstLock") volatile boolean mScreenOn;
@GuardedBy("mUidRulesFirstLock") volatile boolean mRestrictBackground;
@GuardedBy("mUidRulesFirstLock") volatile boolean mRestrictPower;
@GuardedBy("mUidRulesFirstLock") volatile boolean mDeviceIdleMode;
private final boolean mSuppressDefaultPolicy;
/** Defined network policies. */
final ArrayMap<NetworkTemplate, NetworkPolicy> mNetworkPolicy = new ArrayMap<>();
/** Currently active network rules for ifaces. */
final ArrayMap<NetworkPolicy, String[]> mNetworkRules = new ArrayMap<>();
/** Defined UID policies. */
@GuardedBy("mUidRulesFirstLock") final SparseIntArray mUidPolicy = new SparseIntArray();
/** Currently derived rules for each UID. */
@GuardedBy("mUidRulesFirstLock") final SparseIntArray mUidRules = new SparseIntArray();
@GuardedBy("mUidRulesFirstLock")
final SparseIntArray mUidFirewallStandbyRules = new SparseIntArray();
@GuardedBy("mUidRulesFirstLock")
final SparseIntArray mUidFirewallDozableRules = new SparseIntArray();
@GuardedBy("mUidRulesFirstLock")
final SparseIntArray mUidFirewallPowerSaveRules = new SparseIntArray();
/** Set of states for the child firewall chains. True if the chain is active. */
@GuardedBy("mUidRulesFirstLock")
final SparseBooleanArray mFirewallChainStates = new SparseBooleanArray();
/**
* UIDs that have been white-listed to always be able to have network access
* in power save mode, except device idle (doze) still applies.
* TODO: An int array might be sufficient
*/
@GuardedBy("mUidRulesFirstLock")
private final SparseBooleanArray mPowerSaveWhitelistExceptIdleAppIds = new SparseBooleanArray();
/**
* UIDs that have been white-listed to always be able to have network access
* in power save mode.
* TODO: An int array might be sufficient
*/
@GuardedBy("mUidRulesFirstLock")
private final SparseBooleanArray mPowerSaveWhitelistAppIds = new SparseBooleanArray();
@GuardedBy("mUidRulesFirstLock")
private final SparseBooleanArray mPowerSaveTempWhitelistAppIds = new SparseBooleanArray();
/**
* UIDs that have been white-listed to avoid restricted background.
*/
@GuardedBy("mUidRulesFirstLock")
private final SparseBooleanArray mRestrictBackgroundWhitelistUids = new SparseBooleanArray();
/**
* UIDs that have been initially white-listed by system to avoid restricted background.
*/
@GuardedBy("mUidRulesFirstLock")
private final SparseBooleanArray mDefaultRestrictBackgroundWhitelistUids =
new SparseBooleanArray();
/**
* UIDs that have been initially white-listed by system to avoid restricted background,
* but later revoked by user.
*/
@GuardedBy("mUidRulesFirstLock")
private final SparseBooleanArray mRestrictBackgroundWhitelistRevokedUids =
new SparseBooleanArray();
/** Set of ifaces that are metered. */
@GuardedBy("mNetworkPoliciesSecondLock")
private ArraySet<String> mMeteredIfaces = new ArraySet<>();
/** Set of over-limit templates that have been notified. */
@GuardedBy("mNetworkPoliciesSecondLock")
private final ArraySet<NetworkTemplate> mOverLimitNotified = new ArraySet<>();
/** Set of currently active {@link Notification} tags. */
@GuardedBy("mNetworkPoliciesSecondLock")
private final ArraySet<String> mActiveNotifs = new ArraySet<String>();
/** Foreground at UID granularity. */
@GuardedBy("mUidRulesFirstLock")
final SparseIntArray mUidState = new SparseIntArray();
/** Higher priority listener before general event dispatch */
private INetworkPolicyListener mConnectivityListener;
private final RemoteCallbackList<INetworkPolicyListener>
mListeners = new RemoteCallbackList<>();
final Handler mHandler;
@GuardedBy("allLocks")
private final AtomicFile mPolicyFile;
private final AppOpsManager mAppOps;
private final MyPackageMonitor mPackageMonitor;
private final IPackageManager mIPm;
// TODO: keep whitelist of system-critical services that should never have
// rules enforced, such as system, phone, and radio UIDs.
// TODO: migrate notifications to SystemUI
public NetworkPolicyManagerService(Context context, IActivityManager activityManager,
IPowerManager powerManager, INetworkStatsService networkStats,
INetworkManagementService networkManagement) {
this(context, activityManager, powerManager, networkStats, networkManagement,
NtpTrustedTime.getInstance(context), getSystemDir(), false);
}
private static File getSystemDir() {
return new File(Environment.getDataDirectory(), "system");
}
public NetworkPolicyManagerService(Context context, IActivityManager activityManager,
IPowerManager powerManager, INetworkStatsService networkStats,
INetworkManagementService networkManagement, TrustedTime time, File systemDir,
boolean suppressDefaultPolicy) {
mContext = checkNotNull(context, "missing context");
mActivityManager = checkNotNull(activityManager, "missing activityManager");
mPowerManager = checkNotNull(powerManager, "missing powerManager");
mNetworkStats = checkNotNull(networkStats, "missing networkStats");
mNetworkManager = checkNotNull(networkManagement, "missing networkManagement");
mDeviceIdleController = IDeviceIdleController.Stub.asInterface(ServiceManager.getService(
Context.DEVICE_IDLE_CONTROLLER));
mTime = checkNotNull(time, "missing TrustedTime");
mUserManager = (UserManager) mContext.getSystemService(Context.USER_SERVICE);
mIPm = AppGlobals.getPackageManager();
HandlerThread thread = new HandlerThread(TAG);
thread.start();
mHandler = new Handler(thread.getLooper(), mHandlerCallback);
mSuppressDefaultPolicy = suppressDefaultPolicy;
mPolicyFile = new AtomicFile(new File(systemDir, "netpolicy.xml"));
mAppOps = context.getSystemService(AppOpsManager.class);
mPackageMonitor = new MyPackageMonitor();
// Expose private service for system components to use.
LocalServices.addService(NetworkPolicyManagerInternal.class,
new NetworkPolicyManagerInternalImpl());
}
public void bindConnectivityManager(IConnectivityManager connManager) {
mConnManager = checkNotNull(connManager, "missing IConnectivityManager");
}
public void bindNotificationManager(INotificationManager notifManager) {
mNotifManager = checkNotNull(notifManager, "missing INotificationManager");
}
void updatePowerSaveWhitelistUL() {
try {
int[] whitelist = mDeviceIdleController.getAppIdWhitelistExceptIdle();
mPowerSaveWhitelistExceptIdleAppIds.clear();
if (whitelist != null) {
for (int uid : whitelist) {
mPowerSaveWhitelistExceptIdleAppIds.put(uid, true);
}
}
whitelist = mDeviceIdleController.getAppIdWhitelist();
mPowerSaveWhitelistAppIds.clear();
if (whitelist != null) {
for (int uid : whitelist) {
mPowerSaveWhitelistAppIds.put(uid, true);
}
}
} catch (RemoteException e) {
}
}
/**
* Whitelists pre-defined apps for restrict background, but only if the user didn't already
* revoke the whitelist.
*
* @return whether any uid has been added to {@link #mRestrictBackgroundWhitelistUids}.
*/
boolean addDefaultRestrictBackgroundWhitelistUidsUL() {
final List<UserInfo> users = mUserManager.getUsers();
final int numberUsers = users.size();
boolean changed = false;
for (int i = 0; i < numberUsers; i++) {
final UserInfo user = users.get(i);
changed = addDefaultRestrictBackgroundWhitelistUidsUL(user.id) || changed;
}
return changed;
}
private boolean addDefaultRestrictBackgroundWhitelistUidsUL(int userId) {
final SystemConfig sysConfig = SystemConfig.getInstance();
final PackageManager pm = mContext.getPackageManager();
final ArraySet<String> allowDataUsage = sysConfig.getAllowInDataUsageSave();
boolean changed = false;
for (int i = 0; i < allowDataUsage.size(); i++) {
final String pkg = allowDataUsage.valueAt(i);
if (LOGD)
Slog.d(TAG, "checking restricted background whitelisting for package " + pkg
+ " and user " + userId);
final ApplicationInfo app;
try {
app = pm.getApplicationInfoAsUser(pkg, PackageManager.MATCH_SYSTEM_ONLY, userId);
} catch (PackageManager.NameNotFoundException e) {
// Should not happen
Slog.wtf(TAG, "No ApplicationInfo for package " + pkg);
continue;
}
if (!app.isPrivilegedApp()) {
Slog.wtf(TAG, "pm.getApplicationInfoAsUser() returned non-privileged app: " + pkg);
continue;
}
final int uid = UserHandle.getUid(userId, app.uid);
mDefaultRestrictBackgroundWhitelistUids.append(uid, true);
if (LOGD)
Slog.d(TAG, "Adding uid " + uid + " (user " + userId + ") to default restricted "
+ "background whitelist. Revoked status: "
+ mRestrictBackgroundWhitelistRevokedUids.get(uid));
if (!mRestrictBackgroundWhitelistRevokedUids.get(uid)) {
Slog.i(TAG, "adding default package " + pkg + " (uid " + uid + " for user "
+ userId + ") to restrict background whitelist");
mRestrictBackgroundWhitelistUids.append(uid, true);
changed = true;
}
}
return changed;
}
void updatePowerSaveTempWhitelistUL() {
try {
// Clear the states of the current whitelist
final int N = mPowerSaveTempWhitelistAppIds.size();
for (int i = 0; i < N; i++) {
mPowerSaveTempWhitelistAppIds.setValueAt(i, false);
}
// Update the states with the new whitelist
final int[] whitelist = mDeviceIdleController.getAppIdTempWhitelist();
if (whitelist != null) {
for (int uid : whitelist) {
mPowerSaveTempWhitelistAppIds.put(uid, true);
}
}
} catch (RemoteException e) {
}
}
/**
* Remove unnecessary entries in the temp whitelist
*/
void purgePowerSaveTempWhitelistUL() {
final int N = mPowerSaveTempWhitelistAppIds.size();
for (int i = N - 1; i >= 0; i--) {
if (mPowerSaveTempWhitelistAppIds.valueAt(i) == false) {
mPowerSaveTempWhitelistAppIds.removeAt(i);
}
}
}
public void systemReady() {
if (!isBandwidthControlEnabled()) {
Slog.w(TAG, "bandwidth controls disabled, unable to enforce policy");
return;
}
mUsageStats = LocalServices.getService(UsageStatsManagerInternal.class);
mPackageMonitor.register(mContext, mHandler.getLooper(), UserHandle.ALL, true);
synchronized (mUidRulesFirstLock) {
synchronized (mNetworkPoliciesSecondLock) {
updatePowerSaveWhitelistUL();
mPowerManagerInternal = LocalServices.getService(PowerManagerInternal.class);
mPowerManagerInternal.registerLowPowerModeObserver(
new PowerManagerInternal.LowPowerModeListener() {
@Override
public void onLowPowerModeChanged(boolean enabled) {
if (LOGD) Slog.d(TAG, "onLowPowerModeChanged(" + enabled + ")");
synchronized (mUidRulesFirstLock) {
if (mRestrictPower != enabled) {
mRestrictPower = enabled;
updateRulesForRestrictPowerUL();
}
}
}
});
mRestrictPower = mPowerManagerInternal.getLowPowerModeEnabled();
mSystemReady = true;
// read policy from disk
readPolicyAL();
if (addDefaultRestrictBackgroundWhitelistUidsUL()) {
writePolicyAL();
}
setRestrictBackgroundUL(mRestrictBackground);
updateRulesForGlobalChangeAL(false);
updateNotificationsNL();
}
}
updateScreenOn();
try {
mActivityManager.registerUidObserver(mUidObserver,
ActivityManager.UID_OBSERVER_PROCSTATE|ActivityManager.UID_OBSERVER_GONE);
mNetworkManager.registerObserver(mAlertObserver);
} catch (RemoteException e) {
// ignored; both services live in system_server
}
// TODO: traverse existing processes to know foreground state, or have
// activitymanager dispatch current state when new observer attached.
final IntentFilter screenFilter = new IntentFilter();
screenFilter.addAction(Intent.ACTION_SCREEN_ON);
screenFilter.addAction(Intent.ACTION_SCREEN_OFF);
mContext.registerReceiver(mScreenReceiver, screenFilter);
// listen for changes to power save whitelist
final IntentFilter whitelistFilter = new IntentFilter(
PowerManager.ACTION_POWER_SAVE_WHITELIST_CHANGED);
mContext.registerReceiver(mPowerSaveWhitelistReceiver, whitelistFilter, null, mHandler);
DeviceIdleController.LocalService deviceIdleService
= LocalServices.getService(DeviceIdleController.LocalService.class);
deviceIdleService.setNetworkPolicyTempWhitelistCallback(mTempPowerSaveChangedCallback);
// watch for network interfaces to be claimed
final IntentFilter connFilter = new IntentFilter(CONNECTIVITY_ACTION);
mContext.registerReceiver(mConnReceiver, connFilter, CONNECTIVITY_INTERNAL, mHandler);
// listen for package changes to update policy
final IntentFilter packageFilter = new IntentFilter();
packageFilter.addAction(ACTION_PACKAGE_ADDED);
packageFilter.addDataScheme("package");
mContext.registerReceiver(mPackageReceiver, packageFilter, null, mHandler);
// listen for UID changes to update policy
mContext.registerReceiver(
mUidRemovedReceiver, new IntentFilter(ACTION_UID_REMOVED), null, mHandler);
// listen for user changes to update policy
final IntentFilter userFilter = new IntentFilter();
userFilter.addAction(ACTION_USER_ADDED);
userFilter.addAction(ACTION_USER_REMOVED);
mContext.registerReceiver(mUserReceiver, userFilter, null, mHandler);
// listen for stats update events
final IntentFilter statsFilter = new IntentFilter(ACTION_NETWORK_STATS_UPDATED);
mContext.registerReceiver(
mStatsReceiver, statsFilter, READ_NETWORK_USAGE_HISTORY, mHandler);
// listen for restrict background changes from notifications
final IntentFilter allowFilter = new IntentFilter(ACTION_ALLOW_BACKGROUND);
mContext.registerReceiver(mAllowReceiver, allowFilter, MANAGE_NETWORK_POLICY, mHandler);
// listen for snooze warning from notifications
final IntentFilter snoozeWarningFilter = new IntentFilter(ACTION_SNOOZE_WARNING);
mContext.registerReceiver(mSnoozeWarningReceiver, snoozeWarningFilter,
MANAGE_NETWORK_POLICY, mHandler);
// listen for configured wifi networks to be removed
final IntentFilter wifiConfigFilter = new IntentFilter(CONFIGURED_NETWORKS_CHANGED_ACTION);
mContext.registerReceiver(mWifiConfigReceiver, wifiConfigFilter, null, mHandler);
// listen for wifi state changes to catch metered hint
final IntentFilter wifiStateFilter = new IntentFilter(
WifiManager.NETWORK_STATE_CHANGED_ACTION);
mContext.registerReceiver(mWifiStateReceiver, wifiStateFilter, null, mHandler);
mUsageStats.addAppIdleStateChangeListener(new AppIdleStateChangeListener());
}
final private IUidObserver mUidObserver = new IUidObserver.Stub() {
@Override public void onUidStateChanged(int uid, int procState) throws RemoteException {
synchronized (mUidRulesFirstLock) {
updateUidStateUL(uid, procState);
}
}
@Override public void onUidGone(int uid) throws RemoteException {
synchronized (mUidRulesFirstLock) {
removeUidStateUL(uid);
}
}
@Override public void onUidActive(int uid) throws RemoteException {
}
@Override public void onUidIdle(int uid) throws RemoteException {
}
};
final private BroadcastReceiver mPowerSaveWhitelistReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and POWER_SAVE_WHITELIST_CHANGED is protected
synchronized (mUidRulesFirstLock) {
updatePowerSaveWhitelistUL();
updateRulesForRestrictPowerUL();
}
}
};
final private Runnable mTempPowerSaveChangedCallback = new Runnable() {
@Override
public void run() {
synchronized (mUidRulesFirstLock) {
updatePowerSaveTempWhitelistUL();
updateRulesForTempWhitelistChangeUL();
purgePowerSaveTempWhitelistUL();
}
}
};
final private BroadcastReceiver mScreenReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// screen-related broadcasts are protected by system, no need
// for permissions check.
mHandler.obtainMessage(MSG_SCREEN_ON_CHANGED).sendToTarget();
}
};
final private BroadcastReceiver mPackageReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and PACKAGE_ADDED is protected
final String action = intent.getAction();
final int uid = intent.getIntExtra(EXTRA_UID, -1);
if (uid == -1) return;
if (ACTION_PACKAGE_ADDED.equals(action)) {
// update rules for UID, since it might be subject to
// global background data policy
if (LOGV) Slog.v(TAG, "ACTION_PACKAGE_ADDED for uid=" + uid);
synchronized (mUidRulesFirstLock) {
updateRestrictionRulesForUidUL(uid);
}
}
}
};
final private BroadcastReceiver mUidRemovedReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and UID_REMOVED is protected
final int uid = intent.getIntExtra(EXTRA_UID, -1);
if (uid == -1) return;
// remove any policy and update rules to clean up
if (LOGV) Slog.v(TAG, "ACTION_UID_REMOVED for uid=" + uid);
synchronized (mUidRulesFirstLock) {
mUidPolicy.delete(uid);
updateRestrictionRulesForUidUL(uid);
synchronized (mNetworkPoliciesSecondLock) {
writePolicyAL();
}
}
}
};
final private BroadcastReceiver mUserReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and USER_ADDED and USER_REMOVED
// broadcasts are protected
final String action = intent.getAction();
final int userId = intent.getIntExtra(Intent.EXTRA_USER_HANDLE, -1);
if (userId == -1) return;
switch (action) {
case ACTION_USER_REMOVED:
case ACTION_USER_ADDED:
synchronized (mUidRulesFirstLock) {
// Remove any persistable state for the given user; both cleaning up after a
// USER_REMOVED, and one last sanity check during USER_ADDED
removeUserStateUL(userId, true);
if (action == ACTION_USER_ADDED) {
// Add apps that are whitelisted by default.
addDefaultRestrictBackgroundWhitelistUidsUL(userId);
}
// Update global restrict for that user
synchronized (mNetworkPoliciesSecondLock) {
updateRulesForGlobalChangeAL(true);
}
}
break;
}
}
};
/**
* Receiver that watches for {@link INetworkStatsService} updates, which we
* use to check against {@link NetworkPolicy#warningBytes}.
*/
final private BroadcastReceiver mStatsReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and verified
// READ_NETWORK_USAGE_HISTORY permission above.
maybeRefreshTrustedTime();
synchronized (mNetworkPoliciesSecondLock) {
updateNetworkEnabledNL();
updateNotificationsNL();
}
}
};
/**
* Receiver that watches for {@link Notification} control of
* {@link #mRestrictBackground}.
*/
final private BroadcastReceiver mAllowReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and verified MANAGE_NETWORK_POLICY
// permission above.
setRestrictBackground(false);
}
};
/**
* Receiver that watches for {@link Notification} control of
* {@link NetworkPolicy#lastWarningSnooze}.
*/
final private BroadcastReceiver mSnoozeWarningReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and verified MANAGE_NETWORK_POLICY
// permission above.
final NetworkTemplate template = intent.getParcelableExtra(EXTRA_NETWORK_TEMPLATE);
performSnooze(template, TYPE_WARNING);
}
};
/**
* Receiver that watches for {@link WifiConfiguration} to be changed.
*/
final private BroadcastReceiver mWifiConfigReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and verified CONNECTIVITY_INTERNAL
// permission above.
final int reason = intent.getIntExtra(EXTRA_CHANGE_REASON, CHANGE_REASON_ADDED);
if (reason == CHANGE_REASON_REMOVED) {
final WifiConfiguration config = intent.getParcelableExtra(
EXTRA_WIFI_CONFIGURATION);
if (config.SSID != null) {
final NetworkTemplate template = NetworkTemplate.buildTemplateWifi(config.SSID);
synchronized (mUidRulesFirstLock) {
synchronized (mNetworkPoliciesSecondLock) {
if (mNetworkPolicy.containsKey(template)) {
mNetworkPolicy.remove(template);
writePolicyAL();
}
}
}
}
}
}
};
/**
* Receiver that watches {@link WifiInfo} state changes to infer metered
* state. Ignores hints when policy is user-defined.
*/
final private BroadcastReceiver mWifiStateReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and verified CONNECTIVITY_INTERNAL
// permission above.
// ignore when not connected
final NetworkInfo netInfo = intent.getParcelableExtra(EXTRA_NETWORK_INFO);
if (!netInfo.isConnected()) return;
final WifiInfo info = intent.getParcelableExtra(EXTRA_WIFI_INFO);
final boolean meteredHint = info.getMeteredHint();
final NetworkTemplate template = NetworkTemplate.buildTemplateWifi(info.getSSID());
synchronized (mNetworkPoliciesSecondLock) {
NetworkPolicy policy = mNetworkPolicy.get(template);
if (policy == null && meteredHint) {
// policy doesn't exist, and AP is hinting that it's
// metered: create an inferred policy.
policy = newWifiPolicy(template, meteredHint);
addNetworkPolicyNL(policy);
} else if (policy != null && policy.inferred) {
// policy exists, and was inferred: update its current
// metered state.
policy.metered = meteredHint;
// since this is inferred for each wifi session, just update
// rules without persisting.
updateNetworkRulesNL();
}
}
}
};
static NetworkPolicy newWifiPolicy(NetworkTemplate template, boolean metered) {
return new NetworkPolicy(template, CYCLE_NONE, Time.TIMEZONE_UTC,
WARNING_DISABLED, LIMIT_DISABLED, SNOOZE_NEVER, SNOOZE_NEVER,
metered, true);
}
/**
* Observer that watches for {@link INetworkManagementService} alerts.
*/
final private INetworkManagementEventObserver mAlertObserver
= new BaseNetworkObserver() {
@Override
public void limitReached(String limitName, String iface) {
// only someone like NMS should be calling us
mContext.enforceCallingOrSelfPermission(CONNECTIVITY_INTERNAL, TAG);
if (!LIMIT_GLOBAL_ALERT.equals(limitName)) {
mHandler.obtainMessage(MSG_LIMIT_REACHED, iface).sendToTarget();
}
}
};
/**
* Check {@link NetworkPolicy} against current {@link INetworkStatsService}
* to show visible notifications as needed.
*/
void updateNotificationsNL() {
if (LOGV) Slog.v(TAG, "updateNotificationsNL()");
// keep track of previously active notifications
final ArraySet<String> beforeNotifs = new ArraySet<String>(mActiveNotifs);
mActiveNotifs.clear();
// TODO: when switching to kernel notifications, compute next future
// cycle boundary to recompute notifications.
// examine stats for each active policy
final long currentTime = currentTimeMillis();
for (int i = mNetworkPolicy.size()-1; i >= 0; i--) {
final NetworkPolicy policy = mNetworkPolicy.valueAt(i);
// ignore policies that aren't relevant to user
if (!isTemplateRelevant(policy.template)) continue;
if (!policy.hasCycle()) continue;
final long start = computeLastCycleBoundary(currentTime, policy);
final long end = currentTime;
final long totalBytes = getTotalBytes(policy.template, start, end);
if (policy.isOverLimit(totalBytes)) {
if (policy.lastLimitSnooze >= start) {
enqueueNotification(policy, TYPE_LIMIT_SNOOZED, totalBytes);
} else {
enqueueNotification(policy, TYPE_LIMIT, totalBytes);
notifyOverLimitNL(policy.template);
}
} else {
notifyUnderLimitNL(policy.template);
if (policy.isOverWarning(totalBytes) && policy.lastWarningSnooze < start) {
enqueueNotification(policy, TYPE_WARNING, totalBytes);
}
}
}
// cancel stale notifications that we didn't renew above
for (int i = beforeNotifs.size()-1; i >= 0; i--) {
final String tag = beforeNotifs.valueAt(i);
if (!mActiveNotifs.contains(tag)) {
cancelNotification(tag);
}
}
}
/**
* Test if given {@link NetworkTemplate} is relevant to user based on
* current device state, such as when
* {@link TelephonyManager#getSubscriberId()} matches. This is regardless of
* data connection status.
*/
private boolean isTemplateRelevant(NetworkTemplate template) {
if (template.isMatchRuleMobile()) {
final TelephonyManager tele = TelephonyManager.from(mContext);
final SubscriptionManager sub = SubscriptionManager.from(mContext);
// Mobile template is relevant when any active subscriber matches
final int[] subIds = sub.getActiveSubscriptionIdList();
for (int subId : subIds) {
final String subscriberId = tele.getSubscriberId(subId);
final NetworkIdentity probeIdent = new NetworkIdentity(TYPE_MOBILE,
TelephonyManager.NETWORK_TYPE_UNKNOWN, subscriberId, null, false, true);
if (template.matches(probeIdent)) {
return true;
}
}
return false;
} else {
return true;
}
}
/**
* Notify that given {@link NetworkTemplate} is over
* {@link NetworkPolicy#limitBytes}, potentially showing dialog to user.
*/
private void notifyOverLimitNL(NetworkTemplate template) {
if (!mOverLimitNotified.contains(template)) {
mContext.startActivity(buildNetworkOverLimitIntent(template));
mOverLimitNotified.add(template);
}
}
private void notifyUnderLimitNL(NetworkTemplate template) {
mOverLimitNotified.remove(template);
}
/**
* Build unique tag that identifies an active {@link NetworkPolicy}
* notification of a specific type, like {@link #TYPE_LIMIT}.
*/
private String buildNotificationTag(NetworkPolicy policy, int type) {
return TAG + ":" + policy.template.hashCode() + ":" + type;
}
/**
* Show notification for combined {@link NetworkPolicy} and specific type,
* like {@link #TYPE_LIMIT}. Okay to call multiple times.
*/
private void enqueueNotification(NetworkPolicy policy, int type, long totalBytes) {
final String tag = buildNotificationTag(policy, type);
final Notification.Builder builder = new Notification.Builder(mContext);
builder.setOnlyAlertOnce(true);
builder.setWhen(0L);
builder.setColor(mContext.getColor(
com.android.internal.R.color.system_notification_accent_color));
final Resources res = mContext.getResources();
switch (type) {
case TYPE_WARNING: {
final CharSequence title = res.getText(R.string.data_usage_warning_title);
final CharSequence body = res.getString(R.string.data_usage_warning_body);
builder.setSmallIcon(R.drawable.stat_notify_error);
builder.setTicker(title);
builder.setContentTitle(title);
builder.setContentText(body);
final Intent snoozeIntent = buildSnoozeWarningIntent(policy.template);
builder.setDeleteIntent(PendingIntent.getBroadcast(
mContext, 0, snoozeIntent, PendingIntent.FLAG_UPDATE_CURRENT));
final Intent viewIntent = buildViewDataUsageIntent(policy.template);
builder.setContentIntent(PendingIntent.getActivity(
mContext, 0, viewIntent, PendingIntent.FLAG_UPDATE_CURRENT));
break;
}
case TYPE_LIMIT: {
final CharSequence body = res.getText(R.string.data_usage_limit_body);
final CharSequence title;
int icon = R.drawable.stat_notify_disabled_data;
switch (policy.template.getMatchRule()) {
case MATCH_MOBILE_3G_LOWER:
title = res.getText(R.string.data_usage_3g_limit_title);
break;
case MATCH_MOBILE_4G:
title = res.getText(R.string.data_usage_4g_limit_title);
break;
case MATCH_MOBILE_ALL:
title = res.getText(R.string.data_usage_mobile_limit_title);
break;
case MATCH_WIFI:
title = res.getText(R.string.data_usage_wifi_limit_title);
icon = R.drawable.stat_notify_error;
break;
default:
title = null;
break;
}
builder.setOngoing(true);
builder.setSmallIcon(icon);
builder.setTicker(title);
builder.setContentTitle(title);
builder.setContentText(body);
final Intent intent = buildNetworkOverLimitIntent(policy.template);
builder.setContentIntent(PendingIntent.getActivity(
mContext, 0, intent, PendingIntent.FLAG_UPDATE_CURRENT));
break;
}
case TYPE_LIMIT_SNOOZED: {
final long overBytes = totalBytes - policy.limitBytes;
final CharSequence body = res.getString(R.string.data_usage_limit_snoozed_body,
Formatter.formatFileSize(mContext, overBytes));
final CharSequence title;
switch (policy.template.getMatchRule()) {
case MATCH_MOBILE_3G_LOWER:
title = res.getText(R.string.data_usage_3g_limit_snoozed_title);
break;
case MATCH_MOBILE_4G:
title = res.getText(R.string.data_usage_4g_limit_snoozed_title);
break;
case MATCH_MOBILE_ALL:
title = res.getText(R.string.data_usage_mobile_limit_snoozed_title);
break;
case MATCH_WIFI:
title = res.getText(R.string.data_usage_wifi_limit_snoozed_title);
break;
default:
title = null;
break;
}
builder.setOngoing(true);
builder.setSmallIcon(R.drawable.stat_notify_error);
builder.setTicker(title);
builder.setContentTitle(title);
builder.setContentText(body);
final Intent intent = buildViewDataUsageIntent(policy.template);
builder.setContentIntent(PendingIntent.getActivity(
mContext, 0, intent, PendingIntent.FLAG_UPDATE_CURRENT));
break;
}
}
// TODO: move to NotificationManager once we can mock it
try {
final String packageName = mContext.getPackageName();
final int[] idReceived = new int[1];
mNotifManager.enqueueNotificationWithTag(
packageName, packageName, tag, 0x0, builder.getNotification(), idReceived,
UserHandle.USER_ALL);
mActiveNotifs.add(tag);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
private void cancelNotification(String tag) {
// TODO: move to NotificationManager once we can mock it
try {
final String packageName = mContext.getPackageName();
mNotifManager.cancelNotificationWithTag(
packageName, tag, 0x0, UserHandle.USER_ALL);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
/**
* Receiver that watches for {@link IConnectivityManager} to claim network
* interfaces. Used to apply {@link NetworkPolicy} to matching networks.
*/
private BroadcastReceiver mConnReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
// on background handler thread, and verified CONNECTIVITY_INTERNAL
// permission above.
maybeRefreshTrustedTime();
synchronized (mNetworkPoliciesSecondLock) {
ensureActiveMobilePolicyNL();
normalizePoliciesNL();
updateNetworkEnabledNL();
updateNetworkRulesNL();
updateNotificationsNL();
}
}
};
/**
* Proactively control network data connections when they exceed
* {@link NetworkPolicy#limitBytes}.
*/
void updateNetworkEnabledNL() {
if (LOGV) Slog.v(TAG, "updateNetworkEnabledNL()");
// TODO: reset any policy-disabled networks when any policy is removed
// completely, which is currently rare case.
final long currentTime = currentTimeMillis();
for (int i = mNetworkPolicy.size()-1; i >= 0; i--) {
final NetworkPolicy policy = mNetworkPolicy.valueAt(i);
// shortcut when policy has no limit
if (policy.limitBytes == LIMIT_DISABLED || !policy.hasCycle()) {
setNetworkTemplateEnabled(policy.template, true);
continue;
}
final long start = computeLastCycleBoundary(currentTime, policy);
final long end = currentTime;
final long totalBytes = getTotalBytes(policy.template, start, end);
// disable data connection when over limit and not snoozed
final boolean overLimitWithoutSnooze = policy.isOverLimit(totalBytes)
&& policy.lastLimitSnooze < start;
final boolean networkEnabled = !overLimitWithoutSnooze;
setNetworkTemplateEnabled(policy.template, networkEnabled);
}
}
/**
* Proactively disable networks that match the given
* {@link NetworkTemplate}.
*/
private void setNetworkTemplateEnabled(NetworkTemplate template, boolean enabled) {
// TODO: reach into ConnectivityManager to proactively disable bringing
// up this network, since we know that traffic will be blocked.
if (template.getMatchRule() == MATCH_MOBILE_ALL) {
// If mobile data usage hits the limit or if the user resumes the data, we need to
// notify telephony.
final SubscriptionManager sm = SubscriptionManager.from(mContext);
final TelephonyManager tm = TelephonyManager.from(mContext);
final int[] subIds = sm.getActiveSubscriptionIdList();
for (int subId : subIds) {
final String subscriberId = tm.getSubscriberId(subId);
final NetworkIdentity probeIdent = new NetworkIdentity(TYPE_MOBILE,
TelephonyManager.NETWORK_TYPE_UNKNOWN, subscriberId, null, false, true);
// Template is matched when subscriber id matches.
if (template.matches(probeIdent)) {
tm.setPolicyDataEnabled(enabled, subId);
}
}
}
}
/**
* Examine all connected {@link NetworkState}, looking for
* {@link NetworkPolicy} that need to be enforced. When matches found, set
* remaining quota based on usage cycle and historical stats.
*/
void updateNetworkRulesNL() {
if (LOGV) Slog.v(TAG, "updateNetworkRulesNL()");
final NetworkState[] states;
try {
states = mConnManager.getAllNetworkState();
} catch (RemoteException e) {
// ignored; service lives in system_server
return;
}
// First, generate identities of all connected networks so we can
// quickly compare them against all defined policies below.
final ArrayList<Pair<String, NetworkIdentity>> connIdents = new ArrayList<>(states.length);
final ArraySet<String> connIfaces = new ArraySet<String>(states.length);
for (NetworkState state : states) {
if (state.networkInfo != null && state.networkInfo.isConnected()) {
final NetworkIdentity ident = NetworkIdentity.buildNetworkIdentity(mContext, state);
final String baseIface = state.linkProperties.getInterfaceName();
if (baseIface != null) {
connIdents.add(Pair.create(baseIface, ident));
}
// Stacked interfaces are considered to have same identity as
// their parent network.
final List<LinkProperties> stackedLinks = state.linkProperties.getStackedLinks();
for (LinkProperties stackedLink : stackedLinks) {
final String stackedIface = stackedLink.getInterfaceName();
if (stackedIface != null) {
connIdents.add(Pair.create(stackedIface, ident));
}
}
}
}
// Apply policies against all connected interfaces found above
mNetworkRules.clear();
final ArrayList<String> ifaceList = Lists.newArrayList();
for (int i = mNetworkPolicy.size() - 1; i >= 0; i--) {
final NetworkPolicy policy = mNetworkPolicy.valueAt(i);
ifaceList.clear();
for (int j = connIdents.size() - 1; j >= 0; j--) {
final Pair<String, NetworkIdentity> ident = connIdents.get(j);
if (policy.template.matches(ident.second)) {
ifaceList.add(ident.first);
}
}
if (ifaceList.size() > 0) {
final String[] ifaces = ifaceList.toArray(new String[ifaceList.size()]);
mNetworkRules.put(policy, ifaces);
}
}
long lowestRule = Long.MAX_VALUE;
final ArraySet<String> newMeteredIfaces = new ArraySet<String>(states.length);
// apply each policy that we found ifaces for; compute remaining data
// based on current cycle and historical stats, and push to kernel.
final long currentTime = currentTimeMillis();
for (int i = mNetworkRules.size()-1; i >= 0; i--) {
final NetworkPolicy policy = mNetworkRules.keyAt(i);
final String[] ifaces = mNetworkRules.valueAt(i);
final long start;
final long totalBytes;
if (policy.hasCycle()) {
start = computeLastCycleBoundary(currentTime, policy);
totalBytes = getTotalBytes(policy.template, start, currentTime);
} else {
start = Long.MAX_VALUE;
totalBytes = 0;
}
if (LOGD) {
Slog.d(TAG, "applying policy " + policy + " to ifaces " + Arrays.toString(ifaces));
}
final boolean hasWarning = policy.warningBytes != LIMIT_DISABLED;
final boolean hasLimit = policy.limitBytes != LIMIT_DISABLED;
if (hasLimit || policy.metered) {
final long quotaBytes;
if (!hasLimit) {
// metered network, but no policy limit; we still need to
// restrict apps, so push really high quota.
quotaBytes = Long.MAX_VALUE;
} else if (policy.lastLimitSnooze >= start) {
// snoozing past quota, but we still need to restrict apps,
// so push really high quota.
quotaBytes = Long.MAX_VALUE;
} else {
// remaining "quota" bytes are based on total usage in
// current cycle. kernel doesn't like 0-byte rules, so we
// set 1-byte quota and disable the radio later.
quotaBytes = Math.max(1, policy.limitBytes - totalBytes);
}
if (ifaces.length > 1) {
// TODO: switch to shared quota once NMS supports
Slog.w(TAG, "shared quota unsupported; generating rule for each iface");
}
for (String iface : ifaces) {
// long quotaBytes split up into two ints to fit in message
mHandler.obtainMessage(MSG_UPDATE_INTERFACE_QUOTA,
(int) (quotaBytes >> 32), (int) (quotaBytes & 0xFFFFFFFF), iface)
.sendToTarget();
newMeteredIfaces.add(iface);
}
}
// keep track of lowest warning or limit of active policies
if (hasWarning && policy.warningBytes < lowestRule) {
lowestRule = policy.warningBytes;
}
if (hasLimit && policy.limitBytes < lowestRule) {
lowestRule = policy.limitBytes;
}
}
for (int i = connIfaces.size()-1; i >= 0; i--) {
String iface = connIfaces.valueAt(i);
// long quotaBytes split up into two ints to fit in message
mHandler.obtainMessage(MSG_UPDATE_INTERFACE_QUOTA,
(int) (Long.MAX_VALUE >> 32), (int) (Long.MAX_VALUE & 0xFFFFFFFF), iface)
.sendToTarget();
newMeteredIfaces.add(iface);
}
mHandler.obtainMessage(MSG_ADVISE_PERSIST_THRESHOLD, lowestRule).sendToTarget();
// remove quota on any trailing interfaces
for (int i = mMeteredIfaces.size() - 1; i >= 0; i--) {
final String iface = mMeteredIfaces.valueAt(i);
if (!newMeteredIfaces.contains(iface)) {
mHandler.obtainMessage(MSG_REMOVE_INTERFACE_QUOTA, iface)
.sendToTarget();
}
}
mMeteredIfaces = newMeteredIfaces;
final String[] meteredIfaces = mMeteredIfaces.toArray(new String[mMeteredIfaces.size()]);
mHandler.obtainMessage(MSG_METERED_IFACES_CHANGED, meteredIfaces).sendToTarget();
}
/**
* Once any {@link #mNetworkPolicy} are loaded from disk, ensure that we
* have at least a default mobile policy defined.
*/
private void ensureActiveMobilePolicyNL() {
if (LOGV) Slog.v(TAG, "ensureActiveMobilePolicyNL()");
if (mSuppressDefaultPolicy) return;
final TelephonyManager tele = TelephonyManager.from(mContext);
final SubscriptionManager sub = SubscriptionManager.from(mContext);
final int[] subIds = sub.getActiveSubscriptionIdList();
for (int subId : subIds) {
final String subscriberId = tele.getSubscriberId(subId);
ensureActiveMobilePolicyNL(subscriberId);
}
}
private void ensureActiveMobilePolicyNL(String subscriberId) {
// Poke around to see if we already have a policy
final NetworkIdentity probeIdent = new NetworkIdentity(TYPE_MOBILE,
TelephonyManager.NETWORK_TYPE_UNKNOWN, subscriberId, null, false, true);
for (int i = mNetworkPolicy.size() - 1; i >= 0; i--) {
final NetworkTemplate template = mNetworkPolicy.keyAt(i);
if (template.matches(probeIdent)) {
if (LOGD) {
Slog.d(TAG, "Found template " + template + " which matches subscriber "
+ NetworkIdentity.scrubSubscriberId(subscriberId));
}
return;
}
}
Slog.i(TAG, "No policy for subscriber " + NetworkIdentity.scrubSubscriberId(subscriberId)
+ "; generating default policy");
// Build default mobile policy, and assume usage cycle starts today
final long warningBytes = mContext.getResources().getInteger(
com.android.internal.R.integer.config_networkPolicyDefaultWarning) * MB_IN_BYTES;
final Time time = new Time();
time.setToNow();
final int cycleDay = time.monthDay;
final String cycleTimezone = time.timezone;
final NetworkTemplate template = buildTemplateMobileAll(subscriberId);
final NetworkPolicy policy = new NetworkPolicy(template, cycleDay, cycleTimezone,
warningBytes, LIMIT_DISABLED, SNOOZE_NEVER, SNOOZE_NEVER, true, true);
addNetworkPolicyNL(policy);
}
private void readPolicyAL() {
if (LOGV) Slog.v(TAG, "readPolicyAL()");
// clear any existing policy and read from disk
mNetworkPolicy.clear();
mUidPolicy.clear();
FileInputStream fis = null;
try {
fis = mPolicyFile.openRead();
final XmlPullParser in = Xml.newPullParser();
in.setInput(fis, StandardCharsets.UTF_8.name());
int type;
int version = VERSION_INIT;
boolean insideWhitelist = false;
while ((type = in.next()) != END_DOCUMENT) {
final String tag = in.getName();
if (type == START_TAG) {
if (TAG_POLICY_LIST.equals(tag)) {
final boolean oldValue = mRestrictBackground;
version = readIntAttribute(in, ATTR_VERSION);
if (version >= VERSION_ADDED_RESTRICT_BACKGROUND) {
mRestrictBackground = readBooleanAttribute(
in, ATTR_RESTRICT_BACKGROUND);
} else {
mRestrictBackground = false;
}
if (mRestrictBackground != oldValue) {
// Some early services may have read the default value,
// so notify them that it's changed
mHandler.obtainMessage(MSG_RESTRICT_BACKGROUND_CHANGED,
mRestrictBackground ? 1 : 0, 0).sendToTarget();
}
} else if (TAG_NETWORK_POLICY.equals(tag)) {
final int networkTemplate = readIntAttribute(in, ATTR_NETWORK_TEMPLATE);
final String subscriberId = in.getAttributeValue(null, ATTR_SUBSCRIBER_ID);
final String networkId;
if (version >= VERSION_ADDED_NETWORK_ID) {
networkId = in.getAttributeValue(null, ATTR_NETWORK_ID);
} else {
networkId = null;
}
final int cycleDay = readIntAttribute(in, ATTR_CYCLE_DAY);
final String cycleTimezone;
if (version >= VERSION_ADDED_TIMEZONE) {
cycleTimezone = in.getAttributeValue(null, ATTR_CYCLE_TIMEZONE);
} else {
cycleTimezone = Time.TIMEZONE_UTC;
}
final long warningBytes = readLongAttribute(in, ATTR_WARNING_BYTES);
final long limitBytes = readLongAttribute(in, ATTR_LIMIT_BYTES);
final long lastLimitSnooze;
if (version >= VERSION_SPLIT_SNOOZE) {
lastLimitSnooze = readLongAttribute(in, ATTR_LAST_LIMIT_SNOOZE);
} else if (version >= VERSION_ADDED_SNOOZE) {
lastLimitSnooze = readLongAttribute(in, ATTR_LAST_SNOOZE);
} else {
lastLimitSnooze = SNOOZE_NEVER;
}
final boolean metered;
if (version >= VERSION_ADDED_METERED) {
metered = readBooleanAttribute(in, ATTR_METERED);
} else {
switch (networkTemplate) {
case MATCH_MOBILE_3G_LOWER:
case MATCH_MOBILE_4G:
case MATCH_MOBILE_ALL:
metered = true;
break;
default:
metered = false;
}
}
final long lastWarningSnooze;
if (version >= VERSION_SPLIT_SNOOZE) {
lastWarningSnooze = readLongAttribute(in, ATTR_LAST_WARNING_SNOOZE);
} else {
lastWarningSnooze = SNOOZE_NEVER;
}
final boolean inferred;
if (version >= VERSION_ADDED_INFERRED) {
inferred = readBooleanAttribute(in, ATTR_INFERRED);
} else {
inferred = false;
}
final NetworkTemplate template = new NetworkTemplate(networkTemplate,
subscriberId, networkId);
if (template.isPersistable()) {
mNetworkPolicy.put(template, new NetworkPolicy(template, cycleDay,
cycleTimezone, warningBytes, limitBytes, lastWarningSnooze,
lastLimitSnooze, metered, inferred));
}
} else if (TAG_UID_POLICY.equals(tag)) {
final int uid = readIntAttribute(in, ATTR_UID);
final int policy = readIntAttribute(in, ATTR_POLICY);
if (UserHandle.isApp(uid)) {
setUidPolicyUncheckedUL(uid, policy, false);
} else {
Slog.w(TAG, "unable to apply policy to UID " + uid + "; ignoring");
}
} else if (TAG_APP_POLICY.equals(tag)) {
final int appId = readIntAttribute(in, ATTR_APP_ID);
final int policy = readIntAttribute(in, ATTR_POLICY);
// TODO: set for other users during upgrade
// app policy is deprecated so this is only used in pre system user split.
final int uid = UserHandle.getUid(UserHandle.USER_SYSTEM, appId);
if (UserHandle.isApp(uid)) {
setUidPolicyUncheckedUL(uid, policy, false);
} else {
Slog.w(TAG, "unable to apply policy to UID " + uid + "; ignoring");
}
} else if (TAG_WHITELIST.equals(tag)) {
insideWhitelist = true;
} else if (TAG_RESTRICT_BACKGROUND.equals(tag) && insideWhitelist) {
final int uid = readIntAttribute(in, ATTR_UID);
mRestrictBackgroundWhitelistUids.put(uid, true);
} else if (TAG_REVOKED_RESTRICT_BACKGROUND.equals(tag) && insideWhitelist) {
final int uid = readIntAttribute(in, ATTR_UID);
mRestrictBackgroundWhitelistRevokedUids.put(uid, true);
}
} else if (type == END_TAG) {
if (TAG_WHITELIST.equals(tag)) {
insideWhitelist = false;
}
}
}
} catch (FileNotFoundException e) {
// missing policy is okay, probably first boot
upgradeLegacyBackgroundDataUL();
} catch (IOException e) {
Log.wtf(TAG, "problem reading network policy", e);
} catch (XmlPullParserException e) {
Log.wtf(TAG, "problem reading network policy", e);
} finally {
IoUtils.closeQuietly(fis);
}
}
/**
* Upgrade legacy background data flags, notifying listeners of one last
* change to always-true.
*/
private void upgradeLegacyBackgroundDataUL() {
mRestrictBackground = Settings.Secure.getInt(
mContext.getContentResolver(), Settings.Secure.BACKGROUND_DATA, 1) != 1;
// kick off one last broadcast if restricted
if (mRestrictBackground) {
final Intent broadcast = new Intent(
ConnectivityManager.ACTION_BACKGROUND_DATA_SETTING_CHANGED);
mContext.sendBroadcastAsUser(broadcast, UserHandle.ALL);
}
}
void writePolicyAL() {
if (LOGV) Slog.v(TAG, "writePolicyAL()");
FileOutputStream fos = null;
try {
fos = mPolicyFile.startWrite();
XmlSerializer out = new FastXmlSerializer();
out.setOutput(fos, StandardCharsets.UTF_8.name());
out.startDocument(null, true);
out.startTag(null, TAG_POLICY_LIST);
writeIntAttribute(out, ATTR_VERSION, VERSION_LATEST);
writeBooleanAttribute(out, ATTR_RESTRICT_BACKGROUND, mRestrictBackground);
// write all known network policies
for (int i = 0; i < mNetworkPolicy.size(); i++) {
final NetworkPolicy policy = mNetworkPolicy.valueAt(i);
final NetworkTemplate template = policy.template;
if (!template.isPersistable()) continue;
out.startTag(null, TAG_NETWORK_POLICY);
writeIntAttribute(out, ATTR_NETWORK_TEMPLATE, template.getMatchRule());
final String subscriberId = template.getSubscriberId();
if (subscriberId != null) {
out.attribute(null, ATTR_SUBSCRIBER_ID, subscriberId);
}
final String networkId = template.getNetworkId();
if (networkId != null) {
out.attribute(null, ATTR_NETWORK_ID, networkId);
}
writeIntAttribute(out, ATTR_CYCLE_DAY, policy.cycleDay);
out.attribute(null, ATTR_CYCLE_TIMEZONE, policy.cycleTimezone);
writeLongAttribute(out, ATTR_WARNING_BYTES, policy.warningBytes);
writeLongAttribute(out, ATTR_LIMIT_BYTES, policy.limitBytes);
writeLongAttribute(out, ATTR_LAST_WARNING_SNOOZE, policy.lastWarningSnooze);
writeLongAttribute(out, ATTR_LAST_LIMIT_SNOOZE, policy.lastLimitSnooze);
writeBooleanAttribute(out, ATTR_METERED, policy.metered);
writeBooleanAttribute(out, ATTR_INFERRED, policy.inferred);
out.endTag(null, TAG_NETWORK_POLICY);
}
// write all known uid policies
for (int i = 0; i < mUidPolicy.size(); i++) {
final int uid = mUidPolicy.keyAt(i);
final int policy = mUidPolicy.valueAt(i);
// skip writing empty policies
if (policy == POLICY_NONE) continue;
out.startTag(null, TAG_UID_POLICY);
writeIntAttribute(out, ATTR_UID, uid);
writeIntAttribute(out, ATTR_POLICY, policy);
out.endTag(null, TAG_UID_POLICY);
}
out.endTag(null, TAG_POLICY_LIST);
// write all whitelists
out.startTag(null, TAG_WHITELIST);
// restrict background whitelist
int size = mRestrictBackgroundWhitelistUids.size();
for (int i = 0; i < size; i++) {
final int uid = mRestrictBackgroundWhitelistUids.keyAt(i);
out.startTag(null, TAG_RESTRICT_BACKGROUND);
writeIntAttribute(out, ATTR_UID, uid);
out.endTag(null, TAG_RESTRICT_BACKGROUND);
}
// revoked restrict background whitelist
size = mRestrictBackgroundWhitelistRevokedUids.size();
for (int i = 0; i < size; i++) {
final int uid = mRestrictBackgroundWhitelistRevokedUids.keyAt(i);
out.startTag(null, TAG_REVOKED_RESTRICT_BACKGROUND);
writeIntAttribute(out, ATTR_UID, uid);
out.endTag(null, TAG_REVOKED_RESTRICT_BACKGROUND);
}
out.endTag(null, TAG_WHITELIST);
out.endDocument();
mPolicyFile.finishWrite(fos);
} catch (IOException e) {
if (fos != null) {
mPolicyFile.failWrite(fos);
}
}
}
@Override
public void setUidPolicy(int uid, int policy) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
if (!UserHandle.isApp(uid)) {
throw new IllegalArgumentException("cannot apply policy to UID " + uid);
}
synchronized (mUidRulesFirstLock) {
final long token = Binder.clearCallingIdentity();
try {
final int oldPolicy = mUidPolicy.get(uid, POLICY_NONE);
if (oldPolicy != policy) {
setUidPolicyUncheckedUL(uid, oldPolicy, policy, true);
}
} finally {
Binder.restoreCallingIdentity(token);
}
}
}
@Override
public void addUidPolicy(int uid, int policy) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
if (!UserHandle.isApp(uid)) {
throw new IllegalArgumentException("cannot apply policy to UID " + uid);
}
synchronized (mUidRulesFirstLock) {
final int oldPolicy = mUidPolicy.get(uid, POLICY_NONE);
policy |= oldPolicy;
if (oldPolicy != policy) {
setUidPolicyUncheckedUL(uid, oldPolicy, policy, true);
}
}
}
@Override
public void removeUidPolicy(int uid, int policy) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
if (!UserHandle.isApp(uid)) {
throw new IllegalArgumentException("cannot apply policy to UID " + uid);
}
synchronized (mUidRulesFirstLock) {
final int oldPolicy = mUidPolicy.get(uid, POLICY_NONE);
policy = oldPolicy & ~policy;
if (oldPolicy != policy) {
setUidPolicyUncheckedUL(uid, oldPolicy, policy, true);
}
}
}
private void setUidPolicyUncheckedUL(int uid, int oldPolicy, int policy, boolean persist) {
setUidPolicyUncheckedUL(uid, policy, persist);
final boolean isBlacklisted = policy == POLICY_REJECT_METERED_BACKGROUND;
mHandler.obtainMessage(MSG_RESTRICT_BACKGROUND_BLACKLIST_CHANGED, uid,
isBlacklisted ? 1 : 0).sendToTarget();
final boolean wasBlacklisted = oldPolicy == POLICY_REJECT_METERED_BACKGROUND;
// Checks if app was added or removed to the blacklist.
if ((oldPolicy == POLICY_NONE && isBlacklisted)
|| (wasBlacklisted && policy == POLICY_NONE)) {
mHandler.obtainMessage(MSG_RESTRICT_BACKGROUND_WHITELIST_CHANGED, uid, 1, null)
.sendToTarget();
}
}
private void setUidPolicyUncheckedUL(int uid, int policy, boolean persist) {
mUidPolicy.put(uid, policy);
// uid policy changed, recompute rules and persist policy.
updateRulesForDataUsageRestrictionsUL(uid);
if (persist) {
synchronized (mNetworkPoliciesSecondLock) {
writePolicyAL();
}
}
}
@Override
public int getUidPolicy(int uid) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
synchronized (mUidRulesFirstLock) {
return mUidPolicy.get(uid, POLICY_NONE);
}
}
@Override
public int[] getUidsWithPolicy(int policy) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
int[] uids = new int[0];
synchronized (mUidRulesFirstLock) {
for (int i = 0; i < mUidPolicy.size(); i++) {
final int uid = mUidPolicy.keyAt(i);
final int uidPolicy = mUidPolicy.valueAt(i);
if (uidPolicy == policy) {
uids = appendInt(uids, uid);
}
}
}
return uids;
}
/**
* Removes any persistable state associated with given {@link UserHandle}, persisting
* if any changes that are made.
*/
boolean removeUserStateUL(int userId, boolean writePolicy) {
if (LOGV) Slog.v(TAG, "removeUserStateUL()");
boolean changed = false;
// Remove entries from restricted background UID whitelist
int[] wlUids = new int[0];
for (int i = 0; i < mRestrictBackgroundWhitelistUids.size(); i++) {
final int uid = mRestrictBackgroundWhitelistUids.keyAt(i);
if (UserHandle.getUserId(uid) == userId) {
wlUids = appendInt(wlUids, uid);
}
}
if (wlUids.length > 0) {
for (int uid : wlUids) {
removeRestrictBackgroundWhitelistedUidUL(uid, false, false);
}
changed = true;
}
// Remove entries from revoked default restricted background UID whitelist
for (int i = mRestrictBackgroundWhitelistRevokedUids.size() - 1; i >= 0; i--) {
final int uid = mRestrictBackgroundWhitelistRevokedUids.keyAt(i);
if (UserHandle.getUserId(uid) == userId) {
mRestrictBackgroundWhitelistRevokedUids.removeAt(i);
changed = true;
}
}
// Remove associated UID policies
int[] uids = new int[0];
for (int i = 0; i < mUidPolicy.size(); i++) {
final int uid = mUidPolicy.keyAt(i);
if (UserHandle.getUserId(uid) == userId) {
uids = appendInt(uids, uid);
}
}
if (uids.length > 0) {
for (int uid : uids) {
mUidPolicy.delete(uid);
}
changed = true;
}
synchronized (mNetworkPoliciesSecondLock) {
updateRulesForGlobalChangeAL(true);
if (writePolicy && changed) {
writePolicyAL();
}
}
return changed;
}
@Override
public void setConnectivityListener(INetworkPolicyListener listener) {
mContext.enforceCallingOrSelfPermission(CONNECTIVITY_INTERNAL, TAG);
if (mConnectivityListener != null) {
throw new IllegalStateException("Connectivity listener already registered");
}
mConnectivityListener = listener;
}
@Override
public void registerListener(INetworkPolicyListener listener) {
// TODO: create permission for observing network policy
mContext.enforceCallingOrSelfPermission(CONNECTIVITY_INTERNAL, TAG);
mListeners.register(listener);
}
@Override
public void unregisterListener(INetworkPolicyListener listener) {
// TODO: create permission for observing network policy
mContext.enforceCallingOrSelfPermission(CONNECTIVITY_INTERNAL, TAG);
mListeners.unregister(listener);
}
@Override
public void setNetworkPolicies(NetworkPolicy[] policies) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
final long token = Binder.clearCallingIdentity();
try {
maybeRefreshTrustedTime();
synchronized (mUidRulesFirstLock) {
synchronized (mNetworkPoliciesSecondLock) {
normalizePoliciesNL(policies);
updateNetworkEnabledNL();
updateNetworkRulesNL();
updateNotificationsNL();
writePolicyAL();
}
}
} finally {
Binder.restoreCallingIdentity(token);
}
}
void addNetworkPolicyNL(NetworkPolicy policy) {
NetworkPolicy[] policies = getNetworkPolicies(mContext.getOpPackageName());
policies = ArrayUtils.appendElement(NetworkPolicy.class, policies, policy);
setNetworkPolicies(policies);
}
@Override
public NetworkPolicy[] getNetworkPolicies(String callingPackage) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
try {
mContext.enforceCallingOrSelfPermission(READ_PRIVILEGED_PHONE_STATE, TAG);
// SKIP checking run-time OP_READ_PHONE_STATE since caller or self has PRIVILEGED
// permission
} catch (SecurityException e) {
mContext.enforceCallingOrSelfPermission(READ_PHONE_STATE, TAG);
if (mAppOps.noteOp(AppOpsManager.OP_READ_PHONE_STATE, Binder.getCallingUid(),
callingPackage) != AppOpsManager.MODE_ALLOWED) {
return new NetworkPolicy[0];
}
}
synchronized (mNetworkPoliciesSecondLock) {
final int size = mNetworkPolicy.size();
final NetworkPolicy[] policies = new NetworkPolicy[size];
for (int i = 0; i < size; i++) {
policies[i] = mNetworkPolicy.valueAt(i);
}
return policies;
}
}
private void normalizePoliciesNL() {
normalizePoliciesNL(getNetworkPolicies(mContext.getOpPackageName()));
}
private void normalizePoliciesNL(NetworkPolicy[] policies) {
final TelephonyManager tele = TelephonyManager.from(mContext);
final String[] merged = tele.getMergedSubscriberIds();
mNetworkPolicy.clear();
for (NetworkPolicy policy : policies) {
// When two normalized templates conflict, prefer the most
// restrictive policy
policy.template = NetworkTemplate.normalize(policy.template, merged);
final NetworkPolicy existing = mNetworkPolicy.get(policy.template);
if (existing == null || existing.compareTo(policy) > 0) {
if (existing != null) {
Slog.d(TAG, "Normalization replaced " + existing + " with " + policy);
}
mNetworkPolicy.put(policy.template, policy);
}
}
}
@Override
public void snoozeLimit(NetworkTemplate template) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
final long token = Binder.clearCallingIdentity();
try {
performSnooze(template, TYPE_LIMIT);
} finally {
Binder.restoreCallingIdentity(token);
}
}
void performSnooze(NetworkTemplate template, int type) {
maybeRefreshTrustedTime();
final long currentTime = currentTimeMillis();
synchronized (mUidRulesFirstLock) {
synchronized (mNetworkPoliciesSecondLock) {
// find and snooze local policy that matches
final NetworkPolicy policy = mNetworkPolicy.get(template);
if (policy == null) {
throw new IllegalArgumentException("unable to find policy for " + template);
}
switch (type) {
case TYPE_WARNING:
policy.lastWarningSnooze = currentTime;
break;
case TYPE_LIMIT:
policy.lastLimitSnooze = currentTime;
break;
default:
throw new IllegalArgumentException("unexpected type");
}
normalizePoliciesNL();
updateNetworkEnabledNL();
updateNetworkRulesNL();
updateNotificationsNL();
writePolicyAL();
}
}
}
@Override
public void onTetheringChanged(String iface, boolean tethering) {
// No need to enforce permission because setRestrictBackground() will do it.
if (LOGD) Log.d(TAG, "onTetherStateChanged(" + iface + ", " + tethering + ")");
synchronized (mUidRulesFirstLock) {
if (mRestrictBackground && tethering) {
Log.d(TAG, "Tethering on (" + iface +"); disable Data Saver");
setRestrictBackground(false);
}
}
}
@Override
public void setRestrictBackground(boolean restrictBackground) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
final long token = Binder.clearCallingIdentity();
try {
maybeRefreshTrustedTime();
synchronized (mUidRulesFirstLock) {
if (restrictBackground == mRestrictBackground) {
// Ideally, UI should never allow this scenario...
Slog.w(TAG, "setRestrictBackground: already " + restrictBackground);
return;
}
setRestrictBackgroundUL(restrictBackground);
}
} finally {
Binder.restoreCallingIdentity(token);
}
mHandler.obtainMessage(MSG_RESTRICT_BACKGROUND_CHANGED, restrictBackground ? 1 : 0, 0)
.sendToTarget();
}
private void setRestrictBackgroundUL(boolean restrictBackground) {
Slog.d(TAG, "setRestrictBackgroundUL(): " + restrictBackground);
final boolean oldRestrictBackground = mRestrictBackground;
mRestrictBackground = restrictBackground;
// Must whitelist foreground apps before turning data saver mode on.
// TODO: there is no need to iterate through all apps here, just those in the foreground,
// so it could call AM to get the UIDs of such apps, and iterate through them instead.
updateRulesForAllAppsUL(TYPE_RESTRICT_BACKGROUND);
try {
if (!mNetworkManager.setDataSaverModeEnabled(mRestrictBackground)) {
Slog.e(TAG, "Could not change Data Saver Mode on NMS to " + mRestrictBackground);
mRestrictBackground = oldRestrictBackground;
// TODO: if it knew the foreground apps (see TODO above), it could call
// updateRulesForRestrictBackgroundUL() again to restore state.
return;
}
} catch (RemoteException e) {
// ignored; service lives in system_server
}
synchronized (mNetworkPoliciesSecondLock) {
updateNotificationsNL();
writePolicyAL();
}
}
@Override
public void addRestrictBackgroundWhitelistedUid(int uid) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
final boolean oldStatus;
final boolean needFirewallRules;
int changed;
synchronized (mUidRulesFirstLock) {
oldStatus = mRestrictBackgroundWhitelistUids.get(uid);
if (oldStatus) {
if (LOGD) Slog.d(TAG, "uid " + uid + " is already whitelisted");
return;
}
needFirewallRules = isUidValidForWhitelistRules(uid);
Slog.i(TAG, "adding uid " + uid + " to restrict background whitelist");
mRestrictBackgroundWhitelistUids.append(uid, true);
if (mDefaultRestrictBackgroundWhitelistUids.get(uid)
&& mRestrictBackgroundWhitelistRevokedUids.get(uid)) {
if (LOGD) Slog.d(TAG, "Removing uid " + uid
+ " from revoked restrict background whitelist");
mRestrictBackgroundWhitelistRevokedUids.delete(uid);
}
if (needFirewallRules) {
// Only update firewall rules if necessary...
updateRulesForDataUsageRestrictionsUL(uid);
}
// ...but always persists the whitelist request.
synchronized (mNetworkPoliciesSecondLock) {
writePolicyAL();
}
changed = (mRestrictBackground && !oldStatus && needFirewallRules) ? 1 : 0;
}
mHandler.obtainMessage(MSG_RESTRICT_BACKGROUND_WHITELIST_CHANGED, uid, changed,
Boolean.TRUE).sendToTarget();
}
@Override
public void removeRestrictBackgroundWhitelistedUid(int uid) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
final boolean changed;
synchronized (mUidRulesFirstLock) {
changed = removeRestrictBackgroundWhitelistedUidUL(uid, false, true);
}
mHandler.obtainMessage(MSG_RESTRICT_BACKGROUND_WHITELIST_CHANGED, uid, changed ? 1 : 0,
Boolean.FALSE).sendToTarget();
}
/**
* Removes a uid from the restricted background whitelist, returning whether its current
* {@link ConnectivityManager.RestrictBackgroundStatus} changed.
*/
private boolean removeRestrictBackgroundWhitelistedUidUL(int uid, boolean uidDeleted,
boolean updateNow) {
final boolean oldStatus = mRestrictBackgroundWhitelistUids.get(uid);
if (!oldStatus && !uidDeleted) {
if (LOGD) Slog.d(TAG, "uid " + uid + " was not whitelisted before");
return false;
}
final boolean needFirewallRules = uidDeleted || isUidValidForWhitelistRules(uid);
if (oldStatus) {
Slog.i(TAG, "removing uid " + uid + " from restrict background whitelist");
mRestrictBackgroundWhitelistUids.delete(uid);
}
if (mDefaultRestrictBackgroundWhitelistUids.get(uid)
&& !mRestrictBackgroundWhitelistRevokedUids.get(uid)) {
if (LOGD) Slog.d(TAG, "Adding uid " + uid
+ " to revoked restrict background whitelist");
mRestrictBackgroundWhitelistRevokedUids.append(uid, true);
}
if (needFirewallRules) {
// Only update firewall rules if necessary...
updateRulesForDataUsageRestrictionsUL(uid, uidDeleted);
}
if (updateNow) {
// ...but always persists the whitelist request.
synchronized (mNetworkPoliciesSecondLock) {
writePolicyAL();
}
}
// Status only changes if Data Saver is turned on (otherwise it is DISABLED, even if the
// app was whitelisted before).
return mRestrictBackground && needFirewallRules;
}
@Override
public int[] getRestrictBackgroundWhitelistedUids() {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
synchronized (mUidRulesFirstLock) {
final int size = mRestrictBackgroundWhitelistUids.size();
final int[] whitelist = new int[size];
for (int i = 0; i < size; i++) {
whitelist[i] = mRestrictBackgroundWhitelistUids.keyAt(i);
}
if (LOGV) {
Slog.v(TAG, "getRestrictBackgroundWhitelistedUids(): "
+ mRestrictBackgroundWhitelistUids);
}
return whitelist;
}
}
@Override
public int getRestrictBackgroundByCaller() {
mContext.enforceCallingOrSelfPermission(ACCESS_NETWORK_STATE, TAG);
final int uid = Binder.getCallingUid();
synchronized (mUidRulesFirstLock) {
// Must clear identity because getUidPolicy() is restricted to system.
final long token = Binder.clearCallingIdentity();
final int policy;
try {
policy = getUidPolicy(uid);
} finally {
Binder.restoreCallingIdentity(token);
}
if (policy == POLICY_REJECT_METERED_BACKGROUND) {
// App is blacklisted.
return RESTRICT_BACKGROUND_STATUS_ENABLED;
}
if (!mRestrictBackground) {
return RESTRICT_BACKGROUND_STATUS_DISABLED;
}
return mRestrictBackgroundWhitelistUids.get(uid)
? RESTRICT_BACKGROUND_STATUS_WHITELISTED
: RESTRICT_BACKGROUND_STATUS_ENABLED;
}
}
@Override
public boolean getRestrictBackground() {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
synchronized (mUidRulesFirstLock) {
return mRestrictBackground;
}
}
@Override
public void setDeviceIdleMode(boolean enabled) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
synchronized (mUidRulesFirstLock) {
if (mDeviceIdleMode != enabled) {
mDeviceIdleMode = enabled;
if (mSystemReady) {
// Device idle change means we need to rebuild rules for all
// known apps, so do a global refresh.
updateRulesForRestrictPowerUL();
}
if (enabled) {
EventLogTags.writeDeviceIdleOnPhase("net");
} else {
EventLogTags.writeDeviceIdleOffPhase("net");
}
}
}
}
private NetworkPolicy findPolicyForNetworkNL(NetworkIdentity ident) {
for (int i = mNetworkPolicy.size()-1; i >= 0; i--) {
NetworkPolicy policy = mNetworkPolicy.valueAt(i);
if (policy.template.matches(ident)) {
return policy;
}
}
return null;
}
@Override
public NetworkQuotaInfo getNetworkQuotaInfo(NetworkState state) {
mContext.enforceCallingOrSelfPermission(ACCESS_NETWORK_STATE, TAG);
// only returns usage summary, so we don't require caller to have
// READ_NETWORK_USAGE_HISTORY.
final long token = Binder.clearCallingIdentity();
try {
return getNetworkQuotaInfoUnchecked(state);
} finally {
Binder.restoreCallingIdentity(token);
}
}
private NetworkQuotaInfo getNetworkQuotaInfoUnchecked(NetworkState state) {
final NetworkIdentity ident = NetworkIdentity.buildNetworkIdentity(mContext, state);
final NetworkPolicy policy;
synchronized (mNetworkPoliciesSecondLock) {
policy = findPolicyForNetworkNL(ident);
}
if (policy == null || !policy.hasCycle()) {
// missing policy means we can't derive useful quota info
return null;
}
final long currentTime = currentTimeMillis();
// find total bytes used under policy
final long start = computeLastCycleBoundary(currentTime, policy);
final long end = currentTime;
final long totalBytes = getTotalBytes(policy.template, start, end);
// report soft and hard limits under policy
final long softLimitBytes = policy.warningBytes != WARNING_DISABLED ? policy.warningBytes
: NetworkQuotaInfo.NO_LIMIT;
final long hardLimitBytes = policy.limitBytes != LIMIT_DISABLED ? policy.limitBytes
: NetworkQuotaInfo.NO_LIMIT;
return new NetworkQuotaInfo(totalBytes, softLimitBytes, hardLimitBytes);
}
@Override
public boolean isNetworkMetered(NetworkState state) {
if (state.networkInfo == null) {
return false;
}
final NetworkIdentity ident = NetworkIdentity.buildNetworkIdentity(mContext, state);
final NetworkPolicy policy;
synchronized (mNetworkPoliciesSecondLock) {
policy = findPolicyForNetworkNL(ident);
}
if (policy != null) {
return policy.metered;
} else {
final int type = state.networkInfo.getType();
if ((isNetworkTypeMobile(type) && ident.getMetered()) || type == TYPE_WIMAX) {
return true;
}
return false;
}
}
@Override
protected void dump(FileDescriptor fd, PrintWriter writer, String[] args) {
mContext.enforceCallingOrSelfPermission(DUMP, TAG);
final IndentingPrintWriter fout = new IndentingPrintWriter(writer, " ");
final ArraySet<String> argSet = new ArraySet<String>(args.length);
for (String arg : args) {
argSet.add(arg);
}
synchronized (mUidRulesFirstLock) {
synchronized (mNetworkPoliciesSecondLock) {
if (argSet.contains("--unsnooze")) {
for (int i = mNetworkPolicy.size()-1; i >= 0; i--) {
mNetworkPolicy.valueAt(i).clearSnooze();
}
normalizePoliciesNL();
updateNetworkEnabledNL();
updateNetworkRulesNL();
updateNotificationsNL();
writePolicyAL();
fout.println("Cleared snooze timestamps");
return;
}
fout.print("System ready: "); fout.println(mSystemReady);
fout.print("Restrict background: "); fout.println(mRestrictBackground);
fout.print("Restrict power: "); fout.println(mRestrictPower);
fout.print("Device idle: "); fout.println(mDeviceIdleMode);
fout.println("Network policies:");
fout.increaseIndent();
for (int i = 0; i < mNetworkPolicy.size(); i++) {
fout.println(mNetworkPolicy.valueAt(i).toString());
}
fout.decreaseIndent();
fout.print("Metered ifaces: "); fout.println(String.valueOf(mMeteredIfaces));
fout.println("Policy for UIDs:");
fout.increaseIndent();
int size = mUidPolicy.size();
for (int i = 0; i < size; i++) {
final int uid = mUidPolicy.keyAt(i);
final int policy = mUidPolicy.valueAt(i);
fout.print("UID=");
fout.print(uid);
fout.print(" policy=");
fout.print(DebugUtils.flagsToString(NetworkPolicyManager.class, "POLICY_", policy));
fout.println();
}
fout.decreaseIndent();
size = mPowerSaveWhitelistExceptIdleAppIds.size();
if (size > 0) {
fout.println("Power save whitelist (except idle) app ids:");
fout.increaseIndent();
for (int i = 0; i < size; i++) {
fout.print("UID=");
fout.print(mPowerSaveWhitelistExceptIdleAppIds.keyAt(i));
fout.print(": ");
fout.print(mPowerSaveWhitelistExceptIdleAppIds.valueAt(i));
fout.println();
}
fout.decreaseIndent();
}
size = mPowerSaveWhitelistAppIds.size();
if (size > 0) {
fout.println("Power save whitelist app ids:");
fout.increaseIndent();
for (int i = 0; i < size; i++) {
fout.print("UID=");
fout.print(mPowerSaveWhitelistAppIds.keyAt(i));
fout.print(": ");
fout.print(mPowerSaveWhitelistAppIds.valueAt(i));
fout.println();
}
fout.decreaseIndent();
}
size = mRestrictBackgroundWhitelistUids.size();
if (size > 0) {
fout.println("Restrict background whitelist uids:");
fout.increaseIndent();
for (int i = 0; i < size; i++) {
fout.print("UID=");
fout.print(mRestrictBackgroundWhitelistUids.keyAt(i));
fout.println();
}
fout.decreaseIndent();
}
size = mDefaultRestrictBackgroundWhitelistUids.size();
if (size > 0) {
fout.println("Default restrict background whitelist uids:");
fout.increaseIndent();
for (int i = 0; i < size; i++) {
fout.print("UID=");
fout.print(mDefaultRestrictBackgroundWhitelistUids.keyAt(i));
fout.println();
}
fout.decreaseIndent();
}
size = mRestrictBackgroundWhitelistRevokedUids.size();
if (size > 0) {
fout.println("Default restrict background whitelist uids revoked by users:");
fout.increaseIndent();
for (int i = 0; i < size; i++) {
fout.print("UID=");
fout.print(mRestrictBackgroundWhitelistRevokedUids.keyAt(i));
fout.println();
}
fout.decreaseIndent();
}
final SparseBooleanArray knownUids = new SparseBooleanArray();
collectKeys(mUidState, knownUids);
collectKeys(mUidRules, knownUids);
fout.println("Status for all known UIDs:");
fout.increaseIndent();
size = knownUids.size();
for (int i = 0; i < size; i++) {
final int uid = knownUids.keyAt(i);
fout.print("UID=");
fout.print(uid);
final int state = mUidState.get(uid, ActivityManager.PROCESS_STATE_CACHED_EMPTY);
fout.print(" state=");
fout.print(state);
if (state <= ActivityManager.PROCESS_STATE_TOP) {
fout.print(" (fg)");
} else {
fout.print(state <= ActivityManager.PROCESS_STATE_FOREGROUND_SERVICE
? " (fg svc)" : " (bg)");
}
final int uidRules = mUidRules.get(uid, RULE_NONE);
fout.print(" rules=");
fout.print(uidRulesToString(uidRules));
fout.println();
}
fout.decreaseIndent();
fout.println("Status for just UIDs with rules:");
fout.increaseIndent();
size = mUidRules.size();
for (int i = 0; i < size; i++) {
final int uid = mUidRules.keyAt(i);
fout.print("UID=");
fout.print(uid);
final int uidRules = mUidRules.get(uid, RULE_NONE);
fout.print(" rules=");
fout.print(uidRulesToString(uidRules));
fout.println();
}
fout.decreaseIndent();
}
}
}
@Override
public void onShellCommand(FileDescriptor in, FileDescriptor out, FileDescriptor err,
String[] args, ResultReceiver resultReceiver) throws RemoteException {
(new NetworkPolicyManagerShellCommand(mContext, this)).exec(
this, in, out, err, args, resultReceiver);
}
@Override
public boolean isUidForeground(int uid) {
mContext.enforceCallingOrSelfPermission(MANAGE_NETWORK_POLICY, TAG);
synchronized (mUidRulesFirstLock) {
return isUidForegroundUL(uid);
}
}
private boolean isUidForegroundUL(int uid) {
return isUidStateForegroundUL(
mUidState.get(uid, ActivityManager.PROCESS_STATE_CACHED_EMPTY));
}
private boolean isUidForegroundOnRestrictBackgroundUL(int uid) {
final int procState = mUidState.get(uid, ActivityManager.PROCESS_STATE_CACHED_EMPTY);
return isProcStateAllowedWhileOnRestrictBackground(procState);
}
private boolean isUidForegroundOnRestrictPowerUL(int uid) {
final int procState = mUidState.get(uid, ActivityManager.PROCESS_STATE_CACHED_EMPTY);
return isProcStateAllowedWhileIdleOrPowerSaveMode(procState);
}
private boolean isUidStateForegroundUL(int state) {
// only really in foreground when screen is also on
return mScreenOn && state <= ActivityManager.PROCESS_STATE_TOP;
}
/**
* Process state of UID changed; if needed, will trigger
* {@link #updateRulesForDataUsageRestrictionsUL(int)} and
* {@link #updateRulesForPowerRestrictionsUL(int)}
*/
private void updateUidStateUL(int uid, int uidState) {
final int oldUidState = mUidState.get(uid, ActivityManager.PROCESS_STATE_CACHED_EMPTY);
if (oldUidState != uidState) {
// state changed, push updated rules
mUidState.put(uid, uidState);
updateRestrictBackgroundRulesOnUidStatusChangedUL(uid, oldUidState, uidState);
if (isProcStateAllowedWhileIdleOrPowerSaveMode(oldUidState)
!= isProcStateAllowedWhileIdleOrPowerSaveMode(uidState) ) {
if (isUidIdle(uid)) {
updateRuleForAppIdleUL(uid);
}
if (mDeviceIdleMode) {
updateRuleForDeviceIdleUL(uid);
}
if (mRestrictPower) {
updateRuleForRestrictPowerUL(uid);
}
updateRulesForPowerRestrictionsUL(uid);
}
updateNetworkStats(uid, isUidStateForegroundUL(uidState));
}
}
private void removeUidStateUL(int uid) {
final int index = mUidState.indexOfKey(uid);
if (index >= 0) {
final int oldUidState = mUidState.valueAt(index);
mUidState.removeAt(index);
if (oldUidState != ActivityManager.PROCESS_STATE_CACHED_EMPTY) {
updateRestrictBackgroundRulesOnUidStatusChangedUL(uid, oldUidState,
ActivityManager.PROCESS_STATE_CACHED_EMPTY);
if (mDeviceIdleMode) {
updateRuleForDeviceIdleUL(uid);
}
if (mRestrictPower) {
updateRuleForRestrictPowerUL(uid);
}
updateRulesForPowerRestrictionsUL(uid);
updateNetworkStats(uid, false);
}
}
}
// adjust stats accounting based on foreground status
private void updateNetworkStats(int uid, boolean uidForeground) {
try {
mNetworkStats.setUidForeground(uid, uidForeground);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
private void updateRestrictBackgroundRulesOnUidStatusChangedUL(int uid, int oldUidState,
int newUidState) {
final boolean oldForeground =
isProcStateAllowedWhileOnRestrictBackground(oldUidState);
final boolean newForeground =
isProcStateAllowedWhileOnRestrictBackground(newUidState);
if (oldForeground != newForeground) {
updateRulesForDataUsageRestrictionsUL(uid);
}
}
private void updateScreenOn() {
synchronized (mUidRulesFirstLock) {
try {
mScreenOn = mPowerManager.isInteractive();
} catch (RemoteException e) {
// ignored; service lives in system_server
}
updateRulesForScreenUL();
}
}
/**
* Update rules that might be changed by {@link #mScreenOn} value.
*/
private void updateRulesForScreenUL() {
// only update rules for anyone with foreground activities
final int size = mUidState.size();
for (int i = 0; i < size; i++) {
if (mUidState.valueAt(i) <= ActivityManager.PROCESS_STATE_FOREGROUND_SERVICE) {
final int uid = mUidState.keyAt(i);
updateRestrictionRulesForUidUL(uid);
}
}
}
static boolean isProcStateAllowedWhileIdleOrPowerSaveMode(int procState) {
return procState <= ActivityManager.PROCESS_STATE_FOREGROUND_SERVICE;
}
static boolean isProcStateAllowedWhileOnRestrictBackground(int procState) {
return procState <= ActivityManager.PROCESS_STATE_FOREGROUND_SERVICE;
}
void updateRulesForPowerSaveUL() {
updateRulesForWhitelistedPowerSaveUL(mRestrictPower, FIREWALL_CHAIN_POWERSAVE,
mUidFirewallPowerSaveRules);
}
void updateRuleForRestrictPowerUL(int uid) {
updateRulesForWhitelistedPowerSaveUL(uid, mRestrictPower, FIREWALL_CHAIN_POWERSAVE);
}
void updateRulesForDeviceIdleUL() {
updateRulesForWhitelistedPowerSaveUL(mDeviceIdleMode, FIREWALL_CHAIN_DOZABLE,
mUidFirewallDozableRules);
}
void updateRuleForDeviceIdleUL(int uid) {
updateRulesForWhitelistedPowerSaveUL(uid, mDeviceIdleMode, FIREWALL_CHAIN_DOZABLE);
}
// NOTE: since both fw_dozable and fw_powersave uses the same map
// (mPowerSaveTempWhitelistAppIds) for whitelisting, we can reuse their logic in this method.
private void updateRulesForWhitelistedPowerSaveUL(boolean enabled, int chain,
SparseIntArray rules) {
if (enabled) {
// Sync the whitelists before enabling the chain. We don't care about the rules if
// we are disabling the chain.
final SparseIntArray uidRules = rules;
uidRules.clear();
final List<UserInfo> users = mUserManager.getUsers();
for (int ui = users.size() - 1; ui >= 0; ui--) {
UserInfo user = users.get(ui);
for (int i = mPowerSaveTempWhitelistAppIds.size() - 1; i >= 0; i--) {
if (mPowerSaveTempWhitelistAppIds.valueAt(i)) {
int appId = mPowerSaveTempWhitelistAppIds.keyAt(i);
int uid = UserHandle.getUid(user.id, appId);
uidRules.put(uid, FIREWALL_RULE_ALLOW);
}
}
for (int i = mPowerSaveWhitelistAppIds.size() - 1; i >= 0; i--) {
int appId = mPowerSaveWhitelistAppIds.keyAt(i);
int uid = UserHandle.getUid(user.id, appId);
uidRules.put(uid, FIREWALL_RULE_ALLOW);
}
}
for (int i = mUidState.size() - 1; i >= 0; i--) {
if (isProcStateAllowedWhileIdleOrPowerSaveMode(mUidState.valueAt(i))) {
uidRules.put(mUidState.keyAt(i), FIREWALL_RULE_ALLOW);
}
}
setUidFirewallRules(chain, uidRules);
}
enableFirewallChainUL(chain, enabled);
}
private boolean isWhitelistedBatterySaverUL(int uid) {
final int appId = UserHandle.getAppId(uid);
return mPowerSaveTempWhitelistAppIds.get(appId) || mPowerSaveWhitelistAppIds.get(appId);
}
// NOTE: since both fw_dozable and fw_powersave uses the same map
// (mPowerSaveTempWhitelistAppIds) for whitelisting, we can reuse their logic in this method.
private void updateRulesForWhitelistedPowerSaveUL(int uid, boolean enabled, int chain) {
if (enabled) {
if (isWhitelistedBatterySaverUL(uid)
|| isProcStateAllowedWhileIdleOrPowerSaveMode(mUidState.get(uid))) {
setUidFirewallRule(chain, uid, FIREWALL_RULE_ALLOW);
} else {
setUidFirewallRule(chain, uid, FIREWALL_RULE_DEFAULT);
}
}
}
void updateRulesForAppIdleUL() {
final SparseIntArray uidRules = mUidFirewallStandbyRules;
uidRules.clear();
// Fully update the app idle firewall chain.
final List<UserInfo> users = mUserManager.getUsers();
for (int ui = users.size() - 1; ui >= 0; ui--) {
UserInfo user = users.get(ui);
int[] idleUids = mUsageStats.getIdleUidsForUser(user.id);
for (int uid : idleUids) {
if (!mPowerSaveTempWhitelistAppIds.get(UserHandle.getAppId(uid), false)) {
// quick check: if this uid doesn't have INTERNET permission, it
// doesn't have network access anyway, so it is a waste to mess
// with it here.
if (hasInternetPermissions(uid)) {
uidRules.put(uid, FIREWALL_RULE_DENY);
}
}
}
}
setUidFirewallRules(FIREWALL_CHAIN_STANDBY, uidRules);
}
void updateRuleForAppIdleUL(int uid) {
if (!isUidValidForBlacklistRules(uid)) return;
int appId = UserHandle.getAppId(uid);
if (!mPowerSaveTempWhitelistAppIds.get(appId) && isUidIdle(uid)
&& !isUidForegroundOnRestrictPowerUL(uid)) {
setUidFirewallRule(FIREWALL_CHAIN_STANDBY, uid, FIREWALL_RULE_DENY);
} else {
setUidFirewallRule(FIREWALL_CHAIN_STANDBY, uid, FIREWALL_RULE_DEFAULT);
}
}
void updateRulesForAppIdleParoleUL() {
boolean enableChain = !mUsageStats.isAppIdleParoleOn();
enableFirewallChainUL(FIREWALL_CHAIN_STANDBY, enableChain);
}
/**
* Update rules that might be changed by {@link #mRestrictBackground},
* {@link #mRestrictPower}, or {@link #mDeviceIdleMode} value.
*/
private void updateRulesForGlobalChangeAL(boolean restrictedNetworksChanged) {
long start;
if (LOGD) start = System.currentTimeMillis();
updateRulesForRestrictPowerUL();
updateRulesForRestrictBackgroundUL();
// If the set of restricted networks may have changed, re-evaluate those.
if (restrictedNetworksChanged) {
normalizePoliciesNL();
updateNetworkRulesNL();
}
if (LOGD) {
final long delta = System.currentTimeMillis() - start;
Slog.d(TAG, "updateRulesForGlobalChangeAL(" + restrictedNetworksChanged + ") took "
+ delta + "ms");
}
}
private void updateRulesForRestrictPowerUL() {
updateRulesForDeviceIdleUL();
updateRulesForAppIdleUL();
updateRulesForPowerSaveUL();
updateRulesForAllAppsUL(TYPE_RESTRICT_POWER);
}
private void updateRulesForRestrictBackgroundUL() {
updateRulesForAllAppsUL(TYPE_RESTRICT_BACKGROUND);
}
private static final int TYPE_RESTRICT_BACKGROUND = 1;
private static final int TYPE_RESTRICT_POWER = 2;
@Retention(RetentionPolicy.SOURCE)
@IntDef(flag = false, value = {
TYPE_RESTRICT_BACKGROUND,
TYPE_RESTRICT_POWER,
})
public @interface RestrictType {
}
// TODO: refactor / consolidate all those updateXyz methods, there are way too many of them...
private void updateRulesForAllAppsUL(@RestrictType int type) {
final PackageManager pm = mContext.getPackageManager();
// update rules for all installed applications
final List<UserInfo> users = mUserManager.getUsers();
final List<ApplicationInfo> apps = pm.getInstalledApplications(
PackageManager.MATCH_UNINSTALLED_PACKAGES | PackageManager.MATCH_DISABLED_COMPONENTS
| PackageManager.MATCH_DIRECT_BOOT_AWARE
| PackageManager.MATCH_DIRECT_BOOT_UNAWARE);
final int usersSize = users.size();
final int appsSize = apps.size();
for (int i = 0; i < usersSize; i++) {
final UserInfo user = users.get(i);
for (int j = 0; j < appsSize; j++) {
final ApplicationInfo app = apps.get(j);
final int uid = UserHandle.getUid(user.id, app.uid);
switch (type) {
case TYPE_RESTRICT_BACKGROUND:
updateRulesForDataUsageRestrictionsUL(uid);
break;
case TYPE_RESTRICT_POWER:
updateRulesForPowerRestrictionsUL(uid);
break;
default:
Slog.w(TAG, "Invalid type for updateRulesForAllApps: " + type);
}
}
}
}
private void updateRulesForTempWhitelistChangeUL() {
final List<UserInfo> users = mUserManager.getUsers();
for (int i = 0; i < users.size(); i++) {
final UserInfo user = users.get(i);
for (int j = mPowerSaveTempWhitelistAppIds.size() - 1; j >= 0; j--) {
int appId = mPowerSaveTempWhitelistAppIds.keyAt(j);
int uid = UserHandle.getUid(user.id, appId);
// Update external firewall rules.
updateRuleForAppIdleUL(uid);
updateRuleForDeviceIdleUL(uid);
updateRuleForRestrictPowerUL(uid);
// Update internal rules.
updateRulesForPowerRestrictionsUL(uid);
}
}
}
// TODO: the MEDIA / DRM restriction might not be needed anymore, in which case both
// methods below could be merged into a isUidValidForRules() method.
private boolean isUidValidForBlacklistRules(int uid) {
// allow rules on specific system services, and any apps
if (uid == android.os.Process.MEDIA_UID || uid == android.os.Process.DRM_UID
|| (UserHandle.isApp(uid) && hasInternetPermissions(uid))) {
return true;
}
return false;
}
private boolean isUidValidForWhitelistRules(int uid) {
return UserHandle.isApp(uid) && hasInternetPermissions(uid);
}
private boolean isUidIdle(int uid) {
final String[] packages = mContext.getPackageManager().getPackagesForUid(uid);
final int userId = UserHandle.getUserId(uid);
if (!ArrayUtils.isEmpty(packages)) {
for (String packageName : packages) {
if (!mUsageStats.isAppIdle(packageName, uid, userId)) {
return false;
}
}
}
return true;
}
/**
* Checks if an uid has INTERNET permissions.
* <p>
* Useful for the cases where the lack of network access can simplify the rules.
*/
private boolean hasInternetPermissions(int uid) {
try {
if (mIPm.checkUidPermission(Manifest.permission.INTERNET, uid)
!= PackageManager.PERMISSION_GRANTED) {
return false;
}
} catch (RemoteException e) {
}
return true;
}
/**
* Applies network rules to bandwidth and firewall controllers based on uid policy.
*
* <p>There are currently 4 types of restriction rules:
* <ul>
* <li>Doze mode
* <li>App idle mode
* <li>Battery Saver Mode (also referred as power save).
* <li>Data Saver Mode (The Feature Formerly Known As 'Restrict Background Data').
* </ul>
*
* <p>This method changes both the external firewall rules and the internal state.
*/
private void updateRestrictionRulesForUidUL(int uid) {
// Methods below only changes the firewall rules for the power-related modes.
updateRuleForDeviceIdleUL(uid);
updateRuleForAppIdleUL(uid);
updateRuleForRestrictPowerUL(uid);
// Update internal state for power-related modes.
updateRulesForPowerRestrictionsUL(uid);
// Update firewall and internal rules for Data Saver Mode.
updateRulesForDataUsageRestrictionsUL(uid);
}
/**
* Applies network rules to bandwidth controllers based on process state and user-defined
* restrictions (blacklist / whitelist).
*
* <p>
* {@code netd} defines 3 firewall chains that govern whether an app has access to metered
* networks:
* <ul>
* <li>@{code bw_penalty_box}: UIDs added to this chain do not have access (blacklist).
* <li>@{code bw_happy_box}: UIDs added to this chain have access (whitelist), unless they're
* also blacklisted.
* <li>@{code bw_data_saver}: when enabled (through {@link #setRestrictBackground(boolean)}),
* no UIDs other those whitelisted will have access.
* <ul>
*
* <p>The @{code bw_penalty_box} and @{code bw_happy_box} are primarily managed through the
* {@link #setUidPolicy(int, int)} and {@link #addRestrictBackgroundWhitelistedUid(int)} /
* {@link #removeRestrictBackgroundWhitelistedUid(int)} methods (for blacklist and whitelist
* respectively): these methods set the proper internal state (blacklist / whitelist), then call
* this ({@link #updateRulesForDataUsageRestrictionsUL(int)}) to propagate the rules to
* {@link INetworkManagementService}, but this method should also be called in events (like
* Data Saver Mode flips or UID state changes) that might affect the foreground app, since the
* following rules should also be applied:
*
* <ul>
* <li>When Data Saver mode is on, the foreground app should be temporarily added to
* {@code bw_happy_box} before the @{code bw_data_saver} chain is enabled.
* <li>If the foreground app is blacklisted by the user, it should be temporarily removed from
* {@code bw_penalty_box}.
* <li>When the app leaves foreground state, the temporary changes above should be reverted.
* </ul>
*
* <p>For optimization, the rules are only applied on user apps that have internet access
* permission, since there is no need to change the {@code iptables} rule if the app does not
* have permission to use the internet.
*
* <p>The {@link #mUidRules} map is used to define the transtion of states of an UID.
*
*/
private void updateRulesForDataUsageRestrictionsUL(int uid) {
updateRulesForDataUsageRestrictionsUL(uid, false);
}
/**
* Overloaded version of {@link #updateRulesForDataUsageRestrictionsUL(int)} called when an
* app is removed - it ignores the UID validity check.
*/
private void updateRulesForDataUsageRestrictionsUL(int uid, boolean uidDeleted) {
if (!uidDeleted && !isUidValidForWhitelistRules(uid)) {
if (LOGD) Slog.d(TAG, "no need to update restrict data rules for uid " + uid);
return;
}
final int uidPolicy = mUidPolicy.get(uid, POLICY_NONE);
final int oldUidRules = mUidRules.get(uid, RULE_NONE);
final boolean isForeground = isUidForegroundOnRestrictBackgroundUL(uid);
final boolean isBlacklisted = (uidPolicy & POLICY_REJECT_METERED_BACKGROUND) != 0;
final boolean isWhitelisted = mRestrictBackgroundWhitelistUids.get(uid);
final int oldRule = oldUidRules & MASK_METERED_NETWORKS;
int newRule = RULE_NONE;
// First step: define the new rule based on user restrictions and foreground state.
if (isForeground) {
if (isBlacklisted || (mRestrictBackground && !isWhitelisted)) {
newRule = RULE_TEMPORARY_ALLOW_METERED;
} else if (isWhitelisted) {
newRule = RULE_ALLOW_METERED;
}
} else {
if (isBlacklisted) {
newRule = RULE_REJECT_METERED;
} else if (mRestrictBackground && isWhitelisted) {
newRule = RULE_ALLOW_METERED;
}
}
final int newUidRules = newRule | (oldUidRules & MASK_ALL_NETWORKS);
if (LOGV) {
Log.v(TAG, "updateRuleForRestrictBackgroundUL(" + uid + ")"
+ ": isForeground=" +isForeground
+ ", isBlacklisted=" + isBlacklisted
+ ", isWhitelisted=" + isWhitelisted
+ ", oldRule=" + uidRulesToString(oldRule)
+ ", newRule=" + uidRulesToString(newRule)
+ ", newUidRules=" + uidRulesToString(newUidRules)
+ ", oldUidRules=" + uidRulesToString(oldUidRules));
}
if (newUidRules == RULE_NONE) {
mUidRules.delete(uid);
} else {
mUidRules.put(uid, newUidRules);
}
boolean changed = false;
// Second step: apply bw changes based on change of state.
if (newRule != oldRule) {
changed = true;
if ((newRule & RULE_TEMPORARY_ALLOW_METERED) != 0) {
// Temporarily whitelist foreground app, removing from blacklist if necessary
// (since bw_penalty_box prevails over bw_happy_box).
setMeteredNetworkWhitelist(uid, true);
// TODO: if statement below is used to avoid an unnecessary call to netd / iptables,
// but ideally it should be just:
// setMeteredNetworkBlacklist(uid, isBlacklisted);
if (isBlacklisted) {
setMeteredNetworkBlacklist(uid, false);
}
} else if ((oldRule & RULE_TEMPORARY_ALLOW_METERED) != 0) {
// Remove temporary whitelist from app that is not on foreground anymore.
// TODO: if statements below are used to avoid unnecessary calls to netd / iptables,
// but ideally they should be just:
// setMeteredNetworkWhitelist(uid, isWhitelisted);
// setMeteredNetworkBlacklist(uid, isBlacklisted);
if (!isWhitelisted) {
setMeteredNetworkWhitelist(uid, false);
}
if (isBlacklisted) {
setMeteredNetworkBlacklist(uid, true);
}
} else if ((newRule & RULE_REJECT_METERED) != 0
|| (oldRule & RULE_REJECT_METERED) != 0) {
// Flip state because app was explicitly added or removed to blacklist.
setMeteredNetworkBlacklist(uid, isBlacklisted);
if ((oldRule & RULE_REJECT_METERED) != 0 && isWhitelisted) {
// Since blacklist prevails over whitelist, we need to handle the special case
// where app is whitelisted and blacklisted at the same time (although such
// scenario should be blocked by the UI), then blacklist is removed.
setMeteredNetworkWhitelist(uid, isWhitelisted);
}
} else if ((newRule & RULE_ALLOW_METERED) != 0
|| (oldRule & RULE_ALLOW_METERED) != 0) {
// Flip state because app was explicitly added or removed to whitelist.
setMeteredNetworkWhitelist(uid, isWhitelisted);
} else {
// All scenarios should have been covered above.
Log.wtf(TAG, "Unexpected change of metered UID state for " + uid
+ ": foreground=" + isForeground
+ ", whitelisted=" + isWhitelisted
+ ", blacklisted=" + isBlacklisted
+ ", newRule=" + uidRulesToString(newUidRules)
+ ", oldRule=" + uidRulesToString(oldUidRules));
}
// Dispatch changed rule to existing listeners.
mHandler.obtainMessage(MSG_RULES_CHANGED, uid, newUidRules).sendToTarget();
}
}
/**
* Updates the power-related part of the {@link #mUidRules} for a given map, and notify external
* listeners in case of change.
* <p>
* There are 3 power-related rules that affects whether an app has background access on
* non-metered networks, and when the condition applies and the UID is not whitelisted for power
* restriction, it's added to the equivalent firewall chain:
* <ul>
* <li>App is idle: {@code fw_standby} firewall chain.
* <li>Device is idle: {@code fw_dozable} firewall chain.
* <li>Battery Saver Mode is on: {@code fw_powersave} firewall chain.
* </ul>
* <p>
* This method updates the power-related part of the {@link #mUidRules} for a given uid based on
* these modes, the UID process state (foreground or not), and the UIDwhitelist state.
* <p>
* <strong>NOTE: </strong>This method does not update the firewall rules on {@code netd}.
*/
private void updateRulesForPowerRestrictionsUL(int uid) {
if (!isUidValidForBlacklistRules(uid)) {
if (LOGD) Slog.d(TAG, "no need to update restrict power rules for uid " + uid);
return;
}
final boolean isIdle = isUidIdle(uid);
final boolean restrictMode = isIdle || mRestrictPower || mDeviceIdleMode;
final int uidPolicy = mUidPolicy.get(uid, POLICY_NONE);
final int oldUidRules = mUidRules.get(uid, RULE_NONE);
final boolean isForeground = isUidForegroundOnRestrictPowerUL(uid);
final boolean isWhitelisted = isWhitelistedBatterySaverUL(uid);
final int oldRule = oldUidRules & MASK_ALL_NETWORKS;
int newRule = RULE_NONE;
// First step: define the new rule based on user restrictions and foreground state.
// NOTE: if statements below could be inlined, but it's easier to understand the logic
// by considering the foreground and non-foreground states.
if (isForeground) {
if (restrictMode) {
newRule = RULE_ALLOW_ALL;
}
} else if (restrictMode) {
newRule = isWhitelisted ? RULE_ALLOW_ALL : RULE_REJECT_ALL;
}
final int newUidRules = (oldUidRules & MASK_METERED_NETWORKS) | newRule;
if (LOGV) {
Log.v(TAG, "updateRulesForNonMeteredNetworksUL(" + uid + ")"
+ ", isIdle: " + isIdle
+ ", mRestrictPower: " + mRestrictPower
+ ", mDeviceIdleMode: " + mDeviceIdleMode
+ ", isForeground=" + isForeground
+ ", isWhitelisted=" + isWhitelisted
+ ", oldRule=" + uidRulesToString(oldRule)
+ ", newRule=" + uidRulesToString(newRule)
+ ", newUidRules=" + uidRulesToString(newUidRules)
+ ", oldUidRules=" + uidRulesToString(oldUidRules));
}
if (newUidRules == RULE_NONE) {
mUidRules.delete(uid);
} else {
mUidRules.put(uid, newUidRules);
}
// Second step: notify listeners if state changed.
if (newRule != oldRule) {
if (newRule == RULE_NONE || (newRule & RULE_ALLOW_ALL) != 0) {
if (LOGV) Log.v(TAG, "Allowing non-metered access for UID " + uid);
} else if ((newRule & RULE_REJECT_ALL) != 0) {
if (LOGV) Log.v(TAG, "Rejecting non-metered access for UID " + uid);
} else {
// All scenarios should have been covered above
Log.wtf(TAG, "Unexpected change of non-metered UID state for " + uid
+ ": foreground=" + isForeground
+ ", whitelisted=" + isWhitelisted
+ ", newRule=" + uidRulesToString(newUidRules)
+ ", oldRule=" + uidRulesToString(oldUidRules));
}
mHandler.obtainMessage(MSG_RULES_CHANGED, uid, newUidRules).sendToTarget();
}
}
private class AppIdleStateChangeListener
extends UsageStatsManagerInternal.AppIdleStateChangeListener {
@Override
public void onAppIdleStateChanged(String packageName, int userId, boolean idle) {
try {
final int uid = mContext.getPackageManager().getPackageUidAsUser(packageName,
PackageManager.MATCH_UNINSTALLED_PACKAGES, userId);
if (LOGV) Log.v(TAG, "onAppIdleStateChanged(): uid=" + uid + ", idle=" + idle);
synchronized (mUidRulesFirstLock) {
updateRuleForAppIdleUL(uid);
updateRulesForPowerRestrictionsUL(uid);
}
} catch (NameNotFoundException nnfe) {
}
}
@Override
public void onParoleStateChanged(boolean isParoleOn) {
synchronized (mUidRulesFirstLock) {
updateRulesForAppIdleParoleUL();
}
}
}
private void dispatchUidRulesChanged(INetworkPolicyListener listener, int uid, int uidRules) {
if (listener != null) {
try {
listener.onUidRulesChanged(uid, uidRules);
} catch (RemoteException ignored) {
}
}
}
private void dispatchMeteredIfacesChanged(INetworkPolicyListener listener,
String[] meteredIfaces) {
if (listener != null) {
try {
listener.onMeteredIfacesChanged(meteredIfaces);
} catch (RemoteException ignored) {
}
}
}
private void dispatchRestrictBackgroundChanged(INetworkPolicyListener listener,
boolean restrictBackground) {
if (listener != null) {
try {
listener.onRestrictBackgroundChanged(restrictBackground);
} catch (RemoteException ignored) {
}
}
}
private void dispatchRestrictBackgroundWhitelistChanged(INetworkPolicyListener listener,
int uid, boolean whitelisted) {
if (listener != null) {
try {
listener.onRestrictBackgroundWhitelistChanged(uid, whitelisted);
} catch (RemoteException ignored) {
}
}
}
private void dispatchRestrictBackgroundBlacklistChanged(INetworkPolicyListener listener,
int uid, boolean blacklisted) {
if (listener != null) {
try {
listener.onRestrictBackgroundBlacklistChanged(uid, blacklisted);
} catch (RemoteException ignored) {
}
}
}
private Handler.Callback mHandlerCallback = new Handler.Callback() {
@Override
public boolean handleMessage(Message msg) {
switch (msg.what) {
case MSG_RULES_CHANGED: {
final int uid = msg.arg1;
final int uidRules = msg.arg2;
dispatchUidRulesChanged(mConnectivityListener, uid, uidRules);
final int length = mListeners.beginBroadcast();
for (int i = 0; i < length; i++) {
final INetworkPolicyListener listener = mListeners.getBroadcastItem(i);
dispatchUidRulesChanged(listener, uid, uidRules);
}
mListeners.finishBroadcast();
return true;
}
case MSG_METERED_IFACES_CHANGED: {
final String[] meteredIfaces = (String[]) msg.obj;
dispatchMeteredIfacesChanged(mConnectivityListener, meteredIfaces);
final int length = mListeners.beginBroadcast();
for (int i = 0; i < length; i++) {
final INetworkPolicyListener listener = mListeners.getBroadcastItem(i);
dispatchMeteredIfacesChanged(listener, meteredIfaces);
}
mListeners.finishBroadcast();
return true;
}
case MSG_LIMIT_REACHED: {
final String iface = (String) msg.obj;
maybeRefreshTrustedTime();
synchronized (mNetworkPoliciesSecondLock) {
if (mMeteredIfaces.contains(iface)) {
try {
// force stats update to make sure we have
// numbers that caused alert to trigger.
mNetworkStats.forceUpdate();
} catch (RemoteException e) {
// ignored; service lives in system_server
}
updateNetworkEnabledNL();
updateNotificationsNL();
}
}
return true;
}
case MSG_RESTRICT_BACKGROUND_CHANGED: {
final boolean restrictBackground = msg.arg1 != 0;
dispatchRestrictBackgroundChanged(mConnectivityListener, restrictBackground);
final int length = mListeners.beginBroadcast();
for (int i = 0; i < length; i++) {
final INetworkPolicyListener listener = mListeners.getBroadcastItem(i);
dispatchRestrictBackgroundChanged(listener, restrictBackground);
}
mListeners.finishBroadcast();
final Intent intent =
new Intent(ConnectivityManager.ACTION_RESTRICT_BACKGROUND_CHANGED);
intent.setFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY);
mContext.sendBroadcastAsUser(intent, UserHandle.ALL);
return true;
}
case MSG_RESTRICT_BACKGROUND_WHITELIST_CHANGED: {
// MSG_RESTRICT_BACKGROUND_WHITELIST_CHANGED can be called in 2 occasions:
// - when an app is whitelisted
// - when an app is blacklisted
//
// Whether the internal listeners (INetworkPolicyListener implementations) or
// app broadcast receivers are notified depend on the following rules:
//
// - App receivers are only notified when the app status changed (msg.arg2 = 1)
// - Listeners are only notified when app was whitelisted (msg.obj is not null),
// since blacklist notifications are handled through MSG_RULES_CHANGED).
final int uid = msg.arg1;
final boolean changed = msg.arg2 == 1;
final Boolean whitelisted = (Boolean) msg.obj;
// First notify internal listeners...
if (whitelisted != null) {
final boolean whitelistedBool = whitelisted.booleanValue();
dispatchRestrictBackgroundWhitelistChanged(mConnectivityListener, uid,
whitelistedBool);
final int length = mListeners.beginBroadcast();
for (int i = 0; i < length; i++) {
final INetworkPolicyListener listener = mListeners.getBroadcastItem(i);
dispatchRestrictBackgroundWhitelistChanged(listener, uid,
whitelistedBool);
}
mListeners.finishBroadcast();
}
final PackageManager pm = mContext.getPackageManager();
final String[] packages = pm.getPackagesForUid(uid);
if (changed && packages != null) {
// ...then notify apps listening to ACTION_RESTRICT_BACKGROUND_CHANGED
final int userId = UserHandle.getUserId(uid);
for (String packageName : packages) {
final Intent intent = new Intent(
ConnectivityManager.ACTION_RESTRICT_BACKGROUND_CHANGED);
intent.setPackage(packageName);
intent.setFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY);
mContext.sendBroadcastAsUser(intent, UserHandle.of(userId));
}
}
return true;
}
case MSG_RESTRICT_BACKGROUND_BLACKLIST_CHANGED: {
final int uid = msg.arg1;
final boolean blacklisted = msg.arg2 == 1;
dispatchRestrictBackgroundBlacklistChanged(mConnectivityListener, uid,
blacklisted);
final int length = mListeners.beginBroadcast();
for (int i = 0; i < length; i++) {
final INetworkPolicyListener listener = mListeners.getBroadcastItem(i);
dispatchRestrictBackgroundBlacklistChanged(listener, uid,
blacklisted);
}
mListeners.finishBroadcast();
return true;
}
case MSG_ADVISE_PERSIST_THRESHOLD: {
final long lowestRule = (Long) msg.obj;
try {
// make sure stats are recorded frequently enough; we aim
// for 2MB threshold for 2GB/month rules.
final long persistThreshold = lowestRule / 1000;
mNetworkStats.advisePersistThreshold(persistThreshold);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
return true;
}
case MSG_SCREEN_ON_CHANGED: {
updateScreenOn();
return true;
}
case MSG_UPDATE_INTERFACE_QUOTA: {
removeInterfaceQuota((String) msg.obj);
// int params need to be stitched back into a long
setInterfaceQuota((String) msg.obj,
((long) msg.arg1 << 32) | (msg.arg2 & 0xFFFFFFFFL));
return true;
}
case MSG_REMOVE_INTERFACE_QUOTA: {
removeInterfaceQuota((String) msg.obj);
return true;
}
default: {
return false;
}
}
}
};
private void setInterfaceQuota(String iface, long quotaBytes) {
try {
mNetworkManager.setInterfaceQuota(iface, quotaBytes);
} catch (IllegalStateException e) {
Log.wtf(TAG, "problem setting interface quota", e);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
private void removeInterfaceQuota(String iface) {
try {
mNetworkManager.removeInterfaceQuota(iface);
} catch (IllegalStateException e) {
Log.wtf(TAG, "problem removing interface quota", e);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
private void setMeteredNetworkBlacklist(int uid, boolean enable) {
if (LOGV) Slog.v(TAG, "setMeteredNetworkBlacklist " + uid + ": " + enable);
try {
mNetworkManager.setUidMeteredNetworkBlacklist(uid, enable);
} catch (IllegalStateException e) {
Log.wtf(TAG, "problem setting blacklist (" + enable + ") rules for " + uid, e);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
private void setMeteredNetworkWhitelist(int uid, boolean enable) {
if (LOGV) Slog.v(TAG, "setMeteredNetworkWhitelist " + uid + ": " + enable);
try {
mNetworkManager.setUidMeteredNetworkWhitelist(uid, enable);
} catch (IllegalStateException e) {
Log.wtf(TAG, "problem setting whitelist (" + enable + ") rules for " + uid, e);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
/**
* Set uid rules on a particular firewall chain. This is going to synchronize the rules given
* here to netd. It will clean up dead rules and make sure the target chain only contains rules
* specified here.
*/
private void setUidFirewallRules(int chain, SparseIntArray uidRules) {
try {
int size = uidRules.size();
int[] uids = new int[size];
int[] rules = new int[size];
for(int index = size - 1; index >= 0; --index) {
uids[index] = uidRules.keyAt(index);
rules[index] = uidRules.valueAt(index);
}
mNetworkManager.setFirewallUidRules(chain, uids, rules);
} catch (IllegalStateException e) {
Log.wtf(TAG, "problem setting firewall uid rules", e);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
/**
* Add or remove a uid to the firewall blacklist for all network ifaces.
*/
private void setUidFirewallRule(int chain, int uid, int rule) {
if (chain == FIREWALL_CHAIN_DOZABLE) {
mUidFirewallDozableRules.put(uid, rule);
} else if (chain == FIREWALL_CHAIN_STANDBY) {
mUidFirewallStandbyRules.put(uid, rule);
} else if (chain == FIREWALL_CHAIN_POWERSAVE) {
mUidFirewallPowerSaveRules.put(uid, rule);
}
try {
mNetworkManager.setFirewallUidRule(chain, uid, rule);
} catch (IllegalStateException e) {
Log.wtf(TAG, "problem setting firewall uid rules", e);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
/**
* Add or remove a uid to the firewall blacklist for all network ifaces.
*/
private void enableFirewallChainUL(int chain, boolean enable) {
if (mFirewallChainStates.indexOfKey(chain) >= 0 &&
mFirewallChainStates.get(chain) == enable) {
// All is the same, nothing to do.
return;
}
mFirewallChainStates.put(chain, enable);
try {
mNetworkManager.setFirewallChainEnabled(chain, enable);
} catch (IllegalStateException e) {
Log.wtf(TAG, "problem enable firewall chain", e);
} catch (RemoteException e) {
// ignored; service lives in system_server
}
}
private long getTotalBytes(NetworkTemplate template, long start, long end) {
try {
return mNetworkStats.getNetworkTotalBytes(template, start, end);
} catch (RuntimeException e) {
Slog.w(TAG, "problem reading network stats: " + e);
return 0;
} catch (RemoteException e) {
// ignored; service lives in system_server
return 0;
}
}
private boolean isBandwidthControlEnabled() {
final long token = Binder.clearCallingIdentity();
try {
return mNetworkManager.isBandwidthControlEnabled();
} catch (RemoteException e) {
// ignored; service lives in system_server
return false;
} finally {
Binder.restoreCallingIdentity(token);
}
}
/**
* Try refreshing {@link #mTime} when stale.
*/
void maybeRefreshTrustedTime() {
if (mTime.getCacheAge() > TIME_CACHE_MAX_AGE) {
mTime.forceRefresh();
}
}
private long currentTimeMillis() {
return mTime.hasCache() ? mTime.currentTimeMillis() : System.currentTimeMillis();
}
private static Intent buildAllowBackgroundDataIntent() {
return new Intent(ACTION_ALLOW_BACKGROUND);
}
private static Intent buildSnoozeWarningIntent(NetworkTemplate template) {
final Intent intent = new Intent(ACTION_SNOOZE_WARNING);
intent.putExtra(EXTRA_NETWORK_TEMPLATE, template);
return intent;
}
private static Intent buildNetworkOverLimitIntent(NetworkTemplate template) {
final Intent intent = new Intent();
intent.setComponent(new ComponentName(
"com.android.systemui", "com.android.systemui.net.NetworkOverLimitActivity"));
intent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
intent.putExtra(EXTRA_NETWORK_TEMPLATE, template);
return intent;
}
private static Intent buildViewDataUsageIntent(NetworkTemplate template) {
final Intent intent = new Intent();
intent.setComponent(new ComponentName(
"com.android.settings", "com.android.settings.Settings$DataUsageSummaryActivity"));
intent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
intent.putExtra(EXTRA_NETWORK_TEMPLATE, template);
return intent;
}
@VisibleForTesting
public void addIdleHandler(IdleHandler handler) {
mHandler.getLooper().getQueue().addIdleHandler(handler);
}
private static void collectKeys(SparseIntArray source, SparseBooleanArray target) {
final int size = source.size();
for (int i = 0; i < size; i++) {
target.put(source.keyAt(i), true);
}
}
@Override
public void factoryReset(String subscriber) {
mContext.enforceCallingOrSelfPermission(CONNECTIVITY_INTERNAL, TAG);
if (mUserManager.hasUserRestriction(UserManager.DISALLOW_NETWORK_RESET)) {
return;
}
// Turn mobile data limit off
NetworkPolicy[] policies = getNetworkPolicies(mContext.getOpPackageName());
NetworkTemplate template = NetworkTemplate.buildTemplateMobileAll(subscriber);
for (NetworkPolicy policy : policies) {
if (policy.template.equals(template)) {
policy.limitBytes = NetworkPolicy.LIMIT_DISABLED;
policy.inferred = false;
policy.clearSnooze();
}
}
setNetworkPolicies(policies);
// Turn restrict background data off
setRestrictBackground(false);
if (!mUserManager.hasUserRestriction(UserManager.DISALLOW_APPS_CONTROL)) {
// Remove app's "restrict background data" flag
for (int uid : getUidsWithPolicy(POLICY_REJECT_METERED_BACKGROUND)) {
setUidPolicy(uid, POLICY_NONE);
}
}
}
private class MyPackageMonitor extends PackageMonitor {
@Override
public void onPackageRemoved(String packageName, int uid) {
if (LOGV) Slog.v(TAG, "onPackageRemoved: " + packageName + " ->" + uid);
synchronized (mUidRulesFirstLock) {
removeRestrictBackgroundWhitelistedUidUL(uid, true, true);
updateRestrictionRulesForUidUL(uid);
}
}
}
private class NetworkPolicyManagerInternalImpl extends NetworkPolicyManagerInternal {
@Override
public void resetUserState(int userId) {
synchronized (mUidRulesFirstLock) {
boolean changed = removeUserStateUL(userId, false);
changed = addDefaultRestrictBackgroundWhitelistUidsUL(userId) || changed;
if (changed) {
synchronized (mNetworkPoliciesSecondLock) {
writePolicyAL();
}
}
}
}
}
}