Google Git
Sign in
android / platform / prebuilts / fullsdk / sources / android-29 / refs/heads/main / . / com / android / server / connectivity / Vpn.java
blob: 40a4820355ad92dd24bc5e8e1a6dc47fa956a094 [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.connectivity;
import static android.Manifest.permission.BIND_VPN_SERVICE;
import static android.net.ConnectivityManager.NETID_UNSET;
import static android.net.NetworkCapabilities.NET_CAPABILITY_NOT_CONGESTED;
import static android.net.NetworkCapabilities.NET_CAPABILITY_NOT_METERED;
import static android.net.NetworkCapabilities.NET_CAPABILITY_NOT_ROAMING;
import static android.net.RouteInfo.RTN_THROW;
import static android.net.RouteInfo.RTN_UNREACHABLE;
import android.Manifest;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.annotation.UserIdInt;
import android.app.AppGlobals;
import android.app.AppOpsManager;
import android.app.Notification;
import android.app.NotificationManager;
import android.app.PendingIntent;
import android.content.BroadcastReceiver;
import android.content.ComponentName;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.ServiceConnection;
import android.content.pm.ApplicationInfo;
import android.content.pm.PackageManager;
import android.content.pm.PackageManager.NameNotFoundException;
import android.content.pm.ResolveInfo;
import android.content.pm.UserInfo;
import android.net.ConnectivityManager;
import android.net.INetworkManagementEventObserver;
import android.net.IpPrefix;
import android.net.LinkAddress;
import android.net.LinkProperties;
import android.net.LocalSocket;
import android.net.LocalSocketAddress;
import android.net.Network;
import android.net.NetworkAgent;
import android.net.NetworkCapabilities;
import android.net.NetworkFactory;
import android.net.NetworkInfo;
import android.net.NetworkInfo.DetailedState;
import android.net.NetworkMisc;
import android.net.NetworkUtils;
import android.net.RouteInfo;
import android.net.UidRange;
import android.net.VpnService;
import android.os.Binder;
import android.os.Build.VERSION_CODES;
import android.os.Bundle;
import android.os.FileUtils;
import android.os.IBinder;
import android.os.INetworkManagementService;
import android.os.Looper;
import android.os.Parcel;
import android.os.ParcelFileDescriptor;
import android.os.Process;
import android.os.RemoteException;
import android.os.SystemClock;
import android.os.SystemService;
import android.os.UserHandle;
import android.os.UserManager;
import android.provider.Settings;
import android.security.Credentials;
import android.security.KeyStore;
import android.text.TextUtils;
import android.util.ArraySet;
import android.util.Log;
import com.android.internal.R;
import com.android.internal.annotations.GuardedBy;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.messages.nano.SystemMessageProto.SystemMessage;
import com.android.internal.net.LegacyVpnInfo;
import com.android.internal.net.VpnConfig;
import com.android.internal.net.VpnInfo;
import com.android.internal.net.VpnProfile;
import com.android.internal.notification.SystemNotificationChannels;
import com.android.internal.util.ArrayUtils;
import com.android.server.ConnectivityService;
import com.android.server.DeviceIdleController;
import com.android.server.LocalServices;
import com.android.server.net.BaseNetworkObserver;
import libcore.io.IoUtils;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.math.BigInteger;
import java.net.Inet4Address;
import java.net.Inet6Address;
import java.net.InetAddress;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.List;
import java.util.Objects;
import java.util.Set;
import java.util.SortedSet;
import java.util.TreeSet;
import java.util.concurrent.atomic.AtomicInteger;
/**
* @hide
*/
public class Vpn {
private static final String NETWORKTYPE = "VPN";
private static final String TAG = "Vpn";
private static final boolean LOGD = true;
// Length of time (in milliseconds) that an app hosting an always-on VPN is placed on
// the device idle whitelist during service launch and VPN bootstrap.
private static final long VPN_LAUNCH_IDLE_WHITELIST_DURATION_MS = 60 * 1000;
// Settings for how much of the address space should be routed so that Vpn considers
// "most" of the address space is routed. This is used to determine whether this Vpn
// should be marked with the INTERNET capability.
private static final long MOST_IPV4_ADDRESSES_COUNT;
private static final BigInteger MOST_IPV6_ADDRESSES_COUNT;
static {
// 85% of the address space must be routed for Vpn to consider this VPN to provide
// INTERNET access.
final int howManyPercentIsMost = 85;
final long twoPower32 = 1L << 32;
MOST_IPV4_ADDRESSES_COUNT = twoPower32 * howManyPercentIsMost / 100;
final BigInteger twoPower128 = BigInteger.ONE.shiftLeft(128);
MOST_IPV6_ADDRESSES_COUNT = twoPower128
.multiply(BigInteger.valueOf(howManyPercentIsMost))
.divide(BigInteger.valueOf(100));
}
// How many routes to evaluate before bailing and declaring this Vpn should provide
// the INTERNET capability. This is necessary because computing the address space is
// O(n²) and this is running in the system service, so a limit is needed to alleviate
// the risk of attack.
// This is taken as a total of IPv4 + IPV6 routes for simplicity, but the algorithm
// is actually O(n²)+O(n²).
private static final int MAX_ROUTES_TO_EVALUATE = 150;
// TODO: create separate trackers for each unique VPN to support
// automated reconnection
private final Context mContext;
private final NetworkInfo mNetworkInfo;
private String mPackage;
private int mOwnerUID;
private boolean mIsPackageTargetingAtLeastQ;
private String mInterface;
private Connection mConnection;
private LegacyVpnRunner mLegacyVpnRunner;
private PendingIntent mStatusIntent;
private volatile boolean mEnableTeardown = true;
private final INetworkManagementService mNetd;
@VisibleForTesting
protected VpnConfig mConfig;
@VisibleForTesting
protected NetworkAgent mNetworkAgent;
private final Looper mLooper;
@VisibleForTesting
protected final NetworkCapabilities mNetworkCapabilities;
private final SystemServices mSystemServices;
/**
* Whether to keep the connection active after rebooting, or upgrading or reinstalling. This
* only applies to {@link VpnService} connections.
*/
private boolean mAlwaysOn = false;
/**
* Whether to disable traffic outside of this VPN even when the VPN is not connected. System
* apps can still bypass by choosing explicit networks. Has no effect if {@link mAlwaysOn} is
* not set.
*/
private boolean mLockdown = false;
/**
* Set of packages in addition to the VPN app itself that can access the network directly when
* VPN is not connected even if {@code mLockdown} is set.
*/
private @NonNull List<String> mLockdownWhitelist = Collections.emptyList();
/**
* List of UIDs for which networking should be blocked until VPN is ready, during brief periods
* when VPN is not running. For example, during system startup or after a crash.
* @see mLockdown
*/
@GuardedBy("this")
private Set<UidRange> mBlockedUsers = new ArraySet<>();
// Handle of the user initiating VPN.
private final int mUserHandle;
public Vpn(Looper looper, Context context, INetworkManagementService netService,
@UserIdInt int userHandle) {
this(looper, context, netService, userHandle, new SystemServices(context));
}
@VisibleForTesting
protected Vpn(Looper looper, Context context, INetworkManagementService netService,
int userHandle, SystemServices systemServices) {
mContext = context;
mNetd = netService;
mUserHandle = userHandle;
mLooper = looper;
mSystemServices = systemServices;
mPackage = VpnConfig.LEGACY_VPN;
mOwnerUID = getAppUid(mPackage, mUserHandle);
mIsPackageTargetingAtLeastQ = doesPackageTargetAtLeastQ(mPackage);
try {
netService.registerObserver(mObserver);
} catch (RemoteException e) {
Log.wtf(TAG, "Problem registering observer", e);
}
mNetworkInfo = new NetworkInfo(ConnectivityManager.TYPE_VPN, 0 /* subtype */, NETWORKTYPE,
"" /* subtypeName */);
mNetworkCapabilities = new NetworkCapabilities();
mNetworkCapabilities.addTransportType(NetworkCapabilities.TRANSPORT_VPN);
mNetworkCapabilities.removeCapability(NetworkCapabilities.NET_CAPABILITY_NOT_VPN);
updateCapabilities(null /* defaultNetwork */);
loadAlwaysOnPackage();
}
/**
* Set whether this object is responsible for watching for {@link NetworkInfo}
* teardown. When {@code false}, teardown is handled externally by someone
* else.
*/
public void setEnableTeardown(boolean enableTeardown) {
mEnableTeardown = enableTeardown;
}
/**
* Update current state, dispaching event to listeners.
*/
@VisibleForTesting
protected void updateState(DetailedState detailedState, String reason) {
if (LOGD) Log.d(TAG, "setting state=" + detailedState + ", reason=" + reason);
mNetworkInfo.setDetailedState(detailedState, reason, null);
if (mNetworkAgent != null) {
mNetworkAgent.sendNetworkInfo(mNetworkInfo);
}
updateAlwaysOnNotification(detailedState);
}
/**
* Updates {@link #mNetworkCapabilities} based on current underlying networks and returns a
* defensive copy.
*
* <p>Does not propagate updated capabilities to apps.
*
* @param defaultNetwork underlying network for VPNs following platform's default
*/
public synchronized NetworkCapabilities updateCapabilities(
@Nullable Network defaultNetwork) {
if (mConfig == null) {
// VPN is not running.
return null;
}
Network[] underlyingNetworks = mConfig.underlyingNetworks;
if (underlyingNetworks == null && defaultNetwork != null) {
// null underlying networks means to track the default.
underlyingNetworks = new Network[] { defaultNetwork };
}
// Only apps targeting Q and above can explicitly declare themselves as metered.
final boolean isAlwaysMetered = mIsPackageTargetingAtLeastQ && mConfig.isMetered;
applyUnderlyingCapabilities(
mContext.getSystemService(ConnectivityManager.class),
underlyingNetworks,
mNetworkCapabilities,
isAlwaysMetered);
return new NetworkCapabilities(mNetworkCapabilities);
}
@VisibleForTesting
public static void applyUnderlyingCapabilities(
ConnectivityManager cm,
Network[] underlyingNetworks,
NetworkCapabilities caps,
boolean isAlwaysMetered) {
int[] transportTypes = new int[] { NetworkCapabilities.TRANSPORT_VPN };
int downKbps = NetworkCapabilities.LINK_BANDWIDTH_UNSPECIFIED;
int upKbps = NetworkCapabilities.LINK_BANDWIDTH_UNSPECIFIED;
// VPN's meteredness is OR'd with isAlwaysMetered and meteredness of its underlying
// networks.
boolean metered = isAlwaysMetered;
boolean roaming = false;
boolean congested = false;
boolean hadUnderlyingNetworks = false;
if (null != underlyingNetworks) {
for (Network underlying : underlyingNetworks) {
// TODO(b/124469351): Get capabilities directly from ConnectivityService instead.
final NetworkCapabilities underlyingCaps = cm.getNetworkCapabilities(underlying);
if (underlyingCaps == null) continue;
hadUnderlyingNetworks = true;
for (int underlyingType : underlyingCaps.getTransportTypes()) {
transportTypes = ArrayUtils.appendInt(transportTypes, underlyingType);
}
// When we have multiple networks, we have to assume the
// worst-case link speed and restrictions.
downKbps = NetworkCapabilities.minBandwidth(downKbps,
underlyingCaps.getLinkDownstreamBandwidthKbps());
upKbps = NetworkCapabilities.minBandwidth(upKbps,
underlyingCaps.getLinkUpstreamBandwidthKbps());
metered |= !underlyingCaps.hasCapability(NET_CAPABILITY_NOT_METERED);
roaming |= !underlyingCaps.hasCapability(NET_CAPABILITY_NOT_ROAMING);
congested |= !underlyingCaps.hasCapability(NET_CAPABILITY_NOT_CONGESTED);
}
}
if (!hadUnderlyingNetworks) {
// No idea what the underlying networks are; assume sane defaults
metered = true;
roaming = false;
congested = false;
}
caps.setTransportTypes(transportTypes);
caps.setLinkDownstreamBandwidthKbps(downKbps);
caps.setLinkUpstreamBandwidthKbps(upKbps);
caps.setCapability(NET_CAPABILITY_NOT_METERED, !metered);
caps.setCapability(NET_CAPABILITY_NOT_ROAMING, !roaming);
caps.setCapability(NET_CAPABILITY_NOT_CONGESTED, !congested);
}
/**
* Chooses whether to force all connections to go though VPN.
*
* Used to enable/disable legacy VPN lockdown.
*
* This uses the same ip rule mechanism as
* {@link #setAlwaysOnPackage(String, boolean, List<String>)}; previous settings from calling
* that function will be replaced and saved with the always-on state.
*
* @param lockdown whether to prevent all traffic outside of a VPN.
*/
public synchronized void setLockdown(boolean lockdown) {
enforceControlPermissionOrInternalCaller();
setVpnForcedLocked(lockdown);
mLockdown = lockdown;
// Update app lockdown setting if it changed. Legacy VPN lockdown status is controlled by
// LockdownVpnTracker.isEnabled() which keeps track of its own state.
if (mAlwaysOn) {
saveAlwaysOnPackage();
}
}
/**
* Check whether to prevent all traffic outside of a VPN even when the VPN is not connected.
*
* @return {@code true} if VPN lockdown is enabled.
*/
public synchronized boolean getLockdown() {
return mLockdown;
}
/**
* Returns whether VPN is configured as always-on.
*/
public synchronized boolean getAlwaysOn() {
return mAlwaysOn;
}
/**
* Checks if a VPN app supports always-on mode.
*
* In order to support the always-on feature, an app has to
* <ul>
* <li>target {@link VERSION_CODES#N API 24} or above, and
* <li>not opt out through the {@link VpnService#SERVICE_META_DATA_SUPPORTS_ALWAYS_ON}
* meta-data field.
* </ul>
*
* @param packageName the canonical package name of the VPN app
* @return {@code true} if and only if the VPN app exists and supports always-on mode
*/
public boolean isAlwaysOnPackageSupported(String packageName) {
enforceSettingsPermission();
if (packageName == null) {
return false;
}
PackageManager pm = mContext.getPackageManager();
ApplicationInfo appInfo = null;
try {
appInfo = pm.getApplicationInfoAsUser(packageName, 0 /*flags*/, mUserHandle);
} catch (NameNotFoundException unused) {
Log.w(TAG, "Can't find \"" + packageName + "\" when checking always-on support");
}
if (appInfo == null || appInfo.targetSdkVersion < VERSION_CODES.N) {
return false;
}
final Intent intent = new Intent(VpnConfig.SERVICE_INTERFACE);
intent.setPackage(packageName);
List<ResolveInfo> services =
pm.queryIntentServicesAsUser(intent, PackageManager.GET_META_DATA, mUserHandle);
if (services == null || services.size() == 0) {
return false;
}
for (ResolveInfo rInfo : services) {
final Bundle metaData = rInfo.serviceInfo.metaData;
if (metaData != null &&
!metaData.getBoolean(VpnService.SERVICE_META_DATA_SUPPORTS_ALWAYS_ON, true)) {
return false;
}
}
return true;
}
/**
* Configures an always-on VPN connection through a specific application.
* This connection is automatically granted and persisted after a reboot.
*
* <p>The designated package should exist and declare a {@link VpnService} in its
* manifest guarded by {@link android.Manifest.permission.BIND_VPN_SERVICE},
* otherwise the call will fail.
*
* <p>Note that this method does not check if the VPN app supports always-on mode. The check is
* delayed to {@link #startAlwaysOnVpn()}, which is always called immediately after this
* method in {@link android.net.IConnectivityManager#setAlwaysOnVpnPackage}.
*
* @param packageName the package to designate as always-on VPN supplier.
* @param lockdown whether to prevent traffic outside of a VPN, for example while connecting.
* @param lockdownWhitelist packages to be whitelisted from lockdown.
* @return {@code true} if the package has been set as always-on, {@code false} otherwise.
*/
public synchronized boolean setAlwaysOnPackage(
String packageName, boolean lockdown, List<String> lockdownWhitelist) {
enforceControlPermissionOrInternalCaller();
if (setAlwaysOnPackageInternal(packageName, lockdown, lockdownWhitelist)) {
saveAlwaysOnPackage();
return true;
}
return false;
}
/**
* Configures an always-on VPN connection through a specific application, the same as
* {@link #setAlwaysOnPackage}.
*
* Does not perform permission checks. Does not persist any of the changes to storage.
*
* @param packageName the package to designate as always-on VPN supplier.
* @param lockdown whether to prevent traffic outside of a VPN, for example while connecting.
* @param lockdownWhitelist packages to be whitelisted from lockdown. This is only used if
* {@code lockdown} is {@code true}. Packages must not contain commas.
* @return {@code true} if the package has been set as always-on, {@code false} otherwise.
*/
@GuardedBy("this")
private boolean setAlwaysOnPackageInternal(
String packageName, boolean lockdown, List<String> lockdownWhitelist) {
if (VpnConfig.LEGACY_VPN.equals(packageName)) {
Log.w(TAG, "Not setting legacy VPN \"" + packageName + "\" as always-on.");
return false;
}
if (lockdownWhitelist != null) {
for (String pkg : lockdownWhitelist) {
if (pkg.contains(",")) {
Log.w(TAG, "Not setting always-on vpn, invalid whitelisted package: " + pkg);
return false;
}
}
}
if (packageName != null) {
// Pre-authorize new always-on VPN package.
if (!setPackageAuthorization(packageName, true)) {
return false;
}
mAlwaysOn = true;
} else {
packageName = VpnConfig.LEGACY_VPN;
mAlwaysOn = false;
}
mLockdown = (mAlwaysOn && lockdown);
mLockdownWhitelist = (mLockdown && lockdownWhitelist != null)
? Collections.unmodifiableList(new ArrayList<>(lockdownWhitelist))
: Collections.emptyList();
if (isCurrentPreparedPackage(packageName)) {
updateAlwaysOnNotification(mNetworkInfo.getDetailedState());
setVpnForcedLocked(mLockdown);
} else {
// Prepare this app. The notification will update as a side-effect of updateState().
// It also calls setVpnForcedLocked().
prepareInternal(packageName);
}
return true;
}
private static boolean isNullOrLegacyVpn(String packageName) {
return packageName == null || VpnConfig.LEGACY_VPN.equals(packageName);
}
/**
* @return the package name of the VPN controller responsible for always-on VPN,
* or {@code null} if none is set or always-on VPN is controlled through
* lockdown instead.
*/
public synchronized String getAlwaysOnPackage() {
enforceControlPermissionOrInternalCaller();
return (mAlwaysOn ? mPackage : null);
}
/**
* @return an immutable list of packages whitelisted from always-on VPN lockdown.
*/
public synchronized List<String> getLockdownWhitelist() {
return mLockdown ? mLockdownWhitelist : null;
}
/**
* Save the always-on package and lockdown config into Settings.Secure
*/
@GuardedBy("this")
private void saveAlwaysOnPackage() {
final long token = Binder.clearCallingIdentity();
try {
mSystemServices.settingsSecurePutStringForUser(Settings.Secure.ALWAYS_ON_VPN_APP,
getAlwaysOnPackage(), mUserHandle);
mSystemServices.settingsSecurePutIntForUser(Settings.Secure.ALWAYS_ON_VPN_LOCKDOWN,
(mAlwaysOn && mLockdown ? 1 : 0), mUserHandle);
mSystemServices.settingsSecurePutStringForUser(
Settings.Secure.ALWAYS_ON_VPN_LOCKDOWN_WHITELIST,
String.join(",", mLockdownWhitelist), mUserHandle);
} finally {
Binder.restoreCallingIdentity(token);
}
}
/**
* Load the always-on package and lockdown config from Settings.Secure
*/
@GuardedBy("this")
private void loadAlwaysOnPackage() {
final long token = Binder.clearCallingIdentity();
try {
final String alwaysOnPackage = mSystemServices.settingsSecureGetStringForUser(
Settings.Secure.ALWAYS_ON_VPN_APP, mUserHandle);
final boolean alwaysOnLockdown = mSystemServices.settingsSecureGetIntForUser(
Settings.Secure.ALWAYS_ON_VPN_LOCKDOWN, 0 /*default*/, mUserHandle) != 0;
final String whitelistString = mSystemServices.settingsSecureGetStringForUser(
Settings.Secure.ALWAYS_ON_VPN_LOCKDOWN_WHITELIST, mUserHandle);
final List<String> whitelistedPackages = TextUtils.isEmpty(whitelistString)
? Collections.emptyList() : Arrays.asList(whitelistString.split(","));
setAlwaysOnPackageInternal(alwaysOnPackage, alwaysOnLockdown, whitelistedPackages);
} finally {
Binder.restoreCallingIdentity(token);
}
}
/**
* @return {@code true} if the service was started, the service was already connected, or there
* was no always-on VPN to start. {@code false} otherwise.
*/
public boolean startAlwaysOnVpn() {
final String alwaysOnPackage;
synchronized (this) {
alwaysOnPackage = getAlwaysOnPackage();
// Skip if there is no service to start.
if (alwaysOnPackage == null) {
return true;
}
// Remove always-on VPN if it's not supported.
if (!isAlwaysOnPackageSupported(alwaysOnPackage)) {
setAlwaysOnPackage(null, false, null);
return false;
}
// Skip if the service is already established. This isn't bulletproof: it's not bound
// until after establish(), so if it's mid-setup onStartCommand will be sent twice,
// which may restart the connection.
if (getNetworkInfo().isConnected()) {
return true;
}
}
// Tell the OS that background services in this app need to be allowed for
// a short time, so we can bootstrap the VPN service.
final long oldId = Binder.clearCallingIdentity();
try {
DeviceIdleController.LocalService idleController =
LocalServices.getService(DeviceIdleController.LocalService.class);
idleController.addPowerSaveTempWhitelistApp(Process.myUid(), alwaysOnPackage,
VPN_LAUNCH_IDLE_WHITELIST_DURATION_MS, mUserHandle, false, "vpn");
// Start the VPN service declared in the app's manifest.
Intent serviceIntent = new Intent(VpnConfig.SERVICE_INTERFACE);
serviceIntent.setPackage(alwaysOnPackage);
try {
return mContext.startServiceAsUser(serviceIntent, UserHandle.of(mUserHandle)) != null;
} catch (RuntimeException e) {
Log.e(TAG, "VpnService " + serviceIntent + " failed to start", e);
return false;
}
} finally {
Binder.restoreCallingIdentity(oldId);
}
}
/**
* Prepare for a VPN application. This method is designed to solve
* race conditions. It first compares the current prepared package
* with {@code oldPackage}. If they are the same, the prepared
* package is revoked and replaced with {@code newPackage}. If
* {@code oldPackage} is {@code null}, the comparison is omitted.
* If {@code newPackage} is the same package or {@code null}, the
* revocation is omitted. This method returns {@code true} if the
* operation is succeeded.
*
* Legacy VPN is handled specially since it is not a real package.
* It uses {@link VpnConfig#LEGACY_VPN} as its package name, and
* it can be revoked by itself.
*
* Note: when we added VPN pre-consent in
* https://android.googlesource.com/platform/frameworks/base/+/0554260
* the names oldPackage and newPackage became misleading, because when
* an app is pre-consented, we actually prepare oldPackage, not newPackage.
*
* Their meanings actually are:
*
* - oldPackage non-null, newPackage null: App calling VpnService#prepare().
* - oldPackage null, newPackage non-null: ConfirmDialog calling prepareVpn().
* - oldPackage null, newPackage=LEGACY_VPN: Used internally to disconnect
* and revoke any current app VPN and re-prepare legacy vpn.
*
* TODO: Rename the variables - or split this method into two - and end this confusion.
* TODO: b/29032008 Migrate code from prepare(oldPackage=non-null, newPackage=LEGACY_VPN)
* to prepare(oldPackage=null, newPackage=LEGACY_VPN)
*
* @param oldPackage The package name of the old VPN application
* @param newPackage The package name of the new VPN application
*
* @return true if the operation succeeded.
*/
public synchronized boolean prepare(String oldPackage, String newPackage) {
if (oldPackage != null) {
// Stop an existing always-on VPN from being dethroned by other apps.
if (mAlwaysOn && !isCurrentPreparedPackage(oldPackage)) {
return false;
}
// Package is not the same or old package was reinstalled.
if (!isCurrentPreparedPackage(oldPackage)) {
// The package doesn't match. We return false (to obtain user consent) unless the
// user has already consented to that VPN package.
if (!oldPackage.equals(VpnConfig.LEGACY_VPN) && isVpnUserPreConsented(oldPackage)) {
prepareInternal(oldPackage);
return true;
}
return false;
} else if (!oldPackage.equals(VpnConfig.LEGACY_VPN)
&& !isVpnUserPreConsented(oldPackage)) {
// Currently prepared VPN is revoked, so unprepare it and return false.
prepareInternal(VpnConfig.LEGACY_VPN);
return false;
}
}
// Return true if we do not need to revoke.
if (newPackage == null || (!newPackage.equals(VpnConfig.LEGACY_VPN) &&
isCurrentPreparedPackage(newPackage))) {
return true;
}
// Check that the caller is authorized.
enforceControlPermission();
// Stop an existing always-on VPN from being dethroned by other apps.
if (mAlwaysOn && !isCurrentPreparedPackage(newPackage)) {
return false;
}
prepareInternal(newPackage);
return true;
}
private boolean isCurrentPreparedPackage(String packageName) {
// We can't just check that packageName matches mPackage, because if the app was uninstalled
// and reinstalled it will no longer be prepared. Instead check the UID.
return getAppUid(packageName, mUserHandle) == mOwnerUID;
}
/** Prepare the VPN for the given package. Does not perform permission checks. */
private void prepareInternal(String newPackage) {
long token = Binder.clearCallingIdentity();
try {
// Reset the interface.
if (mInterface != null) {
mStatusIntent = null;
agentDisconnect();
jniReset(mInterface);
mInterface = null;
mNetworkCapabilities.setUids(null);
}
// Revoke the connection or stop LegacyVpnRunner.
if (mConnection != null) {
try {
mConnection.mService.transact(IBinder.LAST_CALL_TRANSACTION,
Parcel.obtain(), null, IBinder.FLAG_ONEWAY);
} catch (Exception e) {
// ignore
}
mContext.unbindService(mConnection);
mConnection = null;
} else if (mLegacyVpnRunner != null) {
mLegacyVpnRunner.exit();
mLegacyVpnRunner = null;
}
try {
mNetd.denyProtect(mOwnerUID);
} catch (Exception e) {
Log.wtf(TAG, "Failed to disallow UID " + mOwnerUID + " to call protect() " + e);
}
Log.i(TAG, "Switched from " + mPackage + " to " + newPackage);
mPackage = newPackage;
mOwnerUID = getAppUid(newPackage, mUserHandle);
mIsPackageTargetingAtLeastQ = doesPackageTargetAtLeastQ(newPackage);
try {
mNetd.allowProtect(mOwnerUID);
} catch (Exception e) {
Log.wtf(TAG, "Failed to allow UID " + mOwnerUID + " to call protect() " + e);
}
mConfig = null;
updateState(DetailedState.IDLE, "prepare");
setVpnForcedLocked(mLockdown);
} finally {
Binder.restoreCallingIdentity(token);
}
}
/**
* Set whether a package has the ability to launch VPNs without user intervention.
*/
public boolean setPackageAuthorization(String packageName, boolean authorized) {
// Check if the caller is authorized.
enforceControlPermissionOrInternalCaller();
int uid = getAppUid(packageName, mUserHandle);
if (uid == -1 || VpnConfig.LEGACY_VPN.equals(packageName)) {
// Authorization for nonexistent packages (or fake ones) can't be updated.
return false;
}
long token = Binder.clearCallingIdentity();
try {
AppOpsManager appOps =
(AppOpsManager) mContext.getSystemService(Context.APP_OPS_SERVICE);
appOps.setMode(AppOpsManager.OP_ACTIVATE_VPN, uid, packageName,
authorized ? AppOpsManager.MODE_ALLOWED : AppOpsManager.MODE_IGNORED);
return true;
} catch (Exception e) {
Log.wtf(TAG, "Failed to set app ops for package " + packageName + ", uid " + uid, e);
} finally {
Binder.restoreCallingIdentity(token);
}
return false;
}
private boolean isVpnUserPreConsented(String packageName) {
AppOpsManager appOps =
(AppOpsManager) mContext.getSystemService(Context.APP_OPS_SERVICE);
// Verify that the caller matches the given package and has permission to activate VPNs.
return appOps.noteOpNoThrow(AppOpsManager.OP_ACTIVATE_VPN, Binder.getCallingUid(),
packageName) == AppOpsManager.MODE_ALLOWED;
}
private int getAppUid(String app, int userHandle) {
if (VpnConfig.LEGACY_VPN.equals(app)) {
return Process.myUid();
}
PackageManager pm = mContext.getPackageManager();
int result;
try {
result = pm.getPackageUidAsUser(app, userHandle);
} catch (NameNotFoundException e) {
result = -1;
}
return result;
}
private boolean doesPackageTargetAtLeastQ(String packageName) {
if (VpnConfig.LEGACY_VPN.equals(packageName)) {
return true;
}
PackageManager pm = mContext.getPackageManager();
try {
ApplicationInfo appInfo =
pm.getApplicationInfoAsUser(packageName, 0 /*flags*/, mUserHandle);
return appInfo.targetSdkVersion >= VERSION_CODES.Q;
} catch (NameNotFoundException unused) {
Log.w(TAG, "Can't find \"" + packageName + "\"");
return false;
}
}
public NetworkInfo getNetworkInfo() {
return mNetworkInfo;
}
public int getNetId() {
return mNetworkAgent != null ? mNetworkAgent.netId : NETID_UNSET;
}
private LinkProperties makeLinkProperties() {
boolean allowIPv4 = mConfig.allowIPv4;
boolean allowIPv6 = mConfig.allowIPv6;
LinkProperties lp = new LinkProperties();
lp.setInterfaceName(mInterface);
if (mConfig.addresses != null) {
for (LinkAddress address : mConfig.addresses) {
lp.addLinkAddress(address);
allowIPv4 |= address.getAddress() instanceof Inet4Address;
allowIPv6 |= address.getAddress() instanceof Inet6Address;
}
}
if (mConfig.routes != null) {
for (RouteInfo route : mConfig.routes) {
lp.addRoute(route);
InetAddress address = route.getDestination().getAddress();
allowIPv4 |= address instanceof Inet4Address;
allowIPv6 |= address instanceof Inet6Address;
}
}
if (mConfig.dnsServers != null) {
for (String dnsServer : mConfig.dnsServers) {
InetAddress address = InetAddress.parseNumericAddress(dnsServer);
lp.addDnsServer(address);
allowIPv4 |= address instanceof Inet4Address;
allowIPv6 |= address instanceof Inet6Address;
}
}
lp.setHttpProxy(mConfig.proxyInfo);
if (!allowIPv4) {
lp.addRoute(new RouteInfo(new IpPrefix(Inet4Address.ANY, 0), RTN_UNREACHABLE));
}
if (!allowIPv6) {
lp.addRoute(new RouteInfo(new IpPrefix(Inet6Address.ANY, 0), RTN_UNREACHABLE));
}
// Concatenate search domains into a string.
StringBuilder buffer = new StringBuilder();
if (mConfig.searchDomains != null) {
for (String domain : mConfig.searchDomains) {
buffer.append(domain).append(' ');
}
}
lp.setDomains(buffer.toString().trim());
// TODO: Stop setting the MTU in jniCreate and set it here.
return lp;
}
/**
* Analyzes the passed LinkedProperties to figure out whether it routes to most of the IP space.
*
* This returns true if the passed LinkedProperties contains routes to either most of the IPv4
* space or to most of the IPv6 address space, where "most" is defined by the value of the
* MOST_IPV{4,6}_ADDRESSES_COUNT constants : if more than this number of addresses are matched
* by any of the routes, then it's decided that most of the space is routed.
* @hide
*/
@VisibleForTesting
static boolean providesRoutesToMostDestinations(LinkProperties lp) {
final List<RouteInfo> routes = lp.getAllRoutes();
if (routes.size() > MAX_ROUTES_TO_EVALUATE) return true;
final Comparator<IpPrefix> prefixLengthComparator = IpPrefix.lengthComparator();
TreeSet<IpPrefix> ipv4Prefixes = new TreeSet<>(prefixLengthComparator);
TreeSet<IpPrefix> ipv6Prefixes = new TreeSet<>(prefixLengthComparator);
for (final RouteInfo route : routes) {
if (route.getType() == RouteInfo.RTN_UNREACHABLE) continue;
IpPrefix destination = route.getDestination();
if (destination.isIPv4()) {
ipv4Prefixes.add(destination);
} else {
ipv6Prefixes.add(destination);
}
}
if (NetworkUtils.routedIPv4AddressCount(ipv4Prefixes) > MOST_IPV4_ADDRESSES_COUNT) {
return true;
}
return NetworkUtils.routedIPv6AddressCount(ipv6Prefixes)
.compareTo(MOST_IPV6_ADDRESSES_COUNT) >= 0;
}
/**
* Attempt to perform a seamless handover of VPNs by only updating LinkProperties without
* registering a new NetworkAgent. This is not always possible if the new VPN configuration
* has certain changes, in which case this method would just return {@code false}.
*/
private boolean updateLinkPropertiesInPlaceIfPossible(NetworkAgent agent, VpnConfig oldConfig) {
// NetworkMisc cannot be updated without registering a new NetworkAgent.
if (oldConfig.allowBypass != mConfig.allowBypass) {
Log.i(TAG, "Handover not possible due to changes to allowBypass");
return false;
}
// TODO: we currently do not support seamless handover if the allowed or disallowed
// applications have changed. Consider diffing UID ranges and only applying the delta.
if (!Objects.equals(oldConfig.allowedApplications, mConfig.allowedApplications) ||
!Objects.equals(oldConfig.disallowedApplications, mConfig.disallowedApplications)) {
Log.i(TAG, "Handover not possible due to changes to whitelisted/blacklisted apps");
return false;
}
agent.sendLinkProperties(makeLinkProperties());
return true;
}
private void agentConnect() {
LinkProperties lp = makeLinkProperties();
// VPN either provide a default route (IPv4 or IPv6 or both), or they are a split tunnel
// that falls back to the default network, which by definition provides INTERNET (unless
// there is no default network, in which case none of this matters in any sense).
// Also, it guarantees that when a VPN applies to an app, the VPN will always be reported
// as the network by getDefaultNetwork and registerDefaultNetworkCallback. This in turn
// protects the invariant that apps calling CM#bindProcessToNetwork(getDefaultNetwork())
// the same as if they use the default network.
mNetworkCapabilities.addCapability(NetworkCapabilities.NET_CAPABILITY_INTERNET);
mNetworkInfo.setDetailedState(DetailedState.CONNECTING, null, null);
NetworkMisc networkMisc = new NetworkMisc();
networkMisc.allowBypass = mConfig.allowBypass && !mLockdown;
mNetworkCapabilities.setEstablishingVpnAppUid(Binder.getCallingUid());
mNetworkCapabilities.setUids(createUserAndRestrictedProfilesRanges(mUserHandle,
mConfig.allowedApplications, mConfig.disallowedApplications));
long token = Binder.clearCallingIdentity();
try {
mNetworkAgent = new NetworkAgent(mLooper, mContext, NETWORKTYPE /* logtag */,
mNetworkInfo, mNetworkCapabilities, lp,
ConnectivityConstants.VPN_DEFAULT_SCORE, networkMisc,
NetworkFactory.SerialNumber.VPN) {
@Override
public void unwanted() {
// We are user controlled, not driven by NetworkRequest.
}
};
} finally {
Binder.restoreCallingIdentity(token);
}
mNetworkInfo.setIsAvailable(true);
updateState(DetailedState.CONNECTED, "agentConnect");
}
private boolean canHaveRestrictedProfile(int userId) {
long token = Binder.clearCallingIdentity();
try {
return UserManager.get(mContext).canHaveRestrictedProfile(userId);
} finally {
Binder.restoreCallingIdentity(token);
}
}
private void agentDisconnect(NetworkAgent networkAgent) {
if (networkAgent != null) {
NetworkInfo networkInfo = new NetworkInfo(mNetworkInfo);
networkInfo.setIsAvailable(false);
networkInfo.setDetailedState(DetailedState.DISCONNECTED, null, null);
networkAgent.sendNetworkInfo(networkInfo);
}
}
private void agentDisconnect() {
if (mNetworkInfo.isConnected()) {
mNetworkInfo.setIsAvailable(false);
updateState(DetailedState.DISCONNECTED, "agentDisconnect");
mNetworkAgent = null;
}
}
/**
* Establish a VPN network and return the file descriptor of the VPN interface. This methods
* returns {@code null} if the application is revoked or not prepared.
*
* @param config The parameters to configure the network.
* @return The file descriptor of the VPN interface.
*/
public synchronized ParcelFileDescriptor establish(VpnConfig config) {
// Check if the caller is already prepared.
UserManager mgr = UserManager.get(mContext);
if (Binder.getCallingUid() != mOwnerUID) {
return null;
}
// Check to ensure consent hasn't been revoked since we were prepared.
if (!isVpnUserPreConsented(mPackage)) {
return null;
}
// Check if the service is properly declared.
Intent intent = new Intent(VpnConfig.SERVICE_INTERFACE);
intent.setClassName(mPackage, config.user);
long token = Binder.clearCallingIdentity();
try {
// Restricted users are not allowed to create VPNs, they are tied to Owner
UserInfo user = mgr.getUserInfo(mUserHandle);
if (user.isRestricted()) {
throw new SecurityException("Restricted users cannot establish VPNs");
}
ResolveInfo info = AppGlobals.getPackageManager().resolveService(intent,
null, 0, mUserHandle);
if (info == null) {
throw new SecurityException("Cannot find " + config.user);
}
if (!BIND_VPN_SERVICE.equals(info.serviceInfo.permission)) {
throw new SecurityException(config.user + " does not require " + BIND_VPN_SERVICE);
}
} catch (RemoteException e) {
throw new SecurityException("Cannot find " + config.user);
} finally {
Binder.restoreCallingIdentity(token);
}
// Save the old config in case we need to go back.
VpnConfig oldConfig = mConfig;
String oldInterface = mInterface;
Connection oldConnection = mConnection;
NetworkAgent oldNetworkAgent = mNetworkAgent;
Set<UidRange> oldUsers = mNetworkCapabilities.getUids();
// Configure the interface. Abort if any of these steps fails.
ParcelFileDescriptor tun = ParcelFileDescriptor.adoptFd(jniCreate(config.mtu));
try {
String interfaze = jniGetName(tun.getFd());
// TEMP use the old jni calls until there is support for netd address setting
StringBuilder builder = new StringBuilder();
for (LinkAddress address : config.addresses) {
builder.append(" " + address);
}
if (jniSetAddresses(interfaze, builder.toString()) < 1) {
throw new IllegalArgumentException("At least one address must be specified");
}
Connection connection = new Connection();
if (!mContext.bindServiceAsUser(intent, connection,
Context.BIND_AUTO_CREATE | Context.BIND_FOREGROUND_SERVICE,
new UserHandle(mUserHandle))) {
throw new IllegalStateException("Cannot bind " + config.user);
}
mConnection = connection;
mInterface = interfaze;
// Fill more values.
config.user = mPackage;
config.interfaze = mInterface;
config.startTime = SystemClock.elapsedRealtime();
mConfig = config;
// Set up forwarding and DNS rules.
// First attempt to do a seamless handover that only changes the interface name and
// parameters. If that fails, disconnect.
if (oldConfig != null
&& updateLinkPropertiesInPlaceIfPossible(mNetworkAgent, oldConfig)) {
// Keep mNetworkAgent unchanged
} else {
mNetworkAgent = null;
updateState(DetailedState.CONNECTING, "establish");
// Set up forwarding and DNS rules.
agentConnect();
// Remove the old tun's user forwarding rules
// The new tun's user rules have already been added above so they will take over
// as rules are deleted. This prevents data leakage as the rules are moved over.
agentDisconnect(oldNetworkAgent);
}
if (oldConnection != null) {
mContext.unbindService(oldConnection);
}
if (oldInterface != null && !oldInterface.equals(interfaze)) {
jniReset(oldInterface);
}
try {
IoUtils.setBlocking(tun.getFileDescriptor(), config.blocking);
} catch (IOException e) {
throw new IllegalStateException(
"Cannot set tunnel's fd as blocking=" + config.blocking, e);
}
} catch (RuntimeException e) {
IoUtils.closeQuietly(tun);
agentDisconnect();
// restore old state
mConfig = oldConfig;
mConnection = oldConnection;
mNetworkCapabilities.setUids(oldUsers);
mNetworkAgent = oldNetworkAgent;
mInterface = oldInterface;
throw e;
}
Log.i(TAG, "Established by " + config.user + " on " + mInterface);
return tun;
}
private boolean isRunningLocked() {
return mNetworkAgent != null && mInterface != null;
}
// Returns true if the VPN has been established and the calling UID is its owner. Used to check
// that a call to mutate VPN state is admissible.
@VisibleForTesting
protected boolean isCallerEstablishedOwnerLocked() {
return isRunningLocked() && Binder.getCallingUid() == mOwnerUID;
}
// Note: Return type guarantees results are deduped and sorted, which callers require.
private SortedSet<Integer> getAppsUids(List<String> packageNames, int userHandle) {
SortedSet<Integer> uids = new TreeSet<Integer>();
for (String app : packageNames) {
int uid = getAppUid(app, userHandle);
if (uid != -1) uids.add(uid);
}
return uids;
}
/**
* Creates a {@link Set} of non-intersecting {@link UidRange} objects including all UIDs
* associated with one user, and any restricted profiles attached to that user.
*
* <p>If one of {@param allowedApplications} or {@param disallowedApplications} is provided,
* the UID ranges will match the app whitelist or blacklist specified there. Otherwise, all UIDs
* in each user and profile will be included.
*
* @param userHandle The userId to create UID ranges for along with any of its restricted
* profiles.
* @param allowedApplications (optional) whitelist of applications to include.
* @param disallowedApplications (optional) blacklist of applications to exclude.
*/
@VisibleForTesting
Set<UidRange> createUserAndRestrictedProfilesRanges(@UserIdInt int userHandle,
@Nullable List<String> allowedApplications,
@Nullable List<String> disallowedApplications) {
final Set<UidRange> ranges = new ArraySet<>();
// Assign the top-level user to the set of ranges
addUserToRanges(ranges, userHandle, allowedApplications, disallowedApplications);
// If the user can have restricted profiles, assign all its restricted profiles too
if (canHaveRestrictedProfile(userHandle)) {
final long token = Binder.clearCallingIdentity();
List<UserInfo> users;
try {
users = UserManager.get(mContext).getUsers(true);
} finally {
Binder.restoreCallingIdentity(token);
}
for (UserInfo user : users) {
if (user.isRestricted() && (user.restrictedProfileParentId == userHandle)) {
addUserToRanges(ranges, user.id, allowedApplications, disallowedApplications);
}
}
}
return ranges;
}
/**
* Updates a {@link Set} of non-intersecting {@link UidRange} objects to include all UIDs
* associated with one user.
*
* <p>If one of {@param allowedApplications} or {@param disallowedApplications} is provided,
* the UID ranges will match the app whitelist or blacklist specified there. Otherwise, all UIDs
* in the user will be included.
*
* @param ranges {@link Set} of {@link UidRange}s to which to add.
* @param userHandle The userId to add to {@param ranges}.
* @param allowedApplications (optional) whitelist of applications to include.
* @param disallowedApplications (optional) blacklist of applications to exclude.
*/
@VisibleForTesting
void addUserToRanges(@NonNull Set<UidRange> ranges, @UserIdInt int userHandle,
@Nullable List<String> allowedApplications,
@Nullable List<String> disallowedApplications) {
if (allowedApplications != null) {
// Add ranges covering all UIDs for allowedApplications.
int start = -1, stop = -1;
for (int uid : getAppsUids(allowedApplications, userHandle)) {
if (start == -1) {
start = uid;
} else if (uid != stop + 1) {
ranges.add(new UidRange(start, stop));
start = uid;
}
stop = uid;
}
if (start != -1) ranges.add(new UidRange(start, stop));
} else if (disallowedApplications != null) {
// Add all ranges for user skipping UIDs for disallowedApplications.
final UidRange userRange = UidRange.createForUser(userHandle);
int start = userRange.start;
for (int uid : getAppsUids(disallowedApplications, userHandle)) {
if (uid == start) {
start++;
} else {
ranges.add(new UidRange(start, uid - 1));
start = uid + 1;
}
}
if (start <= userRange.stop) ranges.add(new UidRange(start, userRange.stop));
} else {
// Add all UIDs for the user.
ranges.add(UidRange.createForUser(userHandle));
}
}
// Returns the subset of the full list of active UID ranges the VPN applies to (mVpnUsers) that
// apply to userHandle.
static private List<UidRange> uidRangesForUser(int userHandle, Set<UidRange> existingRanges) {
// UidRange#createForUser returns the entire range of UIDs available to a macro-user.
// This is something like 0-99999 ; {@see UserHandle#PER_USER_RANGE}
final UidRange userRange = UidRange.createForUser(userHandle);
final List<UidRange> ranges = new ArrayList<UidRange>();
for (UidRange range : existingRanges) {
if (userRange.containsRange(range)) {
ranges.add(range);
}
}
return ranges;
}
/**
* Updates UID ranges for this VPN and also updates its internal capabilities.
*
* <p>Should be called on primary ConnectivityService thread.
*/
public void onUserAdded(int userHandle) {
// If the user is restricted tie them to the parent user's VPN
UserInfo user = UserManager.get(mContext).getUserInfo(userHandle);
if (user.isRestricted() && user.restrictedProfileParentId == mUserHandle) {
synchronized(Vpn.this) {
final Set<UidRange> existingRanges = mNetworkCapabilities.getUids();
if (existingRanges != null) {
try {
addUserToRanges(existingRanges, userHandle, mConfig.allowedApplications,
mConfig.disallowedApplications);
// ConnectivityService will call {@link #updateCapabilities} and apply
// those for VPN network.
mNetworkCapabilities.setUids(existingRanges);
} catch (Exception e) {
Log.wtf(TAG, "Failed to add restricted user to owner", e);
}
}
setVpnForcedLocked(mLockdown);
}
}
}
/**
* Updates UID ranges for this VPN and also updates its capabilities.
*
* <p>Should be called on primary ConnectivityService thread.
*/
public void onUserRemoved(int userHandle) {
// clean up if restricted
UserInfo user = UserManager.get(mContext).getUserInfo(userHandle);
if (user.isRestricted() && user.restrictedProfileParentId == mUserHandle) {
synchronized(Vpn.this) {
final Set<UidRange> existingRanges = mNetworkCapabilities.getUids();
if (existingRanges != null) {
try {
final List<UidRange> removedRanges =
uidRangesForUser(userHandle, existingRanges);
existingRanges.removeAll(removedRanges);
// ConnectivityService will call {@link #updateCapabilities} and
// apply those for VPN network.
mNetworkCapabilities.setUids(existingRanges);
} catch (Exception e) {
Log.wtf(TAG, "Failed to remove restricted user to owner", e);
}
}
setVpnForcedLocked(mLockdown);
}
}
}
/**
* Called when the user associated with this VPN has just been stopped.
*/
public synchronized void onUserStopped() {
// Switch off networking lockdown (if it was enabled)
setLockdown(false);
mAlwaysOn = false;
// Quit any active connections
agentDisconnect();
}
/**
* Restricts network access from all UIDs affected by this {@link Vpn}, apart from the VPN
* service app itself and whitelisted packages, to only sockets that have had {@code protect()}
* called on them. All non-VPN traffic is blocked via a {@code PROHIBIT} response from the
* kernel.
*
* The exception for the VPN UID isn't technically necessary -- setup should use protected
* sockets -- but in practice it saves apps that don't protect their sockets from breaking.
*
* Calling multiple times with {@param enforce} = {@code true} will recreate the set of UIDs to
* block every time, and if anything has changed update using {@link #setAllowOnlyVpnForUids}.
*
* @param enforce {@code true} to require that all traffic under the jurisdiction of this
* {@link Vpn} goes through a VPN connection or is blocked until one is
* available, {@code false} to lift the requirement.
*
* @see #mBlockedUsers
*/
@GuardedBy("this")
private void setVpnForcedLocked(boolean enforce) {
final List<String> exemptedPackages;
if (isNullOrLegacyVpn(mPackage)) {
exemptedPackages = null;
} else {
exemptedPackages = new ArrayList<>(mLockdownWhitelist);
exemptedPackages.add(mPackage);
}
final Set<UidRange> removedRanges = new ArraySet<>(mBlockedUsers);
Set<UidRange> addedRanges = Collections.emptySet();
if (enforce) {
addedRanges = createUserAndRestrictedProfilesRanges(mUserHandle,
/* allowedApplications */ null,
/* disallowedApplications */ exemptedPackages);
// The UID range of the first user (0-99999) would block the IPSec traffic, which comes
// directly from the kernel and is marked as uid=0. So we adjust the range to allow
// it through (b/69873852).
for (UidRange range : addedRanges) {
if (range.start == 0) {
addedRanges.remove(range);
if (range.stop != 0) {
addedRanges.add(new UidRange(1, range.stop));
}
}
}
removedRanges.removeAll(addedRanges);
addedRanges.removeAll(mBlockedUsers);
}
setAllowOnlyVpnForUids(false, removedRanges);
setAllowOnlyVpnForUids(true, addedRanges);
}
/**
* Either add or remove a list of {@link UidRange}s to the list of UIDs that are only allowed
* to make connections through sockets that have had {@code protect()} called on them.
*
* @param enforce {@code true} to add to the blacklist, {@code false} to remove.
* @param ranges {@link Collection} of {@link UidRange}s to add (if {@param enforce} is
* {@code true}) or to remove.
* @return {@code true} if all of the UIDs were added/removed. {@code false} otherwise,
* including added ranges that already existed or removed ones that didn't.
*/
@GuardedBy("this")
private boolean setAllowOnlyVpnForUids(boolean enforce, Collection<UidRange> ranges) {
if (ranges.size() == 0) {
return true;
}
final UidRange[] rangesArray = ranges.toArray(new UidRange[ranges.size()]);
try {
mNetd.setAllowOnlyVpnForUids(enforce, rangesArray);
} catch (RemoteException | RuntimeException e) {
Log.e(TAG, "Updating blocked=" + enforce
+ " for UIDs " + Arrays.toString(ranges.toArray()) + " failed", e);
return false;
}
if (enforce) {
mBlockedUsers.addAll(ranges);
} else {
mBlockedUsers.removeAll(ranges);
}
return true;
}
/**
* Return the configuration of the currently running VPN.
*/
public VpnConfig getVpnConfig() {
enforceControlPermission();
return mConfig;
}
@Deprecated
public synchronized void interfaceStatusChanged(String iface, boolean up) {
try {
mObserver.interfaceStatusChanged(iface, up);
} catch (RemoteException e) {
// ignored; target is local
}
}
private INetworkManagementEventObserver mObserver = new BaseNetworkObserver() {
@Override
public void interfaceStatusChanged(String interfaze, boolean up) {
synchronized (Vpn.this) {
if (!up && mLegacyVpnRunner != null) {
mLegacyVpnRunner.check(interfaze);
}
}
}
@Override
public void interfaceRemoved(String interfaze) {
synchronized (Vpn.this) {
if (interfaze.equals(mInterface) && jniCheck(interfaze) == 0) {
mStatusIntent = null;
mNetworkCapabilities.setUids(null);
mConfig = null;
mInterface = null;
if (mConnection != null) {
mContext.unbindService(mConnection);
mConnection = null;
agentDisconnect();
} else if (mLegacyVpnRunner != null) {
mLegacyVpnRunner.exit();
mLegacyVpnRunner = null;
}
}
}
}
};
private void enforceControlPermission() {
mContext.enforceCallingPermission(Manifest.permission.CONTROL_VPN, "Unauthorized Caller");
}
private void enforceControlPermissionOrInternalCaller() {
// Require the caller to be either an application with CONTROL_VPN permission or a process
// in the system server.
mContext.enforceCallingOrSelfPermission(Manifest.permission.CONTROL_VPN,
"Unauthorized Caller");
}
private void enforceSettingsPermission() {
mContext.enforceCallingOrSelfPermission(Manifest.permission.NETWORK_SETTINGS,
"Unauthorized Caller");
}
private class Connection implements ServiceConnection {
private IBinder mService;
@Override
public void onServiceConnected(ComponentName name, IBinder service) {
mService = service;
}
@Override
public void onServiceDisconnected(ComponentName name) {
mService = null;
}
}
private void prepareStatusIntent() {
final long token = Binder.clearCallingIdentity();
try {
mStatusIntent = VpnConfig.getIntentForStatusPanel(mContext);
} finally {
Binder.restoreCallingIdentity(token);
}
}
public synchronized boolean addAddress(String address, int prefixLength) {
if (!isCallerEstablishedOwnerLocked()) {
return false;
}
boolean success = jniAddAddress(mInterface, address, prefixLength);
mNetworkAgent.sendLinkProperties(makeLinkProperties());
return success;
}
public synchronized boolean removeAddress(String address, int prefixLength) {
if (!isCallerEstablishedOwnerLocked()) {
return false;
}
boolean success = jniDelAddress(mInterface, address, prefixLength);
mNetworkAgent.sendLinkProperties(makeLinkProperties());
return success;
}
/**
* Updates underlying network set.
*
* <p>Note: Does not updates capabilities. Call {@link #updateCapabilities} from
* ConnectivityService thread to get updated capabilities.
*/
public synchronized boolean setUnderlyingNetworks(Network[] networks) {
if (!isCallerEstablishedOwnerLocked()) {
return false;
}
if (networks == null) {
mConfig.underlyingNetworks = null;
} else {
mConfig.underlyingNetworks = new Network[networks.length];
for (int i = 0; i < networks.length; ++i) {
if (networks[i] == null) {
mConfig.underlyingNetworks[i] = null;
} else {
mConfig.underlyingNetworks[i] = new Network(networks[i].netId);
}
}
}
return true;
}
public synchronized Network[] getUnderlyingNetworks() {
if (!isRunningLocked()) {
return null;
}
return mConfig.underlyingNetworks;
}
/**
* This method should only be called by ConnectivityService because it doesn't
* have enough data to fill VpnInfo.primaryUnderlyingIface field.
*/
public synchronized VpnInfo getVpnInfo() {
if (!isRunningLocked()) {
return null;
}
VpnInfo info = new VpnInfo();
info.ownerUid = mOwnerUID;
info.vpnIface = mInterface;
return info;
}
public synchronized boolean appliesToUid(int uid) {
if (!isRunningLocked()) {
return false;
}
return mNetworkCapabilities.appliesToUid(uid);
}
/**
* @param uid The target uid.
*
* @return {@code true} if {@code uid} is included in one of the mBlockedUsers ranges and the
* VPN is not connected, or if the VPN is connected but does not apply to the {@code uid}.
*
* @apiNote This method don't check VPN lockdown status.
* @see #mBlockedUsers
*/
public synchronized boolean isBlockingUid(int uid) {
if (mNetworkInfo.isConnected()) {
return !appliesToUid(uid);
} else {
return UidRange.containsUid(mBlockedUsers, uid);
}
}
private void updateAlwaysOnNotification(DetailedState networkState) {
final boolean visible = (mAlwaysOn && networkState != DetailedState.CONNECTED);
final UserHandle user = UserHandle.of(mUserHandle);
final long token = Binder.clearCallingIdentity();
try {
final NotificationManager notificationManager = NotificationManager.from(mContext);
if (!visible) {
notificationManager.cancelAsUser(TAG, SystemMessage.NOTE_VPN_DISCONNECTED, user);
return;
}
final Intent intent = new Intent();
intent.setComponent(ComponentName.unflattenFromString(mContext.getString(
R.string.config_customVpnAlwaysOnDisconnectedDialogComponent)));
intent.putExtra("lockdown", mLockdown);
intent.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
final PendingIntent configIntent = mSystemServices.pendingIntentGetActivityAsUser(
intent, PendingIntent.FLAG_IMMUTABLE | PendingIntent.FLAG_UPDATE_CURRENT, user);
final Notification.Builder builder =
new Notification.Builder(mContext, SystemNotificationChannels.VPN)
.setSmallIcon(R.drawable.vpn_connected)
.setContentTitle(mContext.getString(R.string.vpn_lockdown_disconnected))
.setContentText(mContext.getString(R.string.vpn_lockdown_config))
.setContentIntent(configIntent)
.setCategory(Notification.CATEGORY_SYSTEM)
.setVisibility(Notification.VISIBILITY_PUBLIC)
.setOngoing(true)
.setColor(mContext.getColor(R.color.system_notification_accent_color));
notificationManager.notifyAsUser(TAG, SystemMessage.NOTE_VPN_DISCONNECTED,
builder.build(), user);
} finally {
Binder.restoreCallingIdentity(token);
}
}
/**
* Facade for system service calls that change, or depend on, state outside of
* {@link ConnectivityService} and have hard-to-mock interfaces.
*
* @see com.android.server.connectivity.VpnTest
*/
@VisibleForTesting
public static class SystemServices {
private final Context mContext;
public SystemServices(@NonNull Context context) {
mContext = context;
}
/**
* @see PendingIntent#getActivityAsUser()
*/
public PendingIntent pendingIntentGetActivityAsUser(
Intent intent, int flags, UserHandle user) {
return PendingIntent.getActivityAsUser(mContext, 0 /*request*/, intent, flags,
null /*options*/, user);
}
/**
* @see Settings.Secure#putStringForUser
*/
public void settingsSecurePutStringForUser(String key, String value, int userId) {
Settings.Secure.putStringForUser(mContext.getContentResolver(), key, value, userId);
}
/**
* @see Settings.Secure#putIntForUser
*/
public void settingsSecurePutIntForUser(String key, int value, int userId) {
Settings.Secure.putIntForUser(mContext.getContentResolver(), key, value, userId);
}
/**
* @see Settings.Secure#getStringForUser
*/
public String settingsSecureGetStringForUser(String key, int userId) {
return Settings.Secure.getStringForUser(mContext.getContentResolver(), key, userId);
}
/**
* @see Settings.Secure#getIntForUser
*/
public int settingsSecureGetIntForUser(String key, int def, int userId) {
return Settings.Secure.getIntForUser(mContext.getContentResolver(), key, def, userId);
}
}
private native int jniCreate(int mtu);
private native String jniGetName(int tun);
private native int jniSetAddresses(String interfaze, String addresses);
private native void jniReset(String interfaze);
private native int jniCheck(String interfaze);
private native boolean jniAddAddress(String interfaze, String address, int prefixLen);
private native boolean jniDelAddress(String interfaze, String address, int prefixLen);
private static RouteInfo findIPv4DefaultRoute(LinkProperties prop) {
for (RouteInfo route : prop.getAllRoutes()) {
// Currently legacy VPN only works on IPv4.
if (route.isDefaultRoute() && route.getGateway() instanceof Inet4Address) {
return route;
}
}
throw new IllegalStateException("Unable to find IPv4 default gateway");
}
/**
* Start legacy VPN, controlling native daemons as needed. Creates a
* secondary thread to perform connection work, returning quickly.
*
* Should only be called to respond to Binder requests as this enforces caller permission. Use
* {@link #startLegacyVpnPrivileged(VpnProfile, KeyStore, LinkProperties)} to skip the
* permission check only when the caller is trusted (or the call is initiated by the system).
*/
public void startLegacyVpn(VpnProfile profile, KeyStore keyStore, LinkProperties egress) {
enforceControlPermission();
long token = Binder.clearCallingIdentity();
try {
startLegacyVpnPrivileged(profile, keyStore, egress);
} finally {
Binder.restoreCallingIdentity(token);
}
}
/**
* Like {@link #startLegacyVpn(VpnProfile, KeyStore, LinkProperties)}, but does not check
* permissions under the assumption that the caller is the system.
*
* Callers are responsible for checking permissions if needed.
*/
public void startLegacyVpnPrivileged(VpnProfile profile, KeyStore keyStore,
LinkProperties egress) {
UserManager mgr = UserManager.get(mContext);
UserInfo user = mgr.getUserInfo(mUserHandle);
if (user.isRestricted() || mgr.hasUserRestriction(UserManager.DISALLOW_CONFIG_VPN,
new UserHandle(mUserHandle))) {
throw new SecurityException("Restricted users cannot establish VPNs");
}
final RouteInfo ipv4DefaultRoute = findIPv4DefaultRoute(egress);
final String gateway = ipv4DefaultRoute.getGateway().getHostAddress();
final String iface = ipv4DefaultRoute.getInterface();
// Load certificates.
String privateKey = "";
String userCert = "";
String caCert = "";
String serverCert = "";
if (!profile.ipsecUserCert.isEmpty()) {
privateKey = Credentials.USER_PRIVATE_KEY + profile.ipsecUserCert;
byte[] value = keyStore.get(Credentials.USER_CERTIFICATE + profile.ipsecUserCert);
userCert = (value == null) ? null : new String(value, StandardCharsets.UTF_8);
}
if (!profile.ipsecCaCert.isEmpty()) {
byte[] value = keyStore.get(Credentials.CA_CERTIFICATE + profile.ipsecCaCert);
caCert = (value == null) ? null : new String(value, StandardCharsets.UTF_8);
}
if (!profile.ipsecServerCert.isEmpty()) {
byte[] value = keyStore.get(Credentials.USER_CERTIFICATE + profile.ipsecServerCert);
serverCert = (value == null) ? null : new String(value, StandardCharsets.UTF_8);
}
if (privateKey == null || userCert == null || caCert == null || serverCert == null) {
throw new IllegalStateException("Cannot load credentials");
}
// Prepare arguments for racoon.
String[] racoon = null;
switch (profile.type) {
case VpnProfile.TYPE_L2TP_IPSEC_PSK:
racoon = new String[] {
iface, profile.server, "udppsk", profile.ipsecIdentifier,
profile.ipsecSecret, "1701",
};
break;
case VpnProfile.TYPE_L2TP_IPSEC_RSA:
racoon = new String[] {
iface, profile.server, "udprsa", privateKey, userCert,
caCert, serverCert, "1701",
};
break;
case VpnProfile.TYPE_IPSEC_XAUTH_PSK:
racoon = new String[] {
iface, profile.server, "xauthpsk", profile.ipsecIdentifier,
profile.ipsecSecret, profile.username, profile.password, "", gateway,
};
break;
case VpnProfile.TYPE_IPSEC_XAUTH_RSA:
racoon = new String[] {
iface, profile.server, "xauthrsa", privateKey, userCert,
caCert, serverCert, profile.username, profile.password, "", gateway,
};
break;
case VpnProfile.TYPE_IPSEC_HYBRID_RSA:
racoon = new String[] {
iface, profile.server, "hybridrsa",
caCert, serverCert, profile.username, profile.password, "", gateway,
};
break;
}
// Prepare arguments for mtpd.
String[] mtpd = null;
switch (profile.type) {
case VpnProfile.TYPE_PPTP:
mtpd = new String[] {
iface, "pptp", profile.server, "1723",
"name", profile.username, "password", profile.password,
"linkname", "vpn", "refuse-eap", "nodefaultroute",
"usepeerdns", "idle", "1800", "mtu", "1400", "mru", "1400",
(profile.mppe ? "+mppe" : "nomppe"),
};
break;
case VpnProfile.TYPE_L2TP_IPSEC_PSK:
case VpnProfile.TYPE_L2TP_IPSEC_RSA:
mtpd = new String[] {
iface, "l2tp", profile.server, "1701", profile.l2tpSecret,
"name", profile.username, "password", profile.password,
"linkname", "vpn", "refuse-eap", "nodefaultroute",
"usepeerdns", "idle", "1800", "mtu", "1400", "mru", "1400",
};
break;
}
VpnConfig config = new VpnConfig();
config.legacy = true;
config.user = profile.key;
config.interfaze = iface;
config.session = profile.name;
config.isMetered = false;
config.proxyInfo = profile.proxy;
config.addLegacyRoutes(profile.routes);
if (!profile.dnsServers.isEmpty()) {
config.dnsServers = Arrays.asList(profile.dnsServers.split(" +"));
}
if (!profile.searchDomains.isEmpty()) {
config.searchDomains = Arrays.asList(profile.searchDomains.split(" +"));
}
startLegacyVpn(config, racoon, mtpd, profile);
}
private synchronized void startLegacyVpn(VpnConfig config, String[] racoon, String[] mtpd,
VpnProfile profile) {
stopLegacyVpnPrivileged();
// Prepare for the new request.
prepareInternal(VpnConfig.LEGACY_VPN);
updateState(DetailedState.CONNECTING, "startLegacyVpn");
// Start a new LegacyVpnRunner and we are done!
mLegacyVpnRunner = new LegacyVpnRunner(config, racoon, mtpd, profile);
mLegacyVpnRunner.start();
}
/** Stop legacy VPN. Permissions must be checked by callers. */
public synchronized void stopLegacyVpnPrivileged() {
if (mLegacyVpnRunner != null) {
mLegacyVpnRunner.exit();
mLegacyVpnRunner = null;
synchronized (LegacyVpnRunner.TAG) {
// wait for old thread to completely finish before spinning up
// new instance, otherwise state updates can be out of order.
}
}
}
/**
* Return the information of the current ongoing legacy VPN.
*/
public synchronized LegacyVpnInfo getLegacyVpnInfo() {
// Check if the caller is authorized.
enforceControlPermission();
return getLegacyVpnInfoPrivileged();
}
/**
* Return the information of the current ongoing legacy VPN.
* Callers are responsible for checking permissions if needed.
*/
public synchronized LegacyVpnInfo getLegacyVpnInfoPrivileged() {
if (mLegacyVpnRunner == null) return null;
final LegacyVpnInfo info = new LegacyVpnInfo();
info.key = mConfig.user;
info.state = LegacyVpnInfo.stateFromNetworkInfo(mNetworkInfo);
if (mNetworkInfo.isConnected()) {
info.intent = mStatusIntent;
}
return info;
}
public VpnConfig getLegacyVpnConfig() {
if (mLegacyVpnRunner != null) {
return mConfig;
} else {
return null;
}
}
/**
* Bringing up a VPN connection takes time, and that is all this thread
* does. Here we have plenty of time. The only thing we need to take
* care of is responding to interruptions as soon as possible. Otherwise
* requests will pile up. This could be done in a Handler as a state
* machine, but it is much easier to read in the current form.
*/
private class LegacyVpnRunner extends Thread {
private static final String TAG = "LegacyVpnRunner";
private final String[] mDaemons;
private final String[][] mArguments;
private final LocalSocket[] mSockets;
private final String mOuterInterface;
private final AtomicInteger mOuterConnection =
new AtomicInteger(ConnectivityManager.TYPE_NONE);
private final VpnProfile mProfile;
private long mBringupStartTime = -1;
/**
* Watch for the outer connection (passing in the constructor) going away.
*/
private final BroadcastReceiver mBroadcastReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
if (!mEnableTeardown) return;
if (intent.getAction().equals(ConnectivityManager.CONNECTIVITY_ACTION)) {
if (intent.getIntExtra(ConnectivityManager.EXTRA_NETWORK_TYPE,
ConnectivityManager.TYPE_NONE) == mOuterConnection.get()) {
NetworkInfo info = (NetworkInfo)intent.getExtra(
ConnectivityManager.EXTRA_NETWORK_INFO);
if (info != null && !info.isConnectedOrConnecting()) {
try {
mObserver.interfaceStatusChanged(mOuterInterface, false);
} catch (RemoteException e) {}
}
}
}
}
};
LegacyVpnRunner(VpnConfig config, String[] racoon, String[] mtpd, VpnProfile profile) {
super(TAG);
mConfig = config;
mDaemons = new String[] {"racoon", "mtpd"};
// TODO: clear arguments from memory once launched
mArguments = new String[][] {racoon, mtpd};
mSockets = new LocalSocket[mDaemons.length];
// This is the interface which VPN is running on,
// mConfig.interfaze will change to point to OUR
// internal interface soon. TODO - add inner/outer to mconfig
// TODO - we have a race - if the outer iface goes away/disconnects before we hit this
// we will leave the VPN up. We should check that it's still there/connected after
// registering
mOuterInterface = mConfig.interfaze;
mProfile = profile;
if (!TextUtils.isEmpty(mOuterInterface)) {
final ConnectivityManager cm = ConnectivityManager.from(mContext);
for (Network network : cm.getAllNetworks()) {
final LinkProperties lp = cm.getLinkProperties(network);
if (lp != null && lp.getAllInterfaceNames().contains(mOuterInterface)) {
final NetworkInfo networkInfo = cm.getNetworkInfo(network);
if (networkInfo != null) mOuterConnection.set(networkInfo.getType());
}
}
}
IntentFilter filter = new IntentFilter();
filter.addAction(ConnectivityManager.CONNECTIVITY_ACTION);
mContext.registerReceiver(mBroadcastReceiver, filter);
}
public void check(String interfaze) {
if (interfaze.equals(mOuterInterface)) {
Log.i(TAG, "Legacy VPN is going down with " + interfaze);
exit();
}
}
public void exit() {
// We assume that everything is reset after stopping the daemons.
interrupt();
agentDisconnect();
try {
mContext.unregisterReceiver(mBroadcastReceiver);
} catch (IllegalArgumentException e) {}
}
@Override
public void run() {
// Wait for the previous thread since it has been interrupted.
Log.v(TAG, "Waiting");
synchronized (TAG) {
Log.v(TAG, "Executing");
try {
bringup();
waitForDaemonsToStop();
interrupted(); // Clear interrupt flag if execute called exit.
} catch (InterruptedException e) {
} finally {
for (LocalSocket socket : mSockets) {
IoUtils.closeQuietly(socket);
}
// This sleep is necessary for racoon to successfully complete sending delete
// message to server.
try {
Thread.sleep(50);
} catch (InterruptedException e) {
}
for (String daemon : mDaemons) {
SystemService.stop(daemon);
}
}
agentDisconnect();
}
}
private void checkInterruptAndDelay(boolean sleepLonger) throws InterruptedException {
long now = SystemClock.elapsedRealtime();
if (now - mBringupStartTime <= 60000) {
Thread.sleep(sleepLonger ? 200 : 1);
} else {
updateState(DetailedState.FAILED, "checkpoint");
throw new IllegalStateException("VPN bringup took too long");
}
}
private void bringup() {
// Catch all exceptions so we can clean up a few things.
boolean initFinished = false;
try {
// Initialize the timer.
mBringupStartTime = SystemClock.elapsedRealtime();
// Wait for the daemons to stop.
for (String daemon : mDaemons) {
while (!SystemService.isStopped(daemon)) {
checkInterruptAndDelay(true);
}
}
// Clear the previous state.
File state = new File("/data/misc/vpn/state");
state.delete();
if (state.exists()) {
throw new IllegalStateException("Cannot delete the state");
}
new File("/data/misc/vpn/abort").delete();
initFinished = true;
// Check if we need to restart any of the daemons.
boolean restart = false;
for (String[] arguments : mArguments) {
restart = restart || (arguments != null);
}
if (!restart) {
agentDisconnect();
return;
}
updateState(DetailedState.CONNECTING, "execute");
// Start the daemon with arguments.
for (int i = 0; i < mDaemons.length; ++i) {
String[] arguments = mArguments[i];
if (arguments == null) {
continue;
}
// Start the daemon.
String daemon = mDaemons[i];
SystemService.start(daemon);
// Wait for the daemon to start.
while (!SystemService.isRunning(daemon)) {
checkInterruptAndDelay(true);
}
// Create the control socket.
mSockets[i] = new LocalSocket();
LocalSocketAddress address = new LocalSocketAddress(
daemon, LocalSocketAddress.Namespace.RESERVED);
// Wait for the socket to connect.
while (true) {
try {
mSockets[i].connect(address);
break;
} catch (Exception e) {
// ignore
}
checkInterruptAndDelay(true);
}
mSockets[i].setSoTimeout(500);
// Send over the arguments.
OutputStream out = mSockets[i].getOutputStream();
for (String argument : arguments) {
byte[] bytes = argument.getBytes(StandardCharsets.UTF_8);
if (bytes.length >= 0xFFFF) {
throw new IllegalArgumentException("Argument is too large");
}
out.write(bytes.length >> 8);
out.write(bytes.length);
out.write(bytes);
checkInterruptAndDelay(false);
}
out.write(0xFF);
out.write(0xFF);
out.flush();
// Wait for End-of-File.
InputStream in = mSockets[i].getInputStream();
while (true) {
try {
if (in.read() == -1) {
break;
}
} catch (Exception e) {
// ignore
}
checkInterruptAndDelay(true);
}
}
// Wait for the daemons to create the new state.
while (!state.exists()) {
// Check if a running daemon is dead.
for (int i = 0; i < mDaemons.length; ++i) {
String daemon = mDaemons[i];
if (mArguments[i] != null && !SystemService.isRunning(daemon)) {
throw new IllegalStateException(daemon + " is dead");
}
}
checkInterruptAndDelay(true);
}
// Now we are connected. Read and parse the new state.
String[] parameters = FileUtils.readTextFile(state, 0, null).split("\n", -1);
if (parameters.length != 7) {
throw new IllegalStateException("Cannot parse the state");
}
// Set the interface and the addresses in the config.
mConfig.interfaze = parameters[0].trim();
mConfig.addLegacyAddresses(parameters[1]);
// Set the routes if they are not set in the config.
if (mConfig.routes == null || mConfig.routes.isEmpty()) {
mConfig.addLegacyRoutes(parameters[2]);
}
// Set the DNS servers if they are not set in the config.
if (mConfig.dnsServers == null || mConfig.dnsServers.size() == 0) {
String dnsServers = parameters[3].trim();
if (!dnsServers.isEmpty()) {
mConfig.dnsServers = Arrays.asList(dnsServers.split(" "));
}
}
// Set the search domains if they are not set in the config.
if (mConfig.searchDomains == null || mConfig.searchDomains.size() == 0) {
String searchDomains = parameters[4].trim();
if (!searchDomains.isEmpty()) {
mConfig.searchDomains = Arrays.asList(searchDomains.split(" "));
}
}
// Add a throw route for the VPN server endpoint, if one was specified.
String endpoint = parameters[5].isEmpty() ? mProfile.server : parameters[5];
if (!endpoint.isEmpty()) {
try {
InetAddress addr = InetAddress.parseNumericAddress(endpoint);
if (addr instanceof Inet4Address) {
mConfig.routes.add(new RouteInfo(new IpPrefix(addr, 32), RTN_THROW));
} else if (addr instanceof Inet6Address) {
mConfig.routes.add(new RouteInfo(new IpPrefix(addr, 128), RTN_THROW));
} else {
Log.e(TAG, "Unknown IP address family for VPN endpoint: " + endpoint);
}
} catch (IllegalArgumentException e) {
Log.e(TAG, "Exception constructing throw route to " + endpoint + ": " + e);
}
}
// Here is the last step and it must be done synchronously.
synchronized (Vpn.this) {
// Set the start time
mConfig.startTime = SystemClock.elapsedRealtime();
// Check if the thread was interrupted while we were waiting on the lock.
checkInterruptAndDelay(false);
// Check if the interface is gone while we are waiting.
if (jniCheck(mConfig.interfaze) == 0) {
throw new IllegalStateException(mConfig.interfaze + " is gone");
}
// Now INetworkManagementEventObserver is watching our back.
mInterface = mConfig.interfaze;
prepareStatusIntent();
agentConnect();
Log.i(TAG, "Connected!");
}
} catch (Exception e) {
Log.i(TAG, "Aborting", e);
updateState(DetailedState.FAILED, e.getMessage());
exit();
}
}
/**
* Check all daemons every two seconds. Return when one of them is stopped.
* The caller will move to the disconnected state when this function returns,
* which can happen if a daemon failed or if the VPN was torn down.
*/
private void waitForDaemonsToStop() throws InterruptedException {
if (!mNetworkInfo.isConnected()) {
return;
}
while (true) {
Thread.sleep(2000);
for (int i = 0; i < mDaemons.length; i++) {
if (mArguments[i] != null && SystemService.isStopped(mDaemons[i])) {
return;
}
}
}
}
}
}