Java程序
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24654行
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1.09 MB
/*
* Copyright (C) 2006 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.pm;
import static android.Manifest.permission.DELETE_PACKAGES;
import static android.Manifest.permission.INSTALL_PACKAGES;
import static android.Manifest.permission.MANAGE_DEVICE_ADMINS;
import static android.Manifest.permission.MANAGE_PROFILE_AND_DEVICE_OWNERS;
import static android.Manifest.permission.READ_EXTERNAL_STORAGE;
import static android.Manifest.permission.REQUEST_DELETE_PACKAGES;
import static android.Manifest.permission.SET_HARMFUL_APP_WARNINGS;
import static android.Manifest.permission.WRITE_EXTERNAL_STORAGE;
import static android.content.pm.PackageManager.CERT_INPUT_RAW_X509;
import static android.content.pm.PackageManager.CERT_INPUT_SHA256;
import static android.content.pm.PackageManager.COMPONENT_ENABLED_STATE_DEFAULT;
import static android.content.pm.PackageManager.COMPONENT_ENABLED_STATE_DISABLED;
import static android.content.pm.PackageManager.COMPONENT_ENABLED_STATE_DISABLED_UNTIL_USED;
import static android.content.pm.PackageManager.COMPONENT_ENABLED_STATE_DISABLED_USER;
import static android.content.pm.PackageManager.COMPONENT_ENABLED_STATE_ENABLED;
import static android.content.pm.PackageManager.DELETE_KEEP_DATA;
import static android.content.pm.PackageManager.FLAG_PERMISSION_GRANTED_BY_DEFAULT;
import static android.content.pm.PackageManager.FLAG_PERMISSION_POLICY_FIXED;
import static android.content.pm.PackageManager.FLAG_PERMISSION_REVIEW_REQUIRED;
import static android.content.pm.PackageManager.FLAG_PERMISSION_REVOKE_ON_UPGRADE;
import static android.content.pm.PackageManager.FLAG_PERMISSION_SYSTEM_FIXED;
import static android.content.pm.PackageManager.FLAG_PERMISSION_USER_FIXED;
import static android.content.pm.PackageManager.FLAG_PERMISSION_USER_SET;
import static android.content.pm.PackageManager.INSTALL_EXTERNAL;
import static android.content.pm.PackageManager.INSTALL_FAILED_ALREADY_EXISTS;
import static android.content.pm.PackageManager.INSTALL_FAILED_CONFLICTING_PROVIDER;
import static android.content.pm.PackageManager.INSTALL_FAILED_DUPLICATE_PACKAGE;
import static android.content.pm.PackageManager.INSTALL_FAILED_DUPLICATE_PERMISSION;
import static android.content.pm.PackageManager.INSTALL_FAILED_INSTANT_APP_INVALID;
import static android.content.pm.PackageManager.INSTALL_FAILED_INSUFFICIENT_STORAGE;
import static android.content.pm.PackageManager.INSTALL_FAILED_INTERNAL_ERROR;
import static android.content.pm.PackageManager.INSTALL_FAILED_INVALID_APK;
import static android.content.pm.PackageManager.INSTALL_FAILED_INVALID_INSTALL_LOCATION;
import static android.content.pm.PackageManager.INSTALL_FAILED_MISSING_SHARED_LIBRARY;
import static android.content.pm.PackageManager.INSTALL_FAILED_PACKAGE_CHANGED;
import static android.content.pm.PackageManager.INSTALL_FAILED_REPLACE_COULDNT_DELETE;
import static android.content.pm.PackageManager.INSTALL_FAILED_SHARED_USER_INCOMPATIBLE;
import static android.content.pm.PackageManager.INSTALL_FAILED_TEST_ONLY;
import static android.content.pm.PackageManager.INSTALL_FAILED_UPDATE_INCOMPATIBLE;
import static android.content.pm.PackageManager.INSTALL_FAILED_VERSION_DOWNGRADE;
import static android.content.pm.PackageManager.INSTALL_INTERNAL;
import static android.content.pm.PackageManager.INSTALL_PARSE_FAILED_INCONSISTENT_CERTIFICATES;
import static android.content.pm.PackageManager.INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS;
import static android.content.pm.PackageManager.INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS_ASK;
import static android.content.pm.PackageManager.INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ASK;
import static android.content.pm.PackageManager.INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER;
import static android.content.pm.PackageManager.INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED;
import static android.content.pm.PackageManager.MATCH_ALL;
import static android.content.pm.PackageManager.MATCH_ANY_USER;
import static android.content.pm.PackageManager.MATCH_DEBUG_TRIAGED_MISSING;
import static android.content.pm.PackageManager.MATCH_DIRECT_BOOT_AWARE;
import static android.content.pm.PackageManager.MATCH_DIRECT_BOOT_UNAWARE;
import static android.content.pm.PackageManager.MATCH_DISABLED_COMPONENTS;
import static android.content.pm.PackageManager.MATCH_FACTORY_ONLY;
import static android.content.pm.PackageManager.MATCH_KNOWN_PACKAGES;
import static android.content.pm.PackageManager.MATCH_SYSTEM_ONLY;
import static android.content.pm.PackageManager.MATCH_UNINSTALLED_PACKAGES;
import static android.content.pm.PackageManager.MOVE_FAILED_3RD_PARTY_NOT_ALLOWED_ON_INTERNAL;
import static android.content.pm.PackageManager.MOVE_FAILED_DEVICE_ADMIN;
import static android.content.pm.PackageManager.MOVE_FAILED_DOESNT_EXIST;
import static android.content.pm.PackageManager.MOVE_FAILED_INTERNAL_ERROR;
import static android.content.pm.PackageManager.MOVE_FAILED_LOCKED_USER;
import static android.content.pm.PackageManager.MOVE_FAILED_OPERATION_PENDING;
import static android.content.pm.PackageManager.MOVE_FAILED_SYSTEM_PACKAGE;
import static android.content.pm.PackageManager.PERMISSION_DENIED;
import static android.content.pm.PackageManager.PERMISSION_GRANTED;
import static android.content.pm.PackageParser.isApkFile;
import static android.os.Trace.TRACE_TAG_PACKAGE_MANAGER;
import static android.os.storage.StorageManager.FLAG_STORAGE_CE;
import static android.os.storage.StorageManager.FLAG_STORAGE_DE;
import static android.system.OsConstants.O_CREAT;
import static android.system.OsConstants.O_RDWR;
import static com.android.internal.app.IntentForwarderActivity.FORWARD_INTENT_TO_MANAGED_PROFILE;
import static com.android.internal.app.IntentForwarderActivity.FORWARD_INTENT_TO_PARENT;
import static com.android.internal.content.NativeLibraryHelper.LIB64_DIR_NAME;
import static com.android.internal.content.NativeLibraryHelper.LIB_DIR_NAME;
import static com.android.internal.util.ArrayUtils.appendInt;
import static com.android.server.pm.InstructionSets.getAppDexInstructionSets;
import static com.android.server.pm.InstructionSets.getDexCodeInstructionSet;
import static com.android.server.pm.InstructionSets.getDexCodeInstructionSets;
import static com.android.server.pm.InstructionSets.getPreferredInstructionSet;
import static com.android.server.pm.InstructionSets.getPrimaryInstructionSet;
import static com.android.server.pm.PackageManagerServiceCompilerMapping.getDefaultCompilerFilter;
import static com.android.server.pm.PackageManagerServiceUtils.compareSignatures;
import static com.android.server.pm.PackageManagerServiceUtils.compressedFileExists;
import static com.android.server.pm.PackageManagerServiceUtils.decompressFile;
import static com.android.server.pm.PackageManagerServiceUtils.deriveAbiOverride;
import static com.android.server.pm.PackageManagerServiceUtils.dumpCriticalInfo;
import static com.android.server.pm.PackageManagerServiceUtils.getCompressedFiles;
import static com.android.server.pm.PackageManagerServiceUtils.getLastModifiedTime;
import static com.android.server.pm.PackageManagerServiceUtils.logCriticalInfo;
import static com.android.server.pm.PackageManagerServiceUtils.verifySignatures;
import static com.android.server.pm.permission.PermissionsState.PERMISSION_OPERATION_FAILURE;
import static com.android.server.pm.permission.PermissionsState.PERMISSION_OPERATION_SUCCESS;
import static com.android.server.pm.permission.PermissionsState.PERMISSION_OPERATION_SUCCESS_GIDS_CHANGED;
import android.Manifest;
import android.annotation.IntDef;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.annotation.UserIdInt;
import android.app.ActivityManager;
import android.app.ActivityManagerInternal;
import android.app.AppOpsManager;
import android.app.IActivityManager;
import android.app.ResourcesManager;
import android.app.admin.IDevicePolicyManager;
import android.app.admin.SecurityLog;
import android.app.backup.IBackupManager;
import android.content.BroadcastReceiver;
import android.content.ComponentName;
import android.content.ContentResolver;
import android.content.Context;
import android.content.IIntentReceiver;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.IntentSender;
import android.content.IntentSender.SendIntentException;
import android.content.ServiceConnection;
import android.content.pm.ActivityInfo;
import android.content.pm.ApplicationInfo;
import android.content.pm.AppsQueryHelper;
import android.content.pm.AuxiliaryResolveInfo;
import android.content.pm.ChangedPackages;
import android.content.pm.ComponentInfo;
import android.content.pm.FallbackCategoryProvider;
import android.content.pm.FeatureInfo;
import android.content.pm.IDexModuleRegisterCallback;
import android.content.pm.IOnPermissionsChangeListener;
import android.content.pm.IPackageDataObserver;
import android.content.pm.IPackageDeleteObserver;
import android.content.pm.IPackageDeleteObserver2;
import android.content.pm.IPackageInstallObserver2;
import android.content.pm.IPackageInstaller;
import android.content.pm.IPackageManager;
import android.content.pm.IPackageManagerNative;
import android.content.pm.IPackageMoveObserver;
import android.content.pm.IPackageStatsObserver;
import android.content.pm.InstantAppInfo;
import android.content.pm.InstantAppRequest;
import android.content.pm.InstantAppResolveInfo;
import android.content.pm.InstrumentationInfo;
import android.content.pm.IntentFilterVerificationInfo;
import android.content.pm.KeySet;
import android.content.pm.PackageCleanItem;
import android.content.pm.PackageInfo;
import android.content.pm.PackageInfoLite;
import android.content.pm.PackageInstaller;
import android.content.pm.PackageList;
import android.content.pm.PackageManager;
import android.content.pm.PackageManager.LegacyPackageDeleteObserver;
import android.content.pm.PackageManagerInternal;
import android.content.pm.PackageManagerInternal.PackageListObserver;
import android.content.pm.PackageParser;
import android.content.pm.PackageParser.ActivityIntentInfo;
import android.content.pm.PackageParser.Package;
import android.content.pm.PackageParser.PackageLite;
import android.content.pm.PackageParser.PackageParserException;
import android.content.pm.PackageParser.ParseFlags;
import android.content.pm.PackageParser.ServiceIntentInfo;
import android.content.pm.PackageParser.SigningDetails;
import android.content.pm.PackageParser.SigningDetails.SignatureSchemeVersion;
import android.content.pm.PackageStats;
import android.content.pm.PackageUserState;
import android.content.pm.ParceledListSlice;
import android.content.pm.PermissionGroupInfo;
import android.content.pm.PermissionInfo;
import android.content.pm.ProviderInfo;
import android.content.pm.ResolveInfo;
import android.content.pm.SELinuxUtil;
import android.content.pm.ServiceInfo;
import android.content.pm.SharedLibraryInfo;
import android.content.pm.Signature;
import android.content.pm.UserInfo;
import android.content.pm.VerifierDeviceIdentity;
import android.content.pm.VerifierInfo;
import android.content.pm.VersionedPackage;
import android.content.pm.dex.ArtManager;
import android.content.pm.dex.DexMetadataHelper;
import android.content.pm.dex.IArtManager;
import android.content.res.Resources;
import android.database.ContentObserver;
import android.graphics.Bitmap;
import android.hardware.display.DisplayManager;
import android.net.Uri;
import android.os.AsyncTask;
import android.os.Binder;
import android.os.Build;
import android.os.Bundle;
import android.os.Debug;
import android.os.Environment;
import android.os.Environment.UserEnvironment;
import android.os.FileUtils;
import android.os.Handler;
import android.os.IBinder;
import android.os.Looper;
import android.os.Message;
import android.os.Parcel;
import android.os.ParcelFileDescriptor;
import android.os.PatternMatcher;
import android.os.PersistableBundle;
import android.os.Process;
import android.os.RemoteCallbackList;
import android.os.RemoteException;
import android.os.ResultReceiver;
import android.os.SELinux;
import android.os.ServiceManager;
import android.os.ShellCallback;
import android.os.SystemClock;
import android.os.SystemProperties;
import android.os.Trace;
import android.os.UserHandle;
import android.os.UserManager;
import android.os.UserManagerInternal;
import android.os.storage.IStorageManager;
import android.os.storage.StorageEventListener;
import android.os.storage.StorageManager;
import android.os.storage.StorageManagerInternal;
import android.os.storage.VolumeInfo;
import android.os.storage.VolumeRecord;
import android.provider.Settings.Global;
import android.provider.Settings.Secure;
import android.security.KeyStore;
import android.security.SystemKeyStore;
import android.service.pm.PackageServiceDumpProto;
import android.system.ErrnoException;
import android.system.Os;
import android.text.TextUtils;
import android.text.format.DateUtils;
import android.util.ArrayMap;
import android.util.ArraySet;
import android.util.Base64;
import android.util.ByteStringUtils;
import android.util.DisplayMetrics;
import android.util.EventLog;
import android.util.ExceptionUtils;
import android.util.Log;
import android.util.LogPrinter;
import android.util.LongSparseArray;
import android.util.LongSparseLongArray;
import android.util.MathUtils;
import android.util.PackageUtils;
import android.util.Pair;
import android.util.PrintStreamPrinter;
import android.util.Slog;
import android.util.SparseArray;
import android.util.SparseBooleanArray;
import android.util.SparseIntArray;
import android.util.TimingsTraceLog;
import android.util.Xml;
import android.util.jar.StrictJarFile;
import android.util.proto.ProtoOutputStream;
import android.view.Display;
import com.android.internal.R;
import com.android.internal.annotations.GuardedBy;
import com.android.internal.app.IMediaContainerService;
import com.android.internal.app.ResolverActivity;
import com.android.internal.content.NativeLibraryHelper;
import com.android.internal.content.PackageHelper;
import com.android.internal.logging.MetricsLogger;
import com.android.internal.os.IParcelFileDescriptorFactory;
import com.android.internal.os.SomeArgs;
import com.android.internal.os.Zygote;
import com.android.internal.telephony.CarrierAppUtils;
import com.android.internal.util.ArrayUtils;
import com.android.internal.util.ConcurrentUtils;
import com.android.internal.util.DumpUtils;
import com.android.internal.util.FastXmlSerializer;
import com.android.internal.util.IndentingPrintWriter;
import com.android.internal.util.Preconditions;
import com.android.internal.util.XmlUtils;
import com.android.server.AttributeCache;
import com.android.server.DeviceIdleController;
import com.android.server.EventLogTags;
import com.android.server.FgThread;
import com.android.server.IntentResolver;
import com.android.server.LocalServices;
import com.android.server.LockGuard;
import com.android.server.ServiceThread;
import com.android.server.SystemConfig;
import com.android.server.SystemServerInitThreadPool;
import com.android.server.Watchdog;
import com.android.server.net.NetworkPolicyManagerInternal;
import com.android.server.pm.Installer.InstallerException;
import com.android.server.pm.Settings.DatabaseVersion;
import com.android.server.pm.Settings.VersionInfo;
import com.android.server.pm.dex.ArtManagerService;
import com.android.server.pm.dex.DexLogger;
import com.android.server.pm.dex.DexManager;
import com.android.server.pm.dex.DexoptOptions;
import com.android.server.pm.dex.PackageDexUsage;
import com.android.server.pm.permission.BasePermission;
import com.android.server.pm.permission.DefaultPermissionGrantPolicy;
import com.android.server.pm.permission.DefaultPermissionGrantPolicy.DefaultPermissionGrantedCallback;
import com.android.server.pm.permission.PermissionManagerInternal;
import com.android.server.pm.permission.PermissionManagerInternal.PermissionCallback;
import com.android.server.pm.permission.PermissionManagerService;
import com.android.server.pm.permission.PermissionsState;
import com.android.server.pm.permission.PermissionsState.PermissionState;
import com.android.server.security.VerityUtils;
import com.android.server.storage.DeviceStorageMonitorInternal;
import dalvik.system.CloseGuard;
import dalvik.system.VMRuntime;
import libcore.io.IoUtils;
import org.xmlpull.v1.XmlPullParser;
import org.xmlpull.v1.XmlPullParserException;
import org.xmlpull.v1.XmlSerializer;
import java.io.BufferedOutputStream;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.FileDescriptor;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.FilenameFilter;
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.security.DigestException;
import java.security.DigestInputStream;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import java.security.PublicKey;
import java.security.SecureRandom;
import java.security.cert.CertificateException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.function.Predicate;
/**
* Keep track of all those APKs everywhere.
* <p>
* Internally there are two important locks:
* <ul>
* <li>{@link #mPackages} is used to guard all in-memory parsed package details
* and other related state. It is a fine-grained lock that should only be held
* momentarily, as it's one of the most contended locks in the system.
* <li>{@link #mInstallLock} is used to guard all {@code installd} access, whose
* operations typically involve heavy lifting of application data on disk. Since
* {@code installd} is single-threaded, and it's operations can often be slow,
* this lock should never be acquired while already holding {@link #mPackages}.
* Conversely, it's safe to acquire {@link #mPackages} momentarily while already
* holding {@link #mInstallLock}.
* </ul>
* Many internal methods rely on the caller to hold the appropriate locks, and
* this contract is expressed through method name suffixes:
* <ul>
* <li>fooLI(): the caller must hold {@link #mInstallLock}
* <li>fooLIF(): the caller must hold {@link #mInstallLock} and the package
* being modified must be frozen
* <li>fooLPr(): the caller must hold {@link #mPackages} for reading
* <li>fooLPw(): the caller must hold {@link #mPackages} for writing
* </ul>
* <p>
* Because this class is very central to the platform's security; please run all
* CTS and unit tests whenever making modifications:
*
* <pre>
* $ runtest -c android.content.pm.PackageManagerTests frameworks-core
* $ cts-tradefed run commandAndExit cts -m CtsAppSecurityHostTestCases
* </pre>
*/
public class PackageManagerService extends IPackageManager.Stub
implements PackageSender {
static final String TAG = "PackageManager";
public static final boolean DEBUG_SETTINGS = false;
static final boolean DEBUG_PREFERRED = false;
static final boolean DEBUG_UPGRADE = false;
static final boolean DEBUG_DOMAIN_VERIFICATION = false;
private static final boolean DEBUG_BACKUP = false;
public static final boolean DEBUG_INSTALL = false;
public static final boolean DEBUG_REMOVE = false;
private static final boolean DEBUG_BROADCASTS = false;
private static final boolean DEBUG_SHOW_INFO = false;
private static final boolean DEBUG_PACKAGE_INFO = false;
private static final boolean DEBUG_INTENT_MATCHING = false;
public static final boolean DEBUG_PACKAGE_SCANNING = false;
private static final boolean DEBUG_VERIFY = false;
private static final boolean DEBUG_FILTERS = false;
public static final boolean DEBUG_PERMISSIONS = false;
private static final boolean DEBUG_SHARED_LIBRARIES = false;
public static final boolean DEBUG_COMPRESSION = Build.IS_DEBUGGABLE;
// Debug output for dexopting. This is shared between PackageManagerService, OtaDexoptService
// and PackageDexOptimizer. All these classes have their own flag to allow switching a single
// user, but by default initialize to this.
public static final boolean DEBUG_DEXOPT = false;
private static final boolean DEBUG_ABI_SELECTION = false;
private static final boolean DEBUG_INSTANT = Build.IS_DEBUGGABLE;
private static final boolean DEBUG_TRIAGED_MISSING = false;
private static final boolean DEBUG_APP_DATA = false;
/** REMOVE. According to Svet, this was only used to reset permissions during development. */
static final boolean CLEAR_RUNTIME_PERMISSIONS_ON_UPGRADE = false;
private static final boolean HIDE_EPHEMERAL_APIS = false;
private static final boolean ENABLE_FREE_CACHE_V2 =
SystemProperties.getBoolean("fw.free_cache_v2", true);
private static final int RADIO_UID = Process.PHONE_UID;
private static final int LOG_UID = Process.LOG_UID;
private static final int NFC_UID = Process.NFC_UID;
private static final int BLUETOOTH_UID = Process.BLUETOOTH_UID;
private static final int SHELL_UID = Process.SHELL_UID;
private static final int SE_UID = Process.SE_UID;
// Suffix used during package installation when copying/moving
// package apks to install directory.
private static final String INSTALL_PACKAGE_SUFFIX = "-";
static final int SCAN_NO_DEX = 1<<0;
static final int SCAN_UPDATE_SIGNATURE = 1<<1;
static final int SCAN_NEW_INSTALL = 1<<2;
static final int SCAN_UPDATE_TIME = 1<<3;
static final int SCAN_BOOTING = 1<<4;
static final int SCAN_DELETE_DATA_ON_FAILURES = 1<<6;
static final int SCAN_REQUIRE_KNOWN = 1<<7;
static final int SCAN_MOVE = 1<<8;
static final int SCAN_INITIAL = 1<<9;
static final int SCAN_CHECK_ONLY = 1<<10;
static final int SCAN_DONT_KILL_APP = 1<<11;
static final int SCAN_IGNORE_FROZEN = 1<<12;
static final int SCAN_FIRST_BOOT_OR_UPGRADE = 1<<13;
static final int SCAN_AS_INSTANT_APP = 1<<14;
static final int SCAN_AS_FULL_APP = 1<<15;
static final int SCAN_AS_VIRTUAL_PRELOAD = 1<<16;
static final int SCAN_AS_SYSTEM = 1<<17;
static final int SCAN_AS_PRIVILEGED = 1<<18;
static final int SCAN_AS_OEM = 1<<19;
static final int SCAN_AS_VENDOR = 1<<20;
static final int SCAN_AS_PRODUCT = 1<<21;
@IntDef(flag = true, prefix = { "SCAN_" }, value = {
SCAN_NO_DEX,
SCAN_UPDATE_SIGNATURE,
SCAN_NEW_INSTALL,
SCAN_UPDATE_TIME,
SCAN_BOOTING,
SCAN_DELETE_DATA_ON_FAILURES,
SCAN_REQUIRE_KNOWN,
SCAN_MOVE,
SCAN_INITIAL,
SCAN_CHECK_ONLY,
SCAN_DONT_KILL_APP,
SCAN_IGNORE_FROZEN,
SCAN_FIRST_BOOT_OR_UPGRADE,
SCAN_AS_INSTANT_APP,
SCAN_AS_FULL_APP,
SCAN_AS_VIRTUAL_PRELOAD,
})
@Retention(RetentionPolicy.SOURCE)
public @interface ScanFlags {}
private static final String STATIC_SHARED_LIB_DELIMITER = "_";
/** Extension of the compressed packages */
public final static String COMPRESSED_EXTENSION = ".gz";
/** Suffix of stub packages on the system partition */
public final static String STUB_SUFFIX = "-Stub";
private static final int[] EMPTY_INT_ARRAY = new int[0];
private static final int TYPE_UNKNOWN = 0;
private static final int TYPE_ACTIVITY = 1;
private static final int TYPE_RECEIVER = 2;
private static final int TYPE_SERVICE = 3;
private static final int TYPE_PROVIDER = 4;
@IntDef(prefix = { "TYPE_" }, value = {
TYPE_UNKNOWN,
TYPE_ACTIVITY,
TYPE_RECEIVER,
TYPE_SERVICE,
TYPE_PROVIDER,
})
@Retention(RetentionPolicy.SOURCE)
public @interface ComponentType {}
/**
* Timeout (in milliseconds) after which the watchdog should declare that
* our handler thread is wedged. The usual default for such things is one
* minute but we sometimes do very lengthy I/O operations on this thread,
* such as installing multi-gigabyte applications, so ours needs to be longer.
*/
static final long WATCHDOG_TIMEOUT = 1000*60*10; // ten minutes
/**
* Wall-clock timeout (in milliseconds) after which we *require* that an fstrim
* be run on this device. We use the value in the Settings.Global.MANDATORY_FSTRIM_INTERVAL
* settings entry if available, otherwise we use the hardcoded default. If it's been
* more than this long since the last fstrim, we force one during the boot sequence.
*
* This backstops other fstrim scheduling: if the device is alive at midnight+idle,
* one gets run at the next available charging+idle time. This final mandatory
* no-fstrim check kicks in only of the other scheduling criteria is never met.
*/
private static final long DEFAULT_MANDATORY_FSTRIM_INTERVAL = 3 * DateUtils.DAY_IN_MILLIS;
/**
* Whether verification is enabled by default.
*/
private static final boolean DEFAULT_VERIFY_ENABLE = true;
/**
* The default maximum time to wait for the verification agent to return in
* milliseconds.
*/
private static final long DEFAULT_VERIFICATION_TIMEOUT = 10 * 1000;
/**
* The default response for package verification timeout.
*
* This can be either PackageManager.VERIFICATION_ALLOW or
* PackageManager.VERIFICATION_REJECT.
*/
private static final int DEFAULT_VERIFICATION_RESPONSE = PackageManager.VERIFICATION_ALLOW;
public static final String PLATFORM_PACKAGE_NAME = "android";
public static final String DEFAULT_CONTAINER_PACKAGE = "com.android.defcontainer";
public static final ComponentName DEFAULT_CONTAINER_COMPONENT = new ComponentName(
DEFAULT_CONTAINER_PACKAGE,
"com.android.defcontainer.DefaultContainerService");
private static final String KILL_APP_REASON_GIDS_CHANGED =
"permission grant or revoke changed gids";
private static final String KILL_APP_REASON_PERMISSIONS_REVOKED =
"permissions revoked";
private static final String PACKAGE_MIME_TYPE = "application/vnd.android.package-archive";
private static final String PACKAGE_SCHEME = "package";
private static final String VENDOR_OVERLAY_DIR = "/vendor/overlay";
private static final String PRODUCT_OVERLAY_DIR = "/product/overlay";
/** Canonical intent used to identify what counts as a "web browser" app */
private static final Intent sBrowserIntent;
static {
sBrowserIntent = new Intent();
sBrowserIntent.setAction(Intent.ACTION_VIEW);
sBrowserIntent.addCategory(Intent.CATEGORY_BROWSABLE);
sBrowserIntent.setData(Uri.parse("http:"));
sBrowserIntent.addFlags(Intent.FLAG_IGNORE_EPHEMERAL);
}
/**
* The set of all protected actions [i.e. those actions for which a high priority
* intent filter is disallowed].
*/
private static final Set<String> PROTECTED_ACTIONS = new ArraySet<>();
static {
PROTECTED_ACTIONS.add(Intent.ACTION_SEND);
PROTECTED_ACTIONS.add(Intent.ACTION_SENDTO);
PROTECTED_ACTIONS.add(Intent.ACTION_SEND_MULTIPLE);
PROTECTED_ACTIONS.add(Intent.ACTION_VIEW);
}
// Compilation reasons.
public static final int REASON_UNKNOWN = -1;
public static final int REASON_FIRST_BOOT = 0;
public static final int REASON_BOOT = 1;
public static final int REASON_INSTALL = 2;
public static final int REASON_BACKGROUND_DEXOPT = 3;
public static final int REASON_AB_OTA = 4;
public static final int REASON_INACTIVE_PACKAGE_DOWNGRADE = 5;
public static final int REASON_SHARED = 6;
public static final int REASON_LAST = REASON_SHARED;
/**
* Version number for the package parser cache. Increment this whenever the format or
* extent of cached data changes. See {@code PackageParser#setCacheDir}.
*/
private static final String PACKAGE_PARSER_CACHE_VERSION = "1";
/**
* Whether the package parser cache is enabled.
*/
private static final boolean DEFAULT_PACKAGE_PARSER_CACHE_ENABLED = true;
/**
* Permissions required in order to receive instant application lifecycle broadcasts.
*/
private static final String[] INSTANT_APP_BROADCAST_PERMISSION =
new String[] { android.Manifest.permission.ACCESS_INSTANT_APPS };
final ServiceThread mHandlerThread;
final PackageHandler mHandler;
private final ProcessLoggingHandler mProcessLoggingHandler;
/**
* Messages for {@link #mHandler} that need to wait for system ready before
* being dispatched.
*/
private ArrayList<Message> mPostSystemReadyMessages;
final int mSdkVersion = Build.VERSION.SDK_INT;
final Context mContext;
final boolean mFactoryTest;
final boolean mOnlyCore;
final DisplayMetrics mMetrics;
final int mDefParseFlags;
final String[] mSeparateProcesses;
final boolean mIsUpgrade;
final boolean mIsPreNUpgrade;
final boolean mIsPreNMR1Upgrade;
// Have we told the Activity Manager to whitelist the default container service by uid yet?
@GuardedBy("mPackages")
boolean mDefaultContainerWhitelisted = false;
@GuardedBy("mPackages")
private boolean mDexOptDialogShown;
// Used for privilege escalation. MUST NOT BE CALLED WITH mPackages
// LOCK HELD. Can be called with mInstallLock held.
@GuardedBy("mInstallLock")
final Installer mInstaller;
/** Directory where installed applications are stored */
private static final File sAppInstallDir =
new File(Environment.getDataDirectory(), "app");
/** Directory where installed application's 32-bit native libraries are copied. */
private static final File sAppLib32InstallDir =
new File(Environment.getDataDirectory(), "app-lib");
/** Directory where code and non-resource assets of forward-locked applications are stored */
private static final File sDrmAppPrivateInstallDir =
new File(Environment.getDataDirectory(), "app-private");
// ----------------------------------------------------------------
// Lock for state used when installing and doing other long running
// operations. Methods that must be called with this lock held have
// the suffix "LI".
final Object mInstallLock = new Object();
// ----------------------------------------------------------------
// Keys are String (package name), values are Package. This also serves
// as the lock for the global state. Methods that must be called with
// this lock held have the prefix "LP".
@GuardedBy("mPackages")
final ArrayMap<String, PackageParser.Package> mPackages =
new ArrayMap<String, PackageParser.Package>();
final ArrayMap<String, Set<String>> mKnownCodebase =
new ArrayMap<String, Set<String>>();
// Keys are isolated uids and values are the uid of the application
// that created the isolated proccess.
@GuardedBy("mPackages")
final SparseIntArray mIsolatedOwners = new SparseIntArray();
/**
* Tracks new system packages [received in an OTA] that we expect to
* find updated user-installed versions. Keys are package name, values
* are package location.
*/
final private ArrayMap<String, File> mExpectingBetter = new ArrayMap<>();
/**
* Tracks high priority intent filters for protected actions. During boot, certain
* filter actions are protected and should never be allowed to have a high priority
* intent filter for them. However, there is one, and only one exception -- the
* setup wizard. It must be able to define a high priority intent filter for these
* actions to ensure there are no escapes from the wizard. We need to delay processing
* of these during boot as we need to look at all of the system packages in order
* to know which component is the setup wizard.
*/
private final List<PackageParser.ActivityIntentInfo> mProtectedFilters = new ArrayList<>();
/**
* Whether or not processing protected filters should be deferred.
*/
private boolean mDeferProtectedFilters = true;
/**
* Tracks existing system packages prior to receiving an OTA. Keys are package name.
*/
final private ArraySet<String> mExistingSystemPackages = new ArraySet<>();
/**
* Whether or not system app permissions should be promoted from install to runtime.
*/
boolean mPromoteSystemApps;
@GuardedBy("mPackages")
final Settings mSettings;
/**
* Set of package names that are currently "frozen", which means active
* surgery is being done on the code/data for that package. The platform
* will refuse to launch frozen packages to avoid race conditions.
*
* @see PackageFreezer
*/
@GuardedBy("mPackages")
final ArraySet<String> mFrozenPackages = new ArraySet<>();
final ProtectedPackages mProtectedPackages;
@GuardedBy("mLoadedVolumes")
final ArraySet<String> mLoadedVolumes = new ArraySet<>();
boolean mFirstBoot;
PackageManagerInternal.ExternalSourcesPolicy mExternalSourcesPolicy;
@GuardedBy("mAvailableFeatures")
final ArrayMap<String, FeatureInfo> mAvailableFeatures;
private final InstantAppRegistry mInstantAppRegistry;
@GuardedBy("mPackages")
int mChangedPackagesSequenceNumber;
/**
* List of changed [installed, removed or updated] packages.
* mapping from user id -> sequence number -> package name
*/
@GuardedBy("mPackages")
final SparseArray<SparseArray<String>> mChangedPackages = new SparseArray<>();
/**
* The sequence number of the last change to a package.
* mapping from user id -> package name -> sequence number
*/
@GuardedBy("mPackages")
final SparseArray<Map<String, Integer>> mChangedPackagesSequenceNumbers = new SparseArray<>();
@GuardedBy("mPackages")
final private ArraySet<PackageListObserver> mPackageListObservers = new ArraySet<>();
class PackageParserCallback implements PackageParser.Callback {
@Override public final boolean hasFeature(String feature) {
return PackageManagerService.this.hasSystemFeature(feature, 0);
}
final List<PackageParser.Package> getStaticOverlayPackages(
Collection<PackageParser.Package> allPackages, String targetPackageName) {
if ("android".equals(targetPackageName)) {
// Static RROs targeting to "android", ie framework-res.apk, are already applied by
// native AssetManager.
return null;
}
List<PackageParser.Package> overlayPackages = null;
for (PackageParser.Package p : allPackages) {
if (targetPackageName.equals(p.mOverlayTarget) && p.mOverlayIsStatic) {
if (overlayPackages == null) {
overlayPackages = new ArrayList<PackageParser.Package>();
}
overlayPackages.add(p);
}
}
if (overlayPackages != null) {
Comparator<PackageParser.Package> cmp = new Comparator<PackageParser.Package>() {
public int compare(PackageParser.Package p1, PackageParser.Package p2) {
return p1.mOverlayPriority - p2.mOverlayPriority;
}
};
Collections.sort(overlayPackages, cmp);
}
return overlayPackages;
}
final String[] getStaticOverlayPaths(List<PackageParser.Package> overlayPackages,
String targetPath) {
if (overlayPackages == null || overlayPackages.isEmpty()) {
return null;
}
List<String> overlayPathList = null;
for (PackageParser.Package overlayPackage : overlayPackages) {
if (targetPath == null) {
if (overlayPathList == null) {
overlayPathList = new ArrayList<String>();
}
overlayPathList.add(overlayPackage.baseCodePath);
continue;
}
try {
// Creates idmaps for system to parse correctly the Android manifest of the
// target package.
//
// OverlayManagerService will update each of them with a correct gid from its
// target package app id.
mInstaller.idmap(targetPath, overlayPackage.baseCodePath,
UserHandle.getSharedAppGid(
UserHandle.getUserGid(UserHandle.USER_SYSTEM)));
if (overlayPathList == null) {
overlayPathList = new ArrayList<String>();
}
overlayPathList.add(overlayPackage.baseCodePath);
} catch (InstallerException e) {
Slog.e(TAG, "Failed to generate idmap for " + targetPath + " and " +
overlayPackage.baseCodePath);
}
}
return overlayPathList == null ? null : overlayPathList.toArray(new String[0]);
}
String[] getStaticOverlayPaths(String targetPackageName, String targetPath) {
List<PackageParser.Package> overlayPackages;
synchronized (mInstallLock) {
synchronized (mPackages) {
overlayPackages = getStaticOverlayPackages(
mPackages.values(), targetPackageName);
}
// It is safe to keep overlayPackages without holding mPackages because static overlay
// packages can't be uninstalled or disabled.
return getStaticOverlayPaths(overlayPackages, targetPath);
}
}
@Override public final String[] getOverlayApks(String targetPackageName) {
return getStaticOverlayPaths(targetPackageName, null);
}
@Override public final String[] getOverlayPaths(String targetPackageName,
String targetPath) {
return getStaticOverlayPaths(targetPackageName, targetPath);
}
}
class ParallelPackageParserCallback extends PackageParserCallback {
List<PackageParser.Package> mOverlayPackages = null;
void findStaticOverlayPackages() {
synchronized (mPackages) {
for (PackageParser.Package p : mPackages.values()) {
if (p.mOverlayIsStatic) {
if (mOverlayPackages == null) {
mOverlayPackages = new ArrayList<PackageParser.Package>();
}
mOverlayPackages.add(p);
}
}
}
}
@Override
synchronized String[] getStaticOverlayPaths(String targetPackageName, String targetPath) {
// We can trust mOverlayPackages without holding mPackages because package uninstall
// can't happen while running parallel parsing.
// And we can call mInstaller inside getStaticOverlayPaths without holding mInstallLock
// because mInstallLock is held before running parallel parsing.
// Moreover holding mPackages or mInstallLock on each parsing thread causes dead-lock.
return mOverlayPackages == null ? null :
getStaticOverlayPaths(
getStaticOverlayPackages(mOverlayPackages, targetPackageName),
targetPath);
}
}
final PackageParser.Callback mPackageParserCallback = new PackageParserCallback();
final ParallelPackageParserCallback mParallelPackageParserCallback =
new ParallelPackageParserCallback();
public static final class SharedLibraryEntry {
public final @Nullable String path;
public final @Nullable String apk;
public final @NonNull SharedLibraryInfo info;
SharedLibraryEntry(String _path, String _apk, String name, long version, int type,
String declaringPackageName, long declaringPackageVersionCode) {
path = _path;
apk = _apk;
info = new SharedLibraryInfo(name, version, type, new VersionedPackage(
declaringPackageName, declaringPackageVersionCode), null);
}
}
// Currently known shared libraries.
final ArrayMap<String, LongSparseArray<SharedLibraryEntry>> mSharedLibraries = new ArrayMap<>();
final ArrayMap<String, LongSparseArray<SharedLibraryEntry>> mStaticLibsByDeclaringPackage =
new ArrayMap<>();
// All available activities, for your resolving pleasure.
final ActivityIntentResolver mActivities =
new ActivityIntentResolver();
// All available receivers, for your resolving pleasure.
final ActivityIntentResolver mReceivers =
new ActivityIntentResolver();
// All available services, for your resolving pleasure.
final ServiceIntentResolver mServices = new ServiceIntentResolver();
// All available providers, for your resolving pleasure.
final ProviderIntentResolver mProviders = new ProviderIntentResolver();
// Mapping from provider base names (first directory in content URI codePath)
// to the provider information.
final ArrayMap<String, PackageParser.Provider> mProvidersByAuthority =
new ArrayMap<String, PackageParser.Provider>();
// Mapping from instrumentation class names to info about them.
final ArrayMap<ComponentName, PackageParser.Instrumentation> mInstrumentation =
new ArrayMap<ComponentName, PackageParser.Instrumentation>();
// Packages whose data we have transfered into another package, thus
// should no longer exist.
final ArraySet<String> mTransferedPackages = new ArraySet<String>();
// Broadcast actions that are only available to the system.
@GuardedBy("mProtectedBroadcasts")
final ArraySet<String> mProtectedBroadcasts = new ArraySet<>();
/** List of packages waiting for verification. */
final SparseArray<PackageVerificationState> mPendingVerification
= new SparseArray<PackageVerificationState>();
final PackageInstallerService mInstallerService;
final ArtManagerService mArtManagerService;
private final PackageDexOptimizer mPackageDexOptimizer;
// DexManager handles the usage of dex files (e.g. secondary files, whether or not a package
// is used by other apps).
private final DexManager mDexManager;
private AtomicInteger mNextMoveId = new AtomicInteger();
private final MoveCallbacks mMoveCallbacks;
private final OnPermissionChangeListeners mOnPermissionChangeListeners;
// Cache of users who need badging.
SparseBooleanArray mUserNeedsBadging = new SparseBooleanArray();
/** Token for keys in mPendingVerification. */
private int mPendingVerificationToken = 0;
volatile boolean mSystemReady;
volatile boolean mSafeMode;
volatile boolean mHasSystemUidErrors;
private volatile boolean mWebInstantAppsDisabled;
ApplicationInfo mAndroidApplication;
final ActivityInfo mResolveActivity = new ActivityInfo();
final ResolveInfo mResolveInfo = new ResolveInfo();
ComponentName mResolveComponentName;
PackageParser.Package mPlatformPackage;
ComponentName mCustomResolverComponentName;
boolean mResolverReplaced = false;
private final @Nullable ComponentName mIntentFilterVerifierComponent;
private final @Nullable IntentFilterVerifier<ActivityIntentInfo> mIntentFilterVerifier;
private int mIntentFilterVerificationToken = 0;
/** The service connection to the ephemeral resolver */
final InstantAppResolverConnection mInstantAppResolverConnection;
/** Component used to show resolver settings for Instant Apps */
final ComponentName mInstantAppResolverSettingsComponent;
/** Activity used to install instant applications */
ActivityInfo mInstantAppInstallerActivity;
final ResolveInfo mInstantAppInstallerInfo = new ResolveInfo();
final SparseArray<IntentFilterVerificationState> mIntentFilterVerificationStates
= new SparseArray<IntentFilterVerificationState>();
// TODO remove this and go through mPermissonManager directly
final DefaultPermissionGrantPolicy mDefaultPermissionPolicy;
private final PermissionManagerInternal mPermissionManager;
// List of packages names to keep cached, even if they are uninstalled for all users
private List<String> mKeepUninstalledPackages;
private UserManagerInternal mUserManagerInternal;
private ActivityManagerInternal mActivityManagerInternal;
private DeviceIdleController.LocalService mDeviceIdleController;
private File mCacheDir;
private Future<?> mPrepareAppDataFuture;
private static class IFVerificationParams {
PackageParser.Package pkg;
boolean replacing;
int userId;
int verifierUid;
public IFVerificationParams(PackageParser.Package _pkg, boolean _replacing,
int _userId, int _verifierUid) {
pkg = _pkg;
replacing = _replacing;
userId = _userId;
replacing = _replacing;
verifierUid = _verifierUid;
}
}
private interface IntentFilterVerifier<T extends IntentFilter> {
boolean addOneIntentFilterVerification(int verifierId, int userId, int verificationId,
T filter, String packageName);
void startVerifications(int userId);
void receiveVerificationResponse(int verificationId);
}
private class IntentVerifierProxy implements IntentFilterVerifier<ActivityIntentInfo> {
private Context mContext;
private ComponentName mIntentFilterVerifierComponent;
private ArrayList<Integer> mCurrentIntentFilterVerifications = new ArrayList<Integer>();
public IntentVerifierProxy(Context context, ComponentName verifierComponent) {
mContext = context;
mIntentFilterVerifierComponent = verifierComponent;
}
private String getDefaultScheme() {
return IntentFilter.SCHEME_HTTPS;
}
@Override
public void startVerifications(int userId) {
// Launch verifications requests
int count = mCurrentIntentFilterVerifications.size();
for (int n=0; n<count; n++) {
int verificationId = mCurrentIntentFilterVerifications.get(n);
final IntentFilterVerificationState ivs =
mIntentFilterVerificationStates.get(verificationId);
String packageName = ivs.getPackageName();
ArrayList<PackageParser.ActivityIntentInfo> filters = ivs.getFilters();
final int filterCount = filters.size();
ArraySet<String> domainsSet = new ArraySet<>();
for (int m=0; m<filterCount; m++) {
PackageParser.ActivityIntentInfo filter = filters.get(m);
domainsSet.addAll(filter.getHostsList());
}
synchronized (mPackages) {
if (mSettings.createIntentFilterVerificationIfNeededLPw(
packageName, domainsSet) != null) {
scheduleWriteSettingsLocked();
}
}
sendVerificationRequest(verificationId, ivs);
}
mCurrentIntentFilterVerifications.clear();
}
private void sendVerificationRequest(int verificationId, IntentFilterVerificationState ivs) {
Intent verificationIntent = new Intent(Intent.ACTION_INTENT_FILTER_NEEDS_VERIFICATION);
verificationIntent.putExtra(
PackageManager.EXTRA_INTENT_FILTER_VERIFICATION_ID,
verificationId);
verificationIntent.putExtra(
PackageManager.EXTRA_INTENT_FILTER_VERIFICATION_URI_SCHEME,
getDefaultScheme());
verificationIntent.putExtra(
PackageManager.EXTRA_INTENT_FILTER_VERIFICATION_HOSTS,
ivs.getHostsString());
verificationIntent.putExtra(
PackageManager.EXTRA_INTENT_FILTER_VERIFICATION_PACKAGE_NAME,
ivs.getPackageName());
verificationIntent.setComponent(mIntentFilterVerifierComponent);
verificationIntent.addFlags(Intent.FLAG_RECEIVER_FOREGROUND);
DeviceIdleController.LocalService idleController = getDeviceIdleController();
idleController.addPowerSaveTempWhitelistApp(Process.myUid(),
mIntentFilterVerifierComponent.getPackageName(), getVerificationTimeout(),
UserHandle.USER_SYSTEM, true, "intent filter verifier");
mContext.sendBroadcastAsUser(verificationIntent, UserHandle.SYSTEM);
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG,
"Sending IntentFilter verification broadcast");
}
public void receiveVerificationResponse(int verificationId) {
IntentFilterVerificationState ivs = mIntentFilterVerificationStates.get(verificationId);
final boolean verified = ivs.isVerified();
ArrayList<PackageParser.ActivityIntentInfo> filters = ivs.getFilters();
final int count = filters.size();
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.i(TAG, "Received verification response " + verificationId
+ " for " + count + " filters, verified=" + verified);
}
for (int n=0; n<count; n++) {
PackageParser.ActivityIntentInfo filter = filters.get(n);
filter.setVerified(verified);
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG, "IntentFilter " + filter.toString()
+ " verified with result:" + verified + " and hosts:"
+ ivs.getHostsString());
}
mIntentFilterVerificationStates.remove(verificationId);
final String packageName = ivs.getPackageName();
IntentFilterVerificationInfo ivi = null;
synchronized (mPackages) {
ivi = mSettings.getIntentFilterVerificationLPr(packageName);
}
if (ivi == null) {
Slog.w(TAG, "IntentFilterVerificationInfo not found for verificationId:"
+ verificationId + " packageName:" + packageName);
return;
}
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG,
"Updating IntentFilterVerificationInfo for package " + packageName
+" verificationId:" + verificationId);
synchronized (mPackages) {
if (verified) {
ivi.setStatus(INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS);
} else {
ivi.setStatus(INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ASK);
}
scheduleWriteSettingsLocked();
final int userId = ivs.getUserId();
if (userId != UserHandle.USER_ALL) {
final int userStatus =
mSettings.getIntentFilterVerificationStatusLPr(packageName, userId);
int updatedStatus = INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED;
boolean needUpdate = false;
// We cannot override the STATUS_ALWAYS / STATUS_NEVER states if they have
// already been set by the User thru the Disambiguation dialog
switch (userStatus) {
case INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED:
if (verified) {
updatedStatus = INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS;
} else {
updatedStatus = INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ASK;
}
needUpdate = true;
break;
case INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ASK:
if (verified) {
updatedStatus = INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS;
needUpdate = true;
}
break;
default:
// Nothing to do
}
if (needUpdate) {
mSettings.updateIntentFilterVerificationStatusLPw(
packageName, updatedStatus, userId);
scheduleWritePackageRestrictionsLocked(userId);
}
}
}
}
@Override
public boolean addOneIntentFilterVerification(int verifierUid, int userId, int verificationId,
ActivityIntentInfo filter, String packageName) {
if (!hasValidDomains(filter)) {
return false;
}
IntentFilterVerificationState ivs = mIntentFilterVerificationStates.get(verificationId);
if (ivs == null) {
ivs = createDomainVerificationState(verifierUid, userId, verificationId,
packageName);
}
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.d(TAG, "Adding verification filter for " + packageName + ": " + filter);
}
ivs.addFilter(filter);
return true;
}
private IntentFilterVerificationState createDomainVerificationState(int verifierUid,
int userId, int verificationId, String packageName) {
IntentFilterVerificationState ivs = new IntentFilterVerificationState(
verifierUid, userId, packageName);
ivs.setPendingState();
synchronized (mPackages) {
mIntentFilterVerificationStates.append(verificationId, ivs);
mCurrentIntentFilterVerifications.add(verificationId);
}
return ivs;
}
}
private static boolean hasValidDomains(ActivityIntentInfo filter) {
return filter.hasCategory(Intent.CATEGORY_BROWSABLE)
&& (filter.hasDataScheme(IntentFilter.SCHEME_HTTP) ||
filter.hasDataScheme(IntentFilter.SCHEME_HTTPS));
}
// Set of pending broadcasts for aggregating enable/disable of components.
static class PendingPackageBroadcasts {
// for each user id, a map of <package name -> components within that package>
final SparseArray<ArrayMap<String, ArrayList<String>>> mUidMap;
public PendingPackageBroadcasts() {
mUidMap = new SparseArray<ArrayMap<String, ArrayList<String>>>(2);
}
public ArrayList<String> get(int userId, String packageName) {
ArrayMap<String, ArrayList<String>> packages = getOrAllocate(userId);
return packages.get(packageName);
}
public void put(int userId, String packageName, ArrayList<String> components) {
ArrayMap<String, ArrayList<String>> packages = getOrAllocate(userId);
packages.put(packageName, components);
}
public void remove(int userId, String packageName) {
ArrayMap<String, ArrayList<String>> packages = mUidMap.get(userId);
if (packages != null) {
packages.remove(packageName);
}
}
public void remove(int userId) {
mUidMap.remove(userId);
}
public int userIdCount() {
return mUidMap.size();
}
public int userIdAt(int n) {
return mUidMap.keyAt(n);
}
public ArrayMap<String, ArrayList<String>> packagesForUserId(int userId) {
return mUidMap.get(userId);
}
public int size() {
// total number of pending broadcast entries across all userIds
int num = 0;
for (int i = 0; i< mUidMap.size(); i++) {
num += mUidMap.valueAt(i).size();
}
return num;
}
public void clear() {
mUidMap.clear();
}
private ArrayMap<String, ArrayList<String>> getOrAllocate(int userId) {
ArrayMap<String, ArrayList<String>> map = mUidMap.get(userId);
if (map == null) {
map = new ArrayMap<String, ArrayList<String>>();
mUidMap.put(userId, map);
}
return map;
}
}
final PendingPackageBroadcasts mPendingBroadcasts = new PendingPackageBroadcasts();
// Service Connection to remote media container service to copy
// package uri's from external media onto secure containers
// or internal storage.
private IMediaContainerService mContainerService = null;
static final int SEND_PENDING_BROADCAST = 1;
static final int MCS_BOUND = 3;
static final int END_COPY = 4;
static final int INIT_COPY = 5;
static final int MCS_UNBIND = 6;
static final int START_CLEANING_PACKAGE = 7;
static final int FIND_INSTALL_LOC = 8;
static final int POST_INSTALL = 9;
static final int MCS_RECONNECT = 10;
static final int MCS_GIVE_UP = 11;
static final int WRITE_SETTINGS = 13;
static final int WRITE_PACKAGE_RESTRICTIONS = 14;
static final int PACKAGE_VERIFIED = 15;
static final int CHECK_PENDING_VERIFICATION = 16;
static final int START_INTENT_FILTER_VERIFICATIONS = 17;
static final int INTENT_FILTER_VERIFIED = 18;
static final int WRITE_PACKAGE_LIST = 19;
static final int INSTANT_APP_RESOLUTION_PHASE_TWO = 20;
static final int DEF_CONTAINER_BIND = 21;
static final int WRITE_SETTINGS_DELAY = 10*1000; // 10 seconds
// Delay time in millisecs
static final int BROADCAST_DELAY = 10 * 1000;
private static final long DEFAULT_UNUSED_STATIC_SHARED_LIB_MIN_CACHE_PERIOD =
2 * 60 * 60 * 1000L; /* two hours */
static UserManagerService sUserManager;
// Stores a list of users whose package restrictions file needs to be updated
private ArraySet<Integer> mDirtyUsers = new ArraySet<Integer>();
final private DefaultContainerConnection mDefContainerConn =
new DefaultContainerConnection();
class DefaultContainerConnection implements ServiceConnection {
public void onServiceConnected(ComponentName name, IBinder service) {
if (DEBUG_SD_INSTALL) Log.i(TAG, "onServiceConnected");
final IMediaContainerService imcs = IMediaContainerService.Stub
.asInterface(Binder.allowBlocking(service));
mHandler.sendMessage(mHandler.obtainMessage(MCS_BOUND, imcs));
}
public void onServiceDisconnected(ComponentName name) {
if (DEBUG_SD_INSTALL) Log.i(TAG, "onServiceDisconnected");
}
}
// Recordkeeping of restore-after-install operations that are currently in flight
// between the Package Manager and the Backup Manager
static class PostInstallData {
public InstallArgs args;
public PackageInstalledInfo res;
PostInstallData(InstallArgs _a, PackageInstalledInfo _r) {
args = _a;
res = _r;
}
}
final SparseArray<PostInstallData> mRunningInstalls = new SparseArray<PostInstallData>();
int mNextInstallToken = 1; // nonzero; will be wrapped back to 1 when ++ overflows
// XML tags for backup/restore of various bits of state
private static final String TAG_PREFERRED_BACKUP = "pa";
private static final String TAG_DEFAULT_APPS = "da";
private static final String TAG_INTENT_FILTER_VERIFICATION = "iv";
private static final String TAG_PERMISSION_BACKUP = "perm-grant-backup";
private static final String TAG_ALL_GRANTS = "rt-grants";
private static final String TAG_GRANT = "grant";
private static final String ATTR_PACKAGE_NAME = "pkg";
private static final String TAG_PERMISSION = "perm";
private static final String ATTR_PERMISSION_NAME = "name";
private static final String ATTR_IS_GRANTED = "g";
private static final String ATTR_USER_SET = "set";
private static final String ATTR_USER_FIXED = "fixed";
private static final String ATTR_REVOKE_ON_UPGRADE = "rou";
// System/policy permission grants are not backed up
private static final int SYSTEM_RUNTIME_GRANT_MASK =
FLAG_PERMISSION_POLICY_FIXED
| FLAG_PERMISSION_SYSTEM_FIXED
| FLAG_PERMISSION_GRANTED_BY_DEFAULT;
// And we back up these user-adjusted states
private static final int USER_RUNTIME_GRANT_MASK =
FLAG_PERMISSION_USER_SET
| FLAG_PERMISSION_USER_FIXED
| FLAG_PERMISSION_REVOKE_ON_UPGRADE;
final @Nullable String mRequiredVerifierPackage;
final @NonNull String mRequiredInstallerPackage;
final @NonNull String mRequiredUninstallerPackage;
final @Nullable String mSetupWizardPackage;
final @Nullable String mStorageManagerPackage;
final @Nullable String mSystemTextClassifierPackage;
final @NonNull String mServicesSystemSharedLibraryPackageName;
final @NonNull String mSharedSystemSharedLibraryPackageName;
private final PackageUsage mPackageUsage = new PackageUsage();
private final CompilerStats mCompilerStats = new CompilerStats();
class PackageHandler extends Handler {
private boolean mBound = false;
final ArrayList<HandlerParams> mPendingInstalls =
new ArrayList<HandlerParams>();
private boolean connectToService() {
if (DEBUG_INSTALL) Log.i(TAG, "Trying to bind to DefaultContainerService");
Intent service = new Intent().setComponent(DEFAULT_CONTAINER_COMPONENT);
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
if (mContext.bindServiceAsUser(service, mDefContainerConn,
Context.BIND_AUTO_CREATE, UserHandle.SYSTEM)) {
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
mBound = true;
return true;
}
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
return false;
}
private void disconnectService() {
mContainerService = null;
mBound = false;
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
mContext.unbindService(mDefContainerConn);
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
}
PackageHandler(Looper looper) {
super(looper);
}
public void handleMessage(Message msg) {
try {
doHandleMessage(msg);
} finally {
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
}
}
void doHandleMessage(Message msg) {
switch (msg.what) {
case DEF_CONTAINER_BIND:
if (!mBound) {
Trace.asyncTraceBegin(TRACE_TAG_PACKAGE_MANAGER, "earlyBindingMCS",
System.identityHashCode(mHandler));
if (!connectToService()) {
Slog.e(TAG, "Failed to bind to media container service");
}
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "earlyBindingMCS",
System.identityHashCode(mHandler));
}
break;
case INIT_COPY: {
HandlerParams params = (HandlerParams) msg.obj;
int idx = mPendingInstalls.size();
if (DEBUG_INSTALL) Slog.i(TAG, "init_copy idx=" + idx + ": " + params);
// If a bind was already initiated we dont really
// need to do anything. The pending install
// will be processed later on.
if (!mBound) {
Trace.asyncTraceBegin(TRACE_TAG_PACKAGE_MANAGER, "bindingMCS",
System.identityHashCode(mHandler));
// If this is the only one pending we might
// have to bind to the service again.
if (!connectToService()) {
Slog.e(TAG, "Failed to bind to media container service");
params.serviceError();
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "bindingMCS",
System.identityHashCode(mHandler));
if (params.traceMethod != null) {
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, params.traceMethod,
params.traceCookie);
}
return;
} else {
// Once we bind to the service, the first
// pending request will be processed.
mPendingInstalls.add(idx, params);
}
} else {
mPendingInstalls.add(idx, params);
// Already bound to the service. Just make
// sure we trigger off processing the first request.
if (idx == 0) {
mHandler.sendEmptyMessage(MCS_BOUND);
}
}
break;
}
case MCS_BOUND: {
if (DEBUG_INSTALL) Slog.i(TAG, "mcs_bound");
if (msg.obj != null) {
mContainerService = (IMediaContainerService) msg.obj;
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "bindingMCS",
System.identityHashCode(mHandler));
}
if (mContainerService == null) {
if (!mBound) {
// Something seriously wrong since we are not bound and we are not
// waiting for connection. Bail out.
Slog.e(TAG, "Cannot bind to media container service");
for (HandlerParams params : mPendingInstalls) {
// Indicate service bind error
params.serviceError();
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "queueInstall",
System.identityHashCode(params));
if (params.traceMethod != null) {
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER,
params.traceMethod, params.traceCookie);
}
}
mPendingInstalls.clear();
} else {
Slog.w(TAG, "Waiting to connect to media container service");
}
} else if (mPendingInstalls.size() > 0) {
HandlerParams params = mPendingInstalls.get(0);
if (params != null) {
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "queueInstall",
System.identityHashCode(params));
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "startCopy");
if (params.startCopy()) {
// We are done... look for more work or to
// go idle.
if (DEBUG_SD_INSTALL) Log.i(TAG,
"Checking for more work or unbind...");
// Delete pending install
if (mPendingInstalls.size() > 0) {
mPendingInstalls.remove(0);
}
if (mPendingInstalls.size() == 0) {
if (mBound) {
if (DEBUG_SD_INSTALL) Log.i(TAG,
"Posting delayed MCS_UNBIND");
removeMessages(MCS_UNBIND);
Message ubmsg = obtainMessage(MCS_UNBIND);
// Unbind after a little delay, to avoid
// continual thrashing.
sendMessageDelayed(ubmsg, 10000);
}
} else {
// There are more pending requests in queue.
// Just post MCS_BOUND message to trigger processing
// of next pending install.
if (DEBUG_SD_INSTALL) Log.i(TAG,
"Posting MCS_BOUND for next work");
mHandler.sendEmptyMessage(MCS_BOUND);
}
}
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
} else {
// Should never happen ideally.
Slog.w(TAG, "Empty queue");
}
break;
}
case MCS_RECONNECT: {
if (DEBUG_INSTALL) Slog.i(TAG, "mcs_reconnect");
if (mPendingInstalls.size() > 0) {
if (mBound) {
disconnectService();
}
if (!connectToService()) {
Slog.e(TAG, "Failed to bind to media container service");
for (HandlerParams params : mPendingInstalls) {
// Indicate service bind error
params.serviceError();
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "queueInstall",
System.identityHashCode(params));
}
mPendingInstalls.clear();
}
}
break;
}
case MCS_UNBIND: {
// If there is no actual work left, then time to unbind.
if (DEBUG_INSTALL) Slog.i(TAG, "mcs_unbind");
if (mPendingInstalls.size() == 0 && mPendingVerification.size() == 0) {
if (mBound) {
if (DEBUG_INSTALL) Slog.i(TAG, "calling disconnectService()");
disconnectService();
}
} else if (mPendingInstalls.size() > 0) {
// There are more pending requests in queue.
// Just post MCS_BOUND message to trigger processing
// of next pending install.
mHandler.sendEmptyMessage(MCS_BOUND);
}
break;
}
case MCS_GIVE_UP: {
if (DEBUG_INSTALL) Slog.i(TAG, "mcs_giveup too many retries");
HandlerParams params = mPendingInstalls.remove(0);
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "queueInstall",
System.identityHashCode(params));
break;
}
case SEND_PENDING_BROADCAST: {
String packages[];
ArrayList<String> components[];
int size = 0;
int uids[];
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
synchronized (mPackages) {
if (mPendingBroadcasts == null) {
return;
}
size = mPendingBroadcasts.size();
if (size <= 0) {
// Nothing to be done. Just return
return;
}
packages = new String[size];
components = new ArrayList[size];
uids = new int[size];
int i = 0; // filling out the above arrays
for (int n = 0; n < mPendingBroadcasts.userIdCount(); n++) {
int packageUserId = mPendingBroadcasts.userIdAt(n);
Iterator<Map.Entry<String, ArrayList<String>>> it
= mPendingBroadcasts.packagesForUserId(packageUserId)
.entrySet().iterator();
while (it.hasNext() && i < size) {
Map.Entry<String, ArrayList<String>> ent = it.next();
packages[i] = ent.getKey();
components[i] = ent.getValue();
PackageSetting ps = mSettings.mPackages.get(ent.getKey());
uids[i] = (ps != null)
? UserHandle.getUid(packageUserId, ps.appId)
: -1;
i++;
}
}
size = i;
mPendingBroadcasts.clear();
}
// Send broadcasts
for (int i = 0; i < size; i++) {
sendPackageChangedBroadcast(packages[i], true, components[i], uids[i]);
}
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
break;
}
case START_CLEANING_PACKAGE: {
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
final String packageName = (String)msg.obj;
final int userId = msg.arg1;
final boolean andCode = msg.arg2 != 0;
synchronized (mPackages) {
if (userId == UserHandle.USER_ALL) {
int[] users = sUserManager.getUserIds();
for (int user : users) {
mSettings.addPackageToCleanLPw(
new PackageCleanItem(user, packageName, andCode));
}
} else {
mSettings.addPackageToCleanLPw(
new PackageCleanItem(userId, packageName, andCode));
}
}
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
startCleaningPackages();
} break;
case POST_INSTALL: {
if (DEBUG_INSTALL) Log.v(TAG, "Handling post-install for " + msg.arg1);
PostInstallData data = mRunningInstalls.get(msg.arg1);
final boolean didRestore = (msg.arg2 != 0);
mRunningInstalls.delete(msg.arg1);
if (data != null) {
InstallArgs args = data.args;
PackageInstalledInfo parentRes = data.res;
final boolean grantPermissions = (args.installFlags
& PackageManager.INSTALL_GRANT_RUNTIME_PERMISSIONS) != 0;
final boolean killApp = (args.installFlags
& PackageManager.INSTALL_DONT_KILL_APP) == 0;
final boolean virtualPreload = ((args.installFlags
& PackageManager.INSTALL_VIRTUAL_PRELOAD) != 0);
final String[] grantedPermissions = args.installGrantPermissions;
// Handle the parent package
handlePackagePostInstall(parentRes, grantPermissions, killApp,
virtualPreload, grantedPermissions, didRestore,
args.installerPackageName, args.observer);
// Handle the child packages
final int childCount = (parentRes.addedChildPackages != null)
? parentRes.addedChildPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageInstalledInfo childRes = parentRes.addedChildPackages.valueAt(i);
handlePackagePostInstall(childRes, grantPermissions, killApp,
virtualPreload, grantedPermissions, false /*didRestore*/,
args.installerPackageName, args.observer);
}
// Log tracing if needed
if (args.traceMethod != null) {
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, args.traceMethod,
args.traceCookie);
}
} else {
Slog.e(TAG, "Bogus post-install token " + msg.arg1);
}
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "postInstall", msg.arg1);
} break;
case WRITE_SETTINGS: {
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
synchronized (mPackages) {
removeMessages(WRITE_SETTINGS);
removeMessages(WRITE_PACKAGE_RESTRICTIONS);
mSettings.writeLPr();
mDirtyUsers.clear();
}
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
} break;
case WRITE_PACKAGE_RESTRICTIONS: {
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
synchronized (mPackages) {
removeMessages(WRITE_PACKAGE_RESTRICTIONS);
for (int userId : mDirtyUsers) {
mSettings.writePackageRestrictionsLPr(userId);
}
mDirtyUsers.clear();
}
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
} break;
case WRITE_PACKAGE_LIST: {
Process.setThreadPriority(Process.THREAD_PRIORITY_DEFAULT);
synchronized (mPackages) {
removeMessages(WRITE_PACKAGE_LIST);
mSettings.writePackageListLPr(msg.arg1);
}
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
} break;
case CHECK_PENDING_VERIFICATION: {
final int verificationId = msg.arg1;
final PackageVerificationState state = mPendingVerification.get(verificationId);
if ((state != null) && !state.timeoutExtended()) {
final InstallArgs args = state.getInstallArgs();
final Uri originUri = Uri.fromFile(args.origin.resolvedFile);
Slog.i(TAG, "Verification timed out for " + originUri);
mPendingVerification.remove(verificationId);
int ret = PackageManager.INSTALL_FAILED_VERIFICATION_FAILURE;
final UserHandle user = args.getUser();
if (getDefaultVerificationResponse(user)
== PackageManager.VERIFICATION_ALLOW) {
Slog.i(TAG, "Continuing with installation of " + originUri);
state.setVerifierResponse(Binder.getCallingUid(),
PackageManager.VERIFICATION_ALLOW_WITHOUT_SUFFICIENT);
broadcastPackageVerified(verificationId, originUri,
PackageManager.VERIFICATION_ALLOW, user);
try {
ret = args.copyApk(mContainerService, true);
} catch (RemoteException e) {
Slog.e(TAG, "Could not contact the ContainerService");
}
} else {
broadcastPackageVerified(verificationId, originUri,
PackageManager.VERIFICATION_REJECT, user);
}
Trace.asyncTraceEnd(
TRACE_TAG_PACKAGE_MANAGER, "verification", verificationId);
processPendingInstall(args, ret);
mHandler.sendEmptyMessage(MCS_UNBIND);
}
break;
}
case PACKAGE_VERIFIED: {
final int verificationId = msg.arg1;
final PackageVerificationState state = mPendingVerification.get(verificationId);
if (state == null) {
Slog.w(TAG, "Invalid verification token " + verificationId + " received");
break;
}
final PackageVerificationResponse response = (PackageVerificationResponse) msg.obj;
state.setVerifierResponse(response.callerUid, response.code);
if (state.isVerificationComplete()) {
mPendingVerification.remove(verificationId);
final InstallArgs args = state.getInstallArgs();
final Uri originUri = Uri.fromFile(args.origin.resolvedFile);
int ret;
if (state.isInstallAllowed()) {
ret = PackageManager.INSTALL_FAILED_INTERNAL_ERROR;
broadcastPackageVerified(verificationId, originUri,
response.code, state.getInstallArgs().getUser());
try {
ret = args.copyApk(mContainerService, true);
} catch (RemoteException e) {
Slog.e(TAG, "Could not contact the ContainerService");
}
} else {
ret = PackageManager.INSTALL_FAILED_VERIFICATION_FAILURE;
}
Trace.asyncTraceEnd(
TRACE_TAG_PACKAGE_MANAGER, "verification", verificationId);
processPendingInstall(args, ret);
mHandler.sendEmptyMessage(MCS_UNBIND);
}
break;
}
case START_INTENT_FILTER_VERIFICATIONS: {
IFVerificationParams params = (IFVerificationParams) msg.obj;
verifyIntentFiltersIfNeeded(params.userId, params.verifierUid,
params.replacing, params.pkg);
break;
}
case INTENT_FILTER_VERIFIED: {
final int verificationId = msg.arg1;
final IntentFilterVerificationState state = mIntentFilterVerificationStates.get(
verificationId);
if (state == null) {
Slog.w(TAG, "Invalid IntentFilter verification token "
+ verificationId + " received");
break;
}
final int userId = state.getUserId();
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG,
"Processing IntentFilter verification with token:"
+ verificationId + " and userId:" + userId);
final IntentFilterVerificationResponse response =
(IntentFilterVerificationResponse) msg.obj;
state.setVerifierResponse(response.callerUid, response.code);
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG,
"IntentFilter verification with token:" + verificationId
+ " and userId:" + userId
+ " is settings verifier response with response code:"
+ response.code);
if (response.code == PackageManager.INTENT_FILTER_VERIFICATION_FAILURE) {
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG, "Domains failing verification: "
+ response.getFailedDomainsString());
}
if (state.isVerificationComplete()) {
mIntentFilterVerifier.receiveVerificationResponse(verificationId);
} else {
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG,
"IntentFilter verification with token:" + verificationId
+ " was not said to be complete");
}
break;
}
case INSTANT_APP_RESOLUTION_PHASE_TWO: {
InstantAppResolver.doInstantAppResolutionPhaseTwo(mContext,
mInstantAppResolverConnection,
(InstantAppRequest) msg.obj,
mInstantAppInstallerActivity,
mHandler);
}
}
}
}
private PermissionCallback mPermissionCallback = new PermissionCallback() {
@Override
public void onGidsChanged(int appId, int userId) {
mHandler.post(new Runnable() {
@Override
public void run() {
killUid(appId, userId, KILL_APP_REASON_GIDS_CHANGED);
}
});
}
@Override
public void onPermissionGranted(int uid, int userId) {
mOnPermissionChangeListeners.onPermissionsChanged(uid);
// Not critical; if this is lost, the application has to request again.
synchronized (mPackages) {
mSettings.writeRuntimePermissionsForUserLPr(userId, false);
}
}
@Override
public void onInstallPermissionGranted() {
synchronized (mPackages) {
scheduleWriteSettingsLocked();
}
}
@Override
public void onPermissionRevoked(int uid, int userId) {
mOnPermissionChangeListeners.onPermissionsChanged(uid);
synchronized (mPackages) {
// Critical; after this call the application should never have the permission
mSettings.writeRuntimePermissionsForUserLPr(userId, true);
}
final int appId = UserHandle.getAppId(uid);
killUid(appId, userId, KILL_APP_REASON_PERMISSIONS_REVOKED);
}
@Override
public void onInstallPermissionRevoked() {
synchronized (mPackages) {
scheduleWriteSettingsLocked();
}
}
@Override
public void onPermissionUpdated(int[] updatedUserIds, boolean sync) {
synchronized (mPackages) {
for (int userId : updatedUserIds) {
mSettings.writeRuntimePermissionsForUserLPr(userId, sync);
}
}
}
@Override
public void onInstallPermissionUpdated() {
synchronized (mPackages) {
scheduleWriteSettingsLocked();
}
}
@Override
public void onPermissionRemoved() {
synchronized (mPackages) {
mSettings.writeLPr();
}
}
};
private void handlePackagePostInstall(PackageInstalledInfo res, boolean grantPermissions,
boolean killApp, boolean virtualPreload, String[] grantedPermissions,
boolean launchedForRestore, String installerPackage,
IPackageInstallObserver2 installObserver) {
if (res.returnCode == PackageManager.INSTALL_SUCCEEDED) {
// Send the removed broadcasts
if (res.removedInfo != null) {
res.removedInfo.sendPackageRemovedBroadcasts(killApp);
}
// Now that we successfully installed the package, grant runtime
// permissions if requested before broadcasting the install. Also
// for legacy apps in permission review mode we clear the permission
// review flag which is used to emulate runtime permissions for
// legacy apps.
if (grantPermissions) {
final int callingUid = Binder.getCallingUid();
mPermissionManager.grantRequestedRuntimePermissions(
res.pkg, res.newUsers, grantedPermissions, callingUid,
mPermissionCallback);
}
final boolean update = res.removedInfo != null
&& res.removedInfo.removedPackage != null;
final String installerPackageName =
res.installerPackageName != null
? res.installerPackageName
: res.removedInfo != null
? res.removedInfo.installerPackageName
: null;
// If this is the first time we have child packages for a disabled privileged
// app that had no children, we grant requested runtime permissions to the new
// children if the parent on the system image had them already granted.
if (res.pkg.parentPackage != null) {
final int callingUid = Binder.getCallingUid();
mPermissionManager.grantRuntimePermissionsGrantedToDisabledPackage(
res.pkg, callingUid, mPermissionCallback);
}
synchronized (mPackages) {
mInstantAppRegistry.onPackageInstalledLPw(res.pkg, res.newUsers);
}
final String packageName = res.pkg.applicationInfo.packageName;
// Determine the set of users who are adding this package for
// the first time vs. those who are seeing an update.
int[] firstUserIds = EMPTY_INT_ARRAY;
int[] firstInstantUserIds = EMPTY_INT_ARRAY;
int[] updateUserIds = EMPTY_INT_ARRAY;
int[] instantUserIds = EMPTY_INT_ARRAY;
final boolean allNewUsers = res.origUsers == null || res.origUsers.length == 0;
final PackageSetting ps = (PackageSetting) res.pkg.mExtras;
for (int newUser : res.newUsers) {
final boolean isInstantApp = ps.getInstantApp(newUser);
if (allNewUsers) {
if (isInstantApp) {
firstInstantUserIds = ArrayUtils.appendInt(firstInstantUserIds, newUser);
} else {
firstUserIds = ArrayUtils.appendInt(firstUserIds, newUser);
}
continue;
}
boolean isNew = true;
for (int origUser : res.origUsers) {
if (origUser == newUser) {
isNew = false;
break;
}
}
if (isNew) {
if (isInstantApp) {
firstInstantUserIds = ArrayUtils.appendInt(firstInstantUserIds, newUser);
} else {
firstUserIds = ArrayUtils.appendInt(firstUserIds, newUser);
}
} else {
if (isInstantApp) {
instantUserIds = ArrayUtils.appendInt(instantUserIds, newUser);
} else {
updateUserIds = ArrayUtils.appendInt(updateUserIds, newUser);
}
}
}
// Send installed broadcasts if the package is not a static shared lib.
if (res.pkg.staticSharedLibName == null) {
mProcessLoggingHandler.invalidateProcessLoggingBaseApkHash(res.pkg.baseCodePath);
// Send added for users that see the package for the first time
// sendPackageAddedForNewUsers also deals with system apps
int appId = UserHandle.getAppId(res.uid);
boolean isSystem = res.pkg.applicationInfo.isSystemApp();
sendPackageAddedForNewUsers(packageName, isSystem || virtualPreload,
virtualPreload /*startReceiver*/, appId, firstUserIds, firstInstantUserIds);
// Send added for users that don't see the package for the first time
Bundle extras = new Bundle(1);
extras.putInt(Intent.EXTRA_UID, res.uid);
if (update) {
extras.putBoolean(Intent.EXTRA_REPLACING, true);
}
sendPackageBroadcast(Intent.ACTION_PACKAGE_ADDED, packageName,
extras, 0 /*flags*/,
null /*targetPackage*/, null /*finishedReceiver*/,
updateUserIds, instantUserIds);
if (installerPackageName != null) {
sendPackageBroadcast(Intent.ACTION_PACKAGE_ADDED, packageName,
extras, 0 /*flags*/,
installerPackageName, null /*finishedReceiver*/,
updateUserIds, instantUserIds);
}
// if the required verifier is defined, but, is not the installer of record
// for the package, it gets notified
final boolean notifyVerifier = mRequiredVerifierPackage != null
&& !mRequiredVerifierPackage.equals(installerPackageName);
if (notifyVerifier) {
sendPackageBroadcast(Intent.ACTION_PACKAGE_ADDED, packageName,
extras, 0 /*flags*/,
mRequiredVerifierPackage, null /*finishedReceiver*/,
updateUserIds, instantUserIds);
}
// Send replaced for users that don't see the package for the first time
if (update) {
sendPackageBroadcast(Intent.ACTION_PACKAGE_REPLACED,
packageName, extras, 0 /*flags*/,
null /*targetPackage*/, null /*finishedReceiver*/,
updateUserIds, instantUserIds);
if (installerPackageName != null) {
sendPackageBroadcast(Intent.ACTION_PACKAGE_REPLACED, packageName,
extras, 0 /*flags*/,
installerPackageName, null /*finishedReceiver*/,
updateUserIds, instantUserIds);
}
if (notifyVerifier) {
sendPackageBroadcast(Intent.ACTION_PACKAGE_REPLACED, packageName,
extras, 0 /*flags*/,
mRequiredVerifierPackage, null /*finishedReceiver*/,
updateUserIds, instantUserIds);
}
sendPackageBroadcast(Intent.ACTION_MY_PACKAGE_REPLACED,
null /*package*/, null /*extras*/, 0 /*flags*/,
packageName /*targetPackage*/,
null /*finishedReceiver*/, updateUserIds, instantUserIds);
} else if (launchedForRestore && !isSystemApp(res.pkg)) {
// First-install and we did a restore, so we're responsible for the
// first-launch broadcast.
if (DEBUG_BACKUP) {
Slog.i(TAG, "Post-restore of " + packageName
+ " sending FIRST_LAUNCH in " + Arrays.toString(firstUserIds));
}
sendFirstLaunchBroadcast(packageName, installerPackage,
firstUserIds, firstInstantUserIds);
}
// Send broadcast package appeared if forward locked/external for all users
// treat asec-hosted packages like removable media on upgrade
if (res.pkg.isForwardLocked() || isExternal(res.pkg)) {
if (DEBUG_INSTALL) {
Slog.i(TAG, "upgrading pkg " + res.pkg
+ " is ASEC-hosted -> AVAILABLE");
}
final int[] uidArray = new int[]{res.pkg.applicationInfo.uid};
ArrayList<String> pkgList = new ArrayList<>(1);
pkgList.add(packageName);
sendResourcesChangedBroadcast(true, true, pkgList, uidArray, null);
}
}
// Work that needs to happen on first install within each user
if (firstUserIds != null && firstUserIds.length > 0) {
synchronized (mPackages) {
for (int userId : firstUserIds) {
// If this app is a browser and it's newly-installed for some
// users, clear any default-browser state in those users. The
// app's nature doesn't depend on the user, so we can just check
// its browser nature in any user and generalize.
if (packageIsBrowser(packageName, userId)) {
mSettings.setDefaultBrowserPackageNameLPw(null, userId);
}
// We may also need to apply pending (restored) runtime
// permission grants within these users.
mSettings.applyPendingPermissionGrantsLPw(packageName, userId);
}
}
}
if (allNewUsers && !update) {
notifyPackageAdded(packageName);
}
// Log current value of "unknown sources" setting
EventLog.writeEvent(EventLogTags.UNKNOWN_SOURCES_ENABLED,
getUnknownSourcesSettings());
// Remove the replaced package's older resources safely now
// We delete after a gc for applications on sdcard.
if (res.removedInfo != null && res.removedInfo.args != null) {
Runtime.getRuntime().gc();
synchronized (mInstallLock) {
res.removedInfo.args.doPostDeleteLI(true);
}
} else {
// Force a gc to clear up things. Ask for a background one, it's fine to go on
// and not block here.
VMRuntime.getRuntime().requestConcurrentGC();
}
// Notify DexManager that the package was installed for new users.
// The updated users should already be indexed and the package code paths
// should not change.
// Don't notify the manager for ephemeral apps as they are not expected to
// survive long enough to benefit of background optimizations.
for (int userId : firstUserIds) {
PackageInfo info = getPackageInfo(packageName, /*flags*/ 0, userId);
// There's a race currently where some install events may interleave with an uninstall.
// This can lead to package info being null (b/36642664).
if (info != null) {
mDexManager.notifyPackageInstalled(info, userId);
}
}
}
// If someone is watching installs - notify them
if (installObserver != null) {
try {
Bundle extras = extrasForInstallResult(res);
installObserver.onPackageInstalled(res.name, res.returnCode,
res.returnMsg, extras);
} catch (RemoteException e) {
Slog.i(TAG, "Observer no longer exists.");
}
}
}
private StorageEventListener mStorageListener = new StorageEventListener() {
@Override
public void onVolumeStateChanged(VolumeInfo vol, int oldState, int newState) {
if (vol.type == VolumeInfo.TYPE_PRIVATE) {
if (vol.state == VolumeInfo.STATE_MOUNTED) {
final String volumeUuid = vol.getFsUuid();
// Clean up any users or apps that were removed or recreated
// while this volume was missing
sUserManager.reconcileUsers(volumeUuid);
reconcileApps(volumeUuid);
// Clean up any install sessions that expired or were
// cancelled while this volume was missing
mInstallerService.onPrivateVolumeMounted(volumeUuid);
loadPrivatePackages(vol);
} else if (vol.state == VolumeInfo.STATE_EJECTING) {
unloadPrivatePackages(vol);
}
}
}
@Override
public void onVolumeForgotten(String fsUuid) {
if (TextUtils.isEmpty(fsUuid)) {
Slog.e(TAG, "Forgetting internal storage is probably a mistake; ignoring");
return;
}
// Remove any apps installed on the forgotten volume
synchronized (mPackages) {
final List<PackageSetting> packages = mSettings.getVolumePackagesLPr(fsUuid);
for (PackageSetting ps : packages) {
Slog.d(TAG, "Destroying " + ps.name + " because volume was forgotten");
deletePackageVersioned(new VersionedPackage(ps.name,
PackageManager.VERSION_CODE_HIGHEST),
new LegacyPackageDeleteObserver(null).getBinder(),
UserHandle.USER_SYSTEM, PackageManager.DELETE_ALL_USERS);
// Try very hard to release any references to this package
// so we don't risk the system server being killed due to
// open FDs
AttributeCache.instance().removePackage(ps.name);
}
mSettings.onVolumeForgotten(fsUuid);
mSettings.writeLPr();
}
}
};
Bundle extrasForInstallResult(PackageInstalledInfo res) {
Bundle extras = null;
switch (res.returnCode) {
case PackageManager.INSTALL_FAILED_DUPLICATE_PERMISSION: {
extras = new Bundle();
extras.putString(PackageManager.EXTRA_FAILURE_EXISTING_PERMISSION,
res.origPermission);
extras.putString(PackageManager.EXTRA_FAILURE_EXISTING_PACKAGE,
res.origPackage);
break;
}
case PackageManager.INSTALL_SUCCEEDED: {
extras = new Bundle();
extras.putBoolean(Intent.EXTRA_REPLACING,
res.removedInfo != null && res.removedInfo.removedPackage != null);
break;
}
}
return extras;
}
void scheduleWriteSettingsLocked() {
if (!mHandler.hasMessages(WRITE_SETTINGS)) {
mHandler.sendEmptyMessageDelayed(WRITE_SETTINGS, WRITE_SETTINGS_DELAY);
}
}
void scheduleWritePackageListLocked(int userId) {
if (!mHandler.hasMessages(WRITE_PACKAGE_LIST)) {
Message msg = mHandler.obtainMessage(WRITE_PACKAGE_LIST);
msg.arg1 = userId;
mHandler.sendMessageDelayed(msg, WRITE_SETTINGS_DELAY);
}
}
void scheduleWritePackageRestrictionsLocked(UserHandle user) {
final int userId = user == null ? UserHandle.USER_ALL : user.getIdentifier();
scheduleWritePackageRestrictionsLocked(userId);
}
void scheduleWritePackageRestrictionsLocked(int userId) {
final int[] userIds = (userId == UserHandle.USER_ALL)
? sUserManager.getUserIds() : new int[]{userId};
for (int nextUserId : userIds) {
if (!sUserManager.exists(nextUserId)) return;
mDirtyUsers.add(nextUserId);
if (!mHandler.hasMessages(WRITE_PACKAGE_RESTRICTIONS)) {
mHandler.sendEmptyMessageDelayed(WRITE_PACKAGE_RESTRICTIONS, WRITE_SETTINGS_DELAY);
}
}
}
public static PackageManagerService main(Context context, Installer installer,
boolean factoryTest, boolean onlyCore) {
// Self-check for initial settings.
PackageManagerServiceCompilerMapping.checkProperties();
PackageManagerService m = new PackageManagerService(context, installer,
factoryTest, onlyCore);
m.enableSystemUserPackages();
ServiceManager.addService("package", m);
final PackageManagerNative pmn = m.new PackageManagerNative();
ServiceManager.addService("package_native", pmn);
return m;
}
private void enableSystemUserPackages() {
if (!UserManager.isSplitSystemUser()) {
return;
}
// For system user, enable apps based on the following conditions:
// - app is whitelisted or belong to one of these groups:
// -- system app which has no launcher icons
// -- system app which has INTERACT_ACROSS_USERS permission
// -- system IME app
// - app is not in the blacklist
AppsQueryHelper queryHelper = new AppsQueryHelper(this);
Set<String> enableApps = new ArraySet<>();
enableApps.addAll(queryHelper.queryApps(AppsQueryHelper.GET_NON_LAUNCHABLE_APPS
| AppsQueryHelper.GET_APPS_WITH_INTERACT_ACROSS_USERS_PERM
| AppsQueryHelper.GET_IMES, /* systemAppsOnly */ true, UserHandle.SYSTEM));
ArraySet<String> wlApps = SystemConfig.getInstance().getSystemUserWhitelistedApps();
enableApps.addAll(wlApps);
enableApps.addAll(queryHelper.queryApps(AppsQueryHelper.GET_REQUIRED_FOR_SYSTEM_USER,
/* systemAppsOnly */ false, UserHandle.SYSTEM));
ArraySet<String> blApps = SystemConfig.getInstance().getSystemUserBlacklistedApps();
enableApps.removeAll(blApps);
Log.i(TAG, "Applications installed for system user: " + enableApps);
List<String> allAps = queryHelper.queryApps(0, /* systemAppsOnly */ false,
UserHandle.SYSTEM);
final int allAppsSize = allAps.size();
synchronized (mPackages) {
for (int i = 0; i < allAppsSize; i++) {
String pName = allAps.get(i);
PackageSetting pkgSetting = mSettings.mPackages.get(pName);
// Should not happen, but we shouldn't be failing if it does
if (pkgSetting == null) {
continue;
}
boolean install = enableApps.contains(pName);
if (pkgSetting.getInstalled(UserHandle.USER_SYSTEM) != install) {
Log.i(TAG, (install ? "Installing " : "Uninstalling ") + pName
+ " for system user");
pkgSetting.setInstalled(install, UserHandle.USER_SYSTEM);
}
}
scheduleWritePackageRestrictionsLocked(UserHandle.USER_SYSTEM);
}
}
private static void getDefaultDisplayMetrics(Context context, DisplayMetrics metrics) {
DisplayManager displayManager = (DisplayManager) context.getSystemService(
Context.DISPLAY_SERVICE);
displayManager.getDisplay(Display.DEFAULT_DISPLAY).getMetrics(metrics);
}
/**
* Requests that files preopted on a secondary system partition be copied to the data partition
* if possible. Note that the actual copying of the files is accomplished by init for security
* reasons. This simply requests that the copy takes place and awaits confirmation of its
* completion. See platform/system/extras/cppreopt/ for the implementation of the actual copy.
*/
private static void requestCopyPreoptedFiles() {
final int WAIT_TIME_MS = 100;
final String CP_PREOPT_PROPERTY = "sys.cppreopt";
if (SystemProperties.getInt("ro.cp_system_other_odex", 0) == 1) {
SystemProperties.set(CP_PREOPT_PROPERTY, "requested");
// We will wait for up to 100 seconds.
final long timeStart = SystemClock.uptimeMillis();
final long timeEnd = timeStart + 100 * 1000;
long timeNow = timeStart;
while (!SystemProperties.get(CP_PREOPT_PROPERTY).equals("finished")) {
try {
Thread.sleep(WAIT_TIME_MS);
} catch (InterruptedException e) {
// Do nothing
}
timeNow = SystemClock.uptimeMillis();
if (timeNow > timeEnd) {
SystemProperties.set(CP_PREOPT_PROPERTY, "timed-out");
Slog.wtf(TAG, "cppreopt did not finish!");
break;
}
}
Slog.i(TAG, "cppreopts took " + (timeNow - timeStart) + " ms");
}
}
public PackageManagerService(Context context, Installer installer,
boolean factoryTest, boolean onlyCore) {
LockGuard.installLock(mPackages, LockGuard.INDEX_PACKAGES);
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "create package manager");
EventLog.writeEvent(EventLogTags.BOOT_PROGRESS_PMS_START,
SystemClock.uptimeMillis());
if (mSdkVersion <= 0) {
Slog.w(TAG, "**** ro.build.version.sdk not set!");
}
mContext = context;
mFactoryTest = factoryTest;
mOnlyCore = onlyCore;
mMetrics = new DisplayMetrics();
mInstaller = installer;
// Create sub-components that provide services / data. Order here is important.
synchronized (mInstallLock) {
synchronized (mPackages) {
// Expose private service for system components to use.
LocalServices.addService(
PackageManagerInternal.class, new PackageManagerInternalImpl());
sUserManager = new UserManagerService(context, this,
new UserDataPreparer(mInstaller, mInstallLock, mContext, mOnlyCore), mPackages);
mPermissionManager = PermissionManagerService.create(context,
new DefaultPermissionGrantedCallback() {
@Override
public void onDefaultRuntimePermissionsGranted(int userId) {
synchronized(mPackages) {
mSettings.onDefaultRuntimePermissionsGrantedLPr(userId);
}
}
}, mPackages /*externalLock*/);
mDefaultPermissionPolicy = mPermissionManager.getDefaultPermissionGrantPolicy();
mSettings = new Settings(mPermissionManager.getPermissionSettings(), mPackages);
}
}
mSettings.addSharedUserLPw("android.uid.system", Process.SYSTEM_UID,
ApplicationInfo.FLAG_SYSTEM, ApplicationInfo.PRIVATE_FLAG_PRIVILEGED);
mSettings.addSharedUserLPw("android.uid.phone", RADIO_UID,
ApplicationInfo.FLAG_SYSTEM, ApplicationInfo.PRIVATE_FLAG_PRIVILEGED);
mSettings.addSharedUserLPw("android.uid.log", LOG_UID,
ApplicationInfo.FLAG_SYSTEM, ApplicationInfo.PRIVATE_FLAG_PRIVILEGED);
mSettings.addSharedUserLPw("android.uid.nfc", NFC_UID,
ApplicationInfo.FLAG_SYSTEM, ApplicationInfo.PRIVATE_FLAG_PRIVILEGED);
mSettings.addSharedUserLPw("android.uid.bluetooth", BLUETOOTH_UID,
ApplicationInfo.FLAG_SYSTEM, ApplicationInfo.PRIVATE_FLAG_PRIVILEGED);
mSettings.addSharedUserLPw("android.uid.shell", SHELL_UID,
ApplicationInfo.FLAG_SYSTEM, ApplicationInfo.PRIVATE_FLAG_PRIVILEGED);
mSettings.addSharedUserLPw("android.uid.se", SE_UID,
ApplicationInfo.FLAG_SYSTEM, ApplicationInfo.PRIVATE_FLAG_PRIVILEGED);
String separateProcesses = SystemProperties.get("debug.separate_processes");
if (separateProcesses != null && separateProcesses.length() > 0) {
if ("*".equals(separateProcesses)) {
mDefParseFlags = PackageParser.PARSE_IGNORE_PROCESSES;
mSeparateProcesses = null;
Slog.w(TAG, "Running with debug.separate_processes: * (ALL)");
} else {
mDefParseFlags = 0;
mSeparateProcesses = separateProcesses.split(",");
Slog.w(TAG, "Running with debug.separate_processes: "
+ separateProcesses);
}
} else {
mDefParseFlags = 0;
mSeparateProcesses = null;
}
mPackageDexOptimizer = new PackageDexOptimizer(installer, mInstallLock, context,
"*dexopt*");
DexManager.Listener dexManagerListener = DexLogger.getListener(this,
installer, mInstallLock);
mDexManager = new DexManager(mContext, this, mPackageDexOptimizer, installer, mInstallLock,
dexManagerListener);
mArtManagerService = new ArtManagerService(mContext, this, installer, mInstallLock);
mMoveCallbacks = new MoveCallbacks(FgThread.get().getLooper());
mOnPermissionChangeListeners = new OnPermissionChangeListeners(
FgThread.get().getLooper());
getDefaultDisplayMetrics(context, mMetrics);
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "get system config");
SystemConfig systemConfig = SystemConfig.getInstance();
mAvailableFeatures = systemConfig.getAvailableFeatures();
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
mProtectedPackages = new ProtectedPackages(mContext);
synchronized (mInstallLock) {
// writer
synchronized (mPackages) {
mHandlerThread = new ServiceThread(TAG,
Process.THREAD_PRIORITY_BACKGROUND, true /*allowIo*/);
mHandlerThread.start();
mHandler = new PackageHandler(mHandlerThread.getLooper());
mProcessLoggingHandler = new ProcessLoggingHandler();
Watchdog.getInstance().addThread(mHandler, WATCHDOG_TIMEOUT);
mInstantAppRegistry = new InstantAppRegistry(this);
ArrayMap<String, String> libConfig = systemConfig.getSharedLibraries();
final int builtInLibCount = libConfig.size();
for (int i = 0; i < builtInLibCount; i++) {
String name = libConfig.keyAt(i);
String path = libConfig.valueAt(i);
addSharedLibraryLPw(path, null, name, SharedLibraryInfo.VERSION_UNDEFINED,
SharedLibraryInfo.TYPE_BUILTIN, PLATFORM_PACKAGE_NAME, 0);
}
SELinuxMMAC.readInstallPolicy();
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "loadFallbacks");
FallbackCategoryProvider.loadFallbacks();
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "read user settings");
mFirstBoot = !mSettings.readLPw(sUserManager.getUsers(false));
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
// Clean up orphaned packages for which the code path doesn't exist
// and they are an update to a system app - caused by bug/32321269
final int packageSettingCount = mSettings.mPackages.size();
for (int i = packageSettingCount - 1; i >= 0; i--) {
PackageSetting ps = mSettings.mPackages.valueAt(i);
if (!isExternal(ps) && (ps.codePath == null || !ps.codePath.exists())
&& mSettings.getDisabledSystemPkgLPr(ps.name) != null) {
mSettings.mPackages.removeAt(i);
mSettings.enableSystemPackageLPw(ps.name);
}
}
if (mFirstBoot) {
requestCopyPreoptedFiles();
}
String customResolverActivity = Resources.getSystem().getString(
R.string.config_customResolverActivity);
if (TextUtils.isEmpty(customResolverActivity)) {
customResolverActivity = null;
} else {
mCustomResolverComponentName = ComponentName.unflattenFromString(
customResolverActivity);
}
long startTime = SystemClock.uptimeMillis();
EventLog.writeEvent(EventLogTags.BOOT_PROGRESS_PMS_SYSTEM_SCAN_START,
startTime);
final String bootClassPath = System.getenv("BOOTCLASSPATH");
final String systemServerClassPath = System.getenv("SYSTEMSERVERCLASSPATH");
if (bootClassPath == null) {
Slog.w(TAG, "No BOOTCLASSPATH found!");
}
if (systemServerClassPath == null) {
Slog.w(TAG, "No SYSTEMSERVERCLASSPATH found!");
}
File frameworkDir = new File(Environment.getRootDirectory(), "framework");
final VersionInfo ver = mSettings.getInternalVersion();
mIsUpgrade = !Build.FINGERPRINT.equals(ver.fingerprint);
if (mIsUpgrade) {
logCriticalInfo(Log.INFO,
"Upgrading from " + ver.fingerprint + " to " + Build.FINGERPRINT);
}
// when upgrading from pre-M, promote system app permissions from install to runtime
mPromoteSystemApps =
mIsUpgrade && ver.sdkVersion <= Build.VERSION_CODES.LOLLIPOP_MR1;
// When upgrading from pre-N, we need to handle package extraction like first boot,
// as there is no profiling data available.
mIsPreNUpgrade = mIsUpgrade && ver.sdkVersion < Build.VERSION_CODES.N;
mIsPreNMR1Upgrade = mIsUpgrade && ver.sdkVersion < Build.VERSION_CODES.N_MR1;
// save off the names of pre-existing system packages prior to scanning; we don't
// want to automatically grant runtime permissions for new system apps
if (mPromoteSystemApps) {
Iterator<PackageSetting> pkgSettingIter = mSettings.mPackages.values().iterator();
while (pkgSettingIter.hasNext()) {
PackageSetting ps = pkgSettingIter.next();
if (isSystemApp(ps)) {
mExistingSystemPackages.add(ps.name);
}
}
}
mCacheDir = preparePackageParserCache(mIsUpgrade);
// Set flag to monitor and not change apk file paths when
// scanning install directories.
int scanFlags = SCAN_BOOTING | SCAN_INITIAL;
if (mIsUpgrade || mFirstBoot) {
scanFlags = scanFlags | SCAN_FIRST_BOOT_OR_UPGRADE;
}
// Collect vendor/product overlay packages. (Do this before scanning any apps.)
// For security and version matching reason, only consider
// overlay packages if they reside in the right directory.
scanDirTracedLI(new File(VENDOR_OVERLAY_DIR),
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_VENDOR,
0);
scanDirTracedLI(new File(PRODUCT_OVERLAY_DIR),
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_PRODUCT,
0);
mParallelPackageParserCallback.findStaticOverlayPackages();
// Find base frameworks (resource packages without code).
scanDirTracedLI(frameworkDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_NO_DEX
| SCAN_AS_SYSTEM
| SCAN_AS_PRIVILEGED,
0);
// Collect privileged system packages.
final File privilegedAppDir = new File(Environment.getRootDirectory(), "priv-app");
scanDirTracedLI(privilegedAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_PRIVILEGED,
0);
// Collect ordinary system packages.
final File systemAppDir = new File(Environment.getRootDirectory(), "app");
scanDirTracedLI(systemAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM,
0);
// Collect privileged vendor packages.
File privilegedVendorAppDir = new File(Environment.getVendorDirectory(), "priv-app");
try {
privilegedVendorAppDir = privilegedVendorAppDir.getCanonicalFile();
} catch (IOException e) {
// failed to look up canonical path, continue with original one
}
scanDirTracedLI(privilegedVendorAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_VENDOR
| SCAN_AS_PRIVILEGED,
0);
// Collect ordinary vendor packages.
File vendorAppDir = new File(Environment.getVendorDirectory(), "app");
try {
vendorAppDir = vendorAppDir.getCanonicalFile();
} catch (IOException e) {
// failed to look up canonical path, continue with original one
}
scanDirTracedLI(vendorAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_VENDOR,
0);
// Collect privileged odm packages. /odm is another vendor partition
// other than /vendor.
File privilegedOdmAppDir = new File(Environment.getOdmDirectory(),
"priv-app");
try {
privilegedOdmAppDir = privilegedOdmAppDir.getCanonicalFile();
} catch (IOException e) {
// failed to look up canonical path, continue with original one
}
scanDirTracedLI(privilegedOdmAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_VENDOR
| SCAN_AS_PRIVILEGED,
0);
// Collect ordinary odm packages. /odm is another vendor partition
// other than /vendor.
File odmAppDir = new File(Environment.getOdmDirectory(), "app");
try {
odmAppDir = odmAppDir.getCanonicalFile();
} catch (IOException e) {
// failed to look up canonical path, continue with original one
}
scanDirTracedLI(odmAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_VENDOR,
0);
// Collect all OEM packages.
final File oemAppDir = new File(Environment.getOemDirectory(), "app");
scanDirTracedLI(oemAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_OEM,
0);
// Collected privileged product packages.
File privilegedProductAppDir = new File(Environment.getProductDirectory(), "priv-app");
try {
privilegedProductAppDir = privilegedProductAppDir.getCanonicalFile();
} catch (IOException e) {
// failed to look up canonical path, continue with original one
}
scanDirTracedLI(privilegedProductAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_PRODUCT
| SCAN_AS_PRIVILEGED,
0);
// Collect ordinary product packages.
File productAppDir = new File(Environment.getProductDirectory(), "app");
try {
productAppDir = productAppDir.getCanonicalFile();
} catch (IOException e) {
// failed to look up canonical path, continue with original one
}
scanDirTracedLI(productAppDir,
mDefParseFlags
| PackageParser.PARSE_IS_SYSTEM_DIR,
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_PRODUCT,
0);
// Prune any system packages that no longer exist.
final List<String> possiblyDeletedUpdatedSystemApps = new ArrayList<>();
// Stub packages must either be replaced with full versions in the /data
// partition or be disabled.
final List<String> stubSystemApps = new ArrayList<>();
if (!mOnlyCore) {
// do this first before mucking with mPackages for the "expecting better" case
final Iterator<PackageParser.Package> pkgIterator = mPackages.values().iterator();
while (pkgIterator.hasNext()) {
final PackageParser.Package pkg = pkgIterator.next();
if (pkg.isStub) {
stubSystemApps.add(pkg.packageName);
}
}
final Iterator<PackageSetting> psit = mSettings.mPackages.values().iterator();
while (psit.hasNext()) {
PackageSetting ps = psit.next();
/*
* If this is not a system app, it can't be a
* disable system app.
*/
if ((ps.pkgFlags & ApplicationInfo.FLAG_SYSTEM) == 0) {
continue;
}
/*
* If the package is scanned, it's not erased.
*/
final PackageParser.Package scannedPkg = mPackages.get(ps.name);
if (scannedPkg != null) {
/*
* If the system app is both scanned and in the
* disabled packages list, then it must have been
* added via OTA. Remove it from the currently
* scanned package so the previously user-installed
* application can be scanned.
*/
if (mSettings.isDisabledSystemPackageLPr(ps.name)) {
logCriticalInfo(Log.WARN,
"Expecting better updated system app for " + ps.name
+ "; removing system app. Last known"
+ " codePath=" + ps.codePathString
+ ", versionCode=" + ps.versionCode
+ "; scanned versionCode=" + scannedPkg.getLongVersionCode());
removePackageLI(scannedPkg, true);
mExpectingBetter.put(ps.name, ps.codePath);
}
continue;
}
if (!mSettings.isDisabledSystemPackageLPr(ps.name)) {
psit.remove();
logCriticalInfo(Log.WARN, "System package " + ps.name
+ " no longer exists; it's data will be wiped");
// Actual deletion of code and data will be handled by later
// reconciliation step
} else {
// we still have a disabled system package, but, it still might have
// been removed. check the code path still exists and check there's
// still a package. the latter can happen if an OTA keeps the same
// code path, but, changes the package name.
final PackageSetting disabledPs =
mSettings.getDisabledSystemPkgLPr(ps.name);
if (disabledPs.codePath == null || !disabledPs.codePath.exists()
|| disabledPs.pkg == null) {
possiblyDeletedUpdatedSystemApps.add(ps.name);
}
}
}
}
//delete tmp files
deleteTempPackageFiles();
final int cachedSystemApps = PackageParser.sCachedPackageReadCount.get();
// Remove any shared userIDs that have no associated packages
mSettings.pruneSharedUsersLPw();
final long systemScanTime = SystemClock.uptimeMillis() - startTime;
final int systemPackagesCount = mPackages.size();
Slog.i(TAG, "Finished scanning system apps. Time: " + systemScanTime
+ " ms, packageCount: " + systemPackagesCount
+ " , timePerPackage: "
+ (systemPackagesCount == 0 ? 0 : systemScanTime / systemPackagesCount)
+ " , cached: " + cachedSystemApps);
if (mIsUpgrade && systemPackagesCount > 0) {
MetricsLogger.histogram(null, "ota_package_manager_system_app_avg_scan_time",
((int) systemScanTime) / systemPackagesCount);
}
if (!mOnlyCore) {
EventLog.writeEvent(EventLogTags.BOOT_PROGRESS_PMS_DATA_SCAN_START,
SystemClock.uptimeMillis());
scanDirTracedLI(sAppInstallDir, 0, scanFlags | SCAN_REQUIRE_KNOWN, 0);
scanDirTracedLI(sDrmAppPrivateInstallDir, mDefParseFlags
| PackageParser.PARSE_FORWARD_LOCK,
scanFlags | SCAN_REQUIRE_KNOWN, 0);
// Remove disable package settings for updated system apps that were
// removed via an OTA. If the update is no longer present, remove the
// app completely. Otherwise, revoke their system privileges.
for (String deletedAppName : possiblyDeletedUpdatedSystemApps) {
PackageParser.Package deletedPkg = mPackages.get(deletedAppName);
mSettings.removeDisabledSystemPackageLPw(deletedAppName);
final String msg;
if (deletedPkg == null) {
// should have found an update, but, we didn't; remove everything
msg = "Updated system package " + deletedAppName
+ " no longer exists; removing its data";
// Actual deletion of code and data will be handled by later
// reconciliation step
} else {
// found an update; revoke system privileges
msg = "Updated system package + " + deletedAppName
+ " no longer exists; revoking system privileges";
// Don't do anything if a stub is removed from the system image. If
// we were to remove the uncompressed version from the /data partition,
// this is where it'd be done.
final PackageSetting deletedPs = mSettings.mPackages.get(deletedAppName);
deletedPkg.applicationInfo.flags &= ~ApplicationInfo.FLAG_SYSTEM;
deletedPs.pkgFlags &= ~ApplicationInfo.FLAG_SYSTEM;
}
logCriticalInfo(Log.WARN, msg);
}
/*
* Make sure all system apps that we expected to appear on
* the userdata partition actually showed up. If they never
* appeared, crawl back and revive the system version.
*/
for (int i = 0; i < mExpectingBetter.size(); i++) {
final String packageName = mExpectingBetter.keyAt(i);
if (!mPackages.containsKey(packageName)) {
final File scanFile = mExpectingBetter.valueAt(i);
logCriticalInfo(Log.WARN, "Expected better " + packageName
+ " but never showed up; reverting to system");
final @ParseFlags int reparseFlags;
final @ScanFlags int rescanFlags;
if (FileUtils.contains(privilegedAppDir, scanFile)) {
reparseFlags =
mDefParseFlags |
PackageParser.PARSE_IS_SYSTEM_DIR;
rescanFlags =
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_PRIVILEGED;
} else if (FileUtils.contains(systemAppDir, scanFile)) {
reparseFlags =
mDefParseFlags |
PackageParser.PARSE_IS_SYSTEM_DIR;
rescanFlags =
scanFlags
| SCAN_AS_SYSTEM;
} else if (FileUtils.contains(privilegedVendorAppDir, scanFile)
|| FileUtils.contains(privilegedOdmAppDir, scanFile)) {
reparseFlags =
mDefParseFlags |
PackageParser.PARSE_IS_SYSTEM_DIR;
rescanFlags =
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_VENDOR
| SCAN_AS_PRIVILEGED;
} else if (FileUtils.contains(vendorAppDir, scanFile)
|| FileUtils.contains(odmAppDir, scanFile)) {
reparseFlags =
mDefParseFlags |
PackageParser.PARSE_IS_SYSTEM_DIR;
rescanFlags =
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_VENDOR;
} else if (FileUtils.contains(oemAppDir, scanFile)) {
reparseFlags =
mDefParseFlags |
PackageParser.PARSE_IS_SYSTEM_DIR;
rescanFlags =
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_OEM;
} else if (FileUtils.contains(privilegedProductAppDir, scanFile)) {
reparseFlags =
mDefParseFlags |
PackageParser.PARSE_IS_SYSTEM_DIR;
rescanFlags =
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_PRODUCT
| SCAN_AS_PRIVILEGED;
} else if (FileUtils.contains(productAppDir, scanFile)) {
reparseFlags =
mDefParseFlags |
PackageParser.PARSE_IS_SYSTEM_DIR;
rescanFlags =
scanFlags
| SCAN_AS_SYSTEM
| SCAN_AS_PRODUCT;
} else {
Slog.e(TAG, "Ignoring unexpected fallback path " + scanFile);
continue;
}
mSettings.enableSystemPackageLPw(packageName);
try {
scanPackageTracedLI(scanFile, reparseFlags, rescanFlags, 0, null);
} catch (PackageManagerException e) {
Slog.e(TAG, "Failed to parse original system package: "
+ e.getMessage());
}
}
}
// Uncompress and install any stubbed system applications.
// This must be done last to ensure all stubs are replaced or disabled.
decompressSystemApplications(stubSystemApps, scanFlags);
final int cachedNonSystemApps = PackageParser.sCachedPackageReadCount.get()
- cachedSystemApps;
final long dataScanTime = SystemClock.uptimeMillis() - systemScanTime - startTime;
final int dataPackagesCount = mPackages.size() - systemPackagesCount;
Slog.i(TAG, "Finished scanning non-system apps. Time: " + dataScanTime
+ " ms, packageCount: " + dataPackagesCount
+ " , timePerPackage: "
+ (dataPackagesCount == 0 ? 0 : dataScanTime / dataPackagesCount)
+ " , cached: " + cachedNonSystemApps);
if (mIsUpgrade && dataPackagesCount > 0) {
MetricsLogger.histogram(null, "ota_package_manager_data_app_avg_scan_time",
((int) dataScanTime) / dataPackagesCount);
}
}
mExpectingBetter.clear();
// Resolve the storage manager.
mStorageManagerPackage = getStorageManagerPackageName();
// Resolve protected action filters. Only the setup wizard is allowed to
// have a high priority filter for these actions.
mSetupWizardPackage = getSetupWizardPackageName();
if (mProtectedFilters.size() > 0) {
if (DEBUG_FILTERS && mSetupWizardPackage == null) {
Slog.i(TAG, "No setup wizard;"
+ " All protected intents capped to priority 0");
}
for (ActivityIntentInfo filter : mProtectedFilters) {
if (filter.activity.info.packageName.equals(mSetupWizardPackage)) {
if (DEBUG_FILTERS) {
Slog.i(TAG, "Found setup wizard;"
+ " allow priority " + filter.getPriority() + ";"
+ " package: " + filter.activity.info.packageName
+ " activity: " + filter.activity.className
+ " priority: " + filter.getPriority());
}
// skip setup wizard; allow it to keep the high priority filter
continue;
}
if (DEBUG_FILTERS) {
Slog.i(TAG, "Protected action; cap priority to 0;"
+ " package: " + filter.activity.info.packageName
+ " activity: " + filter.activity.className
+ " origPrio: " + filter.getPriority());
}
filter.setPriority(0);
}
}
mSystemTextClassifierPackage = getSystemTextClassifierPackageName();
mDeferProtectedFilters = false;
mProtectedFilters.clear();
// Now that we know all of the shared libraries, update all clients to have
// the correct library paths.
updateAllSharedLibrariesLPw(null);
for (SharedUserSetting setting : mSettings.getAllSharedUsersLPw()) {
// NOTE: We ignore potential failures here during a system scan (like
// the rest of the commands above) because there's precious little we
// can do about it. A settings error is reported, though.
final List<String> changedAbiCodePath =
adjustCpuAbisForSharedUserLPw(setting.packages, null /*scannedPackage*/);
if (changedAbiCodePath != null && changedAbiCodePath.size() > 0) {
for (int i = changedAbiCodePath.size() - 1; i >= 0; --i) {
final String codePathString = changedAbiCodePath.get(i);
try {
mInstaller.rmdex(codePathString,
getDexCodeInstructionSet(getPreferredInstructionSet()));
} catch (InstallerException ignored) {
}
}
}
// Adjust seInfo to ensure apps which share a sharedUserId are placed in the same
// SELinux domain.
setting.fixSeInfoLocked();
}
// Now that we know all the packages we are keeping,
// read and update their last usage times.
mPackageUsage.read(mPackages);
mCompilerStats.read();
EventLog.writeEvent(EventLogTags.BOOT_PROGRESS_PMS_SCAN_END,
SystemClock.uptimeMillis());
Slog.i(TAG, "Time to scan packages: "
+ ((SystemClock.uptimeMillis()-startTime)/1000f)
+ " seconds");
// If the platform SDK has changed since the last time we booted,
// we need to re-grant app permission to catch any new ones that
// appear. This is really a hack, and means that apps can in some
// cases get permissions that the user didn't initially explicitly
// allow... it would be nice to have some better way to handle
// this situation.
final boolean sdkUpdated = (ver.sdkVersion != mSdkVersion);
if (sdkUpdated) {
Slog.i(TAG, "Platform changed from " + ver.sdkVersion + " to "
+ mSdkVersion + "; regranting permissions for internal storage");
}
mPermissionManager.updateAllPermissions(
StorageManager.UUID_PRIVATE_INTERNAL, sdkUpdated, mPackages.values(),
mPermissionCallback);
ver.sdkVersion = mSdkVersion;
// If this is the first boot or an update from pre-M, and it is a normal
// boot, then we need to initialize the default preferred apps across
// all defined users.
if (!onlyCore && (mPromoteSystemApps || mFirstBoot)) {
for (UserInfo user : sUserManager.getUsers(true)) {
mSettings.applyDefaultPreferredAppsLPw(this, user.id);
applyFactoryDefaultBrowserLPw(user.id);
primeDomainVerificationsLPw(user.id);
}
}
// Prepare storage for system user really early during boot,
// since core system apps like SettingsProvider and SystemUI
// can't wait for user to start
final int storageFlags;
if (StorageManager.isFileEncryptedNativeOrEmulated()) {
storageFlags = StorageManager.FLAG_STORAGE_DE;
} else {
storageFlags = StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE;
}
List<String> deferPackages = reconcileAppsDataLI(StorageManager.UUID_PRIVATE_INTERNAL,
UserHandle.USER_SYSTEM, storageFlags, true /* migrateAppData */,
true /* onlyCoreApps */);
mPrepareAppDataFuture = SystemServerInitThreadPool.get().submit(() -> {
TimingsTraceLog traceLog = new TimingsTraceLog("SystemServerTimingAsync",
Trace.TRACE_TAG_PACKAGE_MANAGER);
traceLog.traceBegin("AppDataFixup");
try {
mInstaller.fixupAppData(StorageManager.UUID_PRIVATE_INTERNAL,
StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE);
} catch (InstallerException e) {
Slog.w(TAG, "Trouble fixing GIDs", e);
}
traceLog.traceEnd();
traceLog.traceBegin("AppDataPrepare");
if (deferPackages == null || deferPackages.isEmpty()) {
return;
}
int count = 0;
for (String pkgName : deferPackages) {
PackageParser.Package pkg = null;
synchronized (mPackages) {
PackageSetting ps = mSettings.getPackageLPr(pkgName);
if (ps != null && ps.getInstalled(UserHandle.USER_SYSTEM)) {
pkg = ps.pkg;
}
}
if (pkg != null) {
synchronized (mInstallLock) {
prepareAppDataAndMigrateLIF(pkg, UserHandle.USER_SYSTEM, storageFlags,
true /* maybeMigrateAppData */);
}
count++;
}
}
traceLog.traceEnd();
Slog.i(TAG, "Deferred reconcileAppsData finished " + count + " packages");
}, "prepareAppData");
// If this is first boot after an OTA, and a normal boot, then
// we need to clear code cache directories.
// Note that we do *not* clear the application profiles. These remain valid
// across OTAs and are used to drive profile verification (post OTA) and
// profile compilation (without waiting to collect a fresh set of profiles).
if (mIsUpgrade && !onlyCore) {
Slog.i(TAG, "Build fingerprint changed; clearing code caches");
for (int i = 0; i < mSettings.mPackages.size(); i++) {
final PackageSetting ps = mSettings.mPackages.valueAt(i);
if (Objects.equals(StorageManager.UUID_PRIVATE_INTERNAL, ps.volumeUuid)) {
// No apps are running this early, so no need to freeze
clearAppDataLIF(ps.pkg, UserHandle.USER_ALL,
StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE
| Installer.FLAG_CLEAR_CODE_CACHE_ONLY);
}
}
ver.fingerprint = Build.FINGERPRINT;
}
checkDefaultBrowser();
// clear only after permissions and other defaults have been updated
mExistingSystemPackages.clear();
mPromoteSystemApps = false;
// All the changes are done during package scanning.
ver.databaseVersion = Settings.CURRENT_DATABASE_VERSION;
// can downgrade to reader
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "write settings");
mSettings.writeLPr();
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
EventLog.writeEvent(EventLogTags.BOOT_PROGRESS_PMS_READY,
SystemClock.uptimeMillis());
if (!mOnlyCore) {
mRequiredVerifierPackage = getRequiredButNotReallyRequiredVerifierLPr();
mRequiredInstallerPackage = getRequiredInstallerLPr();
mRequiredUninstallerPackage = getRequiredUninstallerLPr();
mIntentFilterVerifierComponent = getIntentFilterVerifierComponentNameLPr();
if (mIntentFilterVerifierComponent != null) {
mIntentFilterVerifier = new IntentVerifierProxy(mContext,
mIntentFilterVerifierComponent);
} else {
mIntentFilterVerifier = null;
}
mServicesSystemSharedLibraryPackageName = getRequiredSharedLibraryLPr(
PackageManager.SYSTEM_SHARED_LIBRARY_SERVICES,
SharedLibraryInfo.VERSION_UNDEFINED);
mSharedSystemSharedLibraryPackageName = getRequiredSharedLibraryLPr(
PackageManager.SYSTEM_SHARED_LIBRARY_SHARED,
SharedLibraryInfo.VERSION_UNDEFINED);
} else {
mRequiredVerifierPackage = null;
mRequiredInstallerPackage = null;
mRequiredUninstallerPackage = null;
mIntentFilterVerifierComponent = null;
mIntentFilterVerifier = null;
mServicesSystemSharedLibraryPackageName = null;
mSharedSystemSharedLibraryPackageName = null;
}
mInstallerService = new PackageInstallerService(context, this);
final Pair<ComponentName, String> instantAppResolverComponent =
getInstantAppResolverLPr();
if (instantAppResolverComponent != null) {
if (DEBUG_INSTANT) {
Slog.d(TAG, "Set ephemeral resolver: " + instantAppResolverComponent);
}
mInstantAppResolverConnection = new InstantAppResolverConnection(
mContext, instantAppResolverComponent.first,
instantAppResolverComponent.second);
mInstantAppResolverSettingsComponent =
getInstantAppResolverSettingsLPr(instantAppResolverComponent.first);
} else {
mInstantAppResolverConnection = null;
mInstantAppResolverSettingsComponent = null;
}
updateInstantAppInstallerLocked(null);
// Read and update the usage of dex files.
// Do this at the end of PM init so that all the packages have their
// data directory reconciled.
// At this point we know the code paths of the packages, so we can validate
// the disk file and build the internal cache.
// The usage file is expected to be small so loading and verifying it
// should take a fairly small time compare to the other activities (e.g. package
// scanning).
final Map<Integer, List<PackageInfo>> userPackages = new HashMap<>();
final int[] currentUserIds = UserManagerService.getInstance().getUserIds();
for (int userId : currentUserIds) {
userPackages.put(userId, getInstalledPackages(/*flags*/ 0, userId).getList());
}
mDexManager.load(userPackages);
if (mIsUpgrade) {
MetricsLogger.histogram(null, "ota_package_manager_init_time",
(int) (SystemClock.uptimeMillis() - startTime));
}
} // synchronized (mPackages)
} // synchronized (mInstallLock)
// Now after opening every single application zip, make sure they
// are all flushed. Not really needed, but keeps things nice and
// tidy.
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "GC");
Runtime.getRuntime().gc();
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
// The initial scanning above does many calls into installd while
// holding the mPackages lock, but we're mostly interested in yelling
// once we have a booted system.
mInstaller.setWarnIfHeld(mPackages);
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
/**
* Uncompress and install stub applications.
* <p>In order to save space on the system partition, some applications are shipped in a
* compressed form. In addition the compressed bits for the full application, the
* system image contains a tiny stub comprised of only the Android manifest.
* <p>During the first boot, attempt to uncompress and install the full application. If
* the application can't be installed for any reason, disable the stub and prevent
* uncompressing the full application during future boots.
* <p>In order to forcefully attempt an installation of a full application, go to app
* settings and enable the application.
*/
private void decompressSystemApplications(@NonNull List<String> stubSystemApps, int scanFlags) {
for (int i = stubSystemApps.size() - 1; i >= 0; --i) {
final String pkgName = stubSystemApps.get(i);
// skip if the system package is already disabled
if (mSettings.isDisabledSystemPackageLPr(pkgName)) {
stubSystemApps.remove(i);
continue;
}
// skip if the package isn't installed (?!); this should never happen
final PackageParser.Package pkg = mPackages.get(pkgName);
if (pkg == null) {
stubSystemApps.remove(i);
continue;
}
// skip if the package has been disabled by the user
final PackageSetting ps = mSettings.mPackages.get(pkgName);
if (ps != null) {
final int enabledState = ps.getEnabled(UserHandle.USER_SYSTEM);
if (enabledState == PackageManager.COMPONENT_ENABLED_STATE_DISABLED_USER) {
stubSystemApps.remove(i);
continue;
}
}
if (DEBUG_COMPRESSION) {
Slog.i(TAG, "Uncompressing system stub; pkg: " + pkgName);
}
// uncompress the binary to its eventual destination on /data
final File scanFile = decompressPackage(pkg);
if (scanFile == null) {
continue;
}
// install the package to replace the stub on /system
try {
mSettings.disableSystemPackageLPw(pkgName, true /*replaced*/);
removePackageLI(pkg, true /*chatty*/);
scanPackageTracedLI(scanFile, 0 /*reparseFlags*/, scanFlags, 0, null);
ps.setEnabled(PackageManager.COMPONENT_ENABLED_STATE_DEFAULT,
UserHandle.USER_SYSTEM, "android");
stubSystemApps.remove(i);
continue;
} catch (PackageManagerException e) {
Slog.e(TAG, "Failed to parse uncompressed system package: " + e.getMessage());
}
// any failed attempt to install the package will be cleaned up later
}
// disable any stub still left; these failed to install the full application
for (int i = stubSystemApps.size() - 1; i >= 0; --i) {
final String pkgName = stubSystemApps.get(i);
final PackageSetting ps = mSettings.mPackages.get(pkgName);
ps.setEnabled(PackageManager.COMPONENT_ENABLED_STATE_DISABLED,
UserHandle.USER_SYSTEM, "android");
logCriticalInfo(Log.ERROR, "Stub disabled; pkg: " + pkgName);
}
}
/**
* Decompresses the given package on the system image onto
* the /data partition.
* @return The directory the package was decompressed into. Otherwise, {@code null}.
*/
private File decompressPackage(PackageParser.Package pkg) {
final File[] compressedFiles = getCompressedFiles(pkg.codePath);
if (compressedFiles == null || compressedFiles.length == 0) {
if (DEBUG_COMPRESSION) {
Slog.i(TAG, "No files to decompress: " + pkg.baseCodePath);
}
return null;
}
final File dstCodePath =
getNextCodePath(Environment.getDataAppDirectory(null), pkg.packageName);
int ret = PackageManager.INSTALL_SUCCEEDED;
try {
Os.mkdir(dstCodePath.getAbsolutePath(), 0755);
Os.chmod(dstCodePath.getAbsolutePath(), 0755);
for (File srcFile : compressedFiles) {
final String srcFileName = srcFile.getName();
final String dstFileName = srcFileName.substring(
0, srcFileName.length() - COMPRESSED_EXTENSION.length());
final File dstFile = new File(dstCodePath, dstFileName);
ret = decompressFile(srcFile, dstFile);
if (ret != PackageManager.INSTALL_SUCCEEDED) {
logCriticalInfo(Log.ERROR, "Failed to decompress"
+ "; pkg: " + pkg.packageName
+ ", file: " + dstFileName);
break;
}
}
} catch (ErrnoException e) {
logCriticalInfo(Log.ERROR, "Failed to decompress"
+ "; pkg: " + pkg.packageName
+ ", err: " + e.errno);
}
if (ret == PackageManager.INSTALL_SUCCEEDED) {
final File libraryRoot = new File(dstCodePath, LIB_DIR_NAME);
NativeLibraryHelper.Handle handle = null;
try {
handle = NativeLibraryHelper.Handle.create(dstCodePath);
ret = NativeLibraryHelper.copyNativeBinariesWithOverride(handle, libraryRoot,
null /*abiOverride*/);
} catch (IOException e) {
logCriticalInfo(Log.ERROR, "Failed to extract native libraries"
+ "; pkg: " + pkg.packageName);
ret = PackageManager.INSTALL_FAILED_INTERNAL_ERROR;
} finally {
IoUtils.closeQuietly(handle);
}
}
if (ret != PackageManager.INSTALL_SUCCEEDED) {
if (dstCodePath == null || !dstCodePath.exists()) {
return null;
}
removeCodePathLI(dstCodePath);
return null;
}
return dstCodePath;
}
private void updateInstantAppInstallerLocked(String modifiedPackage) {
// we're only interested in updating the installer appliction when 1) it's not
// already set or 2) the modified package is the installer
if (mInstantAppInstallerActivity != null
&& !mInstantAppInstallerActivity.getComponentName().getPackageName()
.equals(modifiedPackage)) {
return;
}
setUpInstantAppInstallerActivityLP(getInstantAppInstallerLPr());
}
private static File preparePackageParserCache(boolean isUpgrade) {
if (!DEFAULT_PACKAGE_PARSER_CACHE_ENABLED) {
return null;
}
// Disable package parsing on eng builds to allow for faster incremental development.
if (Build.IS_ENG) {
return null;
}
if (SystemProperties.getBoolean("pm.boot.disable_package_cache", false)) {
Slog.i(TAG, "Disabling package parser cache due to system property.");
return null;
}
// The base directory for the package parser cache lives under /data/system/.
final File cacheBaseDir = FileUtils.createDir(Environment.getDataSystemDirectory(),
"package_cache");
if (cacheBaseDir == null) {
return null;
}
// If this is a system upgrade scenario, delete the contents of the package cache dir.
// This also serves to "GC" unused entries when the package cache version changes (which
// can only happen during upgrades).
if (isUpgrade) {
FileUtils.deleteContents(cacheBaseDir);
}
// Return the versioned package cache directory. This is something like
// "/data/system/package_cache/1"
File cacheDir = FileUtils.createDir(cacheBaseDir, PACKAGE_PARSER_CACHE_VERSION);
if (cacheDir == null) {
// Something went wrong. Attempt to delete everything and return.
Slog.wtf(TAG, "Cache directory cannot be created - wiping base dir " + cacheBaseDir);
FileUtils.deleteContentsAndDir(cacheBaseDir);
return null;
}
// The following is a workaround to aid development on non-numbered userdebug
// builds or cases where "adb sync" is used on userdebug builds. If we detect that
// the system partition is newer.
//
// NOTE: When no BUILD_NUMBER is set by the build system, it defaults to a build
// that starts with "eng." to signify that this is an engineering build and not
// destined for release.
if (Build.IS_USERDEBUG && Build.VERSION.INCREMENTAL.startsWith("eng.")) {
Slog.w(TAG, "Wiping cache directory because the system partition changed.");
// Heuristic: If the /system directory has been modified recently due to an "adb sync"
// or a regular make, then blow away the cache. Note that mtimes are *NOT* reliable
// in general and should not be used for production changes. In this specific case,
// we know that they will work.
File frameworkDir = new File(Environment.getRootDirectory(), "framework");
if (cacheDir.lastModified() < frameworkDir.lastModified()) {
FileUtils.deleteContents(cacheBaseDir);
cacheDir = FileUtils.createDir(cacheBaseDir, PACKAGE_PARSER_CACHE_VERSION);
}
}
return cacheDir;
}
@Override
public boolean isFirstBoot() {
// allow instant applications
return mFirstBoot;
}
@Override
public boolean isOnlyCoreApps() {
// allow instant applications
return mOnlyCore;
}
@Override
public boolean isUpgrade() {
// allow instant applications
// The system property allows testing ota flow when upgraded to the same image.
return mIsUpgrade || SystemProperties.getBoolean(
"persist.pm.mock-upgrade", false /* default */);
}
private @Nullable String getRequiredButNotReallyRequiredVerifierLPr() {
final Intent intent = new Intent(Intent.ACTION_PACKAGE_NEEDS_VERIFICATION);
final List<ResolveInfo> matches = queryIntentReceiversInternal(intent, PACKAGE_MIME_TYPE,
MATCH_SYSTEM_ONLY | MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE,
UserHandle.USER_SYSTEM, false /*allowDynamicSplits*/);
if (matches.size() == 1) {
return matches.get(0).getComponentInfo().packageName;
} else if (matches.size() == 0) {
Log.e(TAG, "There should probably be a verifier, but, none were found");
return null;
}
throw new RuntimeException("There must be exactly one verifier; found " + matches);
}
private @NonNull String getRequiredSharedLibraryLPr(String name, int version) {
synchronized (mPackages) {
SharedLibraryEntry libraryEntry = getSharedLibraryEntryLPr(name, version);
if (libraryEntry == null) {
throw new IllegalStateException("Missing required shared library:" + name);
}
return libraryEntry.apk;
}
}
private @NonNull String getRequiredInstallerLPr() {
final Intent intent = new Intent(Intent.ACTION_INSTALL_PACKAGE);
intent.addCategory(Intent.CATEGORY_DEFAULT);
intent.setDataAndType(Uri.fromFile(new File("foo.apk")), PACKAGE_MIME_TYPE);
final List<ResolveInfo> matches = queryIntentActivitiesInternal(intent, PACKAGE_MIME_TYPE,
MATCH_SYSTEM_ONLY | MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE,
UserHandle.USER_SYSTEM);
if (matches.size() == 1) {
ResolveInfo resolveInfo = matches.get(0);
if (!resolveInfo.activityInfo.applicationInfo.isPrivilegedApp()) {
throw new RuntimeException("The installer must be a privileged app");
}
return matches.get(0).getComponentInfo().packageName;
} else {
throw new RuntimeException("There must be exactly one installer; found " + matches);
}
}
private @NonNull String getRequiredUninstallerLPr() {
final Intent intent = new Intent(Intent.ACTION_UNINSTALL_PACKAGE);
intent.addCategory(Intent.CATEGORY_DEFAULT);
intent.setData(Uri.fromParts(PACKAGE_SCHEME, "foo.bar", null));
final ResolveInfo resolveInfo = resolveIntent(intent, null,
MATCH_SYSTEM_ONLY | MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE,
UserHandle.USER_SYSTEM);
if (resolveInfo == null ||
mResolveActivity.name.equals(resolveInfo.getComponentInfo().name)) {
throw new RuntimeException("There must be exactly one uninstaller; found "
+ resolveInfo);
}
return resolveInfo.getComponentInfo().packageName;
}
private @NonNull ComponentName getIntentFilterVerifierComponentNameLPr() {
final Intent intent = new Intent(Intent.ACTION_INTENT_FILTER_NEEDS_VERIFICATION);
final List<ResolveInfo> matches = queryIntentReceiversInternal(intent, PACKAGE_MIME_TYPE,
MATCH_SYSTEM_ONLY | MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE,
UserHandle.USER_SYSTEM, false /*allowDynamicSplits*/);
ResolveInfo best = null;
final int N = matches.size();
for (int i = 0; i < N; i++) {
final ResolveInfo cur = matches.get(i);
final String packageName = cur.getComponentInfo().packageName;
if (checkPermission(android.Manifest.permission.INTENT_FILTER_VERIFICATION_AGENT,
packageName, UserHandle.USER_SYSTEM) != PackageManager.PERMISSION_GRANTED) {
continue;
}
if (best == null || cur.priority > best.priority) {
best = cur;
}
}
if (best != null) {
return best.getComponentInfo().getComponentName();
}
Slog.w(TAG, "Intent filter verifier not found");
return null;
}
@Override
public @Nullable ComponentName getInstantAppResolverComponent() {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
synchronized (mPackages) {
final Pair<ComponentName, String> instantAppResolver = getInstantAppResolverLPr();
if (instantAppResolver == null) {
return null;
}
return instantAppResolver.first;
}
}
private @Nullable Pair<ComponentName, String> getInstantAppResolverLPr() {
final String[] packageArray =
mContext.getResources().getStringArray(R.array.config_ephemeralResolverPackage);
if (packageArray.length == 0 && !Build.IS_DEBUGGABLE) {
if (DEBUG_INSTANT) {
Slog.d(TAG, "Ephemeral resolver NOT found; empty package list");
}
return null;
}
final int callingUid = Binder.getCallingUid();
final int resolveFlags =
MATCH_DIRECT_BOOT_AWARE
| MATCH_DIRECT_BOOT_UNAWARE
| (!Build.IS_DEBUGGABLE ? MATCH_SYSTEM_ONLY : 0);
String actionName = Intent.ACTION_RESOLVE_INSTANT_APP_PACKAGE;
final Intent resolverIntent = new Intent(actionName);
List<ResolveInfo> resolvers = queryIntentServicesInternal(resolverIntent, null,
resolveFlags, UserHandle.USER_SYSTEM, callingUid, false /*includeInstantApps*/);
final int N = resolvers.size();
if (N == 0) {
if (DEBUG_INSTANT) {
Slog.d(TAG, "Ephemeral resolver NOT found; no matching intent filters");
}
return null;
}
final Set<String> possiblePackages = new ArraySet<>(Arrays.asList(packageArray));
for (int i = 0; i < N; i++) {
final ResolveInfo info = resolvers.get(i);
if (info.serviceInfo == null) {
continue;
}
final String packageName = info.serviceInfo.packageName;
if (!possiblePackages.contains(packageName) && !Build.IS_DEBUGGABLE) {
if (DEBUG_INSTANT) {
Slog.d(TAG, "Ephemeral resolver not in allowed package list;"
+ " pkg: " + packageName + ", info:" + info);
}
continue;
}
if (DEBUG_INSTANT) {
Slog.v(TAG, "Ephemeral resolver found;"
+ " pkg: " + packageName + ", info:" + info);
}
return new Pair<>(new ComponentName(packageName, info.serviceInfo.name), actionName);
}
if (DEBUG_INSTANT) {
Slog.v(TAG, "Ephemeral resolver NOT found");
}
return null;
}
private @Nullable ActivityInfo getInstantAppInstallerLPr() {
String[] orderedActions = Build.IS_ENG
? new String[]{
Intent.ACTION_INSTALL_INSTANT_APP_PACKAGE + "_TEST",
Intent.ACTION_INSTALL_INSTANT_APP_PACKAGE}
: new String[]{
Intent.ACTION_INSTALL_INSTANT_APP_PACKAGE};
final int resolveFlags =
MATCH_DIRECT_BOOT_AWARE
| MATCH_DIRECT_BOOT_UNAWARE
| Intent.FLAG_IGNORE_EPHEMERAL
| (!Build.IS_ENG ? MATCH_SYSTEM_ONLY : 0);
final Intent intent = new Intent();
intent.addCategory(Intent.CATEGORY_DEFAULT);
intent.setDataAndType(Uri.fromFile(new File("foo.apk")), PACKAGE_MIME_TYPE);
List<ResolveInfo> matches = null;
for (String action : orderedActions) {
intent.setAction(action);
matches = queryIntentActivitiesInternal(intent, PACKAGE_MIME_TYPE,
resolveFlags, UserHandle.USER_SYSTEM);
if (matches.isEmpty()) {
if (DEBUG_INSTANT) {
Slog.d(TAG, "Instant App installer not found with " + action);
}
} else {
break;
}
}
Iterator<ResolveInfo> iter = matches.iterator();
while (iter.hasNext()) {
final ResolveInfo rInfo = iter.next();
final PackageSetting ps = mSettings.mPackages.get(rInfo.activityInfo.packageName);
if (ps != null) {
final PermissionsState permissionsState = ps.getPermissionsState();
if (permissionsState.hasPermission(Manifest.permission.INSTALL_PACKAGES, 0)
|| Build.IS_ENG) {
continue;
}
}
iter.remove();
}
if (matches.size() == 0) {
return null;
} else if (matches.size() == 1) {
return (ActivityInfo) matches.get(0).getComponentInfo();
} else {
throw new RuntimeException(
"There must be at most one ephemeral installer; found " + matches);
}
}
private @Nullable ComponentName getInstantAppResolverSettingsLPr(
@NonNull ComponentName resolver) {
final Intent intent = new Intent(Intent.ACTION_INSTANT_APP_RESOLVER_SETTINGS)
.addCategory(Intent.CATEGORY_DEFAULT)
.setPackage(resolver.getPackageName());
final int resolveFlags = MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE;
List<ResolveInfo> matches = queryIntentActivitiesInternal(intent, null, resolveFlags,
UserHandle.USER_SYSTEM);
if (matches.isEmpty()) {
return null;
}
return matches.get(0).getComponentInfo().getComponentName();
}
private void primeDomainVerificationsLPw(int userId) {
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.d(TAG, "Priming domain verifications in user " + userId);
}
SystemConfig systemConfig = SystemConfig.getInstance();
ArraySet<String> packages = systemConfig.getLinkedApps();
for (String packageName : packages) {
PackageParser.Package pkg = mPackages.get(packageName);
if (pkg != null) {
if (!pkg.isSystem()) {
Slog.w(TAG, "Non-system app '" + packageName + "' in sysconfig <app-link>");
continue;
}
ArraySet<String> domains = null;
for (PackageParser.Activity a : pkg.activities) {
for (ActivityIntentInfo filter : a.intents) {
if (hasValidDomains(filter)) {
if (domains == null) {
domains = new ArraySet<String>();
}
domains.addAll(filter.getHostsList());
}
}
}
if (domains != null && domains.size() > 0) {
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.v(TAG, " + " + packageName);
}
// 'Undefined' in the global IntentFilterVerificationInfo, i.e. the usual
// state w.r.t. the formal app-linkage "no verification attempted" state;
// and then 'always' in the per-user state actually used for intent resolution.
final IntentFilterVerificationInfo ivi;
ivi = mSettings.createIntentFilterVerificationIfNeededLPw(packageName, domains);
ivi.setStatus(INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED);
mSettings.updateIntentFilterVerificationStatusLPw(packageName,
INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS, userId);
} else {
Slog.w(TAG, "Sysconfig <app-link> package '" + packageName
+ "' does not handle web links");
}
} else {
Slog.w(TAG, "Unknown package " + packageName + " in sysconfig <app-link>");
}
}
scheduleWritePackageRestrictionsLocked(userId);
scheduleWriteSettingsLocked();
}
private void applyFactoryDefaultBrowserLPw(int userId) {
// The default browser app's package name is stored in a string resource,
// with a product-specific overlay used for vendor customization.
String browserPkg = mContext.getResources().getString(
com.android.internal.R.string.default_browser);
if (!TextUtils.isEmpty(browserPkg)) {
// non-empty string => required to be a known package
PackageSetting ps = mSettings.mPackages.get(browserPkg);
if (ps == null) {
Slog.e(TAG, "Product default browser app does not exist: " + browserPkg);
browserPkg = null;
} else {
mSettings.setDefaultBrowserPackageNameLPw(browserPkg, userId);
}
}
// Nothing valid explicitly set? Make the factory-installed browser the explicit
// default. If there's more than one, just leave everything alone.
if (browserPkg == null) {
calculateDefaultBrowserLPw(userId);
}
}
private void calculateDefaultBrowserLPw(int userId) {
List<String> allBrowsers = resolveAllBrowserApps(userId);
final String browserPkg = (allBrowsers.size() == 1) ? allBrowsers.get(0) : null;
mSettings.setDefaultBrowserPackageNameLPw(browserPkg, userId);
}
private List<String> resolveAllBrowserApps(int userId) {
// Resolve the canonical browser intent and check that the handleAllWebDataURI boolean is set
List<ResolveInfo> list = queryIntentActivitiesInternal(sBrowserIntent, null,
PackageManager.MATCH_ALL, userId);
final int count = list.size();
List<String> result = new ArrayList<String>(count);
for (int i=0; i<count; i++) {
ResolveInfo info = list.get(i);
if (info.activityInfo == null
|| !info.handleAllWebDataURI
|| (info.activityInfo.applicationInfo.flags & ApplicationInfo.FLAG_SYSTEM) == 0
|| result.contains(info.activityInfo.packageName)) {
continue;
}
result.add(info.activityInfo.packageName);
}
return result;
}
private boolean packageIsBrowser(String packageName, int userId) {
List<ResolveInfo> list = queryIntentActivitiesInternal(sBrowserIntent, null,
PackageManager.MATCH_ALL, userId);
final int N = list.size();
for (int i = 0; i < N; i++) {
ResolveInfo info = list.get(i);
if (info.priority >= 0 && packageName.equals(info.activityInfo.packageName)) {
return true;
}
}
return false;
}
private void checkDefaultBrowser() {
final int myUserId = UserHandle.myUserId();
final String packageName = getDefaultBrowserPackageName(myUserId);
if (packageName != null) {
PackageInfo info = getPackageInfo(packageName, 0, myUserId);
if (info == null) {
Slog.w(TAG, "Default browser no longer installed: " + packageName);
synchronized (mPackages) {
applyFactoryDefaultBrowserLPw(myUserId); // leaves ambiguous when > 1
}
}
}
}
@Override
public boolean onTransact(int code, Parcel data, Parcel reply, int flags)
throws RemoteException {
try {
return super.onTransact(code, data, reply, flags);
} catch (RuntimeException e) {
if (!(e instanceof SecurityException) && !(e instanceof IllegalArgumentException)) {
Slog.wtf(TAG, "Package Manager Crash", e);
}
throw e;
}
}
static int[] appendInts(int[] cur, int[] add) {
if (add == null) return cur;
if (cur == null) return add;
final int N = add.length;
for (int i=0; i<N; i++) {
cur = appendInt(cur, add[i]);
}
return cur;
}
/**
* Returns whether or not a full application can see an instant application.
* <p>
* Currently, there are three cases in which this can occur:
* <ol>
* <li>The calling application is a "special" process. Special processes
* are those with a UID < {@link Process#FIRST_APPLICATION_UID}.</li>
* <li>The calling application has the permission
* {@link android.Manifest.permission#ACCESS_INSTANT_APPS}.</li>
* <li>The calling application is the default launcher on the
* system partition.</li>
* </ol>
*/
private boolean canViewInstantApps(int callingUid, int userId) {
if (callingUid < Process.FIRST_APPLICATION_UID) {
return true;
}
if (mContext.checkCallingOrSelfPermission(
android.Manifest.permission.ACCESS_INSTANT_APPS) == PERMISSION_GRANTED) {
return true;
}
if (mContext.checkCallingOrSelfPermission(
android.Manifest.permission.VIEW_INSTANT_APPS) == PERMISSION_GRANTED) {
final ComponentName homeComponent = getDefaultHomeActivity(userId);
if (homeComponent != null
&& isCallerSameApp(homeComponent.getPackageName(), callingUid)) {
return true;
}
}
return false;
}
private PackageInfo generatePackageInfo(PackageSetting ps, int flags, int userId) {
if (!sUserManager.exists(userId)) return null;
if (ps == null) {
return null;
}
final int callingUid = Binder.getCallingUid();
// Filter out ephemeral app metadata:
// * The system/shell/root can see metadata for any app
// * An installed app can see metadata for 1) other installed apps
// and 2) ephemeral apps that have explicitly interacted with it
// * Ephemeral apps can only see their own data and exposed installed apps
// * Holding a signature permission allows seeing instant apps
if (filterAppAccessLPr(ps, callingUid, userId)) {
return null;
}
if ((flags & MATCH_UNINSTALLED_PACKAGES) != 0
&& ps.isSystem()) {
flags |= MATCH_ANY_USER;
}
final PackageUserState state = ps.readUserState(userId);
PackageParser.Package p = ps.pkg;
if (p != null) {
final PermissionsState permissionsState = ps.getPermissionsState();
// Compute GIDs only if requested
final int[] gids = (flags & PackageManager.GET_GIDS) == 0
? EMPTY_INT_ARRAY : permissionsState.computeGids(userId);
// Compute granted permissions only if package has requested permissions
final Set<String> permissions = ArrayUtils.isEmpty(p.requestedPermissions)
? Collections.<String>emptySet() : permissionsState.getPermissions(userId);
PackageInfo packageInfo = PackageParser.generatePackageInfo(p, gids, flags,
ps.firstInstallTime, ps.lastUpdateTime, permissions, state, userId);
if (packageInfo == null) {
return null;
}
packageInfo.packageName = packageInfo.applicationInfo.packageName =
resolveExternalPackageNameLPr(p);
return packageInfo;
} else if ((flags & MATCH_UNINSTALLED_PACKAGES) != 0 && state.isAvailable(flags)) {
PackageInfo pi = new PackageInfo();
pi.packageName = ps.name;
pi.setLongVersionCode(ps.versionCode);
pi.sharedUserId = (ps.sharedUser != null) ? ps.sharedUser.name : null;
pi.firstInstallTime = ps.firstInstallTime;
pi.lastUpdateTime = ps.lastUpdateTime;
ApplicationInfo ai = new ApplicationInfo();
ai.packageName = ps.name;
ai.uid = UserHandle.getUid(userId, ps.appId);
ai.primaryCpuAbi = ps.primaryCpuAbiString;
ai.secondaryCpuAbi = ps.secondaryCpuAbiString;
ai.setVersionCode(ps.versionCode);
ai.flags = ps.pkgFlags;
ai.privateFlags = ps.pkgPrivateFlags;
pi.applicationInfo = PackageParser.generateApplicationInfo(ai, flags, state, userId);
if (DEBUG_PACKAGE_INFO) Log.v(TAG, "ps.pkg is n/a for ["
+ ps.name + "]. Provides a minimum info.");
return pi;
} else {
return null;
}
}
@Override
public void checkPackageStartable(String packageName, int userId) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
throw new SecurityException("Instant applications don't have access to this method");
}
final boolean userKeyUnlocked = StorageManager.isUserKeyUnlocked(userId);
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null || filterAppAccessLPr(ps, callingUid, userId)) {
throw new SecurityException("Package " + packageName + " was not found!");
}
if (!ps.getInstalled(userId)) {
throw new SecurityException(
"Package " + packageName + " was not installed for user " + userId + "!");
}
if (mSafeMode && !ps.isSystem()) {
throw new SecurityException("Package " + packageName + " not a system app!");
}
if (mFrozenPackages.contains(packageName)) {
throw new SecurityException("Package " + packageName + " is currently frozen!");
}
if (!userKeyUnlocked && !ps.pkg.applicationInfo.isEncryptionAware()) {
throw new SecurityException("Package " + packageName + " is not encryption aware!");
}
}
}
@Override
public boolean isPackageAvailable(String packageName, int userId) {
if (!sUserManager.exists(userId)) return false;
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, false /*checkShell*/, "is package available");
synchronized (mPackages) {
PackageParser.Package p = mPackages.get(packageName);
if (p != null) {
final PackageSetting ps = (PackageSetting) p.mExtras;
if (filterAppAccessLPr(ps, callingUid, userId)) {
return false;
}
if (ps != null) {
final PackageUserState state = ps.readUserState(userId);
if (state != null) {
return PackageParser.isAvailable(state);
}
}
}
}
return false;
}
@Override
public PackageInfo getPackageInfo(String packageName, int flags, int userId) {
return getPackageInfoInternal(packageName, PackageManager.VERSION_CODE_HIGHEST,
flags, Binder.getCallingUid(), userId);
}
@Override
public PackageInfo getPackageInfoVersioned(VersionedPackage versionedPackage,
int flags, int userId) {
return getPackageInfoInternal(versionedPackage.getPackageName(),
versionedPackage.getLongVersionCode(), flags, Binder.getCallingUid(), userId);
}
/**
* Important: The provided filterCallingUid is used exclusively to filter out packages
* that can be seen based on user state. It's typically the original caller uid prior
* to clearing. Because it can only be provided by trusted code, it's value can be
* trusted and will be used as-is; unlike userId which will be validated by this method.
*/
private PackageInfo getPackageInfoInternal(String packageName, long versionCode,
int flags, int filterCallingUid, int userId) {
if (!sUserManager.exists(userId)) return null;
flags = updateFlagsForPackage(flags, userId, packageName);
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
false /* requireFullPermission */, false /* checkShell */, "get package info");
// reader
synchronized (mPackages) {
// Normalize package name to handle renamed packages and static libs
packageName = resolveInternalPackageNameLPr(packageName, versionCode);
final boolean matchFactoryOnly = (flags & MATCH_FACTORY_ONLY) != 0;
if (matchFactoryOnly) {
final PackageSetting ps = mSettings.getDisabledSystemPkgLPr(packageName);
if (ps != null) {
if (filterSharedLibPackageLPr(ps, filterCallingUid, userId, flags)) {
return null;
}
if (filterAppAccessLPr(ps, filterCallingUid, userId)) {
return null;
}
return generatePackageInfo(ps, flags, userId);
}
}
PackageParser.Package p = mPackages.get(packageName);
if (matchFactoryOnly && p != null && !isSystemApp(p)) {
return null;
}
if (DEBUG_PACKAGE_INFO)
Log.v(TAG, "getPackageInfo " + packageName + ": " + p);
if (p != null) {
final PackageSetting ps = (PackageSetting) p.mExtras;
if (filterSharedLibPackageLPr(ps, filterCallingUid, userId, flags)) {
return null;
}
if (ps != null && filterAppAccessLPr(ps, filterCallingUid, userId)) {
return null;
}
return generatePackageInfo((PackageSetting)p.mExtras, flags, userId);
}
if (!matchFactoryOnly && (flags & MATCH_KNOWN_PACKAGES) != 0) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null) return null;
if (filterSharedLibPackageLPr(ps, filterCallingUid, userId, flags)) {
return null;
}
if (filterAppAccessLPr(ps, filterCallingUid, userId)) {
return null;
}
return generatePackageInfo(ps, flags, userId);
}
}
return null;
}
private boolean isComponentVisibleToInstantApp(@Nullable ComponentName component) {
if (isComponentVisibleToInstantApp(component, TYPE_ACTIVITY)) {
return true;
}
if (isComponentVisibleToInstantApp(component, TYPE_SERVICE)) {
return true;
}
if (isComponentVisibleToInstantApp(component, TYPE_PROVIDER)) {
return true;
}
return false;
}
private boolean isComponentVisibleToInstantApp(
@Nullable ComponentName component, @ComponentType int type) {
if (type == TYPE_ACTIVITY) {
final PackageParser.Activity activity = mActivities.mActivities.get(component);
if (activity == null) {
return false;
}
final boolean visibleToInstantApp =
(activity.info.flags & ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0;
final boolean explicitlyVisibleToInstantApp =
(activity.info.flags & ActivityInfo.FLAG_IMPLICITLY_VISIBLE_TO_INSTANT_APP) == 0;
return visibleToInstantApp && explicitlyVisibleToInstantApp;
} else if (type == TYPE_RECEIVER) {
final PackageParser.Activity activity = mReceivers.mActivities.get(component);
if (activity == null) {
return false;
}
final boolean visibleToInstantApp =
(activity.info.flags & ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0;
final boolean explicitlyVisibleToInstantApp =
(activity.info.flags & ActivityInfo.FLAG_IMPLICITLY_VISIBLE_TO_INSTANT_APP) == 0;
return visibleToInstantApp && !explicitlyVisibleToInstantApp;
} else if (type == TYPE_SERVICE) {
final PackageParser.Service service = mServices.mServices.get(component);
return service != null
? (service.info.flags & ServiceInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0
: false;
} else if (type == TYPE_PROVIDER) {
final PackageParser.Provider provider = mProviders.mProviders.get(component);
return provider != null
? (provider.info.flags & ProviderInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0
: false;
} else if (type == TYPE_UNKNOWN) {
return isComponentVisibleToInstantApp(component);
}
return false;
}
/**
* Returns whether or not access to the application should be filtered.
* <p>
* Access may be limited based upon whether the calling or target applications
* are instant applications.
*
* @see #canAccessInstantApps(int)
*/
private boolean filterAppAccessLPr(@Nullable PackageSetting ps, int callingUid,
@Nullable ComponentName component, @ComponentType int componentType, int userId) {
// if we're in an isolated process, get the real calling UID
if (Process.isIsolated(callingUid)) {
callingUid = mIsolatedOwners.get(callingUid);
}
final String instantAppPkgName = getInstantAppPackageName(callingUid);
final boolean callerIsInstantApp = instantAppPkgName != null;
if (ps == null) {
if (callerIsInstantApp) {
// pretend the application exists, but, needs to be filtered
return true;
}
return false;
}
// if the target and caller are the same application, don't filter
if (isCallerSameApp(ps.name, callingUid)) {
return false;
}
if (callerIsInstantApp) {
// both caller and target are both instant, but, different applications, filter
if (ps.getInstantApp(userId)) {
return true;
}
// request for a specific component; if it hasn't been explicitly exposed through
// property or instrumentation target, filter
if (component != null) {
final PackageParser.Instrumentation instrumentation =
mInstrumentation.get(component);
if (instrumentation != null
&& isCallerSameApp(instrumentation.info.targetPackage, callingUid)) {
return false;
}
return !isComponentVisibleToInstantApp(component, componentType);
}
// request for application; if no components have been explicitly exposed, filter
return !ps.pkg.visibleToInstantApps;
}
if (ps.getInstantApp(userId)) {
// caller can see all components of all instant applications, don't filter
if (canViewInstantApps(callingUid, userId)) {
return false;
}
// request for a specific instant application component, filter
if (component != null) {
return true;
}
// request for an instant application; if the caller hasn't been granted access, filter
return !mInstantAppRegistry.isInstantAccessGranted(
userId, UserHandle.getAppId(callingUid), ps.appId);
}
return false;
}
/**
* @see #filterAppAccessLPr(PackageSetting, int, ComponentName, boolean, int)
*/
private boolean filterAppAccessLPr(@Nullable PackageSetting ps, int callingUid, int userId) {
return filterAppAccessLPr(ps, callingUid, null, TYPE_UNKNOWN, userId);
}
private boolean filterSharedLibPackageLPr(@Nullable PackageSetting ps, int uid, int userId,
int flags) {
// Callers can access only the libs they depend on, otherwise they need to explicitly
// ask for the shared libraries given the caller is allowed to access all static libs.
if ((flags & PackageManager.MATCH_STATIC_SHARED_LIBRARIES) != 0) {
// System/shell/root get to see all static libs
final int appId = UserHandle.getAppId(uid);
if (appId == Process.SYSTEM_UID || appId == Process.SHELL_UID
|| appId == Process.ROOT_UID) {
return false;
}
// Installer gets to see all static libs.
if (PackageManager.PERMISSION_GRANTED
== checkUidPermission(Manifest.permission.INSTALL_PACKAGES, uid)) {
return false;
}
}
// No package means no static lib as it is always on internal storage
if (ps == null || ps.pkg == null || !ps.pkg.applicationInfo.isStaticSharedLibrary()) {
return false;
}
final SharedLibraryEntry libEntry = getSharedLibraryEntryLPr(ps.pkg.staticSharedLibName,
ps.pkg.staticSharedLibVersion);
if (libEntry == null) {
return false;
}
final int resolvedUid = UserHandle.getUid(userId, UserHandle.getAppId(uid));
final String[] uidPackageNames = getPackagesForUid(resolvedUid);
if (uidPackageNames == null) {
return true;
}
for (String uidPackageName : uidPackageNames) {
if (ps.name.equals(uidPackageName)) {
return false;
}
PackageSetting uidPs = mSettings.getPackageLPr(uidPackageName);
if (uidPs != null) {
final int index = ArrayUtils.indexOf(uidPs.usesStaticLibraries,
libEntry.info.getName());
if (index < 0) {
continue;
}
if (uidPs.pkg.usesStaticLibrariesVersions[index] == libEntry.info.getLongVersion()) {
return false;
}
}
}
return true;
}
@Override
public String[] currentToCanonicalPackageNames(String[] names) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return names;
}
final String[] out = new String[names.length];
// reader
synchronized (mPackages) {
final int callingUserId = UserHandle.getUserId(callingUid);
final boolean canViewInstantApps = canViewInstantApps(callingUid, callingUserId);
for (int i=names.length-1; i>=0; i--) {
final PackageSetting ps = mSettings.mPackages.get(names[i]);
boolean translateName = false;
if (ps != null && ps.realName != null) {
final boolean targetIsInstantApp = ps.getInstantApp(callingUserId);
translateName = !targetIsInstantApp
|| canViewInstantApps
|| mInstantAppRegistry.isInstantAccessGranted(callingUserId,
UserHandle.getAppId(callingUid), ps.appId);
}
out[i] = translateName ? ps.realName : names[i];
}
}
return out;
}
@Override
public String[] canonicalToCurrentPackageNames(String[] names) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return names;
}
final String[] out = new String[names.length];
// reader
synchronized (mPackages) {
final int callingUserId = UserHandle.getUserId(callingUid);
final boolean canViewInstantApps = canViewInstantApps(callingUid, callingUserId);
for (int i=names.length-1; i>=0; i--) {
final String cur = mSettings.getRenamedPackageLPr(names[i]);
boolean translateName = false;
if (cur != null) {
final PackageSetting ps = mSettings.mPackages.get(names[i]);
final boolean targetIsInstantApp =
ps != null && ps.getInstantApp(callingUserId);
translateName = !targetIsInstantApp
|| canViewInstantApps
|| mInstantAppRegistry.isInstantAccessGranted(callingUserId,
UserHandle.getAppId(callingUid), ps.appId);
}
out[i] = translateName ? cur : names[i];
}
}
return out;
}
@Override
public int getPackageUid(String packageName, int flags, int userId) {
if (!sUserManager.exists(userId)) return -1;
final int callingUid = Binder.getCallingUid();
flags = updateFlagsForPackage(flags, userId, packageName);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, false /*checkShell*/, "getPackageUid");
// reader
synchronized (mPackages) {
final PackageParser.Package p = mPackages.get(packageName);
if (p != null && p.isMatch(flags)) {
PackageSetting ps = (PackageSetting) p.mExtras;
if (filterAppAccessLPr(ps, callingUid, userId)) {
return -1;
}
return UserHandle.getUid(userId, p.applicationInfo.uid);
}
if ((flags & MATCH_KNOWN_PACKAGES) != 0) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps != null && ps.isMatch(flags)
&& !filterAppAccessLPr(ps, callingUid, userId)) {
return UserHandle.getUid(userId, ps.appId);
}
}
}
return -1;
}
@Override
public int[] getPackageGids(String packageName, int flags, int userId) {
if (!sUserManager.exists(userId)) return null;
final int callingUid = Binder.getCallingUid();
flags = updateFlagsForPackage(flags, userId, packageName);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, false /*checkShell*/, "getPackageGids");
// reader
synchronized (mPackages) {
final PackageParser.Package p = mPackages.get(packageName);
if (p != null && p.isMatch(flags)) {
PackageSetting ps = (PackageSetting) p.mExtras;
if (filterAppAccessLPr(ps, callingUid, userId)) {
return null;
}
// TODO: Shouldn't this be checking for package installed state for userId and
// return null?
return ps.getPermissionsState().computeGids(userId);
}
if ((flags & MATCH_KNOWN_PACKAGES) != 0) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps != null && ps.isMatch(flags)
&& !filterAppAccessLPr(ps, callingUid, userId)) {
return ps.getPermissionsState().computeGids(userId);
}
}
}
return null;
}
@Override
public PermissionInfo getPermissionInfo(String name, String packageName, int flags) {
return mPermissionManager.getPermissionInfo(name, packageName, flags, getCallingUid());
}
@Override
public @Nullable ParceledListSlice<PermissionInfo> queryPermissionsByGroup(String groupName,
int flags) {
final List<PermissionInfo> permissionList =
mPermissionManager.getPermissionInfoByGroup(groupName, flags, getCallingUid());
return (permissionList == null) ? null : new ParceledListSlice<>(permissionList);
}
@Override
public PermissionGroupInfo getPermissionGroupInfo(String groupName, int flags) {
return mPermissionManager.getPermissionGroupInfo(groupName, flags, getCallingUid());
}
@Override
public @NonNull ParceledListSlice<PermissionGroupInfo> getAllPermissionGroups(int flags) {
final List<PermissionGroupInfo> permissionList =
mPermissionManager.getAllPermissionGroups(flags, getCallingUid());
return (permissionList == null)
? ParceledListSlice.emptyList() : new ParceledListSlice<>(permissionList);
}
private ApplicationInfo generateApplicationInfoFromSettingsLPw(String packageName, int flags,
int filterCallingUid, int userId) {
if (!sUserManager.exists(userId)) return null;
PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps != null) {
if (filterSharedLibPackageLPr(ps, filterCallingUid, userId, flags)) {
return null;
}
if (filterAppAccessLPr(ps, filterCallingUid, userId)) {
return null;
}
if (ps.pkg == null) {
final PackageInfo pInfo = generatePackageInfo(ps, flags, userId);
if (pInfo != null) {
return pInfo.applicationInfo;
}
return null;
}
ApplicationInfo ai = PackageParser.generateApplicationInfo(ps.pkg, flags,
ps.readUserState(userId), userId);
if (ai != null) {
ai.packageName = resolveExternalPackageNameLPr(ps.pkg);
}
return ai;
}
return null;
}
@Override
public ApplicationInfo getApplicationInfo(String packageName, int flags, int userId) {
return getApplicationInfoInternal(packageName, flags, Binder.getCallingUid(), userId);
}
/**
* Important: The provided filterCallingUid is used exclusively to filter out applications
* that can be seen based on user state. It's typically the original caller uid prior
* to clearing. Because it can only be provided by trusted code, it's value can be
* trusted and will be used as-is; unlike userId which will be validated by this method.
*/
private ApplicationInfo getApplicationInfoInternal(String packageName, int flags,
int filterCallingUid, int userId) {
if (!sUserManager.exists(userId)) return null;
flags = updateFlagsForApplication(flags, userId, packageName);
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
false /* requireFullPermission */, false /* checkShell */, "get application info");
// writer
synchronized (mPackages) {
// Normalize package name to handle renamed packages and static libs
packageName = resolveInternalPackageNameLPr(packageName,
PackageManager.VERSION_CODE_HIGHEST);
PackageParser.Package p = mPackages.get(packageName);
if (DEBUG_PACKAGE_INFO) Log.v(
TAG, "getApplicationInfo " + packageName
+ ": " + p);
if (p != null) {
PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null) return null;
if (filterSharedLibPackageLPr(ps, filterCallingUid, userId, flags)) {
return null;
}
if (filterAppAccessLPr(ps, filterCallingUid, userId)) {
return null;
}
// Note: isEnabledLP() does not apply here - always return info
ApplicationInfo ai = PackageParser.generateApplicationInfo(
p, flags, ps.readUserState(userId), userId);
if (ai != null) {
ai.packageName = resolveExternalPackageNameLPr(p);
}
return ai;
}
if ("android".equals(packageName)||"system".equals(packageName)) {
return mAndroidApplication;
}
if ((flags & MATCH_KNOWN_PACKAGES) != 0) {
// Already generates the external package name
return generateApplicationInfoFromSettingsLPw(packageName,
flags, filterCallingUid, userId);
}
}
return null;
}
private String normalizePackageNameLPr(String packageName) {
String normalizedPackageName = mSettings.getRenamedPackageLPr(packageName);
return normalizedPackageName != null ? normalizedPackageName : packageName;
}
@Override
public void deletePreloadsFileCache() {
if (!UserHandle.isSameApp(Binder.getCallingUid(), Process.SYSTEM_UID)) {
throw new SecurityException("Only system or settings may call deletePreloadsFileCache");
}
File dir = Environment.getDataPreloadsFileCacheDirectory();
Slog.i(TAG, "Deleting preloaded file cache " + dir);
FileUtils.deleteContents(dir);
}
@Override
public void freeStorageAndNotify(final String volumeUuid, final long freeStorageSize,
final int storageFlags, final IPackageDataObserver observer) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.CLEAR_APP_CACHE, null);
mHandler.post(() -> {
boolean success = false;
try {
freeStorage(volumeUuid, freeStorageSize, storageFlags);
success = true;
} catch (IOException e) {
Slog.w(TAG, e);
}
if (observer != null) {
try {
observer.onRemoveCompleted(null, success);
} catch (RemoteException e) {
Slog.w(TAG, e);
}
}
});
}
@Override
public void freeStorage(final String volumeUuid, final long freeStorageSize,
final int storageFlags, final IntentSender pi) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.CLEAR_APP_CACHE, TAG);
mHandler.post(() -> {
boolean success = false;
try {
freeStorage(volumeUuid, freeStorageSize, storageFlags);
success = true;
} catch (IOException e) {
Slog.w(TAG, e);
}
if (pi != null) {
try {
pi.sendIntent(null, success ? 1 : 0, null, null, null);
} catch (SendIntentException e) {
Slog.w(TAG, e);
}
}
});
}
/**
* Blocking call to clear various types of cached data across the system
* until the requested bytes are available.
*/
public void freeStorage(String volumeUuid, long bytes, int storageFlags) throws IOException {
final StorageManager storage = mContext.getSystemService(StorageManager.class);
final File file = storage.findPathForUuid(volumeUuid);
if (file.getUsableSpace() >= bytes) return;
if (ENABLE_FREE_CACHE_V2) {
final boolean internalVolume = Objects.equals(StorageManager.UUID_PRIVATE_INTERNAL,
volumeUuid);
final boolean aggressive = (storageFlags
& StorageManager.FLAG_ALLOCATE_AGGRESSIVE) != 0;
final long reservedBytes = storage.getStorageCacheBytes(file, storageFlags);
// 1. Pre-flight to determine if we have any chance to succeed
// 2. Consider preloaded data (after 1w honeymoon, unless aggressive)
if (internalVolume && (aggressive || SystemProperties
.getBoolean("persist.sys.preloads.file_cache_expired", false))) {
deletePreloadsFileCache();
if (file.getUsableSpace() >= bytes) return;
}
// 3. Consider parsed APK data (aggressive only)
if (internalVolume && aggressive) {
FileUtils.deleteContents(mCacheDir);
if (file.getUsableSpace() >= bytes) return;
}
// 4. Consider cached app data (above quotas)
try {
mInstaller.freeCache(volumeUuid, bytes, reservedBytes,
Installer.FLAG_FREE_CACHE_V2);
} catch (InstallerException ignored) {
}
if (file.getUsableSpace() >= bytes) return;
// 5. Consider shared libraries with refcount=0 and age>min cache period
if (internalVolume && pruneUnusedStaticSharedLibraries(bytes,
android.provider.Settings.Global.getLong(mContext.getContentResolver(),
Global.UNUSED_STATIC_SHARED_LIB_MIN_CACHE_PERIOD,
DEFAULT_UNUSED_STATIC_SHARED_LIB_MIN_CACHE_PERIOD))) {
return;
}
// 6. Consider dexopt output (aggressive only)
// TODO: Implement
// 7. Consider installed instant apps unused longer than min cache period
if (internalVolume && mInstantAppRegistry.pruneInstalledInstantApps(bytes,
android.provider.Settings.Global.getLong(mContext.getContentResolver(),
Global.INSTALLED_INSTANT_APP_MIN_CACHE_PERIOD,
InstantAppRegistry.DEFAULT_INSTALLED_INSTANT_APP_MIN_CACHE_PERIOD))) {
return;
}
// 8. Consider cached app data (below quotas)
try {
mInstaller.freeCache(volumeUuid, bytes, reservedBytes,
Installer.FLAG_FREE_CACHE_V2 | Installer.FLAG_FREE_CACHE_V2_DEFY_QUOTA);
} catch (InstallerException ignored) {
}
if (file.getUsableSpace() >= bytes) return;
// 9. Consider DropBox entries
// TODO: Implement
// 10. Consider instant meta-data (uninstalled apps) older that min cache period
if (internalVolume && mInstantAppRegistry.pruneUninstalledInstantApps(bytes,
android.provider.Settings.Global.getLong(mContext.getContentResolver(),
Global.UNINSTALLED_INSTANT_APP_MIN_CACHE_PERIOD,
InstantAppRegistry.DEFAULT_UNINSTALLED_INSTANT_APP_MIN_CACHE_PERIOD))) {
return;
}
} else {
try {
mInstaller.freeCache(volumeUuid, bytes, 0, 0);
} catch (InstallerException ignored) {
}
if (file.getUsableSpace() >= bytes) return;
}
throw new IOException("Failed to free " + bytes + " on storage device at " + file);
}
private boolean pruneUnusedStaticSharedLibraries(long neededSpace, long maxCachePeriod)
throws IOException {
final StorageManager storage = mContext.getSystemService(StorageManager.class);
final File volume = storage.findPathForUuid(StorageManager.UUID_PRIVATE_INTERNAL);
List<VersionedPackage> packagesToDelete = null;
final long now = System.currentTimeMillis();
synchronized (mPackages) {
final int[] allUsers = sUserManager.getUserIds();
final int libCount = mSharedLibraries.size();
for (int i = 0; i < libCount; i++) {
final LongSparseArray<SharedLibraryEntry> versionedLib
= mSharedLibraries.valueAt(i);
if (versionedLib == null) {
continue;
}
final int versionCount = versionedLib.size();
for (int j = 0; j < versionCount; j++) {
SharedLibraryInfo libInfo = versionedLib.valueAt(j).info;
// Skip packages that are not static shared libs.
if (!libInfo.isStatic()) {
break;
}
// Important: We skip static shared libs used for some user since
// in such a case we need to keep the APK on the device. The check for
// a lib being used for any user is performed by the uninstall call.
final VersionedPackage declaringPackage = libInfo.getDeclaringPackage();
// Resolve the package name - we use synthetic package names internally
final String internalPackageName = resolveInternalPackageNameLPr(
declaringPackage.getPackageName(),
declaringPackage.getLongVersionCode());
final PackageSetting ps = mSettings.getPackageLPr(internalPackageName);
// Skip unused static shared libs cached less than the min period
// to prevent pruning a lib needed by a subsequently installed package.
if (ps == null || now - ps.lastUpdateTime < maxCachePeriod) {
continue;
}
if (packagesToDelete == null) {
packagesToDelete = new ArrayList<>();
}
packagesToDelete.add(new VersionedPackage(internalPackageName,
declaringPackage.getLongVersionCode()));
}
}
}
if (packagesToDelete != null) {
final int packageCount = packagesToDelete.size();
for (int i = 0; i < packageCount; i++) {
final VersionedPackage pkgToDelete = packagesToDelete.get(i);
// Delete the package synchronously (will fail of the lib used for any user).
if (deletePackageX(pkgToDelete.getPackageName(), pkgToDelete.getLongVersionCode(),
UserHandle.USER_SYSTEM, PackageManager.DELETE_ALL_USERS)
== PackageManager.DELETE_SUCCEEDED) {
if (volume.getUsableSpace() >= neededSpace) {
return true;
}
}
}
}
return false;
}
/**
* Update given flags based on encryption status of current user.
*/
private int updateFlags(int flags, int userId) {
if ((flags & (PackageManager.MATCH_DIRECT_BOOT_UNAWARE
| PackageManager.MATCH_DIRECT_BOOT_AWARE)) != 0) {
// Caller expressed an explicit opinion about what encryption
// aware/unaware components they want to see, so fall through and
// give them what they want
} else {
// Caller expressed no opinion, so match based on user state
if (getUserManagerInternal().isUserUnlockingOrUnlocked(userId)) {
flags |= PackageManager.MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE;
} else {
flags |= PackageManager.MATCH_DIRECT_BOOT_AWARE;
}
}
return flags;
}
private UserManagerInternal getUserManagerInternal() {
if (mUserManagerInternal == null) {
mUserManagerInternal = LocalServices.getService(UserManagerInternal.class);
}
return mUserManagerInternal;
}
private ActivityManagerInternal getActivityManagerInternal() {
if (mActivityManagerInternal == null) {
mActivityManagerInternal = LocalServices.getService(ActivityManagerInternal.class);
}
return mActivityManagerInternal;
}
private DeviceIdleController.LocalService getDeviceIdleController() {
if (mDeviceIdleController == null) {
mDeviceIdleController =
LocalServices.getService(DeviceIdleController.LocalService.class);
}
return mDeviceIdleController;
}
/**
* Update given flags when being used to request {@link PackageInfo}.
*/
private int updateFlagsForPackage(int flags, int userId, Object cookie) {
final boolean isCallerSystemUser = UserHandle.getCallingUserId() == UserHandle.USER_SYSTEM;
boolean triaged = true;
if ((flags & (PackageManager.GET_ACTIVITIES | PackageManager.GET_RECEIVERS
| PackageManager.GET_SERVICES | PackageManager.GET_PROVIDERS)) != 0) {
// Caller is asking for component details, so they'd better be
// asking for specific encryption matching behavior, or be triaged
if ((flags & (PackageManager.MATCH_DIRECT_BOOT_UNAWARE
| PackageManager.MATCH_DIRECT_BOOT_AWARE
| PackageManager.MATCH_DEBUG_TRIAGED_MISSING)) == 0) {
triaged = false;
}
}
if ((flags & (PackageManager.MATCH_UNINSTALLED_PACKAGES
| PackageManager.MATCH_SYSTEM_ONLY
| PackageManager.MATCH_DEBUG_TRIAGED_MISSING)) == 0) {
triaged = false;
}
if ((flags & PackageManager.MATCH_ANY_USER) != 0) {
// require the permission to be held; the calling uid and given user id referring
// to the same user is not sufficient
mPermissionManager.enforceCrossUserPermission(
Binder.getCallingUid(), userId, false, false,
!isRecentsAccessingChildProfiles(Binder.getCallingUid(), userId),
"MATCH_ANY_USER flag requires INTERACT_ACROSS_USERS permission at "
+ Debug.getCallers(5));
} else if ((flags & PackageManager.MATCH_UNINSTALLED_PACKAGES) != 0 && isCallerSystemUser
&& sUserManager.hasManagedProfile(UserHandle.USER_SYSTEM)) {
// If the caller wants all packages and has a restricted profile associated with it,
// then match all users. This is to make sure that launchers that need to access work
// profile apps don't start breaking. TODO: Remove this hack when launchers stop using
// MATCH_UNINSTALLED_PACKAGES to query apps in other profiles. b/31000380
flags |= PackageManager.MATCH_ANY_USER;
}
if (DEBUG_TRIAGED_MISSING && (Binder.getCallingUid() == Process.SYSTEM_UID) && !triaged) {
Log.w(TAG, "Caller hasn't been triaged for missing apps; they asked about " + cookie
+ " with flags 0x" + Integer.toHexString(flags), new Throwable());
}
return updateFlags(flags, userId);
}
/**
* Update given flags when being used to request {@link ApplicationInfo}.
*/
private int updateFlagsForApplication(int flags, int userId, Object cookie) {
return updateFlagsForPackage(flags, userId, cookie);
}
/**
* Update given flags when being used to request {@link ComponentInfo}.
*/
private int updateFlagsForComponent(int flags, int userId, Object cookie) {
if (cookie instanceof Intent) {
if ((((Intent) cookie).getFlags() & Intent.FLAG_DEBUG_TRIAGED_MISSING) != 0) {
flags |= PackageManager.MATCH_DEBUG_TRIAGED_MISSING;
}
}
boolean triaged = true;
// Caller is asking for component details, so they'd better be
// asking for specific encryption matching behavior, or be triaged
if ((flags & (PackageManager.MATCH_DIRECT_BOOT_UNAWARE
| PackageManager.MATCH_DIRECT_BOOT_AWARE
| PackageManager.MATCH_DEBUG_TRIAGED_MISSING)) == 0) {
triaged = false;
}
if (DEBUG_TRIAGED_MISSING && (Binder.getCallingUid() == Process.SYSTEM_UID) && !triaged) {
Log.w(TAG, "Caller hasn't been triaged for missing apps; they asked about " + cookie
+ " with flags 0x" + Integer.toHexString(flags), new Throwable());
}
return updateFlags(flags, userId);
}
/**
* Update given intent when being used to request {@link ResolveInfo}.
*/
private Intent updateIntentForResolve(Intent intent) {
if (intent.getSelector() != null) {
intent = intent.getSelector();
}
if (DEBUG_PREFERRED) {
intent.addFlags(Intent.FLAG_DEBUG_LOG_RESOLUTION);
}
return intent;
}
/**
* Update given flags when being used to request {@link ResolveInfo}.
* <p>Instant apps are resolved specially, depending upon context. Minimally,
* {@code}flags{@code} must have the {@link PackageManager#MATCH_INSTANT}
* flag set. However, this flag is only honoured in three circumstances:
* <ul>
* <li>when called from a system process</li>
* <li>when the caller holds the permission {@code android.permission.ACCESS_INSTANT_APPS}</li>
* <li>when resolution occurs to start an activity with a {@code android.intent.action.VIEW}
* action and a {@code android.intent.category.BROWSABLE} category</li>
* </ul>
*/
int updateFlagsForResolve(int flags, int userId, Intent intent, int callingUid) {
return updateFlagsForResolve(flags, userId, intent, callingUid,
false /*wantInstantApps*/, false /*onlyExposedExplicitly*/);
}
int updateFlagsForResolve(int flags, int userId, Intent intent, int callingUid,
boolean wantInstantApps) {
return updateFlagsForResolve(flags, userId, intent, callingUid,
wantInstantApps, false /*onlyExposedExplicitly*/);
}
int updateFlagsForResolve(int flags, int userId, Intent intent, int callingUid,
boolean wantInstantApps, boolean onlyExposedExplicitly) {
// Safe mode means we shouldn't match any third-party components
if (mSafeMode) {
flags |= PackageManager.MATCH_SYSTEM_ONLY;
}
if (getInstantAppPackageName(callingUid) != null) {
// But, ephemeral apps see both ephemeral and exposed, non-ephemeral components
if (onlyExposedExplicitly) {
flags |= PackageManager.MATCH_EXPLICITLY_VISIBLE_ONLY;
}
flags |= PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY;
flags |= PackageManager.MATCH_INSTANT;
} else {
final boolean wantMatchInstant = (flags & PackageManager.MATCH_INSTANT) != 0;
final boolean allowMatchInstant = wantInstantApps
|| (wantMatchInstant && canViewInstantApps(callingUid, userId));
flags &= ~(PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY
| PackageManager.MATCH_EXPLICITLY_VISIBLE_ONLY);
if (!allowMatchInstant) {
flags &= ~PackageManager.MATCH_INSTANT;
}
}
return updateFlagsForComponent(flags, userId, intent /*cookie*/);
}
@Override
public ActivityInfo getActivityInfo(ComponentName component, int flags, int userId) {
return getActivityInfoInternal(component, flags, Binder.getCallingUid(), userId);
}
/**
* Important: The provided filterCallingUid is used exclusively to filter out activities
* that can be seen based on user state. It's typically the original caller uid prior
* to clearing. Because it can only be provided by trusted code, it's value can be
* trusted and will be used as-is; unlike userId which will be validated by this method.
*/
private ActivityInfo getActivityInfoInternal(ComponentName component, int flags,
int filterCallingUid, int userId) {
if (!sUserManager.exists(userId)) return null;
flags = updateFlagsForComponent(flags, userId, component);
if (!isRecentsAccessingChildProfiles(Binder.getCallingUid(), userId)) {
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
false /* requireFullPermission */, false /* checkShell */, "get activity info");
}
synchronized (mPackages) {
PackageParser.Activity a = mActivities.mActivities.get(component);
if (DEBUG_PACKAGE_INFO) Log.v(TAG, "getActivityInfo " + component + ": " + a);
if (a != null && mSettings.isEnabledAndMatchLPr(a.info, flags, userId)) {
PackageSetting ps = mSettings.mPackages.get(component.getPackageName());
if (ps == null) return null;
if (filterAppAccessLPr(ps, filterCallingUid, component, TYPE_ACTIVITY, userId)) {
return null;
}
return PackageParser.generateActivityInfo(
a, flags, ps.readUserState(userId), userId);
}
if (mResolveComponentName.equals(component)) {
return PackageParser.generateActivityInfo(
mResolveActivity, flags, new PackageUserState(), userId);
}
}
return null;
}
private boolean isRecentsAccessingChildProfiles(int callingUid, int targetUserId) {
if (!getActivityManagerInternal().isCallerRecents(callingUid)) {
return false;
}
final long token = Binder.clearCallingIdentity();
try {
final int callingUserId = UserHandle.getUserId(callingUid);
if (ActivityManager.getCurrentUser() != callingUserId) {
return false;
}
return sUserManager.isSameProfileGroup(callingUserId, targetUserId);
} finally {
Binder.restoreCallingIdentity(token);
}
}
@Override
public boolean activitySupportsIntent(ComponentName component, Intent intent,
String resolvedType) {
synchronized (mPackages) {
if (component.equals(mResolveComponentName)) {
// The resolver supports EVERYTHING!
return true;
}
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
PackageParser.Activity a = mActivities.mActivities.get(component);
if (a == null) {
return false;
}
PackageSetting ps = mSettings.mPackages.get(component.getPackageName());
if (ps == null) {
return false;
}
if (filterAppAccessLPr(ps, callingUid, component, TYPE_ACTIVITY, callingUserId)) {
return false;
}
for (int i=0; i<a.intents.size(); i++) {
if (a.intents.get(i).match(intent.getAction(), resolvedType, intent.getScheme(),
intent.getData(), intent.getCategories(), TAG) >= 0) {
return true;
}
}
return false;
}
}
@Override
public ActivityInfo getReceiverInfo(ComponentName component, int flags, int userId) {
if (!sUserManager.exists(userId)) return null;
final int callingUid = Binder.getCallingUid();
flags = updateFlagsForComponent(flags, userId, component);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /* requireFullPermission */, false /* checkShell */, "get receiver info");
synchronized (mPackages) {
PackageParser.Activity a = mReceivers.mActivities.get(component);
if (DEBUG_PACKAGE_INFO) Log.v(
TAG, "getReceiverInfo " + component + ": " + a);
if (a != null && mSettings.isEnabledAndMatchLPr(a.info, flags, userId)) {
PackageSetting ps = mSettings.mPackages.get(component.getPackageName());
if (ps == null) return null;
if (filterAppAccessLPr(ps, callingUid, component, TYPE_RECEIVER, userId)) {
return null;
}
return PackageParser.generateActivityInfo(
a, flags, ps.readUserState(userId), userId);
}
}
return null;
}
@Override
public ParceledListSlice<SharedLibraryInfo> getSharedLibraries(String packageName,
int flags, int userId) {
if (!sUserManager.exists(userId)) return null;
Preconditions.checkArgumentNonnegative(userId, "userId must be >= 0");
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
flags = updateFlagsForPackage(flags, userId, null);
final boolean canSeeStaticLibraries =
mContext.checkCallingOrSelfPermission(INSTALL_PACKAGES)
== PERMISSION_GRANTED
|| mContext.checkCallingOrSelfPermission(DELETE_PACKAGES)
== PERMISSION_GRANTED
|| canRequestPackageInstallsInternal(packageName,
PackageManager.MATCH_STATIC_SHARED_LIBRARIES, userId,
false /* throwIfPermNotDeclared*/)
|| mContext.checkCallingOrSelfPermission(REQUEST_DELETE_PACKAGES)
== PERMISSION_GRANTED;
synchronized (mPackages) {
List<SharedLibraryInfo> result = null;
final int libCount = mSharedLibraries.size();
for (int i = 0; i < libCount; i++) {
LongSparseArray<SharedLibraryEntry> versionedLib = mSharedLibraries.valueAt(i);
if (versionedLib == null) {
continue;
}
final int versionCount = versionedLib.size();
for (int j = 0; j < versionCount; j++) {
SharedLibraryInfo libInfo = versionedLib.valueAt(j).info;
if (!canSeeStaticLibraries && libInfo.isStatic()) {
break;
}
final long identity = Binder.clearCallingIdentity();
try {
PackageInfo packageInfo = getPackageInfoVersioned(
libInfo.getDeclaringPackage(), flags
| PackageManager.MATCH_STATIC_SHARED_LIBRARIES, userId);
if (packageInfo == null) {
continue;
}
} finally {
Binder.restoreCallingIdentity(identity);
}
SharedLibraryInfo resLibInfo = new SharedLibraryInfo(libInfo.getName(),
libInfo.getLongVersion(), libInfo.getType(),
libInfo.getDeclaringPackage(), getPackagesUsingSharedLibraryLPr(libInfo,
flags, userId));
if (result == null) {
result = new ArrayList<>();
}
result.add(resLibInfo);
}
}
return result != null ? new ParceledListSlice<>(result) : null;
}
}
private List<VersionedPackage> getPackagesUsingSharedLibraryLPr(
SharedLibraryInfo libInfo, int flags, int userId) {
List<VersionedPackage> versionedPackages = null;
final int packageCount = mSettings.mPackages.size();
for (int i = 0; i < packageCount; i++) {
PackageSetting ps = mSettings.mPackages.valueAt(i);
if (ps == null) {
continue;
}
if (!ps.getUserState().get(userId).isAvailable(flags)) {
continue;
}
final String libName = libInfo.getName();
if (libInfo.isStatic()) {
final int libIdx = ArrayUtils.indexOf(ps.usesStaticLibraries, libName);
if (libIdx < 0) {
continue;
}
if (ps.usesStaticLibrariesVersions[libIdx] != libInfo.getLongVersion()) {
continue;
}
if (versionedPackages == null) {
versionedPackages = new ArrayList<>();
}
// If the dependent is a static shared lib, use the public package name
String dependentPackageName = ps.name;
if (ps.pkg != null && ps.pkg.applicationInfo.isStaticSharedLibrary()) {
dependentPackageName = ps.pkg.manifestPackageName;
}
versionedPackages.add(new VersionedPackage(dependentPackageName, ps.versionCode));
} else if (ps.pkg != null) {
if (ArrayUtils.contains(ps.pkg.usesLibraries, libName)
|| ArrayUtils.contains(ps.pkg.usesOptionalLibraries, libName)) {
if (versionedPackages == null) {
versionedPackages = new ArrayList<>();
}
versionedPackages.add(new VersionedPackage(ps.name, ps.versionCode));
}
}
}
return versionedPackages;
}
@Override
public ServiceInfo getServiceInfo(ComponentName component, int flags, int userId) {
if (!sUserManager.exists(userId)) return null;
final int callingUid = Binder.getCallingUid();
flags = updateFlagsForComponent(flags, userId, component);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /* requireFullPermission */, false /* checkShell */, "get service info");
synchronized (mPackages) {
PackageParser.Service s = mServices.mServices.get(component);
if (DEBUG_PACKAGE_INFO) Log.v(
TAG, "getServiceInfo " + component + ": " + s);
if (s != null && mSettings.isEnabledAndMatchLPr(s.info, flags, userId)) {
PackageSetting ps = mSettings.mPackages.get(component.getPackageName());
if (ps == null) return null;
if (filterAppAccessLPr(ps, callingUid, component, TYPE_SERVICE, userId)) {
return null;
}
return PackageParser.generateServiceInfo(
s, flags, ps.readUserState(userId), userId);
}
}
return null;
}
@Override
public ProviderInfo getProviderInfo(ComponentName component, int flags, int userId) {
if (!sUserManager.exists(userId)) return null;
final int callingUid = Binder.getCallingUid();
flags = updateFlagsForComponent(flags, userId, component);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /* requireFullPermission */, false /* checkShell */, "get provider info");
synchronized (mPackages) {
PackageParser.Provider p = mProviders.mProviders.get(component);
if (DEBUG_PACKAGE_INFO) Log.v(
TAG, "getProviderInfo " + component + ": " + p);
if (p != null && mSettings.isEnabledAndMatchLPr(p.info, flags, userId)) {
PackageSetting ps = mSettings.mPackages.get(component.getPackageName());
if (ps == null) return null;
if (filterAppAccessLPr(ps, callingUid, component, TYPE_PROVIDER, userId)) {
return null;
}
return PackageParser.generateProviderInfo(
p, flags, ps.readUserState(userId), userId);
}
}
return null;
}
@Override
public String[] getSystemSharedLibraryNames() {
// allow instant applications
synchronized (mPackages) {
Set<String> libs = null;
final int libCount = mSharedLibraries.size();
for (int i = 0; i < libCount; i++) {
LongSparseArray<SharedLibraryEntry> versionedLib = mSharedLibraries.valueAt(i);
if (versionedLib == null) {
continue;
}
final int versionCount = versionedLib.size();
for (int j = 0; j < versionCount; j++) {
SharedLibraryEntry libEntry = versionedLib.valueAt(j);
if (!libEntry.info.isStatic()) {
if (libs == null) {
libs = new ArraySet<>();
}
libs.add(libEntry.info.getName());
break;
}
PackageSetting ps = mSettings.getPackageLPr(libEntry.apk);
if (ps != null && !filterSharedLibPackageLPr(ps, Binder.getCallingUid(),
UserHandle.getUserId(Binder.getCallingUid()),
PackageManager.MATCH_STATIC_SHARED_LIBRARIES)) {
if (libs == null) {
libs = new ArraySet<>();
}
libs.add(libEntry.info.getName());
break;
}
}
}
if (libs != null) {
String[] libsArray = new String[libs.size()];
libs.toArray(libsArray);
return libsArray;
}
return null;
}
}
@Override
public @NonNull String getServicesSystemSharedLibraryPackageName() {
// allow instant applications
synchronized (mPackages) {
return mServicesSystemSharedLibraryPackageName;
}
}
@Override
public @NonNull String getSharedSystemSharedLibraryPackageName() {
// allow instant applications
synchronized (mPackages) {
return mSharedSystemSharedLibraryPackageName;
}
}
private void updateSequenceNumberLP(PackageSetting pkgSetting, int[] userList) {
for (int i = userList.length - 1; i >= 0; --i) {
final int userId = userList[i];
// don't add instant app to the list of updates
if (pkgSetting.getInstantApp(userId)) {
continue;
}
SparseArray<String> changedPackages = mChangedPackages.get(userId);
if (changedPackages == null) {
changedPackages = new SparseArray<>();
mChangedPackages.put(userId, changedPackages);
}
Map<String, Integer> sequenceNumbers = mChangedPackagesSequenceNumbers.get(userId);
if (sequenceNumbers == null) {
sequenceNumbers = new HashMap<>();
mChangedPackagesSequenceNumbers.put(userId, sequenceNumbers);
}
final Integer sequenceNumber = sequenceNumbers.get(pkgSetting.name);
if (sequenceNumber != null) {
changedPackages.remove(sequenceNumber);
}
changedPackages.put(mChangedPackagesSequenceNumber, pkgSetting.name);
sequenceNumbers.put(pkgSetting.name, mChangedPackagesSequenceNumber);
}
mChangedPackagesSequenceNumber++;
}
@Override
public ChangedPackages getChangedPackages(int sequenceNumber, int userId) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
synchronized (mPackages) {
if (sequenceNumber >= mChangedPackagesSequenceNumber) {
return null;
}
final SparseArray<String> changedPackages = mChangedPackages.get(userId);
if (changedPackages == null) {
return null;
}
final List<String> packageNames =
new ArrayList<>(mChangedPackagesSequenceNumber - sequenceNumber);
for (int i = sequenceNumber; i < mChangedPackagesSequenceNumber; i++) {
final String packageName = changedPackages.get(i);
if (packageName != null) {
packageNames.add(packageName);
}
}
return packageNames.isEmpty()
? null : new ChangedPackages(mChangedPackagesSequenceNumber, packageNames);
}
}
@Override
public @NonNull ParceledListSlice<FeatureInfo> getSystemAvailableFeatures() {
// allow instant applications
ArrayList<FeatureInfo> res;
synchronized (mAvailableFeatures) {
res = new ArrayList<>(mAvailableFeatures.size() + 1);
res.addAll(mAvailableFeatures.values());
}
final FeatureInfo fi = new FeatureInfo();
fi.reqGlEsVersion = SystemProperties.getInt("ro.opengles.version",
FeatureInfo.GL_ES_VERSION_UNDEFINED);
res.add(fi);
return new ParceledListSlice<>(res);
}
@Override
public boolean hasSystemFeature(String name, int version) {
// allow instant applications
synchronized (mAvailableFeatures) {
final FeatureInfo feat = mAvailableFeatures.get(name);
if (feat == null) {
return false;
} else {
return feat.version >= version;
}
}
}
@Override
public int checkPermission(String permName, String pkgName, int userId) {
return mPermissionManager.checkPermission(permName, pkgName, getCallingUid(), userId);
}
@Override
public int checkUidPermission(String permName, int uid) {
synchronized (mPackages) {
final String[] packageNames = getPackagesForUid(uid);
final PackageParser.Package pkg = (packageNames != null && packageNames.length > 0)
? mPackages.get(packageNames[0])
: null;
return mPermissionManager.checkUidPermission(permName, pkg, uid, getCallingUid());
}
}
@Override
public boolean isPermissionRevokedByPolicy(String permission, String packageName, int userId) {
if (UserHandle.getCallingUserId() != userId) {
mContext.enforceCallingPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL,
"isPermissionRevokedByPolicy for user " + userId);
}
if (checkPermission(permission, packageName, userId)
== PackageManager.PERMISSION_GRANTED) {
return false;
}
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
if (!isCallerSameApp(packageName, callingUid)) {
return false;
}
} else {
if (isInstantApp(packageName, userId)) {
return false;
}
}
final long identity = Binder.clearCallingIdentity();
try {
final int flags = getPermissionFlags(permission, packageName, userId);
return (flags & PackageManager.FLAG_PERMISSION_POLICY_FIXED) != 0;
} finally {
Binder.restoreCallingIdentity(identity);
}
}
@Override
public String getPermissionControllerPackageName() {
synchronized (mPackages) {
return mRequiredInstallerPackage;
}
}
private boolean addDynamicPermission(PermissionInfo info, final boolean async) {
return mPermissionManager.addDynamicPermission(
info, async, getCallingUid(), new PermissionCallback() {
@Override
public void onPermissionChanged() {
if (!async) {
mSettings.writeLPr();
} else {
scheduleWriteSettingsLocked();
}
}
});
}
@Override
public boolean addPermission(PermissionInfo info) {
synchronized (mPackages) {
return addDynamicPermission(info, false);
}
}
@Override
public boolean addPermissionAsync(PermissionInfo info) {
synchronized (mPackages) {
return addDynamicPermission(info, true);
}
}
@Override
public void removePermission(String permName) {
mPermissionManager.removeDynamicPermission(permName, getCallingUid(), mPermissionCallback);
}
@Override
public void grantRuntimePermission(String packageName, String permName, final int userId) {
mPermissionManager.grantRuntimePermission(permName, packageName, false /*overridePolicy*/,
getCallingUid(), userId, mPermissionCallback);
}
@Override
public void revokeRuntimePermission(String packageName, String permName, int userId) {
mPermissionManager.revokeRuntimePermission(permName, packageName, false /*overridePolicy*/,
getCallingUid(), userId, mPermissionCallback);
}
@Override
public void resetRuntimePermissions() {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.REVOKE_RUNTIME_PERMISSIONS,
"revokeRuntimePermission");
int callingUid = Binder.getCallingUid();
if (callingUid != Process.SYSTEM_UID && callingUid != 0) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL,
"resetRuntimePermissions");
}
synchronized (mPackages) {
mPermissionManager.updateAllPermissions(
StorageManager.UUID_PRIVATE_INTERNAL, false, mPackages.values(),
mPermissionCallback);
for (int userId : UserManagerService.getInstance().getUserIds()) {
final int packageCount = mPackages.size();
for (int i = 0; i < packageCount; i++) {
PackageParser.Package pkg = mPackages.valueAt(i);
if (!(pkg.mExtras instanceof PackageSetting)) {
continue;
}
PackageSetting ps = (PackageSetting) pkg.mExtras;
resetUserChangesToRuntimePermissionsAndFlagsLPw(ps, userId);
}
}
}
}
@Override
public int getPermissionFlags(String permName, String packageName, int userId) {
return mPermissionManager.getPermissionFlags(
permName, packageName, getCallingUid(), userId);
}
@Override
public void updatePermissionFlags(String permName, String packageName, int flagMask,
int flagValues, int userId) {
mPermissionManager.updatePermissionFlags(
permName, packageName, flagMask, flagValues, getCallingUid(), userId,
mPermissionCallback);
}
/**
* Update the permission flags for all packages and runtime permissions of a user in order
* to allow device or profile owner to remove POLICY_FIXED.
*/
@Override
public void updatePermissionFlagsForAllApps(int flagMask, int flagValues, int userId) {
synchronized (mPackages) {
final boolean changed = mPermissionManager.updatePermissionFlagsForAllApps(
flagMask, flagValues, getCallingUid(), userId, mPackages.values(),
mPermissionCallback);
if (changed) {
mSettings.writeRuntimePermissionsForUserLPr(userId, false);
}
}
}
@Override
public boolean shouldShowRequestPermissionRationale(String permissionName,
String packageName, int userId) {
if (UserHandle.getCallingUserId() != userId) {
mContext.enforceCallingPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL,
"canShowRequestPermissionRationale for user " + userId);
}
final int uid = getPackageUid(packageName, MATCH_DEBUG_TRIAGED_MISSING, userId);
if (UserHandle.getAppId(getCallingUid()) != UserHandle.getAppId(uid)) {
return false;
}
if (checkPermission(permissionName, packageName, userId)
== PackageManager.PERMISSION_GRANTED) {
return false;
}
final int flags;
final long identity = Binder.clearCallingIdentity();
try {
flags = getPermissionFlags(permissionName,
packageName, userId);
} finally {
Binder.restoreCallingIdentity(identity);
}
final int fixedFlags = PackageManager.FLAG_PERMISSION_SYSTEM_FIXED
| PackageManager.FLAG_PERMISSION_POLICY_FIXED
| PackageManager.FLAG_PERMISSION_USER_FIXED;
if ((flags & fixedFlags) != 0) {
return false;
}
return (flags & PackageManager.FLAG_PERMISSION_USER_SET) != 0;
}
@Override
public void addOnPermissionsChangeListener(IOnPermissionsChangeListener listener) {
mContext.enforceCallingOrSelfPermission(
Manifest.permission.OBSERVE_GRANT_REVOKE_PERMISSIONS,
"addOnPermissionsChangeListener");
synchronized (mPackages) {
mOnPermissionChangeListeners.addListenerLocked(listener);
}
}
@Override
public void removeOnPermissionsChangeListener(IOnPermissionsChangeListener listener) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
throw new SecurityException("Instant applications don't have access to this method");
}
synchronized (mPackages) {
mOnPermissionChangeListeners.removeListenerLocked(listener);
}
}
@Override
public boolean isProtectedBroadcast(String actionName) {
// allow instant applications
synchronized (mProtectedBroadcasts) {
if (mProtectedBroadcasts.contains(actionName)) {
return true;
} else if (actionName != null) {
// TODO: remove these terrible hacks
if (actionName.startsWith("android.net.netmon.lingerExpired")
|| actionName.startsWith("com.android.server.sip.SipWakeupTimer")
|| actionName.startsWith("com.android.internal.telephony.data-reconnect")
|| actionName.startsWith("android.net.netmon.launchCaptivePortalApp")) {
return true;
}
}
}
return false;
}
@Override
public int checkSignatures(String pkg1, String pkg2) {
synchronized (mPackages) {
final PackageParser.Package p1 = mPackages.get(pkg1);
final PackageParser.Package p2 = mPackages.get(pkg2);
if (p1 == null || p1.mExtras == null
|| p2 == null || p2.mExtras == null) {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
final PackageSetting ps1 = (PackageSetting) p1.mExtras;
final PackageSetting ps2 = (PackageSetting) p2.mExtras;
if (filterAppAccessLPr(ps1, callingUid, callingUserId)
|| filterAppAccessLPr(ps2, callingUid, callingUserId)) {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
return compareSignatures(p1.mSigningDetails.signatures, p2.mSigningDetails.signatures);
}
}
@Override
public int checkUidSignatures(int uid1, int uid2) {
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
final boolean isCallerInstantApp = getInstantAppPackageName(callingUid) != null;
// Map to base uids.
uid1 = UserHandle.getAppId(uid1);
uid2 = UserHandle.getAppId(uid2);
// reader
synchronized (mPackages) {
Signature[] s1;
Signature[] s2;
Object obj = mSettings.getUserIdLPr(uid1);
if (obj != null) {
if (obj instanceof SharedUserSetting) {
if (isCallerInstantApp) {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
s1 = ((SharedUserSetting)obj).signatures.mSigningDetails.signatures;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (filterAppAccessLPr(ps, callingUid, callingUserId)) {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
s1 = ps.signatures.mSigningDetails.signatures;
} else {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
} else {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
obj = mSettings.getUserIdLPr(uid2);
if (obj != null) {
if (obj instanceof SharedUserSetting) {
if (isCallerInstantApp) {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
s2 = ((SharedUserSetting)obj).signatures.mSigningDetails.signatures;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (filterAppAccessLPr(ps, callingUid, callingUserId)) {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
s2 = ps.signatures.mSigningDetails.signatures;
} else {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
} else {
return PackageManager.SIGNATURE_UNKNOWN_PACKAGE;
}
return compareSignatures(s1, s2);
}
}
@Override
public boolean hasSigningCertificate(
String packageName, byte[] certificate, @PackageManager.CertificateInputType int type) {
synchronized (mPackages) {
final PackageParser.Package p = mPackages.get(packageName);
if (p == null || p.mExtras == null) {
return false;
}
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
final PackageSetting ps = (PackageSetting) p.mExtras;
if (filterAppAccessLPr(ps, callingUid, callingUserId)) {
return false;
}
switch (type) {
case CERT_INPUT_RAW_X509:
return p.mSigningDetails.hasCertificate(certificate);
case CERT_INPUT_SHA256:
return p.mSigningDetails.hasSha256Certificate(certificate);
default:
return false;
}
}
}
@Override
public boolean hasUidSigningCertificate(
int uid, byte[] certificate, @PackageManager.CertificateInputType int type) {
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
// Map to base uids.
uid = UserHandle.getAppId(uid);
// reader
synchronized (mPackages) {
final PackageParser.SigningDetails signingDetails;
final Object obj = mSettings.getUserIdLPr(uid);
if (obj != null) {
if (obj instanceof SharedUserSetting) {
final boolean isCallerInstantApp = getInstantAppPackageName(callingUid) != null;
if (isCallerInstantApp) {
return false;
}
signingDetails = ((SharedUserSetting)obj).signatures.mSigningDetails;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (filterAppAccessLPr(ps, callingUid, callingUserId)) {
return false;
}
signingDetails = ps.signatures.mSigningDetails;
} else {
return false;
}
} else {
return false;
}
switch (type) {
case CERT_INPUT_RAW_X509:
return signingDetails.hasCertificate(certificate);
case CERT_INPUT_SHA256:
return signingDetails.hasSha256Certificate(certificate);
default:
return false;
}
}
}
/**
* This method should typically only be used when granting or revoking
* permissions, since the app may immediately restart after this call.
* <p>
* If you're doing surgery on app code/data, use {@link PackageFreezer} to
* guard your work against the app being relaunched.
*/
private void killUid(int appId, int userId, String reason) {
final long identity = Binder.clearCallingIdentity();
try {
IActivityManager am = ActivityManager.getService();
if (am != null) {
try {
am.killUid(appId, userId, reason);
} catch (RemoteException e) {
/* ignore - same process */
}
}
} finally {
Binder.restoreCallingIdentity(identity);
}
}
/**
* If the database version for this type of package (internal storage or
* external storage) is less than the version where package signatures
* were updated, return true.
*/
private boolean isCompatSignatureUpdateNeeded(PackageParser.Package scannedPkg) {
final VersionInfo ver = getSettingsVersionForPackage(scannedPkg);
return ver.databaseVersion < DatabaseVersion.SIGNATURE_END_ENTITY;
}
private boolean isRecoverSignatureUpdateNeeded(PackageParser.Package scannedPkg) {
final VersionInfo ver = getSettingsVersionForPackage(scannedPkg);
return ver.databaseVersion < DatabaseVersion.SIGNATURE_MALFORMED_RECOVER;
}
@Override
public List<String> getAllPackages() {
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
synchronized (mPackages) {
if (canViewInstantApps(callingUid, callingUserId)) {
return new ArrayList<String>(mPackages.keySet());
}
final String instantAppPkgName = getInstantAppPackageName(callingUid);
final List<String> result = new ArrayList<>();
if (instantAppPkgName != null) {
// caller is an instant application; filter unexposed applications
for (PackageParser.Package pkg : mPackages.values()) {
if (!pkg.visibleToInstantApps) {
continue;
}
result.add(pkg.packageName);
}
} else {
// caller is a normal application; filter instant applications
for (PackageParser.Package pkg : mPackages.values()) {
final PackageSetting ps =
pkg.mExtras != null ? (PackageSetting) pkg.mExtras : null;
if (ps != null
&& ps.getInstantApp(callingUserId)
&& !mInstantAppRegistry.isInstantAccessGranted(
callingUserId, UserHandle.getAppId(callingUid), ps.appId)) {
continue;
}
result.add(pkg.packageName);
}
}
return result;
}
}
@Override
public String[] getPackagesForUid(int uid) {
final int callingUid = Binder.getCallingUid();
final boolean isCallerInstantApp = getInstantAppPackageName(callingUid) != null;
final int userId = UserHandle.getUserId(uid);
uid = UserHandle.getAppId(uid);
// reader
synchronized (mPackages) {
Object obj = mSettings.getUserIdLPr(uid);
if (obj instanceof SharedUserSetting) {
if (isCallerInstantApp) {
return null;
}
final SharedUserSetting sus = (SharedUserSetting) obj;
final int N = sus.packages.size();
String[] res = new String[N];
final Iterator<PackageSetting> it = sus.packages.iterator();
int i = 0;
while (it.hasNext()) {
PackageSetting ps = it.next();
if (ps.getInstalled(userId)) {
res[i++] = ps.name;
} else {
res = ArrayUtils.removeElement(String.class, res, res[i]);
}
}
return res;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (ps.getInstalled(userId) && !filterAppAccessLPr(ps, callingUid, userId)) {
return new String[]{ps.name};
}
}
}
return null;
}
@Override
public String getNameForUid(int uid) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return null;
}
synchronized (mPackages) {
Object obj = mSettings.getUserIdLPr(UserHandle.getAppId(uid));
if (obj instanceof SharedUserSetting) {
final SharedUserSetting sus = (SharedUserSetting) obj;
return sus.name + ":" + sus.userId;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (filterAppAccessLPr(ps, callingUid, UserHandle.getUserId(callingUid))) {
return null;
}
return ps.name;
}
return null;
}
}
@Override
public String[] getNamesForUids(int[] uids) {
if (uids == null || uids.length == 0) {
return null;
}
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return null;
}
final String[] names = new String[uids.length];
synchronized (mPackages) {
for (int i = uids.length - 1; i >= 0; i--) {
final int uid = uids[i];
Object obj = mSettings.getUserIdLPr(UserHandle.getAppId(uid));
if (obj instanceof SharedUserSetting) {
final SharedUserSetting sus = (SharedUserSetting) obj;
names[i] = "shared:" + sus.name;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (filterAppAccessLPr(ps, callingUid, UserHandle.getUserId(callingUid))) {
names[i] = null;
} else {
names[i] = ps.name;
}
} else {
names[i] = null;
}
}
}
return names;
}
@Override
public int getUidForSharedUser(String sharedUserName) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return -1;
}
if (sharedUserName == null) {
return -1;
}
// reader
synchronized (mPackages) {
SharedUserSetting suid;
try {
suid = mSettings.getSharedUserLPw(sharedUserName, 0, 0, false);
if (suid != null) {
return suid.userId;
}
} catch (PackageManagerException ignore) {
// can't happen, but, still need to catch it
}
return -1;
}
}
@Override
public int getFlagsForUid(int uid) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return 0;
}
synchronized (mPackages) {
Object obj = mSettings.getUserIdLPr(UserHandle.getAppId(uid));
if (obj instanceof SharedUserSetting) {
final SharedUserSetting sus = (SharedUserSetting) obj;
return sus.pkgFlags;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (filterAppAccessLPr(ps, callingUid, UserHandle.getUserId(callingUid))) {
return 0;
}
return ps.pkgFlags;
}
}
return 0;
}
@Override
public int getPrivateFlagsForUid(int uid) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return 0;
}
synchronized (mPackages) {
Object obj = mSettings.getUserIdLPr(UserHandle.getAppId(uid));
if (obj instanceof SharedUserSetting) {
final SharedUserSetting sus = (SharedUserSetting) obj;
return sus.pkgPrivateFlags;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (filterAppAccessLPr(ps, callingUid, UserHandle.getUserId(callingUid))) {
return 0;
}
return ps.pkgPrivateFlags;
}
}
return 0;
}
@Override
public boolean isUidPrivileged(int uid) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return false;
}
uid = UserHandle.getAppId(uid);
// reader
synchronized (mPackages) {
Object obj = mSettings.getUserIdLPr(uid);
if (obj instanceof SharedUserSetting) {
final SharedUserSetting sus = (SharedUserSetting) obj;
final Iterator<PackageSetting> it = sus.packages.iterator();
while (it.hasNext()) {
if (it.next().isPrivileged()) {
return true;
}
}
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
return ps.isPrivileged();
}
}
return false;
}
@Override
public String[] getAppOpPermissionPackages(String permName) {
return mPermissionManager.getAppOpPermissionPackages(permName);
}
@Override
public ResolveInfo resolveIntent(Intent intent, String resolvedType,
int flags, int userId) {
return resolveIntentInternal(intent, resolvedType, flags, userId, false,
Binder.getCallingUid());
}
/**
* Normally instant apps can only be resolved when they're visible to the caller.
* However, if {@code resolveForStart} is {@code true}, all instant apps are visible
* since we need to allow the system to start any installed application.
*/
private ResolveInfo resolveIntentInternal(Intent intent, String resolvedType,
int flags, int userId, boolean resolveForStart, int filterCallingUid) {
try {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "resolveIntent");
if (!sUserManager.exists(userId)) return null;
final int callingUid = Binder.getCallingUid();
flags = updateFlagsForResolve(flags, userId, intent, filterCallingUid, resolveForStart);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, false /*checkShell*/, "resolve intent");
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "queryIntentActivities");
final List<ResolveInfo> query = queryIntentActivitiesInternal(intent, resolvedType,
flags, filterCallingUid, userId, resolveForStart, true /*allowDynamicSplits*/);
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
final ResolveInfo bestChoice =
chooseBestActivity(intent, resolvedType, flags, query, userId);
return bestChoice;
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
@Override
public ResolveInfo findPersistentPreferredActivity(Intent intent, int userId) {
if (!UserHandle.isSameApp(Binder.getCallingUid(), Process.SYSTEM_UID)) {
throw new SecurityException(
"findPersistentPreferredActivity can only be run by the system");
}
if (!sUserManager.exists(userId)) {
return null;
}
final int callingUid = Binder.getCallingUid();
intent = updateIntentForResolve(intent);
final String resolvedType = intent.resolveTypeIfNeeded(mContext.getContentResolver());
final int flags = updateFlagsForResolve(
0, userId, intent, callingUid, false /*includeInstantApps*/);
final List<ResolveInfo> query = queryIntentActivitiesInternal(intent, resolvedType, flags,
userId);
synchronized (mPackages) {
return findPersistentPreferredActivityLP(intent, resolvedType, flags, query, false,
userId);
}
}
@Override
public void setLastChosenActivity(Intent intent, String resolvedType, int flags,
IntentFilter filter, int match, ComponentName activity) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return;
}
final int userId = UserHandle.getCallingUserId();
if (DEBUG_PREFERRED) {
Log.v(TAG, "setLastChosenActivity intent=" + intent
+ " resolvedType=" + resolvedType
+ " flags=" + flags
+ " filter=" + filter
+ " match=" + match
+ " activity=" + activity);
filter.dump(new PrintStreamPrinter(System.out), " ");
}
intent.setComponent(null);
final List<ResolveInfo> query = queryIntentActivitiesInternal(intent, resolvedType, flags,
userId);
// Find any earlier preferred or last chosen entries and nuke them
findPreferredActivity(intent, resolvedType,
flags, query, 0, false, true, false, userId);
// Add the new activity as the last chosen for this filter
addPreferredActivityInternal(filter, match, null, activity, false, userId,
"Setting last chosen");
}
@Override
public ResolveInfo getLastChosenActivity(Intent intent, String resolvedType, int flags) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
final int userId = UserHandle.getCallingUserId();
if (DEBUG_PREFERRED) Log.v(TAG, "Querying last chosen activity for " + intent);
final List<ResolveInfo> query = queryIntentActivitiesInternal(intent, resolvedType, flags,
userId);
return findPreferredActivity(intent, resolvedType, flags, query, 0,
false, false, false, userId);
}
/**
* Returns whether or not instant apps have been disabled remotely.
*/
private boolean areWebInstantAppsDisabled() {
return mWebInstantAppsDisabled;
}
private boolean isInstantAppResolutionAllowed(
Intent intent, List<ResolveInfo> resolvedActivities, int userId,
boolean skipPackageCheck) {
if (mInstantAppResolverConnection == null) {
return false;
}
if (mInstantAppInstallerActivity == null) {
return false;
}
if (intent.getComponent() != null) {
return false;
}
if ((intent.getFlags() & Intent.FLAG_IGNORE_EPHEMERAL) != 0) {
return false;
}
if (!skipPackageCheck && intent.getPackage() != null) {
return false;
}
if (!intent.isWebIntent()) {
// for non web intents, we should not resolve externally if an app already exists to
// handle it or if the caller didn't explicitly request it.
if ((resolvedActivities != null && resolvedActivities.size() != 0)
|| (intent.getFlags() & Intent.FLAG_ACTIVITY_MATCH_EXTERNAL) == 0) {
return false;
}
} else {
if (intent.getData() == null || TextUtils.isEmpty(intent.getData().getHost())) {
return false;
} else if (areWebInstantAppsDisabled()) {
return false;
}
}
// Deny ephemeral apps if the user chose _ALWAYS or _ALWAYS_ASK for intent resolution.
// Or if there's already an ephemeral app installed that handles the action
synchronized (mPackages) {
final int count = (resolvedActivities == null ? 0 : resolvedActivities.size());
for (int n = 0; n < count; n++) {
final ResolveInfo info = resolvedActivities.get(n);
final String packageName = info.activityInfo.packageName;
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps != null) {
// only check domain verification status if the app is not a browser
if (!info.handleAllWebDataURI) {
// Try to get the status from User settings first
final long packedStatus = getDomainVerificationStatusLPr(ps, userId);
final int status = (int) (packedStatus >> 32);
if (status == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS
|| status == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS_ASK) {
if (DEBUG_INSTANT) {
Slog.v(TAG, "DENY instant app;"
+ " pkg: " + packageName + ", status: " + status);
}
return false;
}
}
if (ps.getInstantApp(userId)) {
if (DEBUG_INSTANT) {
Slog.v(TAG, "DENY instant app installed;"
+ " pkg: " + packageName);
}
return false;
}
}
}
}
// We've exhausted all ways to deny ephemeral application; let the system look for them.
return true;
}
private void requestInstantAppResolutionPhaseTwo(AuxiliaryResolveInfo responseObj,
Intent origIntent, String resolvedType, String callingPackage,
Bundle verificationBundle, int userId) {
final Message msg = mHandler.obtainMessage(INSTANT_APP_RESOLUTION_PHASE_TWO,
new InstantAppRequest(responseObj, origIntent, resolvedType,
callingPackage, userId, verificationBundle, false /*resolveForStart*/));
mHandler.sendMessage(msg);
}
private ResolveInfo chooseBestActivity(Intent intent, String resolvedType,
int flags, List<ResolveInfo> query, int userId) {
if (query != null) {
final int N = query.size();
if (N == 1) {
return query.get(0);
} else if (N > 1) {
final boolean debug = ((intent.getFlags() & Intent.FLAG_DEBUG_LOG_RESOLUTION) != 0);
// If there is more than one activity with the same priority,
// then let the user decide between them.
ResolveInfo r0 = query.get(0);
ResolveInfo r1 = query.get(1);
if (DEBUG_INTENT_MATCHING || debug) {
Slog.v(TAG, r0.activityInfo.name + "=" + r0.priority + " vs "
+ r1.activityInfo.name + "=" + r1.priority);
}
// If the first activity has a higher priority, or a different
// default, then it is always desirable to pick it.
if (r0.priority != r1.priority
|| r0.preferredOrder != r1.preferredOrder
|| r0.isDefault != r1.isDefault) {
return query.get(0);
}
// If we have saved a preference for a preferred activity for
// this Intent, use that.
ResolveInfo ri = findPreferredActivity(intent, resolvedType,
flags, query, r0.priority, true, false, debug, userId);
if (ri != null) {
return ri;
}
// If we have an ephemeral app, use it
for (int i = 0; i < N; i++) {
ri = query.get(i);
if (ri.activityInfo.applicationInfo.isInstantApp()) {
final String packageName = ri.activityInfo.packageName;
final PackageSetting ps = mSettings.mPackages.get(packageName);
final long packedStatus = getDomainVerificationStatusLPr(ps, userId);
final int status = (int)(packedStatus >> 32);
if (status != INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS_ASK) {
return ri;
}
}
}
ri = new ResolveInfo(mResolveInfo);
ri.activityInfo = new ActivityInfo(ri.activityInfo);
ri.activityInfo.labelRes = ResolverActivity.getLabelRes(intent.getAction());
// If all of the options come from the same package, show the application's
// label and icon instead of the generic resolver's.
// Some calls like Intent.resolveActivityInfo query the ResolveInfo from here
// and then throw away the ResolveInfo itself, meaning that the caller loses
// the resolvePackageName. Therefore the activityInfo.labelRes above provides
// a fallback for this case; we only set the target package's resources on
// the ResolveInfo, not the ActivityInfo.
final String intentPackage = intent.getPackage();
if (!TextUtils.isEmpty(intentPackage) && allHavePackage(query, intentPackage)) {
final ApplicationInfo appi = query.get(0).activityInfo.applicationInfo;
ri.resolvePackageName = intentPackage;
if (userNeedsBadging(userId)) {
ri.noResourceId = true;
} else {
ri.icon = appi.icon;
}
ri.iconResourceId = appi.icon;
ri.labelRes = appi.labelRes;
}
ri.activityInfo.applicationInfo = new ApplicationInfo(
ri.activityInfo.applicationInfo);
if (userId != 0) {
ri.activityInfo.applicationInfo.uid = UserHandle.getUid(userId,
UserHandle.getAppId(ri.activityInfo.applicationInfo.uid));
}
// Make sure that the resolver is displayable in car mode
if (ri.activityInfo.metaData == null) ri.activityInfo.metaData = new Bundle();
ri.activityInfo.metaData.putBoolean(Intent.METADATA_DOCK_HOME, true);
return ri;
}
}
return null;
}
/**
* Return true if the given list is not empty and all of its contents have
* an activityInfo with the given package name.
*/
private boolean allHavePackage(List<ResolveInfo> list, String packageName) {
if (ArrayUtils.isEmpty(list)) {
return false;
}
for (int i = 0, N = list.size(); i < N; i++) {
final ResolveInfo ri = list.get(i);
final ActivityInfo ai = ri != null ? ri.activityInfo : null;
if (ai == null || !packageName.equals(ai.packageName)) {
return false;
}
}
return true;
}
private ResolveInfo findPersistentPreferredActivityLP(Intent intent, String resolvedType,
int flags, List<ResolveInfo> query, boolean debug, int userId) {
final int N = query.size();
PersistentPreferredIntentResolver ppir = mSettings.mPersistentPreferredActivities
.get(userId);
// Get the list of persistent preferred activities that handle the intent
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "Looking for presistent preferred activities...");
List<PersistentPreferredActivity> pprefs = ppir != null
? ppir.queryIntent(intent, resolvedType,
(flags & PackageManager.MATCH_DEFAULT_ONLY) != 0,
userId)
: null;
if (pprefs != null && pprefs.size() > 0) {
final int M = pprefs.size();
for (int i=0; i<M; i++) {
final PersistentPreferredActivity ppa = pprefs.get(i);
if (DEBUG_PREFERRED || debug) {
Slog.v(TAG, "Checking PersistentPreferredActivity ds="
+ (ppa.countDataSchemes() > 0 ? ppa.getDataScheme(0) : "<none>")
+ "\n component=" + ppa.mComponent);
ppa.dump(new LogPrinter(Log.VERBOSE, TAG, Log.LOG_ID_SYSTEM), " ");
}
final ActivityInfo ai = getActivityInfo(ppa.mComponent,
flags | MATCH_DISABLED_COMPONENTS, userId);
if (DEBUG_PREFERRED || debug) {
Slog.v(TAG, "Found persistent preferred activity:");
if (ai != null) {
ai.dump(new LogPrinter(Log.VERBOSE, TAG, Log.LOG_ID_SYSTEM), " ");
} else {
Slog.v(TAG, " null");
}
}
if (ai == null) {
// This previously registered persistent preferred activity
// component is no longer known. Ignore it and do NOT remove it.
continue;
}
for (int j=0; j<N; j++) {
final ResolveInfo ri = query.get(j);
if (!ri.activityInfo.applicationInfo.packageName
.equals(ai.applicationInfo.packageName)) {
continue;
}
if (!ri.activityInfo.name.equals(ai.name)) {
continue;
}
// Found a persistent preference that can handle the intent.
if (DEBUG_PREFERRED || debug) {
Slog.v(TAG, "Returning persistent preferred activity: " +
ri.activityInfo.packageName + "/" + ri.activityInfo.name);
}
return ri;
}
}
}
return null;
}
// TODO: handle preferred activities missing while user has amnesia
ResolveInfo findPreferredActivity(Intent intent, String resolvedType, int flags,
List<ResolveInfo> query, int priority, boolean always,
boolean removeMatches, boolean debug, int userId) {
if (!sUserManager.exists(userId)) return null;
final int callingUid = Binder.getCallingUid();
flags = updateFlagsForResolve(
flags, userId, intent, callingUid, false /*includeInstantApps*/);
intent = updateIntentForResolve(intent);
// writer
synchronized (mPackages) {
// Try to find a matching persistent preferred activity.
ResolveInfo pri = findPersistentPreferredActivityLP(intent, resolvedType, flags, query,
debug, userId);
// If a persistent preferred activity matched, use it.
if (pri != null) {
return pri;
}
PreferredIntentResolver pir = mSettings.mPreferredActivities.get(userId);
// Get the list of preferred activities that handle the intent
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "Looking for preferred activities...");
List<PreferredActivity> prefs = pir != null
? pir.queryIntent(intent, resolvedType,
(flags & PackageManager.MATCH_DEFAULT_ONLY) != 0,
userId)
: null;
if (prefs != null && prefs.size() > 0) {
boolean changed = false;
try {
// First figure out how good the original match set is.
// We will only allow preferred activities that came
// from the same match quality.
int match = 0;
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "Figuring out best match...");
final int N = query.size();
for (int j=0; j<N; j++) {
final ResolveInfo ri = query.get(j);
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "Match for " + ri.activityInfo
+ ": 0x" + Integer.toHexString(match));
if (ri.match > match) {
match = ri.match;
}
}
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "Best match: 0x"
+ Integer.toHexString(match));
match &= IntentFilter.MATCH_CATEGORY_MASK;
final int M = prefs.size();
for (int i=0; i<M; i++) {
final PreferredActivity pa = prefs.get(i);
if (DEBUG_PREFERRED || debug) {
Slog.v(TAG, "Checking PreferredActivity ds="
+ (pa.countDataSchemes() > 0 ? pa.getDataScheme(0) : "<none>")
+ "\n component=" + pa.mPref.mComponent);
pa.dump(new LogPrinter(Log.VERBOSE, TAG, Log.LOG_ID_SYSTEM), " ");
}
if (pa.mPref.mMatch != match) {
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "Skipping bad match "
+ Integer.toHexString(pa.mPref.mMatch));
continue;
}
// If it's not an "always" type preferred activity and that's what we're
// looking for, skip it.
if (always && !pa.mPref.mAlways) {
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "Skipping mAlways=false entry");
continue;
}
final ActivityInfo ai = getActivityInfo(
pa.mPref.mComponent, flags | MATCH_DISABLED_COMPONENTS
| MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE,
userId);
if (DEBUG_PREFERRED || debug) {
Slog.v(TAG, "Found preferred activity:");
if (ai != null) {
ai.dump(new LogPrinter(Log.VERBOSE, TAG, Log.LOG_ID_SYSTEM), " ");
} else {
Slog.v(TAG, " null");
}
}
if (ai == null) {
// This previously registered preferred activity
// component is no longer known. Most likely an update
// to the app was installed and in the new version this
// component no longer exists. Clean it up by removing
// it from the preferred activities list, and skip it.
Slog.w(TAG, "Removing dangling preferred activity: "
+ pa.mPref.mComponent);
pir.removeFilter(pa);
changed = true;
continue;
}
for (int j=0; j<N; j++) {
final ResolveInfo ri = query.get(j);
if (!ri.activityInfo.applicationInfo.packageName
.equals(ai.applicationInfo.packageName)) {
continue;
}
if (!ri.activityInfo.name.equals(ai.name)) {
continue;
}
if (removeMatches) {
pir.removeFilter(pa);
changed = true;
if (DEBUG_PREFERRED) {
Slog.v(TAG, "Removing match " + pa.mPref.mComponent);
}
break;
}
// Okay we found a previously set preferred or last chosen app.
// If the result set is different from when this
// was created, and is not a subset of the preferred set, we need to
// clear it and re-ask the user their preference, if we're looking for
// an "always" type entry.
if (always && !pa.mPref.sameSet(query)) {
if (pa.mPref.isSuperset(query)) {
// some components of the set are no longer present in
// the query, but the preferred activity can still be reused
if (DEBUG_PREFERRED) {
Slog.i(TAG, "Result set changed, but PreferredActivity is"
+ " still valid as only non-preferred components"
+ " were removed for " + intent + " type "
+ resolvedType);
}
// remove obsolete components and re-add the up-to-date filter
PreferredActivity freshPa = new PreferredActivity(pa,
pa.mPref.mMatch,
pa.mPref.discardObsoleteComponents(query),
pa.mPref.mComponent,
pa.mPref.mAlways);
pir.removeFilter(pa);
pir.addFilter(freshPa);
changed = true;
} else {
Slog.i(TAG,
"Result set changed, dropping preferred activity for "
+ intent + " type " + resolvedType);
if (DEBUG_PREFERRED) {
Slog.v(TAG, "Removing preferred activity since set changed "
+ pa.mPref.mComponent);
}
pir.removeFilter(pa);
// Re-add the filter as a "last chosen" entry (!always)
PreferredActivity lastChosen = new PreferredActivity(
pa, pa.mPref.mMatch, null, pa.mPref.mComponent, false);
pir.addFilter(lastChosen);
changed = true;
return null;
}
}
// Yay! Either the set matched or we're looking for the last chosen
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "Returning preferred activity: "
+ ri.activityInfo.packageName + "/" + ri.activityInfo.name);
return ri;
}
}
} finally {
if (changed) {
if (DEBUG_PREFERRED) {
Slog.v(TAG, "Preferred activity bookkeeping changed; writing restrictions");
}
scheduleWritePackageRestrictionsLocked(userId);
}
}
}
}
if (DEBUG_PREFERRED || debug) Slog.v(TAG, "No preferred activity to return");
return null;
}
/*
* Returns if intent can be forwarded from the sourceUserId to the targetUserId
*/
@Override
public boolean canForwardTo(Intent intent, String resolvedType, int sourceUserId,
int targetUserId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL, null);
List<CrossProfileIntentFilter> matches =
getMatchingCrossProfileIntentFilters(intent, resolvedType, sourceUserId);
if (matches != null) {
int size = matches.size();
for (int i = 0; i < size; i++) {
if (matches.get(i).getTargetUserId() == targetUserId) return true;
}
}
if (intent.hasWebURI()) {
// cross-profile app linking works only towards the parent.
final int callingUid = Binder.getCallingUid();
final UserInfo parent = getProfileParent(sourceUserId);
synchronized(mPackages) {
int flags = updateFlagsForResolve(0, parent.id, intent, callingUid,
false /*includeInstantApps*/);
CrossProfileDomainInfo xpDomainInfo = getCrossProfileDomainPreferredLpr(
intent, resolvedType, flags, sourceUserId, parent.id);
return xpDomainInfo != null;
}
}
return false;
}
private UserInfo getProfileParent(int userId) {
final long identity = Binder.clearCallingIdentity();
try {
return sUserManager.getProfileParent(userId);
} finally {
Binder.restoreCallingIdentity(identity);
}
}
private List<CrossProfileIntentFilter> getMatchingCrossProfileIntentFilters(Intent intent,
String resolvedType, int userId) {
CrossProfileIntentResolver resolver = mSettings.mCrossProfileIntentResolvers.get(userId);
if (resolver != null) {
return resolver.queryIntent(intent, resolvedType, false /*defaultOnly*/, userId);
}
return null;
}
@Override
public @NonNull ParceledListSlice<ResolveInfo> queryIntentActivities(Intent intent,
String resolvedType, int flags, int userId) {
try {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "queryIntentActivities");
return new ParceledListSlice<>(
queryIntentActivitiesInternal(intent, resolvedType, flags, userId));
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
/**
* Returns the package name of the calling Uid if it's an instant app. If it isn't
* instant, returns {@code null}.
*/
private String getInstantAppPackageName(int callingUid) {
synchronized (mPackages) {
// If the caller is an isolated app use the owner's uid for the lookup.
if (Process.isIsolated(callingUid)) {
callingUid = mIsolatedOwners.get(callingUid);
}
final int appId = UserHandle.getAppId(callingUid);
final Object obj = mSettings.getUserIdLPr(appId);
if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
final boolean isInstantApp = ps.getInstantApp(UserHandle.getUserId(callingUid));
return isInstantApp ? ps.pkg.packageName : null;
}
}
return null;
}
private @NonNull List<ResolveInfo> queryIntentActivitiesInternal(Intent intent,
String resolvedType, int flags, int userId) {
return queryIntentActivitiesInternal(
intent, resolvedType, flags, Binder.getCallingUid(), userId,
false /*resolveForStart*/, true /*allowDynamicSplits*/);
}
private @NonNull List<ResolveInfo> queryIntentActivitiesInternal(Intent intent,
String resolvedType, int flags, int filterCallingUid, int userId,
boolean resolveForStart, boolean allowDynamicSplits) {
if (!sUserManager.exists(userId)) return Collections.emptyList();
final String instantAppPkgName = getInstantAppPackageName(filterCallingUid);
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
false /* requireFullPermission */, false /* checkShell */,
"query intent activities");
final String pkgName = intent.getPackage();
ComponentName comp = intent.getComponent();
if (comp == null) {
if (intent.getSelector() != null) {
intent = intent.getSelector();
comp = intent.getComponent();
}
}
flags = updateFlagsForResolve(flags, userId, intent, filterCallingUid, resolveForStart,
comp != null || pkgName != null /*onlyExposedExplicitly*/);
if (comp != null) {
final List<ResolveInfo> list = new ArrayList<ResolveInfo>(1);
final ActivityInfo ai = getActivityInfo(comp, flags, userId);
if (ai != null) {
// When specifying an explicit component, we prevent the activity from being
// used when either 1) the calling package is normal and the activity is within
// an ephemeral application or 2) the calling package is ephemeral and the
// activity is not visible to ephemeral applications.
final boolean matchInstantApp =
(flags & PackageManager.MATCH_INSTANT) != 0;
final boolean matchVisibleToInstantAppOnly =
(flags & PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY) != 0;
final boolean matchExplicitlyVisibleOnly =
(flags & PackageManager.MATCH_EXPLICITLY_VISIBLE_ONLY) != 0;
final boolean isCallerInstantApp =
instantAppPkgName != null;
final boolean isTargetSameInstantApp =
comp.getPackageName().equals(instantAppPkgName);
final boolean isTargetInstantApp =
(ai.applicationInfo.privateFlags
& ApplicationInfo.PRIVATE_FLAG_INSTANT) != 0;
final boolean isTargetVisibleToInstantApp =
(ai.flags & ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0;
final boolean isTargetExplicitlyVisibleToInstantApp =
isTargetVisibleToInstantApp
&& (ai.flags & ActivityInfo.FLAG_IMPLICITLY_VISIBLE_TO_INSTANT_APP) == 0;
final boolean isTargetHiddenFromInstantApp =
!isTargetVisibleToInstantApp
|| (matchExplicitlyVisibleOnly && !isTargetExplicitlyVisibleToInstantApp);
final boolean blockResolution =
!isTargetSameInstantApp
&& ((!matchInstantApp && !isCallerInstantApp && isTargetInstantApp)
|| (matchVisibleToInstantAppOnly && isCallerInstantApp
&& isTargetHiddenFromInstantApp));
if (!blockResolution) {
final ResolveInfo ri = new ResolveInfo();
ri.activityInfo = ai;
list.add(ri);
}
}
return applyPostResolutionFilter(
list, instantAppPkgName, allowDynamicSplits, filterCallingUid, resolveForStart,
userId, intent);
}
// reader
boolean sortResult = false;
boolean addInstant = false;
List<ResolveInfo> result;
synchronized (mPackages) {
if (pkgName == null) {
List<CrossProfileIntentFilter> matchingFilters =
getMatchingCrossProfileIntentFilters(intent, resolvedType, userId);
// Check for results that need to skip the current profile.
ResolveInfo xpResolveInfo = querySkipCurrentProfileIntents(matchingFilters, intent,
resolvedType, flags, userId);
if (xpResolveInfo != null) {
List<ResolveInfo> xpResult = new ArrayList<ResolveInfo>(1);
xpResult.add(xpResolveInfo);
return applyPostResolutionFilter(
filterIfNotSystemUser(xpResult, userId), instantAppPkgName,
allowDynamicSplits, filterCallingUid, resolveForStart, userId, intent);
}
// Check for results in the current profile.
result = filterIfNotSystemUser(mActivities.queryIntent(
intent, resolvedType, flags, userId), userId);
addInstant = isInstantAppResolutionAllowed(intent, result, userId,
false /*skipPackageCheck*/);
// Check for cross profile results.
boolean hasNonNegativePriorityResult = hasNonNegativePriority(result);
xpResolveInfo = queryCrossProfileIntents(
matchingFilters, intent, resolvedType, flags, userId,
hasNonNegativePriorityResult);
if (xpResolveInfo != null && isUserEnabled(xpResolveInfo.targetUserId)) {
boolean isVisibleToUser = filterIfNotSystemUser(
Collections.singletonList(xpResolveInfo), userId).size() > 0;
if (isVisibleToUser) {
result.add(xpResolveInfo);
sortResult = true;
}
}
if (intent.hasWebURI()) {
CrossProfileDomainInfo xpDomainInfo = null;
final UserInfo parent = getProfileParent(userId);
if (parent != null) {
xpDomainInfo = getCrossProfileDomainPreferredLpr(intent, resolvedType,
flags, userId, parent.id);
}
if (xpDomainInfo != null) {
if (xpResolveInfo != null) {
// If we didn't remove it, the cross-profile ResolveInfo would be twice
// in the result.
result.remove(xpResolveInfo);
}
if (result.size() == 0 && !addInstant) {
// No result in current profile, but found candidate in parent user.
// And we are not going to add emphemeral app, so we can return the
// result straight away.
result.add(xpDomainInfo.resolveInfo);
return applyPostResolutionFilter(result, instantAppPkgName,
allowDynamicSplits, filterCallingUid, resolveForStart, userId,
intent);
}
} else if (result.size() <= 1 && !addInstant) {
// No result in parent user and <= 1 result in current profile, and we
// are not going to add emphemeral app, so we can return the result without
// further processing.
return applyPostResolutionFilter(result, instantAppPkgName,
allowDynamicSplits, filterCallingUid, resolveForStart, userId,
intent);
}
// We have more than one candidate (combining results from current and parent
// profile), so we need filtering and sorting.
result = filterCandidatesWithDomainPreferredActivitiesLPr(
intent, flags, result, xpDomainInfo, userId);
sortResult = true;
}
} else {
final PackageParser.Package pkg = mPackages.get(pkgName);
result = null;
if (pkg != null) {
result = filterIfNotSystemUser(
mActivities.queryIntentForPackage(
intent, resolvedType, flags, pkg.activities, userId),
userId);
}
if (result == null || result.size() == 0) {
// the caller wants to resolve for a particular package; however, there
// were no installed results, so, try to find an ephemeral result
addInstant = isInstantAppResolutionAllowed(
intent, null /*result*/, userId, true /*skipPackageCheck*/);
if (result == null) {
result = new ArrayList<>();
}
}
}
}
if (addInstant) {
result = maybeAddInstantAppInstaller(
result, intent, resolvedType, flags, userId, resolveForStart);
}
if (sortResult) {
Collections.sort(result, mResolvePrioritySorter);
}
return applyPostResolutionFilter(
result, instantAppPkgName, allowDynamicSplits, filterCallingUid, resolveForStart,
userId, intent);
}
private List<ResolveInfo> maybeAddInstantAppInstaller(List<ResolveInfo> result, Intent intent,
String resolvedType, int flags, int userId, boolean resolveForStart) {
// first, check to see if we've got an instant app already installed
final boolean alreadyResolvedLocally = (flags & PackageManager.MATCH_INSTANT) != 0;
ResolveInfo localInstantApp = null;
boolean blockResolution = false;
if (!alreadyResolvedLocally) {
final List<ResolveInfo> instantApps = mActivities.queryIntent(intent, resolvedType,
flags
| PackageManager.GET_RESOLVED_FILTER
| PackageManager.MATCH_INSTANT
| PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY,
userId);
for (int i = instantApps.size() - 1; i >= 0; --i) {
final ResolveInfo info = instantApps.get(i);
final String packageName = info.activityInfo.packageName;
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps.getInstantApp(userId)) {
final long packedStatus = getDomainVerificationStatusLPr(ps, userId);
final int status = (int)(packedStatus >> 32);
if (status == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER) {
// there's a local instant application installed, but, the user has
// chosen to never use it; skip resolution and don't acknowledge
// an instant application is even available
if (DEBUG_INSTANT) {
Slog.v(TAG, "Instant app marked to never run; pkg: " + packageName);
}
blockResolution = true;
break;
} else {
// we have a locally installed instant application; skip resolution
// but acknowledge there's an instant application available
if (DEBUG_INSTANT) {
Slog.v(TAG, "Found installed instant app; pkg: " + packageName);
}
localInstantApp = info;
break;
}
}
}
}
// no app installed, let's see if one's available
AuxiliaryResolveInfo auxiliaryResponse = null;
if (!blockResolution) {
if (localInstantApp == null) {
// we don't have an instant app locally, resolve externally
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "resolveEphemeral");
final InstantAppRequest requestObject = new InstantAppRequest(
null /*responseObj*/, intent /*origIntent*/, resolvedType,
null /*callingPackage*/, userId, null /*verificationBundle*/,
resolveForStart);
auxiliaryResponse = InstantAppResolver.doInstantAppResolutionPhaseOne(
mInstantAppResolverConnection, requestObject);
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
} else {
// we have an instant application locally, but, we can't admit that since
// callers shouldn't be able to determine prior browsing. create a dummy
// auxiliary response so the downstream code behaves as if there's an
// instant application available externally. when it comes time to start
// the instant application, we'll do the right thing.
final ApplicationInfo ai = localInstantApp.activityInfo.applicationInfo;
auxiliaryResponse = new AuxiliaryResolveInfo(null /* failureActivity */,
ai.packageName, ai.longVersionCode, null /* splitName */);
}
}
if (intent.isWebIntent() && auxiliaryResponse == null) {
return result;
}
final PackageSetting ps = mSettings.mPackages.get(mInstantAppInstallerActivity.packageName);
if (ps == null
|| ps.getUserState().get(userId) == null
|| !ps.getUserState().get(userId).isEnabled(mInstantAppInstallerActivity, 0)) {
return result;
}
final ResolveInfo ephemeralInstaller = new ResolveInfo(mInstantAppInstallerInfo);
ephemeralInstaller.activityInfo = PackageParser.generateActivityInfo(
mInstantAppInstallerActivity, 0, ps.readUserState(userId), userId);
ephemeralInstaller.match = IntentFilter.MATCH_CATEGORY_SCHEME_SPECIFIC_PART
| IntentFilter.MATCH_ADJUSTMENT_NORMAL;
// add a non-generic filter
ephemeralInstaller.filter = new IntentFilter();
if (intent.getAction() != null) {
ephemeralInstaller.filter.addAction(intent.getAction());
}
if (intent.getData() != null && intent.getData().getPath() != null) {
ephemeralInstaller.filter.addDataPath(
intent.getData().getPath(), PatternMatcher.PATTERN_LITERAL);
}
ephemeralInstaller.isInstantAppAvailable = true;
// make sure this resolver is the default
ephemeralInstaller.isDefault = true;
ephemeralInstaller.auxiliaryInfo = auxiliaryResponse;
if (DEBUG_INSTANT) {
Slog.v(TAG, "Adding ephemeral installer to the ResolveInfo list");
}
result.add(ephemeralInstaller);
return result;
}
private static class CrossProfileDomainInfo {
/* ResolveInfo for IntentForwarderActivity to send the intent to the other profile */
ResolveInfo resolveInfo;
/* Best domain verification status of the activities found in the other profile */
int bestDomainVerificationStatus;
}
private CrossProfileDomainInfo getCrossProfileDomainPreferredLpr(Intent intent,
String resolvedType, int flags, int sourceUserId, int parentUserId) {
if (!sUserManager.hasUserRestriction(UserManager.ALLOW_PARENT_PROFILE_APP_LINKING,
sourceUserId)) {
return null;
}
List<ResolveInfo> resultTargetUser = mActivities.queryIntent(intent,
resolvedType, flags, parentUserId);
if (resultTargetUser == null || resultTargetUser.isEmpty()) {
return null;
}
CrossProfileDomainInfo result = null;
int size = resultTargetUser.size();
for (int i = 0; i < size; i++) {
ResolveInfo riTargetUser = resultTargetUser.get(i);
// Intent filter verification is only for filters that specify a host. So don't return
// those that handle all web uris.
if (riTargetUser.handleAllWebDataURI) {
continue;
}
String packageName = riTargetUser.activityInfo.packageName;
PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null) {
continue;
}
long verificationState = getDomainVerificationStatusLPr(ps, parentUserId);
int status = (int)(verificationState >> 32);
if (result == null) {
result = new CrossProfileDomainInfo();
result.resolveInfo = createForwardingResolveInfoUnchecked(new IntentFilter(),
sourceUserId, parentUserId);
result.bestDomainVerificationStatus = status;
} else {
result.bestDomainVerificationStatus = bestDomainVerificationStatus(status,
result.bestDomainVerificationStatus);
}
}
// Don't consider matches with status NEVER across profiles.
if (result != null && result.bestDomainVerificationStatus
== INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER) {
return null;
}
return result;
}
/**
* Verification statuses are ordered from the worse to the best, except for
* INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER, which is the worse.
*/
private int bestDomainVerificationStatus(int status1, int status2) {
if (status1 == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER) {
return status2;
}
if (status2 == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER) {
return status1;
}
return (int) MathUtils.max(status1, status2);
}
private boolean isUserEnabled(int userId) {
long callingId = Binder.clearCallingIdentity();
try {
UserInfo userInfo = sUserManager.getUserInfo(userId);
return userInfo != null && userInfo.isEnabled();
} finally {
Binder.restoreCallingIdentity(callingId);
}
}
/**
* Filter out activities with systemUserOnly flag set, when current user is not System.
*
* @return filtered list
*/
private List<ResolveInfo> filterIfNotSystemUser(List<ResolveInfo> resolveInfos, int userId) {
if (userId == UserHandle.USER_SYSTEM) {
return resolveInfos;
}
for (int i = resolveInfos.size() - 1; i >= 0; i--) {
ResolveInfo info = resolveInfos.get(i);
if ((info.activityInfo.flags & ActivityInfo.FLAG_SYSTEM_USER_ONLY) != 0) {
resolveInfos.remove(i);
}
}
return resolveInfos;
}
/**
* Filters out ephemeral activities.
* <p>When resolving for an ephemeral app, only activities that 1) are defined in the
* ephemeral app or 2) marked with {@code visibleToEphemeral} are returned.
*
* @param resolveInfos The pre-filtered list of resolved activities
* @param ephemeralPkgName The ephemeral package name. If {@code null}, no filtering
* is performed.
* @param intent
* @return A filtered list of resolved activities.
*/
private List<ResolveInfo> applyPostResolutionFilter(List<ResolveInfo> resolveInfos,
String ephemeralPkgName, boolean allowDynamicSplits, int filterCallingUid,
boolean resolveForStart, int userId, Intent intent) {
final boolean blockInstant = intent.isWebIntent() && areWebInstantAppsDisabled();
for (int i = resolveInfos.size() - 1; i >= 0; i--) {
final ResolveInfo info = resolveInfos.get(i);
// remove locally resolved instant app web results when disabled
if (info.isInstantAppAvailable && blockInstant) {
resolveInfos.remove(i);
continue;
}
// allow activities that are defined in the provided package
if (allowDynamicSplits
&& info.activityInfo != null
&& info.activityInfo.splitName != null
&& !ArrayUtils.contains(info.activityInfo.applicationInfo.splitNames,
info.activityInfo.splitName)) {
if (mInstantAppInstallerActivity == null) {
if (DEBUG_INSTALL) {
Slog.v(TAG, "No installer - not adding it to the ResolveInfo list");
}
resolveInfos.remove(i);
continue;
}
if (blockInstant && isInstantApp(info.activityInfo.packageName, userId)) {
resolveInfos.remove(i);
continue;
}
// requested activity is defined in a split that hasn't been installed yet.
// add the installer to the resolve list
if (DEBUG_INSTALL) {
Slog.v(TAG, "Adding installer to the ResolveInfo list");
}
final ResolveInfo installerInfo = new ResolveInfo(
mInstantAppInstallerInfo);
final ComponentName installFailureActivity = findInstallFailureActivity(
info.activityInfo.packageName, filterCallingUid, userId);
installerInfo.auxiliaryInfo = new AuxiliaryResolveInfo(
installFailureActivity,
info.activityInfo.packageName,
info.activityInfo.applicationInfo.longVersionCode,
info.activityInfo.splitName);
// add a non-generic filter
installerInfo.filter = new IntentFilter();
// This resolve info may appear in the chooser UI, so let us make it
// look as the one it replaces as far as the user is concerned which
// requires loading the correct label and icon for the resolve info.
installerInfo.resolvePackageName = info.getComponentInfo().packageName;
installerInfo.labelRes = info.resolveLabelResId();
installerInfo.icon = info.resolveIconResId();
installerInfo.isInstantAppAvailable = true;
resolveInfos.set(i, installerInfo);
continue;
}
// caller is a full app, don't need to apply any other filtering
if (ephemeralPkgName == null) {
continue;
} else if (ephemeralPkgName.equals(info.activityInfo.packageName)) {
// caller is same app; don't need to apply any other filtering
continue;
} else if (resolveForStart
&& (intent.isWebIntent()
|| (intent.getFlags() & Intent.FLAG_ACTIVITY_MATCH_EXTERNAL) != 0)
&& intent.getPackage() == null
&& intent.getComponent() == null) {
// ephemeral apps can launch other ephemeral apps indirectly
continue;
}
// allow activities that have been explicitly exposed to ephemeral apps
final boolean isEphemeralApp = info.activityInfo.applicationInfo.isInstantApp();
if (!isEphemeralApp
&& ((info.activityInfo.flags & ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0)) {
continue;
}
resolveInfos.remove(i);
}
return resolveInfos;
}
/**
* Returns the activity component that can handle install failures.
* <p>By default, the instant application installer handles failures. However, an
* application may want to handle failures on its own. Applications do this by
* creating an activity with an intent filter that handles the action
* {@link Intent#ACTION_INSTALL_FAILURE}.
*/
private @Nullable ComponentName findInstallFailureActivity(
String packageName, int filterCallingUid, int userId) {
final Intent failureActivityIntent = new Intent(Intent.ACTION_INSTALL_FAILURE);
failureActivityIntent.setPackage(packageName);
// IMPORTANT: disallow dynamic splits to avoid an infinite loop
final List<ResolveInfo> result = queryIntentActivitiesInternal(
failureActivityIntent, null /*resolvedType*/, 0 /*flags*/, filterCallingUid, userId,
false /*resolveForStart*/, false /*allowDynamicSplits*/);
final int NR = result.size();
if (NR > 0) {
for (int i = 0; i < NR; i++) {
final ResolveInfo info = result.get(i);
if (info.activityInfo.splitName != null) {
continue;
}
return new ComponentName(packageName, info.activityInfo.name);
}
}
return null;
}
/**
* @param resolveInfos list of resolve infos in descending priority order
* @return if the list contains a resolve info with non-negative priority
*/
private boolean hasNonNegativePriority(List<ResolveInfo> resolveInfos) {
return resolveInfos.size() > 0 && resolveInfos.get(0).priority >= 0;
}
private List<ResolveInfo> filterCandidatesWithDomainPreferredActivitiesLPr(Intent intent,
int matchFlags, List<ResolveInfo> candidates, CrossProfileDomainInfo xpDomainInfo,
int userId) {
final boolean debug = (intent.getFlags() & Intent.FLAG_DEBUG_LOG_RESOLUTION) != 0;
if (DEBUG_PREFERRED || DEBUG_DOMAIN_VERIFICATION) {
Slog.v(TAG, "Filtering results with preferred activities. Candidates count: " +
candidates.size());
}
ArrayList<ResolveInfo> result = new ArrayList<ResolveInfo>();
ArrayList<ResolveInfo> alwaysList = new ArrayList<ResolveInfo>();
ArrayList<ResolveInfo> undefinedList = new ArrayList<ResolveInfo>();
ArrayList<ResolveInfo> alwaysAskList = new ArrayList<ResolveInfo>();
ArrayList<ResolveInfo> neverList = new ArrayList<ResolveInfo>();
ArrayList<ResolveInfo> matchAllList = new ArrayList<ResolveInfo>();
synchronized (mPackages) {
final int count = candidates.size();
// First, try to use linked apps. Partition the candidates into four lists:
// one for the final results, one for the "do not use ever", one for "undefined status"
// and finally one for "browser app type".
for (int n=0; n<count; n++) {
ResolveInfo info = candidates.get(n);
String packageName = info.activityInfo.packageName;
PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps != null) {
// Add to the special match all list (Browser use case)
if (info.handleAllWebDataURI) {
matchAllList.add(info);
continue;
}
// Try to get the status from User settings first
long packedStatus = getDomainVerificationStatusLPr(ps, userId);
int status = (int)(packedStatus >> 32);
int linkGeneration = (int)(packedStatus & 0xFFFFFFFF);
if (status == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS) {
if (DEBUG_DOMAIN_VERIFICATION || debug) {
Slog.i(TAG, " + always: " + info.activityInfo.packageName
+ " : linkgen=" + linkGeneration);
}
// Use link-enabled generation as preferredOrder, i.e.
// prefer newly-enabled over earlier-enabled.
info.preferredOrder = linkGeneration;
alwaysList.add(info);
} else if (status == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER) {
if (DEBUG_DOMAIN_VERIFICATION || debug) {
Slog.i(TAG, " + never: " + info.activityInfo.packageName);
}
neverList.add(info);
} else if (status == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ALWAYS_ASK) {
if (DEBUG_DOMAIN_VERIFICATION || debug) {
Slog.i(TAG, " + always-ask: " + info.activityInfo.packageName);
}
alwaysAskList.add(info);
} else if (status == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED ||
status == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ASK) {
if (DEBUG_DOMAIN_VERIFICATION || debug) {
Slog.i(TAG, " + ask: " + info.activityInfo.packageName);
}
undefinedList.add(info);
}
}
}
// We'll want to include browser possibilities in a few cases
boolean includeBrowser = false;
// First try to add the "always" resolution(s) for the current user, if any
if (alwaysList.size() > 0) {
result.addAll(alwaysList);
} else {
// Add all undefined apps as we want them to appear in the disambiguation dialog.
result.addAll(undefinedList);
// Maybe add one for the other profile.
if (xpDomainInfo != null && (
xpDomainInfo.bestDomainVerificationStatus
!= INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER)) {
result.add(xpDomainInfo.resolveInfo);
}
includeBrowser = true;
}
// The presence of any 'always ask' alternatives means we'll also offer browsers.
// If there were 'always' entries their preferred order has been set, so we also
// back that off to make the alternatives equivalent
if (alwaysAskList.size() > 0) {
for (ResolveInfo i : result) {
i.preferredOrder = 0;
}
result.addAll(alwaysAskList);
includeBrowser = true;
}
if (includeBrowser) {
// Also add browsers (all of them or only the default one)
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.v(TAG, " ...including browsers in candidate set");
}
if ((matchFlags & MATCH_ALL) != 0) {
result.addAll(matchAllList);
} else {
// Browser/generic handling case. If there's a default browser, go straight
// to that (but only if there is no other higher-priority match).
final String defaultBrowserPackageName = getDefaultBrowserPackageName(userId);
int maxMatchPrio = 0;
ResolveInfo defaultBrowserMatch = null;
final int numCandidates = matchAllList.size();
for (int n = 0; n < numCandidates; n++) {
ResolveInfo info = matchAllList.get(n);
// track the highest overall match priority...
if (info.priority > maxMatchPrio) {
maxMatchPrio = info.priority;
}
// ...and the highest-priority default browser match
if (info.activityInfo.packageName.equals(defaultBrowserPackageName)) {
if (defaultBrowserMatch == null
|| (defaultBrowserMatch.priority < info.priority)) {
if (debug) {
Slog.v(TAG, "Considering default browser match " + info);
}
defaultBrowserMatch = info;
}
}
}
if (defaultBrowserMatch != null
&& defaultBrowserMatch.priority >= maxMatchPrio
&& !TextUtils.isEmpty(defaultBrowserPackageName))
{
if (debug) {
Slog.v(TAG, "Default browser match " + defaultBrowserMatch);
}
result.add(defaultBrowserMatch);
} else {
result.addAll(matchAllList);
}
}
// If there is nothing selected, add all candidates and remove the ones that the user
// has explicitly put into the INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_NEVER state
if (result.size() == 0) {
result.addAll(candidates);
result.removeAll(neverList);
}
}
}
if (DEBUG_PREFERRED || DEBUG_DOMAIN_VERIFICATION) {
Slog.v(TAG, "Filtered results with preferred activities. New candidates count: " +
result.size());
for (ResolveInfo info : result) {
Slog.v(TAG, " + " + info.activityInfo);
}
}
return result;
}
// Returns a packed value as a long:
//
// high 'int'-sized word: link status: undefined/ask/never/always.
// low 'int'-sized word: relative priority among 'always' results.
private long getDomainVerificationStatusLPr(PackageSetting ps, int userId) {
long result = ps.getDomainVerificationStatusForUser(userId);
// if none available, get the master status
if (result >> 32 == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED) {
if (ps.getIntentFilterVerificationInfo() != null) {
result = ((long)ps.getIntentFilterVerificationInfo().getStatus()) << 32;
}
}
return result;
}
private ResolveInfo querySkipCurrentProfileIntents(
List<CrossProfileIntentFilter> matchingFilters, Intent intent, String resolvedType,
int flags, int sourceUserId) {
if (matchingFilters != null) {
int size = matchingFilters.size();
for (int i = 0; i < size; i ++) {
CrossProfileIntentFilter filter = matchingFilters.get(i);
if ((filter.getFlags() & PackageManager.SKIP_CURRENT_PROFILE) != 0) {
// Checking if there are activities in the target user that can handle the
// intent.
ResolveInfo resolveInfo = createForwardingResolveInfo(filter, intent,
resolvedType, flags, sourceUserId);
if (resolveInfo != null) {
return resolveInfo;
}
}
}
}
return null;
}
// Return matching ResolveInfo in target user if any.
private ResolveInfo queryCrossProfileIntents(
List<CrossProfileIntentFilter> matchingFilters, Intent intent, String resolvedType,
int flags, int sourceUserId, boolean matchInCurrentProfile) {
if (matchingFilters != null) {
// Two {@link CrossProfileIntentFilter}s can have the same targetUserId and
// match the same intent. For performance reasons, it is better not to
// run queryIntent twice for the same userId
SparseBooleanArray alreadyTriedUserIds = new SparseBooleanArray();
int size = matchingFilters.size();
for (int i = 0; i < size; i++) {
CrossProfileIntentFilter filter = matchingFilters.get(i);
int targetUserId = filter.getTargetUserId();
boolean skipCurrentProfile =
(filter.getFlags() & PackageManager.SKIP_CURRENT_PROFILE) != 0;
boolean skipCurrentProfileIfNoMatchFound =
(filter.getFlags() & PackageManager.ONLY_IF_NO_MATCH_FOUND) != 0;
if (!skipCurrentProfile && !alreadyTriedUserIds.get(targetUserId)
&& (!skipCurrentProfileIfNoMatchFound || !matchInCurrentProfile)) {
// Checking if there are activities in the target user that can handle the
// intent.
ResolveInfo resolveInfo = createForwardingResolveInfo(filter, intent,
resolvedType, flags, sourceUserId);
if (resolveInfo != null) return resolveInfo;
alreadyTriedUserIds.put(targetUserId, true);
}
}
}
return null;
}
/**
* If the filter's target user can handle the intent and is enabled: returns a ResolveInfo that
* will forward the intent to the filter's target user.
* Otherwise, returns null.
*/
private ResolveInfo createForwardingResolveInfo(CrossProfileIntentFilter filter, Intent intent,
String resolvedType, int flags, int sourceUserId) {
int targetUserId = filter.getTargetUserId();
List<ResolveInfo> resultTargetUser = mActivities.queryIntent(intent,
resolvedType, flags, targetUserId);
if (resultTargetUser != null && isUserEnabled(targetUserId)) {
// If all the matches in the target profile are suspended, return null.
for (int i = resultTargetUser.size() - 1; i >= 0; i--) {
if ((resultTargetUser.get(i).activityInfo.applicationInfo.flags
& ApplicationInfo.FLAG_SUSPENDED) == 0) {
return createForwardingResolveInfoUnchecked(filter, sourceUserId,
targetUserId);
}
}
}
return null;
}
private ResolveInfo createForwardingResolveInfoUnchecked(IntentFilter filter,
int sourceUserId, int targetUserId) {
ResolveInfo forwardingResolveInfo = new ResolveInfo();
long ident = Binder.clearCallingIdentity();
boolean targetIsProfile;
try {
targetIsProfile = sUserManager.getUserInfo(targetUserId).isManagedProfile();
} finally {
Binder.restoreCallingIdentity(ident);
}
String className;
if (targetIsProfile) {
className = FORWARD_INTENT_TO_MANAGED_PROFILE;
} else {
className = FORWARD_INTENT_TO_PARENT;
}
ComponentName forwardingActivityComponentName = new ComponentName(
mAndroidApplication.packageName, className);
ActivityInfo forwardingActivityInfo = getActivityInfo(forwardingActivityComponentName, 0,
sourceUserId);
if (!targetIsProfile) {
forwardingActivityInfo.showUserIcon = targetUserId;
forwardingResolveInfo.noResourceId = true;
}
forwardingResolveInfo.activityInfo = forwardingActivityInfo;
forwardingResolveInfo.priority = 0;
forwardingResolveInfo.preferredOrder = 0;
forwardingResolveInfo.match = 0;
forwardingResolveInfo.isDefault = true;
forwardingResolveInfo.filter = filter;
forwardingResolveInfo.targetUserId = targetUserId;
return forwardingResolveInfo;
}
@Override
public @NonNull ParceledListSlice<ResolveInfo> queryIntentActivityOptions(ComponentName caller,
Intent[] specifics, String[] specificTypes, Intent intent,
String resolvedType, int flags, int userId) {
return new ParceledListSlice<>(queryIntentActivityOptionsInternal(caller, specifics,
specificTypes, intent, resolvedType, flags, userId));
}
private @NonNull List<ResolveInfo> queryIntentActivityOptionsInternal(ComponentName caller,
Intent[] specifics, String[] specificTypes, Intent intent,
String resolvedType, int flags, int userId) {
if (!sUserManager.exists(userId)) return Collections.emptyList();
final int callingUid = Binder.getCallingUid();
flags = updateFlagsForResolve(flags, userId, intent, callingUid,
false /*includeInstantApps*/);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, false /*checkShell*/,
"query intent activity options");
final String resultsAction = intent.getAction();
final List<ResolveInfo> results = queryIntentActivitiesInternal(intent, resolvedType, flags
| PackageManager.GET_RESOLVED_FILTER, userId);
if (DEBUG_INTENT_MATCHING) {
Log.v(TAG, "Query " + intent + ": " + results);
}
int specificsPos = 0;
int N;
// todo: note that the algorithm used here is O(N^2). This
// isn't a problem in our current environment, but if we start running
// into situations where we have more than 5 or 10 matches then this
// should probably be changed to something smarter...
// First we go through and resolve each of the specific items
// that were supplied, taking care of removing any corresponding
// duplicate items in the generic resolve list.
if (specifics != null) {
for (int i=0; i<specifics.length; i++) {
final Intent sintent = specifics[i];
if (sintent == null) {
continue;
}
if (DEBUG_INTENT_MATCHING) {
Log.v(TAG, "Specific #" + i + ": " + sintent);
}
String action = sintent.getAction();
if (resultsAction != null && resultsAction.equals(action)) {
// If this action was explicitly requested, then don't
// remove things that have it.
action = null;
}
ResolveInfo ri = null;
ActivityInfo ai = null;
ComponentName comp = sintent.getComponent();
if (comp == null) {
ri = resolveIntent(
sintent,
specificTypes != null ? specificTypes[i] : null,
flags, userId);
if (ri == null) {
continue;
}
if (ri == mResolveInfo) {
// ACK! Must do something better with this.
}
ai = ri.activityInfo;
comp = new ComponentName(ai.applicationInfo.packageName,
ai.name);
} else {
ai = getActivityInfo(comp, flags, userId);
if (ai == null) {
continue;
}
}
// Look for any generic query activities that are duplicates
// of this specific one, and remove them from the results.
if (DEBUG_INTENT_MATCHING) Log.v(TAG, "Specific #" + i + ": " + ai);
N = results.size();
int j;
for (j=specificsPos; j<N; j++) {
ResolveInfo sri = results.get(j);
if ((sri.activityInfo.name.equals(comp.getClassName())
&& sri.activityInfo.applicationInfo.packageName.equals(
comp.getPackageName()))
|| (action != null && sri.filter.matchAction(action))) {
results.remove(j);
if (DEBUG_INTENT_MATCHING) Log.v(
TAG, "Removing duplicate item from " + j
+ " due to specific " + specificsPos);
if (ri == null) {
ri = sri;
}
j--;
N--;
}
}
// Add this specific item to its proper place.
if (ri == null) {
ri = new ResolveInfo();
ri.activityInfo = ai;
}
results.add(specificsPos, ri);
ri.specificIndex = i;
specificsPos++;
}
}
// Now we go through the remaining generic results and remove any
// duplicate actions that are found here.
N = results.size();
for (int i=specificsPos; i<N-1; i++) {
final ResolveInfo rii = results.get(i);
if (rii.filter == null) {
continue;
}
// Iterate over all of the actions of this result's intent
// filter... typically this should be just one.
final Iterator<String> it = rii.filter.actionsIterator();
if (it == null) {
continue;
}
while (it.hasNext()) {
final String action = it.next();
if (resultsAction != null && resultsAction.equals(action)) {
// If this action was explicitly requested, then don't
// remove things that have it.
continue;
}
for (int j=i+1; j<N; j++) {
final ResolveInfo rij = results.get(j);
if (rij.filter != null && rij.filter.hasAction(action)) {
results.remove(j);
if (DEBUG_INTENT_MATCHING) Log.v(
TAG, "Removing duplicate item from " + j
+ " due to action " + action + " at " + i);
j--;
N--;
}
}
}
// If the caller didn't request filter information, drop it now
// so we don't have to marshall/unmarshall it.
if ((flags&PackageManager.GET_RESOLVED_FILTER) == 0) {
rii.filter = null;
}
}
// Filter out the caller activity if so requested.
if (caller != null) {
N = results.size();
for (int i=0; i<N; i++) {
ActivityInfo ainfo = results.get(i).activityInfo;
if (caller.getPackageName().equals(ainfo.applicationInfo.packageName)
&& caller.getClassName().equals(ainfo.name)) {
results.remove(i);
break;
}
}
}
// If the caller didn't request filter information,
// drop them now so we don't have to
// marshall/unmarshall it.
if ((flags&PackageManager.GET_RESOLVED_FILTER) == 0) {
N = results.size();
for (int i=0; i<N; i++) {
results.get(i).filter = null;
}
}
if (DEBUG_INTENT_MATCHING) Log.v(TAG, "Result: " + results);
return results;
}
@Override
public @NonNull ParceledListSlice<ResolveInfo> queryIntentReceivers(Intent intent,
String resolvedType, int flags, int userId) {
return new ParceledListSlice<>(
queryIntentReceiversInternal(intent, resolvedType, flags, userId,
false /*allowDynamicSplits*/));
}
private @NonNull List<ResolveInfo> queryIntentReceiversInternal(Intent intent,
String resolvedType, int flags, int userId, boolean allowDynamicSplits) {
if (!sUserManager.exists(userId)) return Collections.emptyList();
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, false /*checkShell*/,
"query intent receivers");
final String instantAppPkgName = getInstantAppPackageName(callingUid);
flags = updateFlagsForResolve(flags, userId, intent, callingUid,
false /*includeInstantApps*/);
ComponentName comp = intent.getComponent();
if (comp == null) {
if (intent.getSelector() != null) {
intent = intent.getSelector();
comp = intent.getComponent();
}
}
if (comp != null) {
final List<ResolveInfo> list = new ArrayList<ResolveInfo>(1);
final ActivityInfo ai = getReceiverInfo(comp, flags, userId);
if (ai != null) {
// When specifying an explicit component, we prevent the activity from being
// used when either 1) the calling package is normal and the activity is within
// an instant application or 2) the calling package is ephemeral and the
// activity is not visible to instant applications.
final boolean matchInstantApp =
(flags & PackageManager.MATCH_INSTANT) != 0;
final boolean matchVisibleToInstantAppOnly =
(flags & PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY) != 0;
final boolean matchExplicitlyVisibleOnly =
(flags & PackageManager.MATCH_EXPLICITLY_VISIBLE_ONLY) != 0;
final boolean isCallerInstantApp =
instantAppPkgName != null;
final boolean isTargetSameInstantApp =
comp.getPackageName().equals(instantAppPkgName);
final boolean isTargetInstantApp =
(ai.applicationInfo.privateFlags
& ApplicationInfo.PRIVATE_FLAG_INSTANT) != 0;
final boolean isTargetVisibleToInstantApp =
(ai.flags & ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0;
final boolean isTargetExplicitlyVisibleToInstantApp =
isTargetVisibleToInstantApp
&& (ai.flags & ActivityInfo.FLAG_IMPLICITLY_VISIBLE_TO_INSTANT_APP) == 0;
final boolean isTargetHiddenFromInstantApp =
!isTargetVisibleToInstantApp
|| (matchExplicitlyVisibleOnly && !isTargetExplicitlyVisibleToInstantApp);
final boolean blockResolution =
!isTargetSameInstantApp
&& ((!matchInstantApp && !isCallerInstantApp && isTargetInstantApp)
|| (matchVisibleToInstantAppOnly && isCallerInstantApp
&& isTargetHiddenFromInstantApp));
if (!blockResolution) {
ResolveInfo ri = new ResolveInfo();
ri.activityInfo = ai;
list.add(ri);
}
}
return applyPostResolutionFilter(
list, instantAppPkgName, allowDynamicSplits, callingUid, false, userId,
intent);
}
// reader
synchronized (mPackages) {
String pkgName = intent.getPackage();
if (pkgName == null) {
final List<ResolveInfo> result =
mReceivers.queryIntent(intent, resolvedType, flags, userId);
return applyPostResolutionFilter(
result, instantAppPkgName, allowDynamicSplits, callingUid, false, userId,
intent);
}
final PackageParser.Package pkg = mPackages.get(pkgName);
if (pkg != null) {
final List<ResolveInfo> result = mReceivers.queryIntentForPackage(
intent, resolvedType, flags, pkg.receivers, userId);
return applyPostResolutionFilter(
result, instantAppPkgName, allowDynamicSplits, callingUid, false, userId,
intent);
}
return Collections.emptyList();
}
}
@Override
public ResolveInfo resolveService(Intent intent, String resolvedType, int flags, int userId) {
final int callingUid = Binder.getCallingUid();
return resolveServiceInternal(intent, resolvedType, flags, userId, callingUid);
}
private ResolveInfo resolveServiceInternal(Intent intent, String resolvedType, int flags,
int userId, int callingUid) {
if (!sUserManager.exists(userId)) return null;
flags = updateFlagsForResolve(
flags, userId, intent, callingUid, false /*includeInstantApps*/);
List<ResolveInfo> query = queryIntentServicesInternal(
intent, resolvedType, flags, userId, callingUid, false /*includeInstantApps*/);
if (query != null) {
if (query.size() >= 1) {
// If there is more than one service with the same priority,
// just arbitrarily pick the first one.
return query.get(0);
}
}
return null;
}
@Override
public @NonNull ParceledListSlice<ResolveInfo> queryIntentServices(Intent intent,
String resolvedType, int flags, int userId) {
final int callingUid = Binder.getCallingUid();
return new ParceledListSlice<>(queryIntentServicesInternal(
intent, resolvedType, flags, userId, callingUid, false /*includeInstantApps*/));
}
private @NonNull List<ResolveInfo> queryIntentServicesInternal(Intent intent,
String resolvedType, int flags, int userId, int callingUid,
boolean includeInstantApps) {
if (!sUserManager.exists(userId)) return Collections.emptyList();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, false /*checkShell*/,
"query intent receivers");
final String instantAppPkgName = getInstantAppPackageName(callingUid);
flags = updateFlagsForResolve(flags, userId, intent, callingUid, includeInstantApps);
ComponentName comp = intent.getComponent();
if (comp == null) {
if (intent.getSelector() != null) {
intent = intent.getSelector();
comp = intent.getComponent();
}
}
if (comp != null) {
final List<ResolveInfo> list = new ArrayList<ResolveInfo>(1);
final ServiceInfo si = getServiceInfo(comp, flags, userId);
if (si != null) {
// When specifying an explicit component, we prevent the service from being
// used when either 1) the service is in an instant application and the
// caller is not the same instant application or 2) the calling package is
// ephemeral and the activity is not visible to ephemeral applications.
final boolean matchInstantApp =
(flags & PackageManager.MATCH_INSTANT) != 0;
final boolean matchVisibleToInstantAppOnly =
(flags & PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY) != 0;
final boolean isCallerInstantApp =
instantAppPkgName != null;
final boolean isTargetSameInstantApp =
comp.getPackageName().equals(instantAppPkgName);
final boolean isTargetInstantApp =
(si.applicationInfo.privateFlags
& ApplicationInfo.PRIVATE_FLAG_INSTANT) != 0;
final boolean isTargetHiddenFromInstantApp =
(si.flags & ServiceInfo.FLAG_VISIBLE_TO_INSTANT_APP) == 0;
final boolean blockResolution =
!isTargetSameInstantApp
&& ((!matchInstantApp && !isCallerInstantApp && isTargetInstantApp)
|| (matchVisibleToInstantAppOnly && isCallerInstantApp
&& isTargetHiddenFromInstantApp));
if (!blockResolution) {
final ResolveInfo ri = new ResolveInfo();
ri.serviceInfo = si;
list.add(ri);
}
}
return list;
}
// reader
synchronized (mPackages) {
String pkgName = intent.getPackage();
if (pkgName == null) {
return applyPostServiceResolutionFilter(
mServices.queryIntent(intent, resolvedType, flags, userId),
instantAppPkgName);
}
final PackageParser.Package pkg = mPackages.get(pkgName);
if (pkg != null) {
return applyPostServiceResolutionFilter(
mServices.queryIntentForPackage(intent, resolvedType, flags, pkg.services,
userId),
instantAppPkgName);
}
return Collections.emptyList();
}
}
private List<ResolveInfo> applyPostServiceResolutionFilter(List<ResolveInfo> resolveInfos,
String instantAppPkgName) {
if (instantAppPkgName == null) {
return resolveInfos;
}
for (int i = resolveInfos.size() - 1; i >= 0; i--) {
final ResolveInfo info = resolveInfos.get(i);
final boolean isEphemeralApp = info.serviceInfo.applicationInfo.isInstantApp();
// allow services that are defined in the provided package
if (isEphemeralApp && instantAppPkgName.equals(info.serviceInfo.packageName)) {
if (info.serviceInfo.splitName != null
&& !ArrayUtils.contains(info.serviceInfo.applicationInfo.splitNames,
info.serviceInfo.splitName)) {
// requested service is defined in a split that hasn't been installed yet.
// add the installer to the resolve list
if (DEBUG_INSTANT) {
Slog.v(TAG, "Adding ephemeral installer to the ResolveInfo list");
}
final ResolveInfo installerInfo = new ResolveInfo(
mInstantAppInstallerInfo);
installerInfo.auxiliaryInfo = new AuxiliaryResolveInfo(
null /* installFailureActivity */,
info.serviceInfo.packageName,
info.serviceInfo.applicationInfo.longVersionCode,
info.serviceInfo.splitName);
// add a non-generic filter
installerInfo.filter = new IntentFilter();
// load resources from the correct package
installerInfo.resolvePackageName = info.getComponentInfo().packageName;
resolveInfos.set(i, installerInfo);
}
continue;
}
// allow services that have been explicitly exposed to ephemeral apps
if (!isEphemeralApp
&& ((info.serviceInfo.flags & ServiceInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0)) {
continue;
}
resolveInfos.remove(i);
}
return resolveInfos;
}
@Override
public @NonNull ParceledListSlice<ResolveInfo> queryIntentContentProviders(Intent intent,
String resolvedType, int flags, int userId) {
return new ParceledListSlice<>(
queryIntentContentProvidersInternal(intent, resolvedType, flags, userId));
}
private @NonNull List<ResolveInfo> queryIntentContentProvidersInternal(
Intent intent, String resolvedType, int flags, int userId) {
if (!sUserManager.exists(userId)) return Collections.emptyList();
final int callingUid = Binder.getCallingUid();
final String instantAppPkgName = getInstantAppPackageName(callingUid);
flags = updateFlagsForResolve(flags, userId, intent, callingUid,
false /*includeInstantApps*/);
ComponentName comp = intent.getComponent();
if (comp == null) {
if (intent.getSelector() != null) {
intent = intent.getSelector();
comp = intent.getComponent();
}
}
if (comp != null) {
final List<ResolveInfo> list = new ArrayList<ResolveInfo>(1);
final ProviderInfo pi = getProviderInfo(comp, flags, userId);
if (pi != null) {
// When specifying an explicit component, we prevent the provider from being
// used when either 1) the provider is in an instant application and the
// caller is not the same instant application or 2) the calling package is an
// instant application and the provider is not visible to instant applications.
final boolean matchInstantApp =
(flags & PackageManager.MATCH_INSTANT) != 0;
final boolean matchVisibleToInstantAppOnly =
(flags & PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY) != 0;
final boolean isCallerInstantApp =
instantAppPkgName != null;
final boolean isTargetSameInstantApp =
comp.getPackageName().equals(instantAppPkgName);
final boolean isTargetInstantApp =
(pi.applicationInfo.privateFlags
& ApplicationInfo.PRIVATE_FLAG_INSTANT) != 0;
final boolean isTargetHiddenFromInstantApp =
(pi.flags & ProviderInfo.FLAG_VISIBLE_TO_INSTANT_APP) == 0;
final boolean blockResolution =
!isTargetSameInstantApp
&& ((!matchInstantApp && !isCallerInstantApp && isTargetInstantApp)
|| (matchVisibleToInstantAppOnly && isCallerInstantApp
&& isTargetHiddenFromInstantApp));
if (!blockResolution) {
final ResolveInfo ri = new ResolveInfo();
ri.providerInfo = pi;
list.add(ri);
}
}
return list;
}
// reader
synchronized (mPackages) {
String pkgName = intent.getPackage();
if (pkgName == null) {
return applyPostContentProviderResolutionFilter(
mProviders.queryIntent(intent, resolvedType, flags, userId),
instantAppPkgName);
}
final PackageParser.Package pkg = mPackages.get(pkgName);
if (pkg != null) {
return applyPostContentProviderResolutionFilter(
mProviders.queryIntentForPackage(
intent, resolvedType, flags, pkg.providers, userId),
instantAppPkgName);
}
return Collections.emptyList();
}
}
private List<ResolveInfo> applyPostContentProviderResolutionFilter(
List<ResolveInfo> resolveInfos, String instantAppPkgName) {
if (instantAppPkgName == null) {
return resolveInfos;
}
for (int i = resolveInfos.size() - 1; i >= 0; i--) {
final ResolveInfo info = resolveInfos.get(i);
final boolean isEphemeralApp = info.providerInfo.applicationInfo.isInstantApp();
// allow providers that are defined in the provided package
if (isEphemeralApp && instantAppPkgName.equals(info.providerInfo.packageName)) {
if (info.providerInfo.splitName != null
&& !ArrayUtils.contains(info.providerInfo.applicationInfo.splitNames,
info.providerInfo.splitName)) {
// requested provider is defined in a split that hasn't been installed yet.
// add the installer to the resolve list
if (DEBUG_INSTANT) {
Slog.v(TAG, "Adding ephemeral installer to the ResolveInfo list");
}
final ResolveInfo installerInfo = new ResolveInfo(
mInstantAppInstallerInfo);
installerInfo.auxiliaryInfo = new AuxiliaryResolveInfo(
null /*failureActivity*/,
info.providerInfo.packageName,
info.providerInfo.applicationInfo.longVersionCode,
info.providerInfo.splitName);
// add a non-generic filter
installerInfo.filter = new IntentFilter();
// load resources from the correct package
installerInfo.resolvePackageName = info.getComponentInfo().packageName;
resolveInfos.set(i, installerInfo);
}
continue;
}
// allow providers that have been explicitly exposed to instant applications
if (!isEphemeralApp
&& ((info.providerInfo.flags & ProviderInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0)) {
continue;
}
resolveInfos.remove(i);
}
return resolveInfos;
}
@Override
public ParceledListSlice<PackageInfo> getInstalledPackages(int flags, int userId) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return ParceledListSlice.emptyList();
}
if (!sUserManager.exists(userId)) return ParceledListSlice.emptyList();
flags = updateFlagsForPackage(flags, userId, null);
final boolean listUninstalled = (flags & MATCH_KNOWN_PACKAGES) != 0;
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /* requireFullPermission */, false /* checkShell */,
"get installed packages");
// writer
synchronized (mPackages) {
ArrayList<PackageInfo> list;
if (listUninstalled) {
list = new ArrayList<>(mSettings.mPackages.size());
for (PackageSetting ps : mSettings.mPackages.values()) {
if (filterSharedLibPackageLPr(ps, callingUid, userId, flags)) {
continue;
}
if (filterAppAccessLPr(ps, callingUid, userId)) {
continue;
}
final PackageInfo pi = generatePackageInfo(ps, flags, userId);
if (pi != null) {
list.add(pi);
}
}
} else {
list = new ArrayList<>(mPackages.size());
for (PackageParser.Package p : mPackages.values()) {
final PackageSetting ps = (PackageSetting) p.mExtras;
if (filterSharedLibPackageLPr(ps, callingUid, userId, flags)) {
continue;
}
if (filterAppAccessLPr(ps, callingUid, userId)) {
continue;
}
final PackageInfo pi = generatePackageInfo((PackageSetting)
p.mExtras, flags, userId);
if (pi != null) {
list.add(pi);
}
}
}
return new ParceledListSlice<>(list);
}
}
private void addPackageHoldingPermissions(ArrayList<PackageInfo> list, PackageSetting ps,
String[] permissions, boolean[] tmp, int flags, int userId) {
int numMatch = 0;
final PermissionsState permissionsState = ps.getPermissionsState();
for (int i=0; i<permissions.length; i++) {
final String permission = permissions[i];
if (permissionsState.hasPermission(permission, userId)) {
tmp[i] = true;
numMatch++;
} else {
tmp[i] = false;
}
}
if (numMatch == 0) {
return;
}
final PackageInfo pi = generatePackageInfo(ps, flags, userId);
// The above might return null in cases of uninstalled apps or install-state
// skew across users/profiles.
if (pi != null) {
if ((flags&PackageManager.GET_PERMISSIONS) == 0) {
if (numMatch == permissions.length) {
pi.requestedPermissions = permissions;
} else {
pi.requestedPermissions = new String[numMatch];
numMatch = 0;
for (int i=0; i<permissions.length; i++) {
if (tmp[i]) {
pi.requestedPermissions[numMatch] = permissions[i];
numMatch++;
}
}
}
}
list.add(pi);
}
}
@Override
public ParceledListSlice<PackageInfo> getPackagesHoldingPermissions(
String[] permissions, int flags, int userId) {
if (!sUserManager.exists(userId)) return ParceledListSlice.emptyList();
flags = updateFlagsForPackage(flags, userId, permissions);
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
true /* requireFullPermission */, false /* checkShell */,
"get packages holding permissions");
final boolean listUninstalled = (flags & MATCH_KNOWN_PACKAGES) != 0;
// writer
synchronized (mPackages) {
ArrayList<PackageInfo> list = new ArrayList<PackageInfo>();
boolean[] tmpBools = new boolean[permissions.length];
if (listUninstalled) {
for (PackageSetting ps : mSettings.mPackages.values()) {
addPackageHoldingPermissions(list, ps, permissions, tmpBools, flags,
userId);
}
} else {
for (PackageParser.Package pkg : mPackages.values()) {
PackageSetting ps = (PackageSetting)pkg.mExtras;
if (ps != null) {
addPackageHoldingPermissions(list, ps, permissions, tmpBools, flags,
userId);
}
}
}
return new ParceledListSlice<PackageInfo>(list);
}
}
@Override
public ParceledListSlice<ApplicationInfo> getInstalledApplications(int flags, int userId) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return ParceledListSlice.emptyList();
}
if (!sUserManager.exists(userId)) return ParceledListSlice.emptyList();
flags = updateFlagsForApplication(flags, userId, null);
final boolean listUninstalled = (flags & MATCH_KNOWN_PACKAGES) != 0;
mPermissionManager.enforceCrossUserPermission(
callingUid,
userId,
false /* requireFullPermission */,
false /* checkShell */,
"get installed application info");
// writer
synchronized (mPackages) {
ArrayList<ApplicationInfo> list;
if (listUninstalled) {
list = new ArrayList<>(mSettings.mPackages.size());
for (PackageSetting ps : mSettings.mPackages.values()) {
ApplicationInfo ai;
int effectiveFlags = flags;
if (ps.isSystem()) {
effectiveFlags |= PackageManager.MATCH_ANY_USER;
}
if (ps.pkg != null) {
if (filterSharedLibPackageLPr(ps, callingUid, userId, flags)) {
continue;
}
if (filterAppAccessLPr(ps, callingUid, userId)) {
continue;
}
ai = PackageParser.generateApplicationInfo(ps.pkg, effectiveFlags,
ps.readUserState(userId), userId);
if (ai != null) {
ai.packageName = resolveExternalPackageNameLPr(ps.pkg);
}
} else {
// Shared lib filtering done in generateApplicationInfoFromSettingsLPw
// and already converts to externally visible package name
ai = generateApplicationInfoFromSettingsLPw(ps.name,
callingUid, effectiveFlags, userId);
}
if (ai != null) {
list.add(ai);
}
}
} else {
list = new ArrayList<>(mPackages.size());
for (PackageParser.Package p : mPackages.values()) {
if (p.mExtras != null) {
PackageSetting ps = (PackageSetting) p.mExtras;
if (filterSharedLibPackageLPr(ps, Binder.getCallingUid(), userId, flags)) {
continue;
}
if (filterAppAccessLPr(ps, callingUid, userId)) {
continue;
}
ApplicationInfo ai = PackageParser.generateApplicationInfo(p, flags,
ps.readUserState(userId), userId);
if (ai != null) {
ai.packageName = resolveExternalPackageNameLPr(p);
list.add(ai);
}
}
}
}
return new ParceledListSlice<>(list);
}
}
@Override
public ParceledListSlice<InstantAppInfo> getInstantApps(int userId) {
if (HIDE_EPHEMERAL_APIS) {
return null;
}
if (!canViewInstantApps(Binder.getCallingUid(), userId)) {
mContext.enforceCallingOrSelfPermission(Manifest.permission.ACCESS_INSTANT_APPS,
"getEphemeralApplications");
}
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
true /* requireFullPermission */, false /* checkShell */,
"getEphemeralApplications");
synchronized (mPackages) {
List<InstantAppInfo> instantApps = mInstantAppRegistry
.getInstantAppsLPr(userId);
if (instantApps != null) {
return new ParceledListSlice<>(instantApps);
}
}
return null;
}
@Override
public boolean isInstantApp(String packageName, int userId) {
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
true /* requireFullPermission */, false /* checkShell */,
"isInstantApp");
if (HIDE_EPHEMERAL_APIS) {
return false;
}
synchronized (mPackages) {
int callingUid = Binder.getCallingUid();
if (Process.isIsolated(callingUid)) {
callingUid = mIsolatedOwners.get(callingUid);
}
final PackageSetting ps = mSettings.mPackages.get(packageName);
PackageParser.Package pkg = mPackages.get(packageName);
final boolean returnAllowed =
ps != null
&& (isCallerSameApp(packageName, callingUid)
|| canViewInstantApps(callingUid, userId)
|| mInstantAppRegistry.isInstantAccessGranted(
userId, UserHandle.getAppId(callingUid), ps.appId));
if (returnAllowed) {
return ps.getInstantApp(userId);
}
}
return false;
}
@Override
public byte[] getInstantAppCookie(String packageName, int userId) {
if (HIDE_EPHEMERAL_APIS) {
return null;
}
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
true /* requireFullPermission */, false /* checkShell */,
"getInstantAppCookie");
if (!isCallerSameApp(packageName, Binder.getCallingUid())) {
return null;
}
synchronized (mPackages) {
return mInstantAppRegistry.getInstantAppCookieLPw(
packageName, userId);
}
}
@Override
public boolean setInstantAppCookie(String packageName, byte[] cookie, int userId) {
if (HIDE_EPHEMERAL_APIS) {
return true;
}
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
true /* requireFullPermission */, true /* checkShell */,
"setInstantAppCookie");
if (!isCallerSameApp(packageName, Binder.getCallingUid())) {
return false;
}
synchronized (mPackages) {
return mInstantAppRegistry.setInstantAppCookieLPw(
packageName, cookie, userId);
}
}
@Override
public Bitmap getInstantAppIcon(String packageName, int userId) {
if (HIDE_EPHEMERAL_APIS) {
return null;
}
if (!canViewInstantApps(Binder.getCallingUid(), userId)) {
mContext.enforceCallingOrSelfPermission(Manifest.permission.ACCESS_INSTANT_APPS,
"getInstantAppIcon");
}
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
true /* requireFullPermission */, false /* checkShell */,
"getInstantAppIcon");
synchronized (mPackages) {
return mInstantAppRegistry.getInstantAppIconLPw(
packageName, userId);
}
}
private boolean isCallerSameApp(String packageName, int uid) {
PackageParser.Package pkg = mPackages.get(packageName);
return pkg != null
&& UserHandle.getAppId(uid) == pkg.applicationInfo.uid;
}
@Override
public @NonNull ParceledListSlice<ApplicationInfo> getPersistentApplications(int flags) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return ParceledListSlice.emptyList();
}
return new ParceledListSlice<>(getPersistentApplicationsInternal(flags));
}
private @NonNull List<ApplicationInfo> getPersistentApplicationsInternal(int flags) {
final ArrayList<ApplicationInfo> finalList = new ArrayList<ApplicationInfo>();
// reader
synchronized (mPackages) {
final Iterator<PackageParser.Package> i = mPackages.values().iterator();
final int userId = UserHandle.getCallingUserId();
while (i.hasNext()) {
final PackageParser.Package p = i.next();
if (p.applicationInfo == null) continue;
final boolean matchesUnaware = ((flags & MATCH_DIRECT_BOOT_UNAWARE) != 0)
&& !p.applicationInfo.isDirectBootAware();
final boolean matchesAware = ((flags & MATCH_DIRECT_BOOT_AWARE) != 0)
&& p.applicationInfo.isDirectBootAware();
if ((p.applicationInfo.flags & ApplicationInfo.FLAG_PERSISTENT) != 0
&& (!mSafeMode || isSystemApp(p))
&& (matchesUnaware || matchesAware)) {
PackageSetting ps = mSettings.mPackages.get(p.packageName);
if (ps != null) {
ApplicationInfo ai = PackageParser.generateApplicationInfo(p, flags,
ps.readUserState(userId), userId);
if (ai != null) {
finalList.add(ai);
}
}
}
}
}
return finalList;
}
@Override
public ProviderInfo resolveContentProvider(String name, int flags, int userId) {
return resolveContentProviderInternal(name, flags, userId);
}
private ProviderInfo resolveContentProviderInternal(String name, int flags, int userId) {
if (!sUserManager.exists(userId)) return null;
flags = updateFlagsForComponent(flags, userId, name);
final int callingUid = Binder.getCallingUid();
synchronized (mPackages) {
final PackageParser.Provider provider = mProvidersByAuthority.get(name);
PackageSetting ps = provider != null
? mSettings.mPackages.get(provider.owner.packageName)
: null;
if (ps != null) {
// provider not enabled
if (!mSettings.isEnabledAndMatchLPr(provider.info, flags, userId)) {
return null;
}
final ComponentName component =
new ComponentName(provider.info.packageName, provider.info.name);
if (filterAppAccessLPr(ps, callingUid, component, TYPE_PROVIDER, userId)) {
return null;
}
return PackageParser.generateProviderInfo(
provider, flags, ps.readUserState(userId), userId);
}
return null;
}
}
/**
* @deprecated
*/
@Deprecated
public void querySyncProviders(List<String> outNames, List<ProviderInfo> outInfo) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return;
}
// reader
synchronized (mPackages) {
final Iterator<Map.Entry<String, PackageParser.Provider>> i = mProvidersByAuthority
.entrySet().iterator();
final int userId = UserHandle.getCallingUserId();
while (i.hasNext()) {
Map.Entry<String, PackageParser.Provider> entry = i.next();
PackageParser.Provider p = entry.getValue();
PackageSetting ps = mSettings.mPackages.get(p.owner.packageName);
if (ps != null && p.syncable
&& (!mSafeMode || (p.info.applicationInfo.flags
&ApplicationInfo.FLAG_SYSTEM) != 0)) {
ProviderInfo info = PackageParser.generateProviderInfo(p, 0,
ps.readUserState(userId), userId);
if (info != null) {
outNames.add(entry.getKey());
outInfo.add(info);
}
}
}
}
}
@Override
public @NonNull ParceledListSlice<ProviderInfo> queryContentProviders(String processName,
int uid, int flags, String metaDataKey) {
final int callingUid = Binder.getCallingUid();
final int userId = processName != null ? UserHandle.getUserId(uid)
: UserHandle.getCallingUserId();
if (!sUserManager.exists(userId)) return ParceledListSlice.emptyList();
flags = updateFlagsForComponent(flags, userId, processName);
ArrayList<ProviderInfo> finalList = null;
// reader
synchronized (mPackages) {
final Iterator<PackageParser.Provider> i = mProviders.mProviders.values().iterator();
while (i.hasNext()) {
final PackageParser.Provider p = i.next();
PackageSetting ps = mSettings.mPackages.get(p.owner.packageName);
if (ps != null && p.info.authority != null
&& (processName == null
|| (p.info.processName.equals(processName)
&& UserHandle.isSameApp(p.info.applicationInfo.uid, uid)))
&& mSettings.isEnabledAndMatchLPr(p.info, flags, userId)) {
// See PM.queryContentProviders()'s javadoc for why we have the metaData
// parameter.
if (metaDataKey != null
&& (p.metaData == null || !p.metaData.containsKey(metaDataKey))) {
continue;
}
final ComponentName component =
new ComponentName(p.info.packageName, p.info.name);
if (filterAppAccessLPr(ps, callingUid, component, TYPE_PROVIDER, userId)) {
continue;
}
if (finalList == null) {
finalList = new ArrayList<ProviderInfo>(3);
}
ProviderInfo info = PackageParser.generateProviderInfo(p, flags,
ps.readUserState(userId), userId);
if (info != null) {
finalList.add(info);
}
}
}
}
if (finalList != null) {
Collections.sort(finalList, mProviderInitOrderSorter);
return new ParceledListSlice<ProviderInfo>(finalList);
}
return ParceledListSlice.emptyList();
}
@Override
public InstrumentationInfo getInstrumentationInfo(ComponentName component, int flags) {
// reader
synchronized (mPackages) {
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
final PackageSetting ps = mSettings.mPackages.get(component.getPackageName());
if (ps == null) return null;
if (filterAppAccessLPr(ps, callingUid, component, TYPE_UNKNOWN, callingUserId)) {
return null;
}
final PackageParser.Instrumentation i = mInstrumentation.get(component);
return PackageParser.generateInstrumentationInfo(i, flags);
}
}
@Override
public @NonNull ParceledListSlice<InstrumentationInfo> queryInstrumentation(
String targetPackage, int flags) {
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
final PackageSetting ps = mSettings.mPackages.get(targetPackage);
if (filterAppAccessLPr(ps, callingUid, callingUserId)) {
return ParceledListSlice.emptyList();
}
return new ParceledListSlice<>(queryInstrumentationInternal(targetPackage, flags));
}
private @NonNull List<InstrumentationInfo> queryInstrumentationInternal(String targetPackage,
int flags) {
ArrayList<InstrumentationInfo> finalList = new ArrayList<InstrumentationInfo>();
// reader
synchronized (mPackages) {
final Iterator<PackageParser.Instrumentation> i = mInstrumentation.values().iterator();
while (i.hasNext()) {
final PackageParser.Instrumentation p = i.next();
if (targetPackage == null
|| targetPackage.equals(p.info.targetPackage)) {
InstrumentationInfo ii = PackageParser.generateInstrumentationInfo(p,
flags);
if (ii != null) {
finalList.add(ii);
}
}
}
}
return finalList;
}
private void scanDirTracedLI(File scanDir, final int parseFlags, int scanFlags, long currentTime) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "scanDir [" + scanDir.getAbsolutePath() + "]");
try {
scanDirLI(scanDir, parseFlags, scanFlags, currentTime);
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
private void scanDirLI(File scanDir, int parseFlags, int scanFlags, long currentTime) {
final File[] files = scanDir.listFiles();
if (ArrayUtils.isEmpty(files)) {
Log.d(TAG, "No files in app dir " + scanDir);
return;
}
if (DEBUG_PACKAGE_SCANNING) {
Log.d(TAG, "Scanning app dir " + scanDir + " scanFlags=" + scanFlags
+ " flags=0x" + Integer.toHexString(parseFlags));
}
try (ParallelPackageParser parallelPackageParser = new ParallelPackageParser(
mSeparateProcesses, mOnlyCore, mMetrics, mCacheDir,
mParallelPackageParserCallback)) {
// Submit files for parsing in parallel
int fileCount = 0;
for (File file : files) {
final boolean isPackage = (isApkFile(file) || file.isDirectory())
&& !PackageInstallerService.isStageName(file.getName());
if (!isPackage) {
// Ignore entries which are not packages
continue;
}
parallelPackageParser.submit(file, parseFlags);
fileCount++;
}
// Process results one by one
for (; fileCount > 0; fileCount--) {
ParallelPackageParser.ParseResult parseResult = parallelPackageParser.take();
Throwable throwable = parseResult.throwable;
int errorCode = PackageManager.INSTALL_SUCCEEDED;
if (throwable == null) {
// TODO(toddke): move lower in the scan chain
// Static shared libraries have synthetic package names
if (parseResult.pkg.applicationInfo.isStaticSharedLibrary()) {
renameStaticSharedLibraryPackage(parseResult.pkg);
}
try {
if (errorCode == PackageManager.INSTALL_SUCCEEDED) {
scanPackageChildLI(parseResult.pkg, parseFlags, scanFlags,
currentTime, null);
}
} catch (PackageManagerException e) {
errorCode = e.error;
Slog.w(TAG, "Failed to scan " + parseResult.scanFile + ": " + e.getMessage());
}
} else if (throwable instanceof PackageParser.PackageParserException) {
PackageParser.PackageParserException e = (PackageParser.PackageParserException)
throwable;
errorCode = e.error;
Slog.w(TAG, "Failed to parse " + parseResult.scanFile + ": " + e.getMessage());
} else {
throw new IllegalStateException("Unexpected exception occurred while parsing "
+ parseResult.scanFile, throwable);
}
// Delete invalid userdata apps
if ((scanFlags & SCAN_AS_SYSTEM) == 0 &&
errorCode != PackageManager.INSTALL_SUCCEEDED) {
logCriticalInfo(Log.WARN,
"Deleting invalid package at " + parseResult.scanFile);
removeCodePathLI(parseResult.scanFile);
}
}
}
}
public static void reportSettingsProblem(int priority, String msg) {
logCriticalInfo(priority, msg);
}
private void collectCertificatesLI(PackageSetting ps, PackageParser.Package pkg,
boolean forceCollect, boolean skipVerify) throws PackageManagerException {
// When upgrading from pre-N MR1, verify the package time stamp using the package
// directory and not the APK file.
final long lastModifiedTime = mIsPreNMR1Upgrade
? new File(pkg.codePath).lastModified() : getLastModifiedTime(pkg);
if (ps != null && !forceCollect
&& ps.codePathString.equals(pkg.codePath)
&& ps.timeStamp == lastModifiedTime
&& !isCompatSignatureUpdateNeeded(pkg)
&& !isRecoverSignatureUpdateNeeded(pkg)) {
if (ps.signatures.mSigningDetails.signatures != null
&& ps.signatures.mSigningDetails.signatures.length != 0
&& ps.signatures.mSigningDetails.signatureSchemeVersion
!= SignatureSchemeVersion.UNKNOWN) {
// Optimization: reuse the existing cached signing data
// if the package appears to be unchanged.
pkg.mSigningDetails =
new PackageParser.SigningDetails(ps.signatures.mSigningDetails);
return;
}
Slog.w(TAG, "PackageSetting for " + ps.name
+ " is missing signatures. Collecting certs again to recover them.");
} else {
Slog.i(TAG, pkg.codePath + " changed; collecting certs" +
(forceCollect ? " (forced)" : ""));
}
try {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "collectCertificates");
PackageParser.collectCertificates(pkg, skipVerify);
} catch (PackageParserException e) {
throw PackageManagerException.from(e);
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
/**
* Clear the package profile if this was an upgrade and the package
* version was updated.
*/
private void maybeClearProfilesForUpgradesLI(
@Nullable PackageSetting originalPkgSetting,
@NonNull PackageParser.Package currentPkg) {
if (originalPkgSetting == null || !isUpgrade()) {
return;
}
if (originalPkgSetting.versionCode == currentPkg.mVersionCode) {
return;
}
clearAppProfilesLIF(currentPkg, UserHandle.USER_ALL);
if (DEBUG_INSTALL) {
Slog.d(TAG, originalPkgSetting.name
+ " clear profile due to version change "
+ originalPkgSetting.versionCode + " != "
+ currentPkg.mVersionCode);
}
}
/**
* Traces a package scan.
* @see #scanPackageLI(File, int, int, long, UserHandle)
*/
private PackageParser.Package scanPackageTracedLI(File scanFile, final int parseFlags,
int scanFlags, long currentTime, UserHandle user) throws PackageManagerException {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "scanPackage [" + scanFile.toString() + "]");
try {
return scanPackageLI(scanFile, parseFlags, scanFlags, currentTime, user);
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
/**
* Scans a package and returns the newly parsed package.
* Returns {@code null} in case of errors and the error code is stored in mLastScanError
*/
private PackageParser.Package scanPackageLI(File scanFile, int parseFlags, int scanFlags,
long currentTime, UserHandle user) throws PackageManagerException {
if (DEBUG_INSTALL) Slog.d(TAG, "Parsing: " + scanFile);
PackageParser pp = new PackageParser();
pp.setSeparateProcesses(mSeparateProcesses);
pp.setOnlyCoreApps(mOnlyCore);
pp.setDisplayMetrics(mMetrics);
pp.setCallback(mPackageParserCallback);
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "parsePackage");
final PackageParser.Package pkg;
try {
pkg = pp.parsePackage(scanFile, parseFlags);
} catch (PackageParserException e) {
throw PackageManagerException.from(e);
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
// Static shared libraries have synthetic package names
if (pkg.applicationInfo.isStaticSharedLibrary()) {
renameStaticSharedLibraryPackage(pkg);
}
return scanPackageChildLI(pkg, parseFlags, scanFlags, currentTime, user);
}
/**
* Scans a package and returns the newly parsed package.
* @throws PackageManagerException on a parse error.
*/
private PackageParser.Package scanPackageChildLI(PackageParser.Package pkg,
final @ParseFlags int parseFlags, @ScanFlags int scanFlags, long currentTime,
@Nullable UserHandle user)
throws PackageManagerException {
// If the package has children and this is the first dive in the function
// we scan the package with the SCAN_CHECK_ONLY flag set to see whether all
// packages (parent and children) would be successfully scanned before the
// actual scan since scanning mutates internal state and we want to atomically
// install the package and its children.
if ((scanFlags & SCAN_CHECK_ONLY) == 0) {
if (pkg.childPackages != null && pkg.childPackages.size() > 0) {
scanFlags |= SCAN_CHECK_ONLY;
}
} else {
scanFlags &= ~SCAN_CHECK_ONLY;
}
// Scan the parent
PackageParser.Package scannedPkg = addForInitLI(pkg, parseFlags,
scanFlags, currentTime, user);
// Scan the children
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPackage = pkg.childPackages.get(i);
addForInitLI(childPackage, parseFlags, scanFlags,
currentTime, user);
}
if ((scanFlags & SCAN_CHECK_ONLY) != 0) {
return scanPackageChildLI(pkg, parseFlags, scanFlags, currentTime, user);
}
return scannedPkg;
}
/**
* Returns if full apk verification can be skipped for the whole package, including the splits.
*/
private boolean canSkipFullPackageVerification(PackageParser.Package pkg) {
if (!canSkipFullApkVerification(pkg.baseCodePath)) {
return false;
}
// TODO: Allow base and splits to be verified individually.
if (!ArrayUtils.isEmpty(pkg.splitCodePaths)) {
for (int i = 0; i < pkg.splitCodePaths.length; i++) {
if (!canSkipFullApkVerification(pkg.splitCodePaths[i])) {
return false;
}
}
}
return true;
}
/**
* Returns if full apk verification can be skipped, depending on current FSVerity setup and
* whether the apk contains signed root hash. Note that the signer's certificate still needs to
* match one in a trusted source, and should be done separately.
*/
private boolean canSkipFullApkVerification(String apkPath) {
byte[] rootHashObserved = null;
try {
rootHashObserved = VerityUtils.generateFsverityRootHash(apkPath);
if (rootHashObserved == null) {
return false; // APK does not contain Merkle tree root hash.
}
synchronized (mInstallLock) {
// Returns whether the observed root hash matches what kernel has.
mInstaller.assertFsverityRootHashMatches(apkPath, rootHashObserved);
return true;
}
} catch (InstallerException | IOException | DigestException |
NoSuchAlgorithmException e) {
Slog.w(TAG, "Error in fsverity check. Fallback to full apk verification.", e);
}
return false;
}
/**
* Adds a new package to the internal data structures during platform initialization.
* <p>After adding, the package is known to the system and available for querying.
* <p>For packages located on the device ROM [eg. packages located in /system, /vendor,
* etc...], additional checks are performed. Basic verification [such as ensuring
* matching signatures, checking version codes, etc...] occurs if the package is
* identical to a previously known package. If the package fails a signature check,
* the version installed on /data will be removed. If the version of the new package
* is less than or equal than the version on /data, it will be ignored.
* <p>Regardless of the package location, the results are applied to the internal
* structures and the package is made available to the rest of the system.
* <p>NOTE: The return value should be removed. It's the passed in package object.
*/
private PackageParser.Package addForInitLI(PackageParser.Package pkg,
@ParseFlags int parseFlags, @ScanFlags int scanFlags, long currentTime,
@Nullable UserHandle user)
throws PackageManagerException {
final boolean scanSystemPartition = (parseFlags & PackageParser.PARSE_IS_SYSTEM_DIR) != 0;
final String renamedPkgName;
final PackageSetting disabledPkgSetting;
final boolean isSystemPkgUpdated;
final boolean pkgAlreadyExists;
PackageSetting pkgSetting;
// NOTE: installPackageLI() has the same code to setup the package's
// application info. This probably should be done lower in the call
// stack [such as scanPackageOnly()]. However, we verify the application
// info prior to that [in scanPackageNew()] and thus have to setup
// the application info early.
pkg.setApplicationVolumeUuid(pkg.volumeUuid);
pkg.setApplicationInfoCodePath(pkg.codePath);
pkg.setApplicationInfoBaseCodePath(pkg.baseCodePath);
pkg.setApplicationInfoSplitCodePaths(pkg.splitCodePaths);
pkg.setApplicationInfoResourcePath(pkg.codePath);
pkg.setApplicationInfoBaseResourcePath(pkg.baseCodePath);
pkg.setApplicationInfoSplitResourcePaths(pkg.splitCodePaths);
synchronized (mPackages) {
renamedPkgName = mSettings.getRenamedPackageLPr(pkg.mRealPackage);
final String realPkgName = getRealPackageName(pkg, renamedPkgName);
if (realPkgName != null) {
ensurePackageRenamed(pkg, renamedPkgName);
}
final PackageSetting originalPkgSetting = getOriginalPackageLocked(pkg, renamedPkgName);
final PackageSetting installedPkgSetting = mSettings.getPackageLPr(pkg.packageName);
pkgSetting = originalPkgSetting == null ? installedPkgSetting : originalPkgSetting;
pkgAlreadyExists = pkgSetting != null;
final String disabledPkgName = pkgAlreadyExists ? pkgSetting.name : pkg.packageName;
disabledPkgSetting = mSettings.getDisabledSystemPkgLPr(disabledPkgName);
isSystemPkgUpdated = disabledPkgSetting != null;
if (DEBUG_INSTALL && isSystemPkgUpdated) {
Slog.d(TAG, "updatedPkg = " + disabledPkgSetting);
}
final SharedUserSetting sharedUserSetting = (pkg.mSharedUserId != null)
? mSettings.getSharedUserLPw(pkg.mSharedUserId,
0 /*pkgFlags*/, 0 /*pkgPrivateFlags*/, true)
: null;
if (DEBUG_PACKAGE_SCANNING
&& (parseFlags & PackageParser.PARSE_CHATTY) != 0
&& sharedUserSetting != null) {
Log.d(TAG, "Shared UserID " + pkg.mSharedUserId
+ " (uid=" + sharedUserSetting.userId + "):"
+ " packages=" + sharedUserSetting.packages);
}
if (scanSystemPartition) {
// Potentially prune child packages. If the application on the /system
// partition has been updated via OTA, but, is still disabled by a
// version on /data, cycle through all of its children packages and
// remove children that are no longer defined.
if (isSystemPkgUpdated) {
final int scannedChildCount = (pkg.childPackages != null)
? pkg.childPackages.size() : 0;
final int disabledChildCount = disabledPkgSetting.childPackageNames != null
? disabledPkgSetting.childPackageNames.size() : 0;
for (int i = 0; i < disabledChildCount; i++) {
String disabledChildPackageName =
disabledPkgSetting.childPackageNames.get(i);
boolean disabledPackageAvailable = false;
for (int j = 0; j < scannedChildCount; j++) {
PackageParser.Package childPkg = pkg.childPackages.get(j);
if (childPkg.packageName.equals(disabledChildPackageName)) {
disabledPackageAvailable = true;
break;
}
}
if (!disabledPackageAvailable) {
mSettings.removeDisabledSystemPackageLPw(disabledChildPackageName);
}
}
// we're updating the disabled package, so, scan it as the package setting
final ScanRequest request = new ScanRequest(pkg, sharedUserSetting, null,
disabledPkgSetting /* pkgSetting */, null /* disabledPkgSetting */,
null /* originalPkgSetting */, null, parseFlags, scanFlags,
(pkg == mPlatformPackage), user);
applyPolicy(pkg, parseFlags, scanFlags, mPlatformPackage);
scanPackageOnlyLI(request, mFactoryTest, -1L);
}
}
}
final boolean newPkgChangedPaths =
pkgAlreadyExists && !pkgSetting.codePathString.equals(pkg.codePath);
final boolean newPkgVersionGreater =
pkgAlreadyExists && pkg.getLongVersionCode() > pkgSetting.versionCode;
final boolean isSystemPkgBetter = scanSystemPartition && isSystemPkgUpdated
&& newPkgChangedPaths && newPkgVersionGreater;
if (isSystemPkgBetter) {
// The version of the application on /system is greater than the version on
// /data. Switch back to the application on /system.
// It's safe to assume the application on /system will correctly scan. If not,
// there won't be a working copy of the application.
synchronized (mPackages) {
// just remove the loaded entries from package lists
mPackages.remove(pkgSetting.name);
}
logCriticalInfo(Log.WARN,
"System package updated;"
+ " name: " + pkgSetting.name
+ "; " + pkgSetting.versionCode + " --> " + pkg.getLongVersionCode()
+ "; " + pkgSetting.codePathString + " --> " + pkg.codePath);
final InstallArgs args = createInstallArgsForExisting(
packageFlagsToInstallFlags(pkgSetting), pkgSetting.codePathString,
pkgSetting.resourcePathString, getAppDexInstructionSets(pkgSetting));
args.cleanUpResourcesLI();
synchronized (mPackages) {
mSettings.enableSystemPackageLPw(pkgSetting.name);
}
}
if (scanSystemPartition && isSystemPkgUpdated && !isSystemPkgBetter) {
// The version of the application on the /system partition is less than or
// equal to the version on the /data partition. Even though the disabled system package
// is likely to be replaced by a version on the /data partition, we make assumptions
// that it's part of the mPackages collection during package manager initialization. So,
// add it to mPackages if there isn't already a package in the collection and then throw
// an exception to use the application already installed on the /data partition.
synchronized (mPackages) {
if (!mPackages.containsKey(pkg.packageName)) {
mPackages.put(pkg.packageName, pkg);
}
}
throw new PackageManagerException(Log.WARN, "Package " + pkg.packageName + " at "
+ pkg.codePath + " ignored: updated version " + pkgSetting.versionCode
+ " better than this " + pkg.getLongVersionCode());
}
// Verify certificates against what was last scanned. If it is an updated priv app, we will
// force re-collecting certificate.
final boolean forceCollect = PackageManagerServiceUtils.isApkVerificationForced(
disabledPkgSetting);
// Full APK verification can be skipped during certificate collection, only if the file is
// in verified partition, or can be verified on access (when apk verity is enabled). In both
// cases, only data in Signing Block is verified instead of the whole file.
final boolean skipVerify = ((parseFlags & PackageParser.PARSE_IS_SYSTEM_DIR) != 0) ||
(forceCollect && canSkipFullPackageVerification(pkg));
collectCertificatesLI(pkgSetting, pkg, forceCollect, skipVerify);
// Reset profile if the application version is changed
maybeClearProfilesForUpgradesLI(pkgSetting, pkg);
/*
* A new system app appeared, but we already had a non-system one of the
* same name installed earlier.
*/
boolean shouldHideSystemApp = false;
// A new application appeared on /system, but, we already have a copy of
// the application installed on /data.
if (scanSystemPartition && !isSystemPkgUpdated && pkgAlreadyExists
&& !pkgSetting.isSystem()) {
if (!pkg.mSigningDetails.checkCapability(pkgSetting.signatures.mSigningDetails,
PackageParser.SigningDetails.CertCapabilities.INSTALLED_DATA)
&& !pkgSetting.signatures.mSigningDetails.checkCapability(
pkg.mSigningDetails,
PackageParser.SigningDetails.CertCapabilities.ROLLBACK)) {
logCriticalInfo(Log.WARN,
"System package signature mismatch;"
+ " name: " + pkgSetting.name);
try (PackageFreezer freezer = freezePackage(pkg.packageName,
"scanPackageInternalLI")) {
deletePackageLIF(pkg.packageName, null, true, null, 0, null, false, null);
}
pkgSetting = null;
} else if (newPkgVersionGreater) {
// The application on /system is newer than the application on /data.
// Simply remove the application on /data [keeping application data]
// and replace it with the version on /system.
logCriticalInfo(Log.WARN,
"System package enabled;"
+ " name: " + pkgSetting.name
+ "; " + pkgSetting.versionCode + " --> " + pkg.getLongVersionCode()
+ "; " + pkgSetting.codePathString + " --> " + pkg.codePath);
InstallArgs args = createInstallArgsForExisting(
packageFlagsToInstallFlags(pkgSetting), pkgSetting.codePathString,
pkgSetting.resourcePathString, getAppDexInstructionSets(pkgSetting));
synchronized (mInstallLock) {
args.cleanUpResourcesLI();
}
} else {
// The application on /system is older than the application on /data. Hide
// the application on /system and the version on /data will be scanned later
// and re-added like an update.
shouldHideSystemApp = true;
logCriticalInfo(Log.INFO,
"System package disabled;"
+ " name: " + pkgSetting.name
+ "; old: " + pkgSetting.codePathString + " @ " + pkgSetting.versionCode
+ "; new: " + pkg.codePath + " @ " + pkg.codePath);
}
}
final PackageParser.Package scannedPkg = scanPackageNewLI(pkg, parseFlags, scanFlags
| SCAN_UPDATE_SIGNATURE, currentTime, user);
if (shouldHideSystemApp) {
synchronized (mPackages) {
mSettings.disableSystemPackageLPw(pkg.packageName, true);
}
}
return scannedPkg;
}
private static void renameStaticSharedLibraryPackage(PackageParser.Package pkg) {
// Derive the new package synthetic package name
pkg.setPackageName(pkg.packageName + STATIC_SHARED_LIB_DELIMITER
+ pkg.staticSharedLibVersion);
}
private static String fixProcessName(String defProcessName,
String processName) {
if (processName == null) {
return defProcessName;
}
return processName;
}
/**
* Enforces that only the system UID or root's UID can call a method exposed
* via Binder.
*
* @param message used as message if SecurityException is thrown
* @throws SecurityException if the caller is not system or root
*/
private static final void enforceSystemOrRoot(String message) {
final int uid = Binder.getCallingUid();
if (uid != Process.SYSTEM_UID && uid != Process.ROOT_UID) {
throw new SecurityException(message);
}
}
@Override
public void performFstrimIfNeeded() {
enforceSystemOrRoot("Only the system can request fstrim");
// Before everything else, see whether we need to fstrim.
try {
IStorageManager sm = PackageHelper.getStorageManager();
if (sm != null) {
boolean doTrim = false;
final long interval = android.provider.Settings.Global.getLong(
mContext.getContentResolver(),
android.provider.Settings.Global.FSTRIM_MANDATORY_INTERVAL,
DEFAULT_MANDATORY_FSTRIM_INTERVAL);
if (interval > 0) {
final long timeSinceLast = System.currentTimeMillis() - sm.lastMaintenance();
if (timeSinceLast > interval) {
doTrim = true;
Slog.w(TAG, "No disk maintenance in " + timeSinceLast
+ "; running immediately");
}
}
if (doTrim) {
final boolean dexOptDialogShown;
synchronized (mPackages) {
dexOptDialogShown = mDexOptDialogShown;
}
if (!isFirstBoot() && dexOptDialogShown) {
try {
ActivityManager.getService().showBootMessage(
mContext.getResources().getString(
R.string.android_upgrading_fstrim), true);
} catch (RemoteException e) {
}
}
sm.runMaintenance();
}
} else {
Slog.e(TAG, "storageManager service unavailable!");
}
} catch (RemoteException e) {
// Can't happen; StorageManagerService is local
}
}
@Override
public void updatePackagesIfNeeded() {
enforceSystemOrRoot("Only the system can request package update");
// We need to re-extract after an OTA.
boolean causeUpgrade = isUpgrade();
// First boot or factory reset.
// Note: we also handle devices that are upgrading to N right now as if it is their
// first boot, as they do not have profile data.
boolean causeFirstBoot = isFirstBoot() || mIsPreNUpgrade;
// We need to re-extract after a pruned cache, as AoT-ed files will be out of date.
boolean causePrunedCache = VMRuntime.didPruneDalvikCache();
if (!causeUpgrade && !causeFirstBoot && !causePrunedCache) {
return;
}
List<PackageParser.Package> pkgs;
synchronized (mPackages) {
pkgs = PackageManagerServiceUtils.getPackagesForDexopt(mPackages.values(), this);
}
final long startTime = System.nanoTime();
final int[] stats = performDexOptUpgrade(pkgs, mIsPreNUpgrade /* showDialog */,
causeFirstBoot ? REASON_FIRST_BOOT : REASON_BOOT,
false /* bootComplete */);
final int elapsedTimeSeconds =
(int) TimeUnit.NANOSECONDS.toSeconds(System.nanoTime() - startTime);
MetricsLogger.histogram(mContext, "opt_dialog_num_dexopted", stats[0]);
MetricsLogger.histogram(mContext, "opt_dialog_num_skipped", stats[1]);
MetricsLogger.histogram(mContext, "opt_dialog_num_failed", stats[2]);
MetricsLogger.histogram(mContext, "opt_dialog_num_total", getOptimizablePackages().size());
MetricsLogger.histogram(mContext, "opt_dialog_time_s", elapsedTimeSeconds);
}
/*
* Return the prebuilt profile path given a package base code path.
*/
private static String getPrebuildProfilePath(PackageParser.Package pkg) {
return pkg.baseCodePath + ".prof";
}
/**
* Performs dexopt on the set of packages in {@code packages} and returns an int array
* containing statistics about the invocation. The array consists of three elements,
* which are (in order) {@code numberOfPackagesOptimized}, {@code numberOfPackagesSkipped}
* and {@code numberOfPackagesFailed}.
*/
private int[] performDexOptUpgrade(List<PackageParser.Package> pkgs, boolean showDialog,
final int compilationReason, boolean bootComplete) {
int numberOfPackagesVisited = 0;
int numberOfPackagesOptimized = 0;
int numberOfPackagesSkipped = 0;
int numberOfPackagesFailed = 0;
final int numberOfPackagesToDexopt = pkgs.size();
for (PackageParser.Package pkg : pkgs) {
numberOfPackagesVisited++;
boolean useProfileForDexopt = false;
if ((isFirstBoot() || isUpgrade()) && isSystemApp(pkg)) {
// Copy over initial preopt profiles since we won't get any JIT samples for methods
// that are already compiled.
File profileFile = new File(getPrebuildProfilePath(pkg));
// Copy profile if it exists.
if (profileFile.exists()) {
try {
// We could also do this lazily before calling dexopt in
// PackageDexOptimizer to prevent this happening on first boot. The issue
// is that we don't have a good way to say "do this only once".
if (!mInstaller.copySystemProfile(profileFile.getAbsolutePath(),
pkg.applicationInfo.uid, pkg.packageName,
ArtManager.getProfileName(null))) {
Log.e(TAG, "Installer failed to copy system profile!");
} else {
// Disabled as this causes speed-profile compilation during first boot
// even if things are already compiled.
// useProfileForDexopt = true;
}
} catch (Exception e) {
Log.e(TAG, "Failed to copy profile " + profileFile.getAbsolutePath() + " ",
e);
}
} else {
PackageSetting disabledPs = mSettings.getDisabledSystemPkgLPr(pkg.packageName);
// Handle compressed APKs in this path. Only do this for stubs with profiles to
// minimize the number off apps being speed-profile compiled during first boot.
// The other paths will not change the filter.
if (disabledPs != null && disabledPs.pkg.isStub) {
// The package is the stub one, remove the stub suffix to get the normal
// package and APK names.
String systemProfilePath =
getPrebuildProfilePath(disabledPs.pkg).replace(STUB_SUFFIX, "");
profileFile = new File(systemProfilePath);
// If we have a profile for a compressed APK, copy it to the reference
// location.
// Note that copying the profile here will cause it to override the
// reference profile every OTA even though the existing reference profile
// may have more data. We can't copy during decompression since the
// directories are not set up at that point.
if (profileFile.exists()) {
try {
// We could also do this lazily before calling dexopt in
// PackageDexOptimizer to prevent this happening on first boot. The
// issue is that we don't have a good way to say "do this only
// once".
if (!mInstaller.copySystemProfile(profileFile.getAbsolutePath(),
pkg.applicationInfo.uid, pkg.packageName,
ArtManager.getProfileName(null))) {
Log.e(TAG, "Failed to copy system profile for stub package!");
} else {
useProfileForDexopt = true;
}
} catch (Exception e) {
Log.e(TAG, "Failed to copy profile " +
profileFile.getAbsolutePath() + " ", e);
}
}
}
}
}
if (!PackageDexOptimizer.canOptimizePackage(pkg)) {
if (DEBUG_DEXOPT) {
Log.i(TAG, "Skipping update of of non-optimizable app " + pkg.packageName);
}
numberOfPackagesSkipped++;
continue;
}
if (DEBUG_DEXOPT) {
Log.i(TAG, "Updating app " + numberOfPackagesVisited + " of " +
numberOfPackagesToDexopt + ": " + pkg.packageName);
}
if (showDialog) {
try {
ActivityManager.getService().showBootMessage(
mContext.getResources().getString(R.string.android_upgrading_apk,
numberOfPackagesVisited, numberOfPackagesToDexopt), true);
} catch (RemoteException e) {
}
synchronized (mPackages) {
mDexOptDialogShown = true;
}
}
int pkgCompilationReason = compilationReason;
if (useProfileForDexopt) {
// Use background dexopt mode to try and use the profile. Note that this does not
// guarantee usage of the profile.
pkgCompilationReason = PackageManagerService.REASON_BACKGROUND_DEXOPT;
}
// checkProfiles is false to avoid merging profiles during boot which
// might interfere with background compilation (b/28612421).
// Unfortunately this will also means that "pm.dexopt.boot=speed-profile" will
// behave differently than "pm.dexopt.bg-dexopt=speed-profile" but that's a
// trade-off worth doing to save boot time work.
int dexoptFlags = bootComplete ? DexoptOptions.DEXOPT_BOOT_COMPLETE : 0;
if (compilationReason == REASON_FIRST_BOOT) {
// TODO: This doesn't cover the upgrade case, we should check for this too.
dexoptFlags |= DexoptOptions.DEXOPT_INSTALL_WITH_DEX_METADATA_FILE;
}
int primaryDexOptStaus = performDexOptTraced(new DexoptOptions(
pkg.packageName,
pkgCompilationReason,
dexoptFlags));
switch (primaryDexOptStaus) {
case PackageDexOptimizer.DEX_OPT_PERFORMED:
numberOfPackagesOptimized++;
break;
case PackageDexOptimizer.DEX_OPT_SKIPPED:
numberOfPackagesSkipped++;
break;
case PackageDexOptimizer.DEX_OPT_FAILED:
numberOfPackagesFailed++;
break;
default:
Log.e(TAG, "Unexpected dexopt return code " + primaryDexOptStaus);
break;
}
}
return new int[] { numberOfPackagesOptimized, numberOfPackagesSkipped,
numberOfPackagesFailed };
}
@Override
public void notifyPackageUse(String packageName, int reason) {
synchronized (mPackages) {
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
if (getInstantAppPackageName(callingUid) != null) {
if (!isCallerSameApp(packageName, callingUid)) {
return;
}
} else {
if (isInstantApp(packageName, callingUserId)) {
return;
}
}
notifyPackageUseLocked(packageName, reason);
}
}
@GuardedBy("mPackages")
private void notifyPackageUseLocked(String packageName, int reason) {
final PackageParser.Package p = mPackages.get(packageName);
if (p == null) {
return;
}
p.mLastPackageUsageTimeInMills[reason] = System.currentTimeMillis();
}
@Override
public void notifyDexLoad(String loadingPackageName, List<String> classLoaderNames,
List<String> classPaths, String loaderIsa) {
int userId = UserHandle.getCallingUserId();
ApplicationInfo ai = getApplicationInfo(loadingPackageName, /*flags*/ 0, userId);
if (ai == null) {
Slog.w(TAG, "Loading a package that does not exist for the calling user. package="
+ loadingPackageName + ", user=" + userId);
return;
}
mDexManager.notifyDexLoad(ai, classLoaderNames, classPaths, loaderIsa, userId);
}
@Override
public void registerDexModule(String packageName, String dexModulePath, boolean isSharedModule,
IDexModuleRegisterCallback callback) {
int userId = UserHandle.getCallingUserId();
ApplicationInfo ai = getApplicationInfo(packageName, /*flags*/ 0, userId);
DexManager.RegisterDexModuleResult result;
if (ai == null) {
Slog.w(TAG, "Registering a dex module for a package that does not exist for the" +
" calling user. package=" + packageName + ", user=" + userId);
result = new DexManager.RegisterDexModuleResult(false, "Package not installed");
} else {
result = mDexManager.registerDexModule(ai, dexModulePath, isSharedModule, userId);
}
if (callback != null) {
mHandler.post(() -> {
try {
callback.onDexModuleRegistered(dexModulePath, result.success, result.message);
} catch (RemoteException e) {
Slog.w(TAG, "Failed to callback after module registration " + dexModulePath, e);
}
});
}
}
/**
* Ask the package manager to perform a dex-opt with the given compiler filter.
*
* Note: exposed only for the shell command to allow moving packages explicitly to a
* definite state.
*/
@Override
public boolean performDexOptMode(String packageName,
boolean checkProfiles, String targetCompilerFilter, boolean force,
boolean bootComplete, String splitName) {
int flags = (checkProfiles ? DexoptOptions.DEXOPT_CHECK_FOR_PROFILES_UPDATES : 0) |
(force ? DexoptOptions.DEXOPT_FORCE : 0) |
(bootComplete ? DexoptOptions.DEXOPT_BOOT_COMPLETE : 0);
return performDexOpt(new DexoptOptions(packageName, REASON_UNKNOWN,
targetCompilerFilter, splitName, flags));
}
/**
* Ask the package manager to perform a dex-opt with the given compiler filter on the
* secondary dex files belonging to the given package.
*
* Note: exposed only for the shell command to allow moving packages explicitly to a
* definite state.
*/
@Override
public boolean performDexOptSecondary(String packageName, String compilerFilter,
boolean force) {
int flags = DexoptOptions.DEXOPT_ONLY_SECONDARY_DEX |
DexoptOptions.DEXOPT_CHECK_FOR_PROFILES_UPDATES |
DexoptOptions.DEXOPT_BOOT_COMPLETE |
(force ? DexoptOptions.DEXOPT_FORCE : 0);
return performDexOpt(new DexoptOptions(packageName, compilerFilter, flags));
}
/*package*/ boolean performDexOpt(DexoptOptions options) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return false;
} else if (isInstantApp(options.getPackageName(), UserHandle.getCallingUserId())) {
return false;
}
if (options.isDexoptOnlySecondaryDex()) {
return mDexManager.dexoptSecondaryDex(options);
} else {
int dexoptStatus = performDexOptWithStatus(options);
return dexoptStatus != PackageDexOptimizer.DEX_OPT_FAILED;
}
}
/**
* Perform dexopt on the given package and return one of following result:
* {@link PackageDexOptimizer#DEX_OPT_SKIPPED}
* {@link PackageDexOptimizer#DEX_OPT_PERFORMED}
* {@link PackageDexOptimizer#DEX_OPT_FAILED}
*/
/* package */ int performDexOptWithStatus(DexoptOptions options) {
return performDexOptTraced(options);
}
private int performDexOptTraced(DexoptOptions options) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "dexopt");
try {
return performDexOptInternal(options);
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
// Run dexopt on a given package. Returns true if dexopt did not fail, i.e.
// if the package can now be considered up to date for the given filter.
private int performDexOptInternal(DexoptOptions options) {
PackageParser.Package p;
synchronized (mPackages) {
p = mPackages.get(options.getPackageName());
if (p == null) {
// Package could not be found. Report failure.
return PackageDexOptimizer.DEX_OPT_FAILED;
}
mPackageUsage.maybeWriteAsync(mPackages);
mCompilerStats.maybeWriteAsync();
}
long callingId = Binder.clearCallingIdentity();
try {
synchronized (mInstallLock) {
return performDexOptInternalWithDependenciesLI(p, options);
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
}
public ArraySet<String> getOptimizablePackages() {
ArraySet<String> pkgs = new ArraySet<String>();
synchronized (mPackages) {
for (PackageParser.Package p : mPackages.values()) {
if (PackageDexOptimizer.canOptimizePackage(p)) {
pkgs.add(p.packageName);
}
}
}
return pkgs;
}
private int performDexOptInternalWithDependenciesLI(PackageParser.Package p,
DexoptOptions options) {
// Select the dex optimizer based on the force parameter.
// Note: The force option is rarely used (cmdline input for testing, mostly), so it's OK to
// allocate an object here.
PackageDexOptimizer pdo = options.isForce()
? new PackageDexOptimizer.ForcedUpdatePackageDexOptimizer(mPackageDexOptimizer)
: mPackageDexOptimizer;
// Dexopt all dependencies first. Note: we ignore the return value and march on
// on errors.
// Note that we are going to call performDexOpt on those libraries as many times as
// they are referenced in packages. When we do a batch of performDexOpt (for example
// at boot, or background job), the passed 'targetCompilerFilter' stays the same,
// and the first package that uses the library will dexopt it. The
// others will see that the compiled code for the library is up to date.
Collection<PackageParser.Package> deps = findSharedNonSystemLibraries(p);
final String[] instructionSets = getAppDexInstructionSets(p.applicationInfo);
if (!deps.isEmpty()) {
DexoptOptions libraryOptions = new DexoptOptions(options.getPackageName(),
options.getCompilationReason(), options.getCompilerFilter(),
options.getSplitName(),
options.getFlags() | DexoptOptions.DEXOPT_AS_SHARED_LIBRARY);
for (PackageParser.Package depPackage : deps) {
// TODO: Analyze and investigate if we (should) profile libraries.
pdo.performDexOpt(depPackage, null /* sharedLibraries */, instructionSets,
getOrCreateCompilerPackageStats(depPackage),
mDexManager.getPackageUseInfoOrDefault(depPackage.packageName), libraryOptions);
}
}
return pdo.performDexOpt(p, p.usesLibraryFiles, instructionSets,
getOrCreateCompilerPackageStats(p),
mDexManager.getPackageUseInfoOrDefault(p.packageName), options);
}
/**
* Reconcile the information we have about the secondary dex files belonging to
* {@code packagName} and the actual dex files. For all dex files that were
* deleted, update the internal records and delete the generated oat files.
*/
@Override
public void reconcileSecondaryDexFiles(String packageName) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return;
} else if (isInstantApp(packageName, UserHandle.getCallingUserId())) {
return;
}
mDexManager.reconcileSecondaryDexFiles(packageName);
}
// TODO(calin): this is only needed for BackgroundDexOptService. Find a cleaner way to inject
// a reference there.
/*package*/ DexManager getDexManager() {
return mDexManager;
}
/**
* Execute the background dexopt job immediately.
*/
@Override
public boolean runBackgroundDexoptJob(@Nullable List<String> packageNames) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return false;
}
return BackgroundDexOptService.runIdleOptimizationsNow(this, mContext, packageNames);
}
List<PackageParser.Package> findSharedNonSystemLibraries(PackageParser.Package p) {
if (p.usesLibraries != null || p.usesOptionalLibraries != null
|| p.usesStaticLibraries != null) {
ArrayList<PackageParser.Package> retValue = new ArrayList<>();
Set<String> collectedNames = new HashSet<>();
findSharedNonSystemLibrariesRecursive(p, retValue, collectedNames);
retValue.remove(p);
return retValue;
} else {
return Collections.emptyList();
}
}
private void findSharedNonSystemLibrariesRecursive(PackageParser.Package p,
ArrayList<PackageParser.Package> collected, Set<String> collectedNames) {
if (!collectedNames.contains(p.packageName)) {
collectedNames.add(p.packageName);
collected.add(p);
if (p.usesLibraries != null) {
findSharedNonSystemLibrariesRecursive(p.usesLibraries,
null, collected, collectedNames);
}
if (p.usesOptionalLibraries != null) {
findSharedNonSystemLibrariesRecursive(p.usesOptionalLibraries,
null, collected, collectedNames);
}
if (p.usesStaticLibraries != null) {
findSharedNonSystemLibrariesRecursive(p.usesStaticLibraries,
p.usesStaticLibrariesVersions, collected, collectedNames);
}
}
}
private void findSharedNonSystemLibrariesRecursive(ArrayList<String> libs, long[] versions,
ArrayList<PackageParser.Package> collected, Set<String> collectedNames) {
final int libNameCount = libs.size();
for (int i = 0; i < libNameCount; i++) {
String libName = libs.get(i);
long version = (versions != null && versions.length == libNameCount)
? versions[i] : PackageManager.VERSION_CODE_HIGHEST;
PackageParser.Package libPkg = findSharedNonSystemLibrary(libName, version);
if (libPkg != null) {
findSharedNonSystemLibrariesRecursive(libPkg, collected, collectedNames);
}
}
}
private PackageParser.Package findSharedNonSystemLibrary(String name, long version) {
synchronized (mPackages) {
SharedLibraryEntry libEntry = getSharedLibraryEntryLPr(name, version);
if (libEntry != null) {
return mPackages.get(libEntry.apk);
}
return null;
}
}
private SharedLibraryEntry getSharedLibraryEntryLPr(String name, long version) {
LongSparseArray<SharedLibraryEntry> versionedLib = mSharedLibraries.get(name);
if (versionedLib == null) {
return null;
}
return versionedLib.get(version);
}
private SharedLibraryEntry getLatestSharedLibraVersionLPr(PackageParser.Package pkg) {
LongSparseArray<SharedLibraryEntry> versionedLib = mSharedLibraries.get(
pkg.staticSharedLibName);
if (versionedLib == null) {
return null;
}
long previousLibVersion = -1;
final int versionCount = versionedLib.size();
for (int i = 0; i < versionCount; i++) {
final long libVersion = versionedLib.keyAt(i);
if (libVersion < pkg.staticSharedLibVersion) {
previousLibVersion = Math.max(previousLibVersion, libVersion);
}
}
if (previousLibVersion >= 0) {
return versionedLib.get(previousLibVersion);
}
return null;
}
public void shutdown() {
mPackageUsage.writeNow(mPackages);
mCompilerStats.writeNow();
mDexManager.writePackageDexUsageNow();
// This is the last chance to write out pending restriction settings
synchronized (mPackages) {
if (mHandler.hasMessages(WRITE_PACKAGE_RESTRICTIONS)) {
mHandler.removeMessages(WRITE_PACKAGE_RESTRICTIONS);
for (int userId : mDirtyUsers) {
mSettings.writePackageRestrictionsLPr(userId);
}
mDirtyUsers.clear();
}
}
}
@Override
public void dumpProfiles(String packageName) {
PackageParser.Package pkg;
synchronized (mPackages) {
pkg = mPackages.get(packageName);
if (pkg == null) {
throw new IllegalArgumentException("Unknown package: " + packageName);
}
}
/* Only the shell, root, or the app user should be able to dump profiles. */
int callingUid = Binder.getCallingUid();
if (callingUid != Process.SHELL_UID &&
callingUid != Process.ROOT_UID &&
callingUid != pkg.applicationInfo.uid) {
throw new SecurityException("dumpProfiles");
}
synchronized (mInstallLock) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "dump profiles");
mArtManagerService.dumpProfiles(pkg);
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
@Override
public void forceDexOpt(String packageName) {
enforceSystemOrRoot("forceDexOpt");
PackageParser.Package pkg;
synchronized (mPackages) {
pkg = mPackages.get(packageName);
if (pkg == null) {
throw new IllegalArgumentException("Unknown package: " + packageName);
}
}
synchronized (mInstallLock) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "dexopt");
// Whoever is calling forceDexOpt wants a compiled package.
// Don't use profiles since that may cause compilation to be skipped.
final int res = performDexOptInternalWithDependenciesLI(
pkg,
new DexoptOptions(packageName,
getDefaultCompilerFilter(),
DexoptOptions.DEXOPT_FORCE | DexoptOptions.DEXOPT_BOOT_COMPLETE));
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
if (res != PackageDexOptimizer.DEX_OPT_PERFORMED) {
throw new IllegalStateException("Failed to dexopt: " + res);
}
}
}
private boolean verifyPackageUpdateLPr(PackageSetting oldPkg, PackageParser.Package newPkg) {
if ((oldPkg.pkgFlags&ApplicationInfo.FLAG_SYSTEM) == 0) {
Slog.w(TAG, "Unable to update from " + oldPkg.name
+ " to " + newPkg.packageName
+ ": old package not in system partition");
return false;
} else if (mPackages.get(oldPkg.name) != null) {
Slog.w(TAG, "Unable to update from " + oldPkg.name
+ " to " + newPkg.packageName
+ ": old package still exists");
return false;
}
return true;
}
void removeCodePathLI(File codePath) {
if (codePath.isDirectory()) {
try {
mInstaller.rmPackageDir(codePath.getAbsolutePath());
} catch (InstallerException e) {
Slog.w(TAG, "Failed to remove code path", e);
}
} else {
codePath.delete();
}
}
private int[] resolveUserIds(int userId) {
return (userId == UserHandle.USER_ALL) ? sUserManager.getUserIds() : new int[] { userId };
}
private void clearAppDataLIF(PackageParser.Package pkg, int userId, int flags) {
if (pkg == null) {
Slog.wtf(TAG, "Package was null!", new Throwable());
return;
}
clearAppDataLeafLIF(pkg, userId, flags);
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
clearAppDataLeafLIF(pkg.childPackages.get(i), userId, flags);
}
clearAppProfilesLIF(pkg, UserHandle.USER_ALL);
}
private void clearAppDataLeafLIF(PackageParser.Package pkg, int userId, int flags) {
final PackageSetting ps;
synchronized (mPackages) {
ps = mSettings.mPackages.get(pkg.packageName);
}
for (int realUserId : resolveUserIds(userId)) {
final long ceDataInode = (ps != null) ? ps.getCeDataInode(realUserId) : 0;
try {
mInstaller.clearAppData(pkg.volumeUuid, pkg.packageName, realUserId, flags,
ceDataInode);
} catch (InstallerException e) {
Slog.w(TAG, String.valueOf(e));
}
}
}
private void destroyAppDataLIF(PackageParser.Package pkg, int userId, int flags) {
if (pkg == null) {
Slog.wtf(TAG, "Package was null!", new Throwable());
return;
}
destroyAppDataLeafLIF(pkg, userId, flags);
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
destroyAppDataLeafLIF(pkg.childPackages.get(i), userId, flags);
}
}
private void destroyAppDataLeafLIF(PackageParser.Package pkg, int userId, int flags) {
final PackageSetting ps;
synchronized (mPackages) {
ps = mSettings.mPackages.get(pkg.packageName);
}
for (int realUserId : resolveUserIds(userId)) {
final long ceDataInode = (ps != null) ? ps.getCeDataInode(realUserId) : 0;
try {
mInstaller.destroyAppData(pkg.volumeUuid, pkg.packageName, realUserId, flags,
ceDataInode);
} catch (InstallerException e) {
Slog.w(TAG, String.valueOf(e));
}
mDexManager.notifyPackageDataDestroyed(pkg.packageName, userId);
}
}
private void destroyAppProfilesLIF(PackageParser.Package pkg, int userId) {
if (pkg == null) {
Slog.wtf(TAG, "Package was null!", new Throwable());
return;
}
destroyAppProfilesLeafLIF(pkg);
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
destroyAppProfilesLeafLIF(pkg.childPackages.get(i));
}
}
private void destroyAppProfilesLeafLIF(PackageParser.Package pkg) {
try {
mInstaller.destroyAppProfiles(pkg.packageName);
} catch (InstallerException e) {
Slog.w(TAG, String.valueOf(e));
}
}
private void clearAppProfilesLIF(PackageParser.Package pkg, int userId) {
if (pkg == null) {
Slog.wtf(TAG, "Package was null!", new Throwable());
return;
}
mArtManagerService.clearAppProfiles(pkg);
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
mArtManagerService.clearAppProfiles(pkg.childPackages.get(i));
}
}
private void setInstallAndUpdateTime(PackageParser.Package pkg, long firstInstallTime,
long lastUpdateTime) {
// Set parent install/update time
PackageSetting ps = (PackageSetting) pkg.mExtras;
if (ps != null) {
ps.firstInstallTime = firstInstallTime;
ps.lastUpdateTime = lastUpdateTime;
}
// Set children install/update time
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
ps = (PackageSetting) childPkg.mExtras;
if (ps != null) {
ps.firstInstallTime = firstInstallTime;
ps.lastUpdateTime = lastUpdateTime;
}
}
}
private void addSharedLibraryLPr(Set<String> usesLibraryFiles,
SharedLibraryEntry file,
PackageParser.Package changingLib) {
if (file.path != null) {
usesLibraryFiles.add(file.path);
return;
}
PackageParser.Package p = mPackages.get(file.apk);
if (changingLib != null && changingLib.packageName.equals(file.apk)) {
// If we are doing this while in the middle of updating a library apk,
// then we need to make sure to use that new apk for determining the
// dependencies here. (We haven't yet finished committing the new apk
// to the package manager state.)
if (p == null || p.packageName.equals(changingLib.packageName)) {
p = changingLib;
}
}
if (p != null) {
usesLibraryFiles.addAll(p.getAllCodePaths());
if (p.usesLibraryFiles != null) {
Collections.addAll(usesLibraryFiles, p.usesLibraryFiles);
}
}
}
private void updateSharedLibrariesLPr(PackageParser.Package pkg,
PackageParser.Package changingLib) throws PackageManagerException {
if (pkg == null) {
return;
}
// The collection used here must maintain the order of addition (so
// that libraries are searched in the correct order) and must have no
// duplicates.
Set<String> usesLibraryFiles = null;
if (pkg.usesLibraries != null) {
usesLibraryFiles = addSharedLibrariesLPw(pkg.usesLibraries,
null, null, pkg.packageName, changingLib, true,
pkg.applicationInfo.targetSdkVersion, null);
}
if (pkg.usesStaticLibraries != null) {
usesLibraryFiles = addSharedLibrariesLPw(pkg.usesStaticLibraries,
pkg.usesStaticLibrariesVersions, pkg.usesStaticLibrariesCertDigests,
pkg.packageName, changingLib, true,
pkg.applicationInfo.targetSdkVersion, usesLibraryFiles);
}
if (pkg.usesOptionalLibraries != null) {
usesLibraryFiles = addSharedLibrariesLPw(pkg.usesOptionalLibraries,
null, null, pkg.packageName, changingLib, false,
pkg.applicationInfo.targetSdkVersion, usesLibraryFiles);
}
if (!ArrayUtils.isEmpty(usesLibraryFiles)) {
pkg.usesLibraryFiles = usesLibraryFiles.toArray(new String[usesLibraryFiles.size()]);
} else {
pkg.usesLibraryFiles = null;
}
}
private Set<String> addSharedLibrariesLPw(@NonNull List<String> requestedLibraries,
@Nullable long[] requiredVersions, @Nullable String[][] requiredCertDigests,
@NonNull String packageName, @Nullable PackageParser.Package changingLib,
boolean required, int targetSdk, @Nullable Set<String> outUsedLibraries)
throws PackageManagerException {
final int libCount = requestedLibraries.size();
for (int i = 0; i < libCount; i++) {
final String libName = requestedLibraries.get(i);
final long libVersion = requiredVersions != null ? requiredVersions[i]
: SharedLibraryInfo.VERSION_UNDEFINED;
final SharedLibraryEntry libEntry = getSharedLibraryEntryLPr(libName, libVersion);
if (libEntry == null) {
if (required) {
throw new PackageManagerException(INSTALL_FAILED_MISSING_SHARED_LIBRARY,
"Package " + packageName + " requires unavailable shared library "
+ libName + "; failing!");
} else if (DEBUG_SHARED_LIBRARIES) {
Slog.i(TAG, "Package " + packageName
+ " desires unavailable shared library "
+ libName + "; ignoring!");
}
} else {
if (requiredVersions != null && requiredCertDigests != null) {
if (libEntry.info.getLongVersion() != requiredVersions[i]) {
throw new PackageManagerException(INSTALL_FAILED_MISSING_SHARED_LIBRARY,
"Package " + packageName + " requires unavailable static shared"
+ " library " + libName + " version "
+ libEntry.info.getLongVersion() + "; failing!");
}
PackageParser.Package libPkg = mPackages.get(libEntry.apk);
if (libPkg == null) {
throw new PackageManagerException(INSTALL_FAILED_MISSING_SHARED_LIBRARY,
"Package " + packageName + " requires unavailable static shared"
+ " library; failing!");
}
final String[] expectedCertDigests = requiredCertDigests[i];
if (expectedCertDigests.length > 1) {
// For apps targeting O MR1 we require explicit enumeration of all certs.
final String[] libCertDigests = (targetSdk >= Build.VERSION_CODES.O_MR1)
? PackageUtils.computeSignaturesSha256Digests(
libPkg.mSigningDetails.signatures)
: PackageUtils.computeSignaturesSha256Digests(
new Signature[]{libPkg.mSigningDetails.signatures[0]});
// Take a shortcut if sizes don't match. Note that if an app doesn't
// target O we don't parse the "additional-certificate" tags similarly
// how we only consider all certs only for apps targeting O (see above).
// Therefore, the size check is safe to make.
if (expectedCertDigests.length != libCertDigests.length) {
throw new PackageManagerException(INSTALL_FAILED_MISSING_SHARED_LIBRARY,
"Package " + packageName + " requires differently signed" +
" static shared library; failing!");
}
// Use a predictable order as signature order may vary
Arrays.sort(libCertDigests);
Arrays.sort(expectedCertDigests);
final int certCount = libCertDigests.length;
for (int j = 0; j < certCount; j++) {
if (!libCertDigests[j].equalsIgnoreCase(expectedCertDigests[j])) {
throw new PackageManagerException(
INSTALL_FAILED_MISSING_SHARED_LIBRARY,
"Package " + packageName + " requires differently signed" +
" static shared library; failing!");
}
}
} else {
// lib signing cert could have rotated beyond the one expected, check to see
// if the new one has been blessed by the old
if (!libPkg.mSigningDetails.hasSha256Certificate(
ByteStringUtils.fromHexToByteArray(expectedCertDigests[0]))) {
throw new PackageManagerException(
INSTALL_FAILED_MISSING_SHARED_LIBRARY,
"Package " + packageName + " requires differently signed" +
" static shared library; failing!");
}
}
}
if (outUsedLibraries == null) {
// Use LinkedHashSet to preserve the order of files added to
// usesLibraryFiles while eliminating duplicates.
outUsedLibraries = new LinkedHashSet<>();
}
addSharedLibraryLPr(outUsedLibraries, libEntry, changingLib);
}
}
return outUsedLibraries;
}
private static boolean hasString(List<String> list, List<String> which) {
if (list == null) {
return false;
}
for (int i=list.size()-1; i>=0; i--) {
for (int j=which.size()-1; j>=0; j--) {
if (which.get(j).equals(list.get(i))) {
return true;
}
}
}
return false;
}
private ArrayList<PackageParser.Package> updateAllSharedLibrariesLPw(
PackageParser.Package changingPkg) {
ArrayList<PackageParser.Package> res = null;
for (PackageParser.Package pkg : mPackages.values()) {
if (changingPkg != null
&& !hasString(pkg.usesLibraries, changingPkg.libraryNames)
&& !hasString(pkg.usesOptionalLibraries, changingPkg.libraryNames)
&& !ArrayUtils.contains(pkg.usesStaticLibraries,
changingPkg.staticSharedLibName)) {
return null;
}
if (res == null) {
res = new ArrayList<>();
}
res.add(pkg);
try {
updateSharedLibrariesLPr(pkg, changingPkg);
} catch (PackageManagerException e) {
// If a system app update or an app and a required lib missing we
// delete the package and for updated system apps keep the data as
// it is better for the user to reinstall than to be in an limbo
// state. Also libs disappearing under an app should never happen
// - just in case.
if (!pkg.isSystem() || pkg.isUpdatedSystemApp()) {
final int flags = pkg.isUpdatedSystemApp()
? PackageManager.DELETE_KEEP_DATA : 0;
deletePackageLIF(pkg.packageName, null, true, sUserManager.getUserIds(),
flags , null, true, null);
}
Slog.e(TAG, "updateAllSharedLibrariesLPw failed: " + e.getMessage());
}
}
return res;
}
private PackageParser.Package scanPackageTracedLI(PackageParser.Package pkg,
final @ParseFlags int parseFlags, @ScanFlags int scanFlags, long currentTime,
@Nullable UserHandle user) throws PackageManagerException {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "scanPackage");
// If the package has children and this is the first dive in the function
// we recursively scan the package with the SCAN_CHECK_ONLY flag set to see
// whether all packages (parent and children) would be successfully scanned
// before the actual scan since scanning mutates internal state and we want
// to atomically install the package and its children.
if ((scanFlags & SCAN_CHECK_ONLY) == 0) {
if (pkg.childPackages != null && pkg.childPackages.size() > 0) {
scanFlags |= SCAN_CHECK_ONLY;
}
} else {
scanFlags &= ~SCAN_CHECK_ONLY;
}
final PackageParser.Package scannedPkg;
try {
// Scan the parent
scannedPkg = scanPackageNewLI(pkg, parseFlags, scanFlags, currentTime, user);
// Scan the children
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
scanPackageNewLI(childPkg, parseFlags,
scanFlags, currentTime, user);
}
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
if ((scanFlags & SCAN_CHECK_ONLY) != 0) {
return scanPackageTracedLI(pkg, parseFlags, scanFlags, currentTime, user);
}
return scannedPkg;
}
/** The result of a package scan. */
private static class ScanResult {
/** Whether or not the package scan was successful */
public final boolean success;
/**
* The final package settings. This may be the same object passed in
* the {@link ScanRequest}, but, with modified values.
*/
@Nullable public final PackageSetting pkgSetting;
/** ABI code paths that have changed in the package scan */
@Nullable public final List<String> changedAbiCodePath;
public ScanResult(
boolean success,
@Nullable PackageSetting pkgSetting,
@Nullable List<String> changedAbiCodePath) {
this.success = success;
this.pkgSetting = pkgSetting;
this.changedAbiCodePath = changedAbiCodePath;
}
}
/** A package to be scanned */
private static class ScanRequest {
/** The parsed package */
@NonNull public final PackageParser.Package pkg;
/** The package this package replaces */
@Nullable public final PackageParser.Package oldPkg;
/** Shared user settings, if the package has a shared user */
@Nullable public final SharedUserSetting sharedUserSetting;
/**
* Package settings of the currently installed version.
* <p><em>IMPORTANT:</em> The contents of this object may be modified
* during scan.
*/
@Nullable public final PackageSetting pkgSetting;
/** A copy of the settings for the currently installed version */
@Nullable public final PackageSetting oldPkgSetting;
/** Package settings for the disabled version on the /system partition */
@Nullable public final PackageSetting disabledPkgSetting;
/** Package settings for the installed version under its original package name */
@Nullable public final PackageSetting originalPkgSetting;
/** The real package name of a renamed application */
@Nullable public final String realPkgName;
public final @ParseFlags int parseFlags;
public final @ScanFlags int scanFlags;
/** The user for which the package is being scanned */
@Nullable public final UserHandle user;
/** Whether or not the platform package is being scanned */
public final boolean isPlatformPackage;
public ScanRequest(
@NonNull PackageParser.Package pkg,
@Nullable SharedUserSetting sharedUserSetting,
@Nullable PackageParser.Package oldPkg,
@Nullable PackageSetting pkgSetting,
@Nullable PackageSetting disabledPkgSetting,
@Nullable PackageSetting originalPkgSetting,
@Nullable String realPkgName,
@ParseFlags int parseFlags,
@ScanFlags int scanFlags,
boolean isPlatformPackage,
@Nullable UserHandle user) {
this.pkg = pkg;
this.oldPkg = oldPkg;
this.pkgSetting = pkgSetting;
this.sharedUserSetting = sharedUserSetting;
this.oldPkgSetting = pkgSetting == null ? null : new PackageSetting(pkgSetting);
this.disabledPkgSetting = disabledPkgSetting;
this.originalPkgSetting = originalPkgSetting;
this.realPkgName = realPkgName;
this.parseFlags = parseFlags;
this.scanFlags = scanFlags;
this.isPlatformPackage = isPlatformPackage;
this.user = user;
}
}
/**
* Returns the actual scan flags depending upon the state of the other settings.
* <p>Updated system applications will not have the following flags set
* by default and need to be adjusted after the fact:
* <ul>
* <li>{@link #SCAN_AS_SYSTEM}</li>
* <li>{@link #SCAN_AS_PRIVILEGED}</li>
* <li>{@link #SCAN_AS_OEM}</li>
* <li>{@link #SCAN_AS_VENDOR}</li>
* <li>{@link #SCAN_AS_PRODUCT}</li>
* <li>{@link #SCAN_AS_INSTANT_APP}</li>
* <li>{@link #SCAN_AS_VIRTUAL_PRELOAD}</li>
* </ul>
*/
private @ScanFlags int adjustScanFlags(@ScanFlags int scanFlags,
PackageSetting pkgSetting, PackageSetting disabledPkgSetting, UserHandle user,
PackageParser.Package pkg) {
if (disabledPkgSetting != null) {
// updated system application, must at least have SCAN_AS_SYSTEM
scanFlags |= SCAN_AS_SYSTEM;
if ((disabledPkgSetting.pkgPrivateFlags
& ApplicationInfo.PRIVATE_FLAG_PRIVILEGED) != 0) {
scanFlags |= SCAN_AS_PRIVILEGED;
}
if ((disabledPkgSetting.pkgPrivateFlags
& ApplicationInfo.PRIVATE_FLAG_OEM) != 0) {
scanFlags |= SCAN_AS_OEM;
}
if ((disabledPkgSetting.pkgPrivateFlags
& ApplicationInfo.PRIVATE_FLAG_VENDOR) != 0) {
scanFlags |= SCAN_AS_VENDOR;
}
if ((disabledPkgSetting.pkgPrivateFlags
& ApplicationInfo.PRIVATE_FLAG_PRODUCT) != 0) {
scanFlags |= SCAN_AS_PRODUCT;
}
}
if (pkgSetting != null) {
final int userId = ((user == null) ? 0 : user.getIdentifier());
if (pkgSetting.getInstantApp(userId)) {
scanFlags |= SCAN_AS_INSTANT_APP;
}
if (pkgSetting.getVirtulalPreload(userId)) {
scanFlags |= SCAN_AS_VIRTUAL_PRELOAD;
}
}
// Scan as privileged apps that share a user with a priv-app.
final boolean skipVendorPrivilegeScan = ((scanFlags & SCAN_AS_VENDOR) != 0)
&& SystemProperties.getInt("ro.vndk.version", 28) < 28;
if (((scanFlags & SCAN_AS_PRIVILEGED) == 0)
&& !pkg.isPrivileged()
&& (pkg.mSharedUserId != null)
&& !skipVendorPrivilegeScan) {
SharedUserSetting sharedUserSetting = null;
try {
sharedUserSetting = mSettings.getSharedUserLPw(pkg.mSharedUserId, 0, 0, false);
} catch (PackageManagerException ignore) {}
if (sharedUserSetting != null && sharedUserSetting.isPrivileged()) {
// Exempt SharedUsers signed with the platform key.
// TODO(b/72378145) Fix this exemption. Force signature apps
// to whitelist their privileged permissions just like other
// priv-apps.
synchronized (mPackages) {
PackageSetting platformPkgSetting = mSettings.mPackages.get("android");
if ((compareSignatures(platformPkgSetting.signatures.mSigningDetails.signatures,
pkg.mSigningDetails.signatures) != PackageManager.SIGNATURE_MATCH)) {
scanFlags |= SCAN_AS_PRIVILEGED;
}
}
}
}
return scanFlags;
}
// TODO: scanPackageNewLI() and scanPackageOnly() should be merged. But, first, commiting
// the results / removing app data needs to be moved up a level to the callers of this
// method. Also, we need to solve the problem of potentially creating a new shared user
// setting. That can probably be done later and patch things up after the fact.
@GuardedBy("mInstallLock")
private PackageParser.Package scanPackageNewLI(@NonNull PackageParser.Package pkg,
final @ParseFlags int parseFlags, @ScanFlags int scanFlags, long currentTime,
@Nullable UserHandle user) throws PackageManagerException {
final String renamedPkgName = mSettings.getRenamedPackageLPr(pkg.mRealPackage);
final String realPkgName = getRealPackageName(pkg, renamedPkgName);
if (realPkgName != null) {
ensurePackageRenamed(pkg, renamedPkgName);
}
final PackageSetting originalPkgSetting = getOriginalPackageLocked(pkg, renamedPkgName);
final PackageSetting pkgSetting = mSettings.getPackageLPr(pkg.packageName);
final PackageSetting disabledPkgSetting =
mSettings.getDisabledSystemPkgLPr(pkg.packageName);
if (mTransferedPackages.contains(pkg.packageName)) {
Slog.w(TAG, "Package " + pkg.packageName
+ " was transferred to another, but its .apk remains");
}
scanFlags = adjustScanFlags(scanFlags, pkgSetting, disabledPkgSetting, user, pkg);
synchronized (mPackages) {
applyPolicy(pkg, parseFlags, scanFlags, mPlatformPackage);
assertPackageIsValid(pkg, parseFlags, scanFlags);
SharedUserSetting sharedUserSetting = null;
if (pkg.mSharedUserId != null) {
// SIDE EFFECTS; may potentially allocate a new shared user
sharedUserSetting = mSettings.getSharedUserLPw(
pkg.mSharedUserId, 0 /*pkgFlags*/, 0 /*pkgPrivateFlags*/, true /*create*/);
if (DEBUG_PACKAGE_SCANNING) {
if ((parseFlags & PackageParser.PARSE_CHATTY) != 0)
Log.d(TAG, "Shared UserID " + pkg.mSharedUserId
+ " (uid=" + sharedUserSetting.userId + "):"
+ " packages=" + sharedUserSetting.packages);
}
}
boolean scanSucceeded = false;
try {
final ScanRequest request = new ScanRequest(pkg, sharedUserSetting,
pkgSetting == null ? null : pkgSetting.pkg, pkgSetting, disabledPkgSetting,
originalPkgSetting, realPkgName, parseFlags, scanFlags,
(pkg == mPlatformPackage), user);
final ScanResult result = scanPackageOnlyLI(request, mFactoryTest, currentTime);
if (result.success) {
commitScanResultsLocked(request, result);
}
scanSucceeded = true;
} finally {
if (!scanSucceeded && (scanFlags & SCAN_DELETE_DATA_ON_FAILURES) != 0) {
// DELETE_DATA_ON_FAILURES is only used by frozen paths
destroyAppDataLIF(pkg, UserHandle.USER_ALL,
StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE);
destroyAppProfilesLIF(pkg, UserHandle.USER_ALL);
}
}
}
return pkg;
}
/**
* Commits the package scan and modifies system state.
* <p><em>WARNING:</em> The method may throw an excpetion in the middle
* of committing the package, leaving the system in an inconsistent state.
* This needs to be fixed so, once we get to this point, no errors are
* possible and the system is not left in an inconsistent state.
*/
@GuardedBy("mPackages")
private void commitScanResultsLocked(@NonNull ScanRequest request, @NonNull ScanResult result)
throws PackageManagerException {
final PackageParser.Package pkg = request.pkg;
final PackageParser.Package oldPkg = request.oldPkg;
final @ParseFlags int parseFlags = request.parseFlags;
final @ScanFlags int scanFlags = request.scanFlags;
final PackageSetting oldPkgSetting = request.oldPkgSetting;
final PackageSetting originalPkgSetting = request.originalPkgSetting;
final PackageSetting disabledPkgSetting = request.disabledPkgSetting;
final UserHandle user = request.user;
final String realPkgName = request.realPkgName;
final PackageSetting pkgSetting = result.pkgSetting;
final List<String> changedAbiCodePath = result.changedAbiCodePath;
final boolean newPkgSettingCreated = (result.pkgSetting != request.pkgSetting);
if (newPkgSettingCreated) {
if (originalPkgSetting != null) {
mSettings.addRenamedPackageLPw(pkg.packageName, originalPkgSetting.name);
}
// THROWS: when we can't allocate a user id. add call to check if there's
// enough space to ensure we won't throw; otherwise, don't modify state
mSettings.addUserToSettingLPw(pkgSetting);
if (originalPkgSetting != null && (scanFlags & SCAN_CHECK_ONLY) == 0) {
mTransferedPackages.add(originalPkgSetting.name);
}
}
// TODO(toddke): Consider a method specifically for modifying the Package object
// post scan; or, moving this stuff out of the Package object since it has nothing
// to do with the package on disk.
// We need to have this here because addUserToSettingLPw() is sometimes responsible
// for creating the application ID. If we did this earlier, we would be saving the
// correct ID.
pkg.applicationInfo.uid = pkgSetting.appId;
mSettings.writeUserRestrictionsLPw(pkgSetting, oldPkgSetting);
if ((scanFlags & SCAN_CHECK_ONLY) == 0 && realPkgName != null) {
mTransferedPackages.add(pkg.packageName);
}
// THROWS: when requested libraries that can't be found. it only changes
// the state of the passed in pkg object, so, move to the top of the method
// and allow it to abort
if ((scanFlags & SCAN_BOOTING) == 0
&& (parseFlags & PackageParser.PARSE_IS_SYSTEM_DIR) == 0) {
// Check all shared libraries and map to their actual file path.
// We only do this here for apps not on a system dir, because those
// are the only ones that can fail an install due to this. We
// will take care of the system apps by updating all of their
// library paths after the scan is done. Also during the initial
// scan don't update any libs as we do this wholesale after all
// apps are scanned to avoid dependency based scanning.
updateSharedLibrariesLPr(pkg, null);
}
// All versions of a static shared library are referenced with the same
// package name. Internally, we use a synthetic package name to allow
// multiple versions of the same shared library to be installed. So,
// we need to generate the synthetic package name of the latest shared
// library in order to compare signatures.
PackageSetting signatureCheckPs = pkgSetting;
if (pkg.applicationInfo.isStaticSharedLibrary()) {
SharedLibraryEntry libraryEntry = getLatestSharedLibraVersionLPr(pkg);
if (libraryEntry != null) {
signatureCheckPs = mSettings.getPackageLPr(libraryEntry.apk);
}
}
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
if (ksms.shouldCheckUpgradeKeySetLocked(signatureCheckPs, scanFlags)) {
if (ksms.checkUpgradeKeySetLocked(signatureCheckPs, pkg)) {
// We just determined the app is signed correctly, so bring
// over the latest parsed certs.
pkgSetting.signatures.mSigningDetails = pkg.mSigningDetails;
} else {
if ((parseFlags & PackageParser.PARSE_IS_SYSTEM_DIR) == 0) {
throw new PackageManagerException(INSTALL_FAILED_UPDATE_INCOMPATIBLE,
"Package " + pkg.packageName + " upgrade keys do not match the "
+ "previously installed version");
} else {
pkgSetting.signatures.mSigningDetails = pkg.mSigningDetails;
String msg = "System package " + pkg.packageName
+ " signature changed; retaining data.";
reportSettingsProblem(Log.WARN, msg);
}
}
} else {
try {
final boolean compareCompat = isCompatSignatureUpdateNeeded(pkg);
final boolean compareRecover = isRecoverSignatureUpdateNeeded(pkg);
final boolean compatMatch = verifySignatures(signatureCheckPs, disabledPkgSetting,
pkg.mSigningDetails, compareCompat, compareRecover);
// The new KeySets will be re-added later in the scanning process.
if (compatMatch) {
synchronized (mPackages) {
ksms.removeAppKeySetDataLPw(pkg.packageName);
}
}
// We just determined the app is signed correctly, so bring
// over the latest parsed certs.
pkgSetting.signatures.mSigningDetails = pkg.mSigningDetails;
// if this is is a sharedUser, check to see if the new package is signed by a newer
// signing certificate than the existing one, and if so, copy over the new details
if (signatureCheckPs.sharedUser != null) {
if (pkg.mSigningDetails.hasAncestor(
signatureCheckPs.sharedUser.signatures.mSigningDetails)) {
signatureCheckPs.sharedUser.signatures.mSigningDetails = pkg.mSigningDetails;
}
if (signatureCheckPs.sharedUser.signaturesChanged == null) {
signatureCheckPs.sharedUser.signaturesChanged = Boolean.FALSE;
}
}
} catch (PackageManagerException e) {
if ((parseFlags & PackageParser.PARSE_IS_SYSTEM_DIR) == 0) {
throw e;
}
// The signature has changed, but this package is in the system
// image... let's recover!
pkgSetting.signatures.mSigningDetails = pkg.mSigningDetails;
// If the system app is part of a shared user we allow that shared user to change
// signatures as well as part of an OTA. We still need to verify that the signatures
// are consistent within the shared user for a given boot, so only allow updating
// the signatures on the first package scanned for the shared user (i.e. if the
// signaturesChanged state hasn't been initialized yet in SharedUserSetting).
if (signatureCheckPs.sharedUser != null) {
if (signatureCheckPs.sharedUser.signaturesChanged != null &&
compareSignatures(
signatureCheckPs.sharedUser.signatures.mSigningDetails.signatures,
pkg.mSigningDetails.signatures) != PackageManager.SIGNATURE_MATCH) {
throw new PackageManagerException(
INSTALL_PARSE_FAILED_INCONSISTENT_CERTIFICATES,
"Signature mismatch for shared user: " + pkgSetting.sharedUser);
}
signatureCheckPs.sharedUser.signatures.mSigningDetails = pkg.mSigningDetails;
signatureCheckPs.sharedUser.signaturesChanged = Boolean.TRUE;
}
// File a report about this.
String msg = "System package " + pkg.packageName
+ " signature changed; retaining data.";
reportSettingsProblem(Log.WARN, msg);
} catch (IllegalArgumentException e) {
// should never happen: certs matched when checking, but not when comparing
// old to new for sharedUser
throw new PackageManagerException(INSTALL_PARSE_FAILED_INCONSISTENT_CERTIFICATES,
"Signing certificates comparison made on incomparable signing details"
+ " but somehow passed verifySignatures!");
}
}
if ((scanFlags & SCAN_CHECK_ONLY) == 0 && pkg.mAdoptPermissions != null) {
// This package wants to adopt ownership of permissions from
// another package.
for (int i = pkg.mAdoptPermissions.size() - 1; i >= 0; i--) {
final String origName = pkg.mAdoptPermissions.get(i);
final PackageSetting orig = mSettings.getPackageLPr(origName);
if (orig != null) {
if (verifyPackageUpdateLPr(orig, pkg)) {
Slog.i(TAG, "Adopting permissions from " + origName + " to "
+ pkg.packageName);
mSettings.mPermissions.transferPermissions(origName, pkg.packageName);
}
}
}
}
if (changedAbiCodePath != null && changedAbiCodePath.size() > 0) {
for (int i = changedAbiCodePath.size() - 1; i >= 0; --i) {
final String codePathString = changedAbiCodePath.get(i);
try {
mInstaller.rmdex(codePathString,
getDexCodeInstructionSet(getPreferredInstructionSet()));
} catch (InstallerException ignored) {
}
}
}
if ((scanFlags & SCAN_CHECK_ONLY) != 0) {
if (oldPkgSetting != null) {
synchronized (mPackages) {
mSettings.mPackages.put(oldPkgSetting.name, oldPkgSetting);
}
}
} else {
final int userId = user == null ? 0 : user.getIdentifier();
// Modify state for the given package setting
commitPackageSettings(pkg, oldPkg, pkgSetting, user, scanFlags,
(parseFlags & PackageParser.PARSE_CHATTY) != 0 /*chatty*/);
if (pkgSetting.getInstantApp(userId)) {
mInstantAppRegistry.addInstantAppLPw(userId, pkgSetting.appId);
}
}
}
/**
* Returns the "real" name of the package.
* <p>This may differ from the package's actual name if the application has already
* been installed under one of this package's original names.
*/
private static @Nullable String getRealPackageName(@NonNull PackageParser.Package pkg,
@Nullable String renamedPkgName) {
if (isPackageRenamed(pkg, renamedPkgName)) {
return pkg.mRealPackage;
}
return null;
}
/** Returns {@code true} if the package has been renamed. Otherwise, {@code false}. */
private static boolean isPackageRenamed(@NonNull PackageParser.Package pkg,
@Nullable String renamedPkgName) {
return pkg.mOriginalPackages != null && pkg.mOriginalPackages.contains(renamedPkgName);
}
/**
* Returns the original package setting.
* <p>A package can migrate its name during an update. In this scenario, a package
* designates a set of names that it considers as one of its original names.
* <p>An original package must be signed identically and it must have the same
* shared user [if any].
*/
@GuardedBy("mPackages")
private @Nullable PackageSetting getOriginalPackageLocked(@NonNull PackageParser.Package pkg,
@Nullable String renamedPkgName) {
if (!isPackageRenamed(pkg, renamedPkgName)) {
return null;
}
for (int i = pkg.mOriginalPackages.size() - 1; i >= 0; --i) {
final PackageSetting originalPs =
mSettings.getPackageLPr(pkg.mOriginalPackages.get(i));
if (originalPs != null) {
// the package is already installed under its original name...
// but, should we use it?
if (!verifyPackageUpdateLPr(originalPs, pkg)) {
// the new package is incompatible with the original
continue;
} else if (originalPs.sharedUser != null) {
if (!originalPs.sharedUser.name.equals(pkg.mSharedUserId)) {
// the shared user id is incompatible with the original
Slog.w(TAG, "Unable to migrate data from " + originalPs.name
+ " to " + pkg.packageName + ": old uid "
+ originalPs.sharedUser.name
+ " differs from " + pkg.mSharedUserId);
continue;
}
// TODO: Add case when shared user id is added [b/28144775]
} else {
if (DEBUG_UPGRADE) Log.v(TAG, "Renaming new package "
+ pkg.packageName + " to old name " + originalPs.name);
}
return originalPs;
}
}
return null;
}
/**
* Renames the package if it was installed under a different name.
* <p>When we've already installed the package under an original name, update
* the new package so we can continue to have the old name.
*/
private static void ensurePackageRenamed(@NonNull PackageParser.Package pkg,
@NonNull String renamedPackageName) {
if (pkg.mOriginalPackages == null
|| !pkg.mOriginalPackages.contains(renamedPackageName)
|| pkg.packageName.equals(renamedPackageName)) {
return;
}
pkg.setPackageName(renamedPackageName);
}
/**
* Just scans the package without any side effects.
* <p>Not entirely true at the moment. There is still one side effect -- this
* method potentially modifies a live {@link PackageSetting} object representing
* the package being scanned. This will be resolved in the future.
*
* @param request Information about the package to be scanned
* @param isUnderFactoryTest Whether or not the device is under factory test
* @param currentTime The current time, in millis
* @return The results of the scan
*/
@GuardedBy("mInstallLock")
private static @NonNull ScanResult scanPackageOnlyLI(@NonNull ScanRequest request,
boolean isUnderFactoryTest, long currentTime)
throws PackageManagerException {
final PackageParser.Package pkg = request.pkg;
PackageSetting pkgSetting = request.pkgSetting;
final PackageSetting disabledPkgSetting = request.disabledPkgSetting;
final PackageSetting originalPkgSetting = request.originalPkgSetting;
final @ParseFlags int parseFlags = request.parseFlags;
final @ScanFlags int scanFlags = request.scanFlags;
final String realPkgName = request.realPkgName;
final SharedUserSetting sharedUserSetting = request.sharedUserSetting;
final UserHandle user = request.user;
final boolean isPlatformPackage = request.isPlatformPackage;
List<String> changedAbiCodePath = null;
if (DEBUG_PACKAGE_SCANNING) {
if ((parseFlags & PackageParser.PARSE_CHATTY) != 0)
Log.d(TAG, "Scanning package " + pkg.packageName);
}
DexManager.maybeLogUnexpectedPackageDetails(pkg);
// Initialize package source and resource directories
final File scanFile = new File(pkg.codePath);
final File destCodeFile = new File(pkg.applicationInfo.getCodePath());
final File destResourceFile = new File(pkg.applicationInfo.getResourcePath());
// We keep references to the derived CPU Abis from settings in oder to reuse
// them in the case where we're not upgrading or booting for the first time.
String primaryCpuAbiFromSettings = null;
String secondaryCpuAbiFromSettings = null;
boolean needToDeriveAbi = (scanFlags & SCAN_FIRST_BOOT_OR_UPGRADE) != 0;
if (!needToDeriveAbi) {
if (pkgSetting != null) {
primaryCpuAbiFromSettings = pkgSetting.primaryCpuAbiString;
secondaryCpuAbiFromSettings = pkgSetting.secondaryCpuAbiString;
} else {
// Re-scanning a system package after uninstalling updates; need to derive ABI
needToDeriveAbi = true;
}
}
if (pkgSetting != null && pkgSetting.sharedUser != sharedUserSetting) {
PackageManagerService.reportSettingsProblem(Log.WARN,
"Package " + pkg.packageName + " shared user changed from "
+ (pkgSetting.sharedUser != null
? pkgSetting.sharedUser.name : "<nothing>")
+ " to "
+ (sharedUserSetting != null ? sharedUserSetting.name : "<nothing>")
+ "; replacing with new");
pkgSetting = null;
}
String[] usesStaticLibraries = null;
if (pkg.usesStaticLibraries != null) {
usesStaticLibraries = new String[pkg.usesStaticLibraries.size()];
pkg.usesStaticLibraries.toArray(usesStaticLibraries);
}
final boolean createNewPackage = (pkgSetting == null);
if (createNewPackage) {
final String parentPackageName = (pkg.parentPackage != null)
? pkg.parentPackage.packageName : null;
final boolean instantApp = (scanFlags & SCAN_AS_INSTANT_APP) != 0;
final boolean virtualPreload = (scanFlags & SCAN_AS_VIRTUAL_PRELOAD) != 0;
// REMOVE SharedUserSetting from method; update in a separate call
pkgSetting = Settings.createNewSetting(pkg.packageName, originalPkgSetting,
disabledPkgSetting, realPkgName, sharedUserSetting, destCodeFile,
destResourceFile, pkg.applicationInfo.nativeLibraryRootDir,
pkg.applicationInfo.primaryCpuAbi, pkg.applicationInfo.secondaryCpuAbi,
pkg.mVersionCode, pkg.applicationInfo.flags, pkg.applicationInfo.privateFlags,
user, true /*allowInstall*/, instantApp, virtualPreload,
parentPackageName, pkg.getChildPackageNames(),
UserManagerService.getInstance(), usesStaticLibraries,
pkg.usesStaticLibrariesVersions);
} else {
// REMOVE SharedUserSetting from method; update in a separate call.
//
// TODO(narayan): This update is bogus. nativeLibraryDir & primaryCpuAbi,
// secondaryCpuAbi are not known at this point so we always update them
// to null here, only to reset them at a later point.
Settings.updatePackageSetting(pkgSetting, disabledPkgSetting, sharedUserSetting,
destCodeFile, destResourceFile, pkg.applicationInfo.nativeLibraryDir,
pkg.applicationInfo.primaryCpuAbi, pkg.applicationInfo.secondaryCpuAbi,
pkg.applicationInfo.flags, pkg.applicationInfo.privateFlags,
pkg.getChildPackageNames(), UserManagerService.getInstance(),
usesStaticLibraries, pkg.usesStaticLibrariesVersions);
}
if (createNewPackage && originalPkgSetting != null) {
// This is the initial transition from the original package, so,
// fix up the new package's name now. We must do this after looking
// up the package under its new name, so getPackageLP takes care of
// fiddling things correctly.
pkg.setPackageName(originalPkgSetting.name);
// File a report about this.
String msg = "New package " + pkgSetting.realName
+ " renamed to replace old package " + pkgSetting.name;
reportSettingsProblem(Log.WARN, msg);
}
final int userId = (user == null ? UserHandle.USER_SYSTEM : user.getIdentifier());
// for existing packages, change the install state; but, only if it's explicitly specified
if (!createNewPackage) {
final boolean instantApp = (scanFlags & SCAN_AS_INSTANT_APP) != 0;
final boolean fullApp = (scanFlags & SCAN_AS_FULL_APP) != 0;
setInstantAppForUser(pkgSetting, userId, instantApp, fullApp);
}
if (disabledPkgSetting != null) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_UPDATED_SYSTEM_APP;
}
// Apps which share a sharedUserId must be placed in the same selinux domain. If this
// package is the first app installed as this shared user, set seInfoTargetSdkVersion to its
// targetSdkVersion. These are later adjusted in PackageManagerService's constructor to be
// the lowest targetSdkVersion of all apps within the shared user, which corresponds to the
// least restrictive selinux domain.
// NOTE: As new packages are installed / updated, the shared user's seinfoTargetSdkVersion
// will NOT be modified until next boot, even if a lower targetSdkVersion is used. This
// ensures that all packages continue to run in the same selinux domain.
final int targetSdkVersion =
((sharedUserSetting != null) && (sharedUserSetting.packages.size() != 0)) ?
sharedUserSetting.seInfoTargetSdkVersion : pkg.applicationInfo.targetSdkVersion;
// TODO(b/71593002): isPrivileged for sharedUser and appInfo should never be out of sync.
// They currently can be if the sharedUser apps are signed with the platform key.
final boolean isPrivileged = (sharedUserSetting != null) ?
sharedUserSetting.isPrivileged() | pkg.isPrivileged() : pkg.isPrivileged();
pkg.applicationInfo.seInfo = SELinuxMMAC.getSeInfo(pkg, isPrivileged,
pkg.applicationInfo.targetSandboxVersion, targetSdkVersion);
pkg.applicationInfo.seInfoUser = SELinuxUtil.assignSeinfoUser(pkgSetting.readUserState(
userId == UserHandle.USER_ALL ? UserHandle.USER_SYSTEM : userId));
pkg.mExtras = pkgSetting;
pkg.applicationInfo.processName = fixProcessName(
pkg.applicationInfo.packageName,
pkg.applicationInfo.processName);
if (!isPlatformPackage) {
// Get all of our default paths setup
pkg.applicationInfo.initForUser(UserHandle.USER_SYSTEM);
}
final String cpuAbiOverride = deriveAbiOverride(pkg.cpuAbiOverride, pkgSetting);
if ((scanFlags & SCAN_NEW_INSTALL) == 0) {
if (needToDeriveAbi) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "derivePackageAbi");
final boolean extractNativeLibs = !pkg.isLibrary();
derivePackageAbi(pkg, cpuAbiOverride, extractNativeLibs);
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
// Some system apps still use directory structure for native libraries
// in which case we might end up not detecting abi solely based on apk
// structure. Try to detect abi based on directory structure.
if (isSystemApp(pkg) && !pkg.isUpdatedSystemApp() &&
pkg.applicationInfo.primaryCpuAbi == null) {
setBundledAppAbisAndRoots(pkg, pkgSetting);
setNativeLibraryPaths(pkg, sAppLib32InstallDir);
}
} else {
// This is not a first boot or an upgrade, don't bother deriving the
// ABI during the scan. Instead, trust the value that was stored in the
// package setting.
pkg.applicationInfo.primaryCpuAbi = primaryCpuAbiFromSettings;
pkg.applicationInfo.secondaryCpuAbi = secondaryCpuAbiFromSettings;
setNativeLibraryPaths(pkg, sAppLib32InstallDir);
if (DEBUG_ABI_SELECTION) {
Slog.i(TAG, "Using ABIS and native lib paths from settings : " +
pkg.packageName + " " + pkg.applicationInfo.primaryCpuAbi + ", " +
pkg.applicationInfo.secondaryCpuAbi);
}
}
} else {
if ((scanFlags & SCAN_MOVE) != 0) {
// We haven't run dex-opt for this move (since we've moved the compiled output too)
// but we already have this packages package info in the PackageSetting. We just
// use that and derive the native library path based on the new codepath.
pkg.applicationInfo.primaryCpuAbi = pkgSetting.primaryCpuAbiString;
pkg.applicationInfo.secondaryCpuAbi = pkgSetting.secondaryCpuAbiString;
}
// Set native library paths again. For moves, the path will be updated based on the
// ABIs we've determined above. For non-moves, the path will be updated based on the
// ABIs we determined during compilation, but the path will depend on the final
// package path (after the rename away from the stage path).
setNativeLibraryPaths(pkg, sAppLib32InstallDir);
}
// This is a special case for the "system" package, where the ABI is
// dictated by the zygote configuration (and init.rc). We should keep track
// of this ABI so that we can deal with "normal" applications that run under
// the same UID correctly.
if (isPlatformPackage) {
pkg.applicationInfo.primaryCpuAbi = VMRuntime.getRuntime().is64Bit() ?
Build.SUPPORTED_64_BIT_ABIS[0] : Build.SUPPORTED_32_BIT_ABIS[0];
}
// If there's a mismatch between the abi-override in the package setting
// and the abiOverride specified for the install. Warn about this because we
// would've already compiled the app without taking the package setting into
// account.
if ((scanFlags & SCAN_NO_DEX) == 0 && (scanFlags & SCAN_NEW_INSTALL) != 0) {
if (cpuAbiOverride == null && pkg.packageName != null) {
Slog.w(TAG, "Ignoring persisted ABI override " + cpuAbiOverride +
" for package " + pkg.packageName);
}
}
pkgSetting.primaryCpuAbiString = pkg.applicationInfo.primaryCpuAbi;
pkgSetting.secondaryCpuAbiString = pkg.applicationInfo.secondaryCpuAbi;
pkgSetting.cpuAbiOverrideString = cpuAbiOverride;
// Copy the derived override back to the parsed package, so that we can
// update the package settings accordingly.
pkg.cpuAbiOverride = cpuAbiOverride;
if (DEBUG_ABI_SELECTION) {
Slog.d(TAG, "Resolved nativeLibraryRoot for " + pkg.packageName
+ " to root=" + pkg.applicationInfo.nativeLibraryRootDir + ", isa="
+ pkg.applicationInfo.nativeLibraryRootRequiresIsa);
}
// Push the derived path down into PackageSettings so we know what to
// clean up at uninstall time.
pkgSetting.legacyNativeLibraryPathString = pkg.applicationInfo.nativeLibraryRootDir;
if (DEBUG_ABI_SELECTION) {
Log.d(TAG, "Abis for package[" + pkg.packageName + "] are" +
" primary=" + pkg.applicationInfo.primaryCpuAbi +
" secondary=" + pkg.applicationInfo.secondaryCpuAbi);
}
if ((scanFlags & SCAN_BOOTING) == 0 && pkgSetting.sharedUser != null) {
// We don't do this here during boot because we can do it all
// at once after scanning all existing packages.
//
// We also do this *before* we perform dexopt on this package, so that
// we can avoid redundant dexopts, and also to make sure we've got the
// code and package path correct.
changedAbiCodePath =
adjustCpuAbisForSharedUserLPw(pkgSetting.sharedUser.packages, pkg);
}
if (isUnderFactoryTest && pkg.requestedPermissions.contains(
android.Manifest.permission.FACTORY_TEST)) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_FACTORY_TEST;
}
if (isSystemApp(pkg)) {
pkgSetting.isOrphaned = true;
}
// Take care of first install / last update times.
final long scanFileTime = getLastModifiedTime(pkg);
if (currentTime != 0) {
if (pkgSetting.firstInstallTime == 0) {
pkgSetting.firstInstallTime = pkgSetting.lastUpdateTime = currentTime;
} else if ((scanFlags & SCAN_UPDATE_TIME) != 0) {
pkgSetting.lastUpdateTime = currentTime;
}
} else if (pkgSetting.firstInstallTime == 0) {
// We need *something*. Take time time stamp of the file.
pkgSetting.firstInstallTime = pkgSetting.lastUpdateTime = scanFileTime;
} else if ((parseFlags & PackageParser.PARSE_IS_SYSTEM_DIR) != 0) {
if (scanFileTime != pkgSetting.timeStamp) {
// A package on the system image has changed; consider this
// to be an update.
pkgSetting.lastUpdateTime = scanFileTime;
}
}
pkgSetting.setTimeStamp(scanFileTime);
pkgSetting.pkg = pkg;
pkgSetting.pkgFlags = pkg.applicationInfo.flags;
if (pkg.getLongVersionCode() != pkgSetting.versionCode) {
pkgSetting.versionCode = pkg.getLongVersionCode();
}
// Update volume if needed
final String volumeUuid = pkg.applicationInfo.volumeUuid;
if (!Objects.equals(volumeUuid, pkgSetting.volumeUuid)) {
Slog.i(PackageManagerService.TAG,
"Update" + (pkgSetting.isSystem() ? " system" : "")
+ " package " + pkg.packageName
+ " volume from " + pkgSetting.volumeUuid
+ " to " + volumeUuid);
pkgSetting.volumeUuid = volumeUuid;
}
return new ScanResult(true, pkgSetting, changedAbiCodePath);
}
/**
* Returns {@code true} if the given file contains code. Otherwise {@code false}.
*/
private static boolean apkHasCode(String fileName) {
StrictJarFile jarFile = null;
try {
jarFile = new StrictJarFile(fileName,
false /*verify*/, false /*signatureSchemeRollbackProtectionsEnforced*/);
return jarFile.findEntry("classes.dex") != null;
} catch (IOException ignore) {
} finally {
try {
if (jarFile != null) {
jarFile.close();
}
} catch (IOException ignore) {}
}
return false;
}
/**
* Enforces code policy for the package. This ensures that if an APK has
* declared hasCode="true" in its manifest that the APK actually contains
* code.
*
* @throws PackageManagerException If bytecode could not be found when it should exist
*/
private static void assertCodePolicy(PackageParser.Package pkg)
throws PackageManagerException {
final boolean shouldHaveCode =
(pkg.applicationInfo.flags & ApplicationInfo.FLAG_HAS_CODE) != 0;
if (shouldHaveCode && !apkHasCode(pkg.baseCodePath)) {
throw new PackageManagerException(INSTALL_FAILED_INVALID_APK,
"Package " + pkg.baseCodePath + " code is missing");
}
if (!ArrayUtils.isEmpty(pkg.splitCodePaths)) {
for (int i = 0; i < pkg.splitCodePaths.length; i++) {
final boolean splitShouldHaveCode =
(pkg.splitFlags[i] & ApplicationInfo.FLAG_HAS_CODE) != 0;
if (splitShouldHaveCode && !apkHasCode(pkg.splitCodePaths[i])) {
throw new PackageManagerException(INSTALL_FAILED_INVALID_APK,
"Package " + pkg.splitCodePaths[i] + " code is missing");
}
}
}
}
/**
* Applies policy to the parsed package based upon the given policy flags.
* Ensures the package is in a good state.
* <p>
* Implementation detail: This method must NOT have any side effect. It would
* ideally be static, but, it requires locks to read system state.
*/
private static void applyPolicy(PackageParser.Package pkg, final @ParseFlags int parseFlags,
final @ScanFlags int scanFlags, PackageParser.Package platformPkg) {
if ((scanFlags & SCAN_AS_SYSTEM) != 0) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_SYSTEM;
if (pkg.applicationInfo.isDirectBootAware()) {
// we're direct boot aware; set for all components
for (PackageParser.Service s : pkg.services) {
s.info.encryptionAware = s.info.directBootAware = true;
}
for (PackageParser.Provider p : pkg.providers) {
p.info.encryptionAware = p.info.directBootAware = true;
}
for (PackageParser.Activity a : pkg.activities) {
a.info.encryptionAware = a.info.directBootAware = true;
}
for (PackageParser.Activity r : pkg.receivers) {
r.info.encryptionAware = r.info.directBootAware = true;
}
}
if (compressedFileExists(pkg.codePath)) {
pkg.isStub = true;
}
} else {
// non system apps can't be flagged as core
pkg.coreApp = false;
// clear flags not applicable to regular apps
pkg.applicationInfo.flags &=
~ApplicationInfo.FLAG_PERSISTENT;
pkg.applicationInfo.privateFlags &=
~ApplicationInfo.PRIVATE_FLAG_DEFAULT_TO_DEVICE_PROTECTED_STORAGE;
pkg.applicationInfo.privateFlags &=
~ApplicationInfo.PRIVATE_FLAG_DIRECT_BOOT_AWARE;
// cap permission priorities
if (pkg.permissionGroups != null && pkg.permissionGroups.size() > 0) {
for (int i = pkg.permissionGroups.size() - 1; i >= 0; --i) {
pkg.permissionGroups.get(i).info.priority = 0;
}
}
}
if ((scanFlags & SCAN_AS_PRIVILEGED) == 0) {
// clear protected broadcasts
pkg.protectedBroadcasts = null;
// ignore export request for single user receivers
if (pkg.receivers != null) {
for (int i = pkg.receivers.size() - 1; i >= 0; --i) {
final PackageParser.Activity receiver = pkg.receivers.get(i);
if ((receiver.info.flags & ActivityInfo.FLAG_SINGLE_USER) != 0) {
receiver.info.exported = false;
}
}
}
// ignore export request for single user services
if (pkg.services != null) {
for (int i = pkg.services.size() - 1; i >= 0; --i) {
final PackageParser.Service service = pkg.services.get(i);
if ((service.info.flags & ServiceInfo.FLAG_SINGLE_USER) != 0) {
service.info.exported = false;
}
}
}
// ignore export request for single user providers
if (pkg.providers != null) {
for (int i = pkg.providers.size() - 1; i >= 0; --i) {
final PackageParser.Provider provider = pkg.providers.get(i);
if ((provider.info.flags & ProviderInfo.FLAG_SINGLE_USER) != 0) {
provider.info.exported = false;
}
}
}
}
if ((scanFlags & SCAN_AS_PRIVILEGED) != 0) {
pkg.applicationInfo.privateFlags |= ApplicationInfo.PRIVATE_FLAG_PRIVILEGED;
}
if ((scanFlags & SCAN_AS_OEM) != 0) {
pkg.applicationInfo.privateFlags |= ApplicationInfo.PRIVATE_FLAG_OEM;
}
if ((scanFlags & SCAN_AS_VENDOR) != 0) {
pkg.applicationInfo.privateFlags |= ApplicationInfo.PRIVATE_FLAG_VENDOR;
}
if ((scanFlags & SCAN_AS_PRODUCT) != 0) {
pkg.applicationInfo.privateFlags |= ApplicationInfo.PRIVATE_FLAG_PRODUCT;
}
// Check if the package is signed with the same key as the platform package.
if (PLATFORM_PACKAGE_NAME.equals(pkg.packageName) ||
(platformPkg != null && compareSignatures(
platformPkg.mSigningDetails.signatures,
pkg.mSigningDetails.signatures) == PackageManager.SIGNATURE_MATCH)) {
pkg.applicationInfo.privateFlags |=
ApplicationInfo.PRIVATE_FLAG_SIGNED_WITH_PLATFORM_KEY;
}
if (!isSystemApp(pkg)) {
// Only system apps can use these features.
pkg.mOriginalPackages = null;
pkg.mRealPackage = null;
pkg.mAdoptPermissions = null;
}
}
private static @NonNull <T> T assertNotNull(@Nullable T object, String message)
throws PackageManagerException {
if (object == null) {
throw new PackageManagerException(INSTALL_FAILED_INTERNAL_ERROR, message);
}
return object;
}
/**
* Asserts the parsed package is valid according to the given policy. If the
* package is invalid, for whatever reason, throws {@link PackageManagerException}.
* <p>
* Implementation detail: This method must NOT have any side effects. It would
* ideally be static, but, it requires locks to read system state.
*
* @throws PackageManagerException If the package fails any of the validation checks
*/
private void assertPackageIsValid(PackageParser.Package pkg, final @ParseFlags int parseFlags,
final @ScanFlags int scanFlags)
throws PackageManagerException {
if ((parseFlags & PackageParser.PARSE_ENFORCE_CODE) != 0) {
assertCodePolicy(pkg);
}
if (pkg.applicationInfo.getCodePath() == null ||
pkg.applicationInfo.getResourcePath() == null) {
// Bail out. The resource and code paths haven't been set.
throw new PackageManagerException(INSTALL_FAILED_INVALID_APK,
"Code and resource paths haven't been set correctly");
}
// Make sure we're not adding any bogus keyset info
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
ksms.assertScannedPackageValid(pkg);
synchronized (mPackages) {
// The special "android" package can only be defined once
if (pkg.packageName.equals("android")) {
if (mAndroidApplication != null) {
Slog.w(TAG, "*************************************************");
Slog.w(TAG, "Core android package being redefined. Skipping.");
Slog.w(TAG, " codePath=" + pkg.codePath);
Slog.w(TAG, "*************************************************");
throw new PackageManagerException(INSTALL_FAILED_DUPLICATE_PACKAGE,
"Core android package being redefined. Skipping.");
}
}
// A package name must be unique; don't allow duplicates
if (mPackages.containsKey(pkg.packageName)) {
throw new PackageManagerException(INSTALL_FAILED_DUPLICATE_PACKAGE,
"Application package " + pkg.packageName
+ " already installed. Skipping duplicate.");
}
if (pkg.applicationInfo.isStaticSharedLibrary()) {
// Static libs have a synthetic package name containing the version
// but we still want the base name to be unique.
if (mPackages.containsKey(pkg.manifestPackageName)) {
throw new PackageManagerException(
"Duplicate static shared lib provider package");
}
// Static shared libraries should have at least O target SDK
if (pkg.applicationInfo.targetSdkVersion < Build.VERSION_CODES.O) {
throw new PackageManagerException(
"Packages declaring static-shared libs must target O SDK or higher");
}
// Package declaring static a shared lib cannot be instant apps
if ((scanFlags & SCAN_AS_INSTANT_APP) != 0) {
throw new PackageManagerException(
"Packages declaring static-shared libs cannot be instant apps");
}
// Package declaring static a shared lib cannot be renamed since the package
// name is synthetic and apps can't code around package manager internals.
if (!ArrayUtils.isEmpty(pkg.mOriginalPackages)) {
throw new PackageManagerException(
"Packages declaring static-shared libs cannot be renamed");
}
// Package declaring static a shared lib cannot declare child packages
if (!ArrayUtils.isEmpty(pkg.childPackages)) {
throw new PackageManagerException(
"Packages declaring static-shared libs cannot have child packages");
}
// Package declaring static a shared lib cannot declare dynamic libs
if (!ArrayUtils.isEmpty(pkg.libraryNames)) {
throw new PackageManagerException(
"Packages declaring static-shared libs cannot declare dynamic libs");
}
// Package declaring static a shared lib cannot declare shared users
if (pkg.mSharedUserId != null) {
throw new PackageManagerException(
"Packages declaring static-shared libs cannot declare shared users");
}
// Static shared libs cannot declare activities
if (!pkg.activities.isEmpty()) {
throw new PackageManagerException(
"Static shared libs cannot declare activities");
}
// Static shared libs cannot declare services
if (!pkg.services.isEmpty()) {
throw new PackageManagerException(
"Static shared libs cannot declare services");
}
// Static shared libs cannot declare providers
if (!pkg.providers.isEmpty()) {
throw new PackageManagerException(
"Static shared libs cannot declare content providers");
}
// Static shared libs cannot declare receivers
if (!pkg.receivers.isEmpty()) {
throw new PackageManagerException(
"Static shared libs cannot declare broadcast receivers");
}
// Static shared libs cannot declare permission groups
if (!pkg.permissionGroups.isEmpty()) {
throw new PackageManagerException(
"Static shared libs cannot declare permission groups");
}
// Static shared libs cannot declare permissions
if (!pkg.permissions.isEmpty()) {
throw new PackageManagerException(
"Static shared libs cannot declare permissions");
}
// Static shared libs cannot declare protected broadcasts
if (pkg.protectedBroadcasts != null) {
throw new PackageManagerException(
"Static shared libs cannot declare protected broadcasts");
}
// Static shared libs cannot be overlay targets
if (pkg.mOverlayTarget != null) {
throw new PackageManagerException(
"Static shared libs cannot be overlay targets");
}
// The version codes must be ordered as lib versions
long minVersionCode = Long.MIN_VALUE;
long maxVersionCode = Long.MAX_VALUE;
LongSparseArray<SharedLibraryEntry> versionedLib = mSharedLibraries.get(
pkg.staticSharedLibName);
if (versionedLib != null) {
final int versionCount = versionedLib.size();
for (int i = 0; i < versionCount; i++) {
SharedLibraryInfo libInfo = versionedLib.valueAt(i).info;
final long libVersionCode = libInfo.getDeclaringPackage()
.getLongVersionCode();
if (libInfo.getLongVersion() < pkg.staticSharedLibVersion) {
minVersionCode = Math.max(minVersionCode, libVersionCode + 1);
} else if (libInfo.getLongVersion() > pkg.staticSharedLibVersion) {
maxVersionCode = Math.min(maxVersionCode, libVersionCode - 1);
} else {
minVersionCode = maxVersionCode = libVersionCode;
break;
}
}
}
if (pkg.getLongVersionCode() < minVersionCode
|| pkg.getLongVersionCode() > maxVersionCode) {
throw new PackageManagerException("Static shared"
+ " lib version codes must be ordered as lib versions");
}
}
// Only privileged apps and updated privileged apps can add child packages.
if (pkg.childPackages != null && !pkg.childPackages.isEmpty()) {
if ((scanFlags & SCAN_AS_PRIVILEGED) == 0) {
throw new PackageManagerException("Only privileged apps can add child "
+ "packages. Ignoring package " + pkg.packageName);
}
final int childCount = pkg.childPackages.size();
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
if (mSettings.hasOtherDisabledSystemPkgWithChildLPr(pkg.packageName,
childPkg.packageName)) {
throw new PackageManagerException("Can't override child of "
+ "another disabled app. Ignoring package " + pkg.packageName);
}
}
}
// If we're only installing presumed-existing packages, require that the
// scanned APK is both already known and at the path previously established
// for it. Previously unknown packages we pick up normally, but if we have an
// a priori expectation about this package's install presence, enforce it.
// With a singular exception for new system packages. When an OTA contains
// a new system package, we allow the codepath to change from a system location
// to the user-installed location. If we don't allow this change, any newer,
// user-installed version of the application will be ignored.
if ((scanFlags & SCAN_REQUIRE_KNOWN) != 0) {
if (mExpectingBetter.containsKey(pkg.packageName)) {
logCriticalInfo(Log.WARN,
"Relax SCAN_REQUIRE_KNOWN requirement for package " + pkg.packageName);
} else {
PackageSetting known = mSettings.getPackageLPr(pkg.packageName);
if (known != null) {
if (DEBUG_PACKAGE_SCANNING) {
Log.d(TAG, "Examining " + pkg.codePath
+ " and requiring known paths " + known.codePathString
+ " & " + known.resourcePathString);
}
if (!pkg.applicationInfo.getCodePath().equals(known.codePathString)
|| !pkg.applicationInfo.getResourcePath().equals(
known.resourcePathString)) {
throw new PackageManagerException(INSTALL_FAILED_PACKAGE_CHANGED,
"Application package " + pkg.packageName
+ " found at " + pkg.applicationInfo.getCodePath()
+ " but expected at " + known.codePathString
+ "; ignoring.");
}
} else {
throw new PackageManagerException(INSTALL_FAILED_INVALID_INSTALL_LOCATION,
"Application package " + pkg.packageName
+ " not found; ignoring.");
}
}
}
// Verify that this new package doesn't have any content providers
// that conflict with existing packages. Only do this if the
// package isn't already installed, since we don't want to break
// things that are installed.
if ((scanFlags & SCAN_NEW_INSTALL) != 0) {
final int N = pkg.providers.size();
int i;
for (i=0; i<N; i++) {
PackageParser.Provider p = pkg.providers.get(i);
if (p.info.authority != null) {
String names[] = p.info.authority.split(";");
for (int j = 0; j < names.length; j++) {
if (mProvidersByAuthority.containsKey(names[j])) {
PackageParser.Provider other = mProvidersByAuthority.get(names[j]);
final String otherPackageName =
((other != null && other.getComponentName() != null) ?
other.getComponentName().getPackageName() : "?");
throw new PackageManagerException(
INSTALL_FAILED_CONFLICTING_PROVIDER,
"Can't install because provider name " + names[j]
+ " (in package " + pkg.applicationInfo.packageName
+ ") is already used by " + otherPackageName);
}
}
}
}
}
// Verify that packages sharing a user with a privileged app are marked as privileged.
if (!pkg.isPrivileged() && (pkg.mSharedUserId != null)) {
SharedUserSetting sharedUserSetting = null;
try {
sharedUserSetting = mSettings.getSharedUserLPw(pkg.mSharedUserId, 0, 0, false);
} catch (PackageManagerException ignore) {}
if (sharedUserSetting != null && sharedUserSetting.isPrivileged()) {
// Exempt SharedUsers signed with the platform key.
PackageSetting platformPkgSetting = mSettings.mPackages.get("android");
if ((platformPkgSetting.signatures.mSigningDetails
!= PackageParser.SigningDetails.UNKNOWN)
&& (compareSignatures(
platformPkgSetting.signatures.mSigningDetails.signatures,
pkg.mSigningDetails.signatures)
!= PackageManager.SIGNATURE_MATCH)) {
throw new PackageManagerException("Apps that share a user with a " +
"privileged app must themselves be marked as privileged. " +
pkg.packageName + " shares privileged user " +
pkg.mSharedUserId + ".");
}
}
}
// Apply policies specific for runtime resource overlays (RROs).
if (pkg.mOverlayTarget != null) {
// System overlays have some restrictions on their use of the 'static' state.
if ((scanFlags & SCAN_AS_SYSTEM) != 0) {
// We are scanning a system overlay. This can be the first scan of the
// system/vendor/oem partition, or an update to the system overlay.
if ((parseFlags & PackageParser.PARSE_IS_SYSTEM_DIR) == 0) {
// This must be an update to a system overlay.
final PackageSetting previousPkg = assertNotNull(
mSettings.getPackageLPr(pkg.packageName),
"previous package state not present");
// previousPkg.pkg may be null: the package will be not be scanned if the
// package manager knows there is a newer version on /data.
// TODO[b/79435695]: Find a better way to keep track of the "static"
// property for RROs instead of having to parse packages on /system
PackageParser.Package ppkg = previousPkg.pkg;
if (ppkg == null) {
try {
final PackageParser pp = new PackageParser();
ppkg = pp.parsePackage(previousPkg.codePath,
parseFlags | PackageParser.PARSE_IS_SYSTEM_DIR);
} catch (PackageParserException e) {
Slog.w(TAG, "failed to parse " + previousPkg.codePath, e);
}
}
// Static overlays cannot be updated.
if (ppkg != null && ppkg.mOverlayIsStatic) {
throw new PackageManagerException("Overlay " + pkg.packageName +
" is static and cannot be upgraded.");
// Non-static overlays cannot be converted to static overlays.
} else if (pkg.mOverlayIsStatic) {
throw new PackageManagerException("Overlay " + pkg.packageName +
" cannot be upgraded into a static overlay.");
}
}
} else {
// The overlay is a non-system overlay. Non-system overlays cannot be static.
if (pkg.mOverlayIsStatic) {
throw new PackageManagerException("Overlay " + pkg.packageName +
" is static but not pre-installed.");
}
// The only case where we allow installation of a non-system overlay is when
// its signature is signed with the platform certificate.
PackageSetting platformPkgSetting = mSettings.getPackageLPr("android");
if ((platformPkgSetting.signatures.mSigningDetails
!= PackageParser.SigningDetails.UNKNOWN)
&& (compareSignatures(
platformPkgSetting.signatures.mSigningDetails.signatures,
pkg.mSigningDetails.signatures)
!= PackageManager.SIGNATURE_MATCH)) {
throw new PackageManagerException("Overlay " + pkg.packageName +
" must be signed with the platform certificate.");
}
}
}
}
}
private boolean addSharedLibraryLPw(String path, String apk, String name, long version,
int type, String declaringPackageName, long declaringVersionCode) {
LongSparseArray<SharedLibraryEntry> versionedLib = mSharedLibraries.get(name);
if (versionedLib == null) {
versionedLib = new LongSparseArray<>();
mSharedLibraries.put(name, versionedLib);
if (type == SharedLibraryInfo.TYPE_STATIC) {
mStaticLibsByDeclaringPackage.put(declaringPackageName, versionedLib);
}
} else if (versionedLib.indexOfKey(version) >= 0) {
return false;
}
SharedLibraryEntry libEntry = new SharedLibraryEntry(path, apk, name,
version, type, declaringPackageName, declaringVersionCode);
versionedLib.put(version, libEntry);
return true;
}
private boolean removeSharedLibraryLPw(String name, long version) {
LongSparseArray<SharedLibraryEntry> versionedLib = mSharedLibraries.get(name);
if (versionedLib == null) {
return false;
}
final int libIdx = versionedLib.indexOfKey(version);
if (libIdx < 0) {
return false;
}
SharedLibraryEntry libEntry = versionedLib.valueAt(libIdx);
versionedLib.remove(version);
if (versionedLib.size() <= 0) {
mSharedLibraries.remove(name);
if (libEntry.info.getType() == SharedLibraryInfo.TYPE_STATIC) {
mStaticLibsByDeclaringPackage.remove(libEntry.info.getDeclaringPackage()
.getPackageName());
}
}
return true;
}
/**
* Adds a scanned package to the system. When this method is finished, the package will
* be available for query, resolution, etc...
*/
private void commitPackageSettings(PackageParser.Package pkg,
@Nullable PackageParser.Package oldPkg, PackageSetting pkgSetting, UserHandle user,
final @ScanFlags int scanFlags, boolean chatty) {
final String pkgName = pkg.packageName;
if (mCustomResolverComponentName != null &&
mCustomResolverComponentName.getPackageName().equals(pkg.packageName)) {
setUpCustomResolverActivity(pkg);
}
if (pkg.packageName.equals("android")) {
synchronized (mPackages) {
if ((scanFlags & SCAN_CHECK_ONLY) == 0) {
// Set up information for our fall-back user intent resolution activity.
mPlatformPackage = pkg;
pkg.mVersionCode = mSdkVersion;
pkg.mVersionCodeMajor = 0;
mAndroidApplication = pkg.applicationInfo;
if (!mResolverReplaced) {
mResolveActivity.applicationInfo = mAndroidApplication;
mResolveActivity.name = ResolverActivity.class.getName();
mResolveActivity.packageName = mAndroidApplication.packageName;
mResolveActivity.processName = "system:ui";
mResolveActivity.launchMode = ActivityInfo.LAUNCH_MULTIPLE;
mResolveActivity.documentLaunchMode = ActivityInfo.DOCUMENT_LAUNCH_NEVER;
mResolveActivity.flags = ActivityInfo.FLAG_EXCLUDE_FROM_RECENTS;
mResolveActivity.theme = R.style.Theme_Material_Dialog_Alert;
mResolveActivity.exported = true;
mResolveActivity.enabled = true;
mResolveActivity.resizeMode = ActivityInfo.RESIZE_MODE_RESIZEABLE;
mResolveActivity.configChanges = ActivityInfo.CONFIG_SCREEN_SIZE
| ActivityInfo.CONFIG_SMALLEST_SCREEN_SIZE
| ActivityInfo.CONFIG_SCREEN_LAYOUT
| ActivityInfo.CONFIG_ORIENTATION
| ActivityInfo.CONFIG_KEYBOARD
| ActivityInfo.CONFIG_KEYBOARD_HIDDEN;
mResolveInfo.activityInfo = mResolveActivity;
mResolveInfo.priority = 0;
mResolveInfo.preferredOrder = 0;
mResolveInfo.match = 0;
mResolveComponentName = new ComponentName(
mAndroidApplication.packageName, mResolveActivity.name);
}
}
}
}
ArrayList<PackageParser.Package> clientLibPkgs = null;
// writer
synchronized (mPackages) {
boolean hasStaticSharedLibs = false;
// Any app can add new static shared libraries
if (pkg.staticSharedLibName != null) {
// Static shared libs don't allow renaming as they have synthetic package
// names to allow install of multiple versions, so use name from manifest.
if (addSharedLibraryLPw(null, pkg.packageName, pkg.staticSharedLibName,
pkg.staticSharedLibVersion, SharedLibraryInfo.TYPE_STATIC,
pkg.manifestPackageName, pkg.getLongVersionCode())) {
hasStaticSharedLibs = true;
} else {
Slog.w(TAG, "Package " + pkg.packageName + " library "
+ pkg.staticSharedLibName + " already exists; skipping");
}
// Static shared libs cannot be updated once installed since they
// use synthetic package name which includes the version code, so
// not need to update other packages's shared lib dependencies.
}
if (!hasStaticSharedLibs
&& (pkg.applicationInfo.flags & ApplicationInfo.FLAG_SYSTEM) != 0) {
// Only system apps can add new dynamic shared libraries.
if (pkg.libraryNames != null) {
for (int i = 0; i < pkg.libraryNames.size(); i++) {
String name = pkg.libraryNames.get(i);
boolean allowed = false;
if (pkg.isUpdatedSystemApp()) {
// New library entries can only be added through the
// system image. This is important to get rid of a lot
// of nasty edge cases: for example if we allowed a non-
// system update of the app to add a library, then uninstalling
// the update would make the library go away, and assumptions
// we made such as through app install filtering would now
// have allowed apps on the device which aren't compatible
// with it. Better to just have the restriction here, be
// conservative, and create many fewer cases that can negatively
// impact the user experience.
final PackageSetting sysPs = mSettings
.getDisabledSystemPkgLPr(pkg.packageName);
if (sysPs.pkg != null && sysPs.pkg.libraryNames != null) {
for (int j = 0; j < sysPs.pkg.libraryNames.size(); j++) {
if (name.equals(sysPs.pkg.libraryNames.get(j))) {
allowed = true;
break;
}
}
}
} else {
allowed = true;
}
if (allowed) {
if (!addSharedLibraryLPw(null, pkg.packageName, name,
SharedLibraryInfo.VERSION_UNDEFINED,
SharedLibraryInfo.TYPE_DYNAMIC,
pkg.packageName, pkg.getLongVersionCode())) {
Slog.w(TAG, "Package " + pkg.packageName + " library "
+ name + " already exists; skipping");
}
} else {
Slog.w(TAG, "Package " + pkg.packageName + " declares lib "
+ name + " that is not declared on system image; skipping");
}
}
if ((scanFlags & SCAN_BOOTING) == 0) {
// If we are not booting, we need to update any applications
// that are clients of our shared library. If we are booting,
// this will all be done once the scan is complete.
clientLibPkgs = updateAllSharedLibrariesLPw(pkg);
}
}
}
}
if ((scanFlags & SCAN_BOOTING) != 0) {
// No apps can run during boot scan, so they don't need to be frozen
} else if ((scanFlags & SCAN_DONT_KILL_APP) != 0) {
// Caller asked to not kill app, so it's probably not frozen
} else if ((scanFlags & SCAN_IGNORE_FROZEN) != 0) {
// Caller asked us to ignore frozen check for some reason; they
// probably didn't know the package name
} else {
// We're doing major surgery on this package, so it better be frozen
// right now to keep it from launching
checkPackageFrozen(pkgName);
}
// Also need to kill any apps that are dependent on the library.
if (clientLibPkgs != null) {
for (int i=0; i<clientLibPkgs.size(); i++) {
PackageParser.Package clientPkg = clientLibPkgs.get(i);
killApplication(clientPkg.applicationInfo.packageName,
clientPkg.applicationInfo.uid, "update lib");
}
}
// writer
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "updateSettings");
synchronized (mPackages) {
// We don't expect installation to fail beyond this point
// Add the new setting to mSettings
mSettings.insertPackageSettingLPw(pkgSetting, pkg);
// Add the new setting to mPackages
mPackages.put(pkg.applicationInfo.packageName, pkg);
// Make sure we don't accidentally delete its data.
final Iterator<PackageCleanItem> iter = mSettings.mPackagesToBeCleaned.iterator();
while (iter.hasNext()) {
PackageCleanItem item = iter.next();
if (pkgName.equals(item.packageName)) {
iter.remove();
}
}
// Add the package's KeySets to the global KeySetManagerService
KeySetManagerService ksms = mSettings.mKeySetManagerService;
ksms.addScannedPackageLPw(pkg);
int N = pkg.providers.size();
StringBuilder r = null;
int i;
for (i=0; i<N; i++) {
PackageParser.Provider p = pkg.providers.get(i);
p.info.processName = fixProcessName(pkg.applicationInfo.processName,
p.info.processName);
mProviders.addProvider(p);
p.syncable = p.info.isSyncable;
if (p.info.authority != null) {
String names[] = p.info.authority.split(";");
p.info.authority = null;
for (int j = 0; j < names.length; j++) {
if (j == 1 && p.syncable) {
// We only want the first authority for a provider to possibly be
// syncable, so if we already added this provider using a different
// authority clear the syncable flag. We copy the provider before
// changing it because the mProviders object contains a reference
// to a provider that we don't want to change.
// Only do this for the second authority since the resulting provider
// object can be the same for all future authorities for this provider.
p = new PackageParser.Provider(p);
p.syncable = false;
}
if (!mProvidersByAuthority.containsKey(names[j])) {
mProvidersByAuthority.put(names[j], p);
if (p.info.authority == null) {
p.info.authority = names[j];
} else {
p.info.authority = p.info.authority + ";" + names[j];
}
if (DEBUG_PACKAGE_SCANNING) {
if (chatty)
Log.d(TAG, "Registered content provider: " + names[j]
+ ", className = " + p.info.name + ", isSyncable = "
+ p.info.isSyncable);
}
} else {
PackageParser.Provider other = mProvidersByAuthority.get(names[j]);
Slog.w(TAG, "Skipping provider name " + names[j] +
" (in package " + pkg.applicationInfo.packageName +
"): name already used by "
+ ((other != null && other.getComponentName() != null)
? other.getComponentName().getPackageName() : "?"));
}
}
}
if (chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(p.info.name);
}
}
if (r != null) {
if (DEBUG_PACKAGE_SCANNING) Log.d(TAG, " Providers: " + r);
}
N = pkg.services.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Service s = pkg.services.get(i);
s.info.processName = fixProcessName(pkg.applicationInfo.processName,
s.info.processName);
mServices.addService(s);
if (chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(s.info.name);
}
}
if (r != null) {
if (DEBUG_PACKAGE_SCANNING) Log.d(TAG, " Services: " + r);
}
N = pkg.receivers.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Activity a = pkg.receivers.get(i);
a.info.processName = fixProcessName(pkg.applicationInfo.processName,
a.info.processName);
mReceivers.addActivity(a, "receiver");
if (chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(a.info.name);
}
}
if (r != null) {
if (DEBUG_PACKAGE_SCANNING) Log.d(TAG, " Receivers: " + r);
}
N = pkg.activities.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Activity a = pkg.activities.get(i);
a.info.processName = fixProcessName(pkg.applicationInfo.processName,
a.info.processName);
mActivities.addActivity(a, "activity");
if (chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(a.info.name);
}
}
if (r != null) {
if (DEBUG_PACKAGE_SCANNING) Log.d(TAG, " Activities: " + r);
}
// Don't allow ephemeral applications to define new permissions groups.
if ((scanFlags & SCAN_AS_INSTANT_APP) != 0) {
Slog.w(TAG, "Permission groups from package " + pkg.packageName
+ " ignored: instant apps cannot define new permission groups.");
} else {
mPermissionManager.addAllPermissionGroups(pkg, chatty);
}
// Don't allow ephemeral applications to define new permissions.
if ((scanFlags & SCAN_AS_INSTANT_APP) != 0) {
Slog.w(TAG, "Permissions from package " + pkg.packageName
+ " ignored: instant apps cannot define new permissions.");
} else {
mPermissionManager.addAllPermissions(pkg, chatty);
}
N = pkg.instrumentation.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Instrumentation a = pkg.instrumentation.get(i);
a.info.packageName = pkg.applicationInfo.packageName;
a.info.sourceDir = pkg.applicationInfo.sourceDir;
a.info.publicSourceDir = pkg.applicationInfo.publicSourceDir;
a.info.splitNames = pkg.splitNames;
a.info.splitSourceDirs = pkg.applicationInfo.splitSourceDirs;
a.info.splitPublicSourceDirs = pkg.applicationInfo.splitPublicSourceDirs;
a.info.splitDependencies = pkg.applicationInfo.splitDependencies;
a.info.dataDir = pkg.applicationInfo.dataDir;
a.info.deviceProtectedDataDir = pkg.applicationInfo.deviceProtectedDataDir;
a.info.credentialProtectedDataDir = pkg.applicationInfo.credentialProtectedDataDir;
a.info.primaryCpuAbi = pkg.applicationInfo.primaryCpuAbi;
a.info.secondaryCpuAbi = pkg.applicationInfo.secondaryCpuAbi;
a.info.nativeLibraryDir = pkg.applicationInfo.nativeLibraryDir;
a.info.secondaryNativeLibraryDir = pkg.applicationInfo.secondaryNativeLibraryDir;
mInstrumentation.put(a.getComponentName(), a);
if (chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(a.info.name);
}
}
if (r != null) {
if (DEBUG_PACKAGE_SCANNING) Log.d(TAG, " Instrumentation: " + r);
}
if (pkg.protectedBroadcasts != null) {
N = pkg.protectedBroadcasts.size();
synchronized (mProtectedBroadcasts) {
for (i = 0; i < N; i++) {
mProtectedBroadcasts.add(pkg.protectedBroadcasts.get(i));
}
}
}
if (oldPkg != null) {
// We need to call revokeRuntimePermissionsIfGroupChanged async as permission
// revoke callbacks from this method might need to kill apps which need the
// mPackages lock on a different thread. This would dead lock.
//
// Hence create a copy of all package names and pass it into
// revokeRuntimePermissionsIfGroupChanged. Only for those permissions might get
// revoked. If a new package is added before the async code runs the permission
// won't be granted yet, hence new packages are no problem.
final ArrayList<String> allPackageNames = new ArrayList<>(mPackages.keySet());
AsyncTask.execute(() ->
mPermissionManager.revokeRuntimePermissionsIfGroupChanged(pkg, oldPkg,
allPackageNames, mPermissionCallback));
}
}
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
/**
* Derive the ABI of a non-system package located at {@code scanFile}. This information
* is derived purely on the basis of the contents of {@code scanFile} and
* {@code cpuAbiOverride}.
*
* If {@code extractLibs} is true, native libraries are extracted from the app if required.
*/
private static void derivePackageAbi(PackageParser.Package pkg, String cpuAbiOverride,
boolean extractLibs)
throws PackageManagerException {
// Give ourselves some initial paths; we'll come back for another
// pass once we've determined ABI below.
setNativeLibraryPaths(pkg, sAppLib32InstallDir);
// We would never need to extract libs for forward-locked and external packages,
// since the container service will do it for us. We shouldn't attempt to
// extract libs from system app when it was not updated.
if (pkg.isForwardLocked() || pkg.applicationInfo.isExternalAsec() ||
(isSystemApp(pkg) && !pkg.isUpdatedSystemApp())) {
extractLibs = false;
}
final String nativeLibraryRootStr = pkg.applicationInfo.nativeLibraryRootDir;
final boolean useIsaSpecificSubdirs = pkg.applicationInfo.nativeLibraryRootRequiresIsa;
NativeLibraryHelper.Handle handle = null;
try {
handle = NativeLibraryHelper.Handle.create(pkg);
// TODO(multiArch): This can be null for apps that didn't go through the
// usual installation process. We can calculate it again, like we
// do during install time.
//
// TODO(multiArch): Why do we need to rescan ASEC apps again ? It seems totally
// unnecessary.
final File nativeLibraryRoot = new File(nativeLibraryRootStr);
// Null out the abis so that they can be recalculated.
pkg.applicationInfo.primaryCpuAbi = null;
pkg.applicationInfo.secondaryCpuAbi = null;
if (isMultiArch(pkg.applicationInfo)) {
// Warn if we've set an abiOverride for multi-lib packages..
// By definition, we need to copy both 32 and 64 bit libraries for
// such packages.
if (pkg.cpuAbiOverride != null
&& !NativeLibraryHelper.CLEAR_ABI_OVERRIDE.equals(pkg.cpuAbiOverride)) {
Slog.w(TAG, "Ignoring abiOverride for multi arch application.");
}
int abi32 = PackageManager.NO_NATIVE_LIBRARIES;
int abi64 = PackageManager.NO_NATIVE_LIBRARIES;
if (Build.SUPPORTED_32_BIT_ABIS.length > 0) {
if (extractLibs) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "copyNativeBinaries");
abi32 = NativeLibraryHelper.copyNativeBinariesForSupportedAbi(handle,
nativeLibraryRoot, Build.SUPPORTED_32_BIT_ABIS,
useIsaSpecificSubdirs);
} else {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "findSupportedAbi");
abi32 = NativeLibraryHelper.findSupportedAbi(handle, Build.SUPPORTED_32_BIT_ABIS);
}
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
// Shared library native code should be in the APK zip aligned
if (abi32 >= 0 && pkg.isLibrary() && extractLibs) {
throw new PackageManagerException(INSTALL_FAILED_INTERNAL_ERROR,
"Shared library native lib extraction not supported");
}
maybeThrowExceptionForMultiArchCopy(
"Error unpackaging 32 bit native libs for multiarch app.", abi32);
if (Build.SUPPORTED_64_BIT_ABIS.length > 0) {
if (extractLibs) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "copyNativeBinaries");
abi64 = NativeLibraryHelper.copyNativeBinariesForSupportedAbi(handle,
nativeLibraryRoot, Build.SUPPORTED_64_BIT_ABIS,
useIsaSpecificSubdirs);
} else {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "findSupportedAbi");
abi64 = NativeLibraryHelper.findSupportedAbi(handle, Build.SUPPORTED_64_BIT_ABIS);
}
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
maybeThrowExceptionForMultiArchCopy(
"Error unpackaging 64 bit native libs for multiarch app.", abi64);
if (abi64 >= 0) {
// Shared library native libs should be in the APK zip aligned
if (extractLibs && pkg.isLibrary()) {
throw new PackageManagerException(INSTALL_FAILED_INTERNAL_ERROR,
"Shared library native lib extraction not supported");
}
pkg.applicationInfo.primaryCpuAbi = Build.SUPPORTED_64_BIT_ABIS[abi64];
}
if (abi32 >= 0) {
final String abi = Build.SUPPORTED_32_BIT_ABIS[abi32];
if (abi64 >= 0) {
if (pkg.use32bitAbi) {
pkg.applicationInfo.secondaryCpuAbi = pkg.applicationInfo.primaryCpuAbi;
pkg.applicationInfo.primaryCpuAbi = abi;
} else {
pkg.applicationInfo.secondaryCpuAbi = abi;
}
} else {
pkg.applicationInfo.primaryCpuAbi = abi;
}
}
} else {
String[] abiList = (cpuAbiOverride != null) ?
new String[] { cpuAbiOverride } : Build.SUPPORTED_ABIS;
// Enable gross and lame hacks for apps that are built with old
// SDK tools. We must scan their APKs for renderscript bitcode and
// not launch them if it's present. Don't bother checking on devices
// that don't have 64 bit support.
boolean needsRenderScriptOverride = false;
if (Build.SUPPORTED_64_BIT_ABIS.length > 0 && cpuAbiOverride == null &&
NativeLibraryHelper.hasRenderscriptBitcode(handle)) {
abiList = Build.SUPPORTED_32_BIT_ABIS;
needsRenderScriptOverride = true;
}
final int copyRet;
if (extractLibs) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "copyNativeBinaries");
copyRet = NativeLibraryHelper.copyNativeBinariesForSupportedAbi(handle,
nativeLibraryRoot, abiList, useIsaSpecificSubdirs);
} else {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "findSupportedAbi");
copyRet = NativeLibraryHelper.findSupportedAbi(handle, abiList);
}
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
if (copyRet < 0 && copyRet != PackageManager.NO_NATIVE_LIBRARIES) {
throw new PackageManagerException(INSTALL_FAILED_INTERNAL_ERROR,
"Error unpackaging native libs for app, errorCode=" + copyRet);
}
if (copyRet >= 0) {
// Shared libraries that have native libs must be multi-architecture
if (pkg.isLibrary()) {
throw new PackageManagerException(INSTALL_FAILED_INTERNAL_ERROR,
"Shared library with native libs must be multiarch");
}
pkg.applicationInfo.primaryCpuAbi = abiList[copyRet];
} else if (copyRet == PackageManager.NO_NATIVE_LIBRARIES && cpuAbiOverride != null) {
pkg.applicationInfo.primaryCpuAbi = cpuAbiOverride;
} else if (needsRenderScriptOverride) {
pkg.applicationInfo.primaryCpuAbi = abiList[0];
}
}
} catch (IOException ioe) {
Slog.e(TAG, "Unable to get canonical file " + ioe.toString());
} finally {
IoUtils.closeQuietly(handle);
}
// Now that we've calculated the ABIs and determined if it's an internal app,
// we will go ahead and populate the nativeLibraryPath.
setNativeLibraryPaths(pkg, sAppLib32InstallDir);
}
/**
* Adjusts ABIs for a set of packages belonging to a shared user so that they all match.
* i.e, so that all packages can be run inside a single process if required.
*
* Optionally, callers can pass in a parsed package via {@code newPackage} in which case
* this function will either try and make the ABI for all packages in {@code packagesForUser}
* match {@code scannedPackage} or will update the ABI of {@code scannedPackage} to match
* the ABI selected for {@code packagesForUser}. This variant is used when installing or
* updating a package that belongs to a shared user.
*
* NOTE: We currently only match for the primary CPU abi string. Matching the secondary
* adds unnecessary complexity.
*/
private static @Nullable List<String> adjustCpuAbisForSharedUserLPw(
Set<PackageSetting> packagesForUser, PackageParser.Package scannedPackage) {
List<String> changedAbiCodePath = null;
String requiredInstructionSet = null;
if (scannedPackage != null && scannedPackage.applicationInfo.primaryCpuAbi != null) {
requiredInstructionSet = VMRuntime.getInstructionSet(
scannedPackage.applicationInfo.primaryCpuAbi);
}
PackageSetting requirer = null;
for (PackageSetting ps : packagesForUser) {
// If packagesForUser contains scannedPackage, we skip it. This will happen
// when scannedPackage is an update of an existing package. Without this check,
// we will never be able to change the ABI of any package belonging to a shared
// user, even if it's compatible with other packages.
if (scannedPackage == null || !scannedPackage.packageName.equals(ps.name)) {
if (ps.primaryCpuAbiString == null) {
continue;
}
final String instructionSet = VMRuntime.getInstructionSet(ps.primaryCpuAbiString);
if (requiredInstructionSet != null && !instructionSet.equals(requiredInstructionSet)) {
// We have a mismatch between instruction sets (say arm vs arm64) warn about
// this but there's not much we can do.
String errorMessage = "Instruction set mismatch, "
+ ((requirer == null) ? "[caller]" : requirer)
+ " requires " + requiredInstructionSet + " whereas " + ps
+ " requires " + instructionSet;
Slog.w(TAG, errorMessage);
}
if (requiredInstructionSet == null) {
requiredInstructionSet = instructionSet;
requirer = ps;
}
}
}
if (requiredInstructionSet != null) {
String adjustedAbi;
if (requirer != null) {
// requirer != null implies that either scannedPackage was null or that scannedPackage
// did not require an ABI, in which case we have to adjust scannedPackage to match
// the ABI of the set (which is the same as requirer's ABI)
adjustedAbi = requirer.primaryCpuAbiString;
if (scannedPackage != null) {
scannedPackage.applicationInfo.primaryCpuAbi = adjustedAbi;
}
} else {
// requirer == null implies that we're updating all ABIs in the set to
// match scannedPackage.
adjustedAbi = scannedPackage.applicationInfo.primaryCpuAbi;
}
for (PackageSetting ps : packagesForUser) {
if (scannedPackage == null || !scannedPackage.packageName.equals(ps.name)) {
if (ps.primaryCpuAbiString != null) {
continue;
}
ps.primaryCpuAbiString = adjustedAbi;
if (ps.pkg != null && ps.pkg.applicationInfo != null &&
!TextUtils.equals(adjustedAbi, ps.pkg.applicationInfo.primaryCpuAbi)) {
ps.pkg.applicationInfo.primaryCpuAbi = adjustedAbi;
if (DEBUG_ABI_SELECTION) {
Slog.i(TAG, "Adjusting ABI for " + ps.name + " to " + adjustedAbi
+ " (requirer="
+ (requirer != null ? requirer.pkg : "null")
+ ", scannedPackage="
+ (scannedPackage != null ? scannedPackage : "null")
+ ")");
}
if (changedAbiCodePath == null) {
changedAbiCodePath = new ArrayList<>();
}
changedAbiCodePath.add(ps.codePathString);
}
}
}
}
return changedAbiCodePath;
}
private void setUpCustomResolverActivity(PackageParser.Package pkg) {
synchronized (mPackages) {
mResolverReplaced = true;
// Set up information for custom user intent resolution activity.
mResolveActivity.applicationInfo = pkg.applicationInfo;
mResolveActivity.name = mCustomResolverComponentName.getClassName();
mResolveActivity.packageName = pkg.applicationInfo.packageName;
mResolveActivity.processName = pkg.applicationInfo.packageName;
mResolveActivity.launchMode = ActivityInfo.LAUNCH_MULTIPLE;
mResolveActivity.flags = ActivityInfo.FLAG_EXCLUDE_FROM_RECENTS |
ActivityInfo.FLAG_FINISH_ON_CLOSE_SYSTEM_DIALOGS;
mResolveActivity.theme = 0;
mResolveActivity.exported = true;
mResolveActivity.enabled = true;
mResolveInfo.activityInfo = mResolveActivity;
mResolveInfo.priority = 0;
mResolveInfo.preferredOrder = 0;
mResolveInfo.match = 0;
mResolveComponentName = mCustomResolverComponentName;
Slog.i(TAG, "Replacing default ResolverActivity with custom activity: " +
mResolveComponentName);
}
}
private void setUpInstantAppInstallerActivityLP(ActivityInfo installerActivity) {
if (installerActivity == null) {
if (DEBUG_INSTANT) {
Slog.d(TAG, "Clear ephemeral installer activity");
}
mInstantAppInstallerActivity = null;
return;
}
if (DEBUG_INSTANT) {
Slog.d(TAG, "Set ephemeral installer activity: "
+ installerActivity.getComponentName());
}
// Set up information for ephemeral installer activity
mInstantAppInstallerActivity = installerActivity;
mInstantAppInstallerActivity.flags |= ActivityInfo.FLAG_EXCLUDE_FROM_RECENTS
| ActivityInfo.FLAG_FINISH_ON_CLOSE_SYSTEM_DIALOGS;
mInstantAppInstallerActivity.exported = true;
mInstantAppInstallerActivity.enabled = true;
mInstantAppInstallerInfo.activityInfo = mInstantAppInstallerActivity;
mInstantAppInstallerInfo.priority = 1;
mInstantAppInstallerInfo.preferredOrder = 1;
mInstantAppInstallerInfo.isDefault = true;
mInstantAppInstallerInfo.match = IntentFilter.MATCH_CATEGORY_SCHEME_SPECIFIC_PART
| IntentFilter.MATCH_ADJUSTMENT_NORMAL;
}
private static String calculateBundledApkRoot(final String codePathString) {
final File codePath = new File(codePathString);
final File codeRoot;
if (FileUtils.contains(Environment.getRootDirectory(), codePath)) {
codeRoot = Environment.getRootDirectory();
} else if (FileUtils.contains(Environment.getOemDirectory(), codePath)) {
codeRoot = Environment.getOemDirectory();
} else if (FileUtils.contains(Environment.getVendorDirectory(), codePath)) {
codeRoot = Environment.getVendorDirectory();
} else if (FileUtils.contains(Environment.getOdmDirectory(), codePath)) {
codeRoot = Environment.getOdmDirectory();
} else if (FileUtils.contains(Environment.getProductDirectory(), codePath)) {
codeRoot = Environment.getProductDirectory();
} else {
// Unrecognized code path; take its top real segment as the apk root:
// e.g. /something/app/blah.apk => /something
try {
File f = codePath.getCanonicalFile();
File parent = f.getParentFile(); // non-null because codePath is a file
File tmp;
while ((tmp = parent.getParentFile()) != null) {
f = parent;
parent = tmp;
}
codeRoot = f;
Slog.w(TAG, "Unrecognized code path "
+ codePath + " - using " + codeRoot);
} catch (IOException e) {
// Can't canonicalize the code path -- shenanigans?
Slog.w(TAG, "Can't canonicalize code path " + codePath);
return Environment.getRootDirectory().getPath();
}
}
return codeRoot.getPath();
}
/**
* Derive and set the location of native libraries for the given package,
* which varies depending on where and how the package was installed.
*/
private static void setNativeLibraryPaths(PackageParser.Package pkg, File appLib32InstallDir) {
final ApplicationInfo info = pkg.applicationInfo;
final String codePath = pkg.codePath;
final File codeFile = new File(codePath);
final boolean bundledApp = info.isSystemApp() && !info.isUpdatedSystemApp();
final boolean asecApp = info.isForwardLocked() || info.isExternalAsec();
info.nativeLibraryRootDir = null;
info.nativeLibraryRootRequiresIsa = false;
info.nativeLibraryDir = null;
info.secondaryNativeLibraryDir = null;
if (isApkFile(codeFile)) {
// Monolithic install
if (bundledApp) {
// If "/system/lib64/apkname" exists, assume that is the per-package
// native library directory to use; otherwise use "/system/lib/apkname".
final String apkRoot = calculateBundledApkRoot(info.sourceDir);
final boolean is64Bit = VMRuntime.is64BitInstructionSet(
getPrimaryInstructionSet(info));
// This is a bundled system app so choose the path based on the ABI.
// if it's a 64 bit abi, use lib64 otherwise use lib32. Note that this
// is just the default path.
final String apkName = deriveCodePathName(codePath);
final String libDir = is64Bit ? LIB64_DIR_NAME : LIB_DIR_NAME;
info.nativeLibraryRootDir = Environment.buildPath(new File(apkRoot), libDir,
apkName).getAbsolutePath();
if (info.secondaryCpuAbi != null) {
final String secondaryLibDir = is64Bit ? LIB_DIR_NAME : LIB64_DIR_NAME;
info.secondaryNativeLibraryDir = Environment.buildPath(new File(apkRoot),
secondaryLibDir, apkName).getAbsolutePath();
}
} else if (asecApp) {
info.nativeLibraryRootDir = new File(codeFile.getParentFile(), LIB_DIR_NAME)
.getAbsolutePath();
} else {
final String apkName = deriveCodePathName(codePath);
info.nativeLibraryRootDir = new File(appLib32InstallDir, apkName)
.getAbsolutePath();
}
info.nativeLibraryRootRequiresIsa = false;
info.nativeLibraryDir = info.nativeLibraryRootDir;
} else {
// Cluster install
info.nativeLibraryRootDir = new File(codeFile, LIB_DIR_NAME).getAbsolutePath();
info.nativeLibraryRootRequiresIsa = true;
info.nativeLibraryDir = new File(info.nativeLibraryRootDir,
getPrimaryInstructionSet(info)).getAbsolutePath();
if (info.secondaryCpuAbi != null) {
info.secondaryNativeLibraryDir = new File(info.nativeLibraryRootDir,
VMRuntime.getInstructionSet(info.secondaryCpuAbi)).getAbsolutePath();
}
}
}
/**
* Calculate the abis and roots for a bundled app. These can uniquely
* be determined from the contents of the system partition, i.e whether
* it contains 64 or 32 bit shared libraries etc. We do not validate any
* of this information, and instead assume that the system was built
* sensibly.
*/
private static void setBundledAppAbisAndRoots(PackageParser.Package pkg,
PackageSetting pkgSetting) {
final String apkName = deriveCodePathName(pkg.applicationInfo.getCodePath());
// If "/system/lib64/apkname" exists, assume that is the per-package
// native library directory to use; otherwise use "/system/lib/apkname".
final String apkRoot = calculateBundledApkRoot(pkg.applicationInfo.sourceDir);
setBundledAppAbi(pkg, apkRoot, apkName);
// pkgSetting might be null during rescan following uninstall of updates
// to a bundled app, so accommodate that possibility. The settings in
// that case will be established later from the parsed package.
//
// If the settings aren't null, sync them up with what we've just derived.
// note that apkRoot isn't stored in the package settings.
if (pkgSetting != null) {
pkgSetting.primaryCpuAbiString = pkg.applicationInfo.primaryCpuAbi;
pkgSetting.secondaryCpuAbiString = pkg.applicationInfo.secondaryCpuAbi;
}
}
/**
* Deduces the ABI of a bundled app and sets the relevant fields on the
* parsed pkg object.
*
* @param apkRoot the root of the installed apk, something like {@code /system} or {@code /oem}
* under which system libraries are installed.
* @param apkName the name of the installed package.
*/
private static void setBundledAppAbi(PackageParser.Package pkg, String apkRoot, String apkName) {
final File codeFile = new File(pkg.codePath);
final boolean has64BitLibs;
final boolean has32BitLibs;
if (isApkFile(codeFile)) {
// Monolithic install
has64BitLibs = (new File(apkRoot, new File(LIB64_DIR_NAME, apkName).getPath())).exists();
has32BitLibs = (new File(apkRoot, new File(LIB_DIR_NAME, apkName).getPath())).exists();
} else {
// Cluster install
final File rootDir = new File(codeFile, LIB_DIR_NAME);
if (!ArrayUtils.isEmpty(Build.SUPPORTED_64_BIT_ABIS)
&& !TextUtils.isEmpty(Build.SUPPORTED_64_BIT_ABIS[0])) {
final String isa = VMRuntime.getInstructionSet(Build.SUPPORTED_64_BIT_ABIS[0]);
has64BitLibs = (new File(rootDir, isa)).exists();
} else {
has64BitLibs = false;
}
if (!ArrayUtils.isEmpty(Build.SUPPORTED_32_BIT_ABIS)
&& !TextUtils.isEmpty(Build.SUPPORTED_32_BIT_ABIS[0])) {
final String isa = VMRuntime.getInstructionSet(Build.SUPPORTED_32_BIT_ABIS[0]);
has32BitLibs = (new File(rootDir, isa)).exists();
} else {
has32BitLibs = false;
}
}
if (has64BitLibs && !has32BitLibs) {
// The package has 64 bit libs, but not 32 bit libs. Its primary
// ABI should be 64 bit. We can safely assume here that the bundled
// native libraries correspond to the most preferred ABI in the list.
pkg.applicationInfo.primaryCpuAbi = Build.SUPPORTED_64_BIT_ABIS[0];
pkg.applicationInfo.secondaryCpuAbi = null;
} else if (has32BitLibs && !has64BitLibs) {
// The package has 32 bit libs but not 64 bit libs. Its primary
// ABI should be 32 bit.
pkg.applicationInfo.primaryCpuAbi = Build.SUPPORTED_32_BIT_ABIS[0];
pkg.applicationInfo.secondaryCpuAbi = null;
} else if (has32BitLibs && has64BitLibs) {
// The application has both 64 and 32 bit bundled libraries. We check
// here that the app declares multiArch support, and warn if it doesn't.
//
// We will be lenient here and record both ABIs. The primary will be the
// ABI that's higher on the list, i.e, a device that's configured to prefer
// 64 bit apps will see a 64 bit primary ABI,
if ((pkg.applicationInfo.flags & ApplicationInfo.FLAG_MULTIARCH) == 0) {
Slog.e(TAG, "Package " + pkg + " has multiple bundled libs, but is not multiarch.");
}
if (VMRuntime.is64BitInstructionSet(getPreferredInstructionSet())) {
pkg.applicationInfo.primaryCpuAbi = Build.SUPPORTED_64_BIT_ABIS[0];
pkg.applicationInfo.secondaryCpuAbi = Build.SUPPORTED_32_BIT_ABIS[0];
} else {
pkg.applicationInfo.primaryCpuAbi = Build.SUPPORTED_32_BIT_ABIS[0];
pkg.applicationInfo.secondaryCpuAbi = Build.SUPPORTED_64_BIT_ABIS[0];
}
} else {
pkg.applicationInfo.primaryCpuAbi = null;
pkg.applicationInfo.secondaryCpuAbi = null;
}
}
private void killApplication(String pkgName, int appId, String reason) {
killApplication(pkgName, appId, UserHandle.USER_ALL, reason);
}
private void killApplication(String pkgName, int appId, int userId, String reason) {
// Request the ActivityManager to kill the process(only for existing packages)
// so that we do not end up in a confused state while the user is still using the older
// version of the application while the new one gets installed.
final long token = Binder.clearCallingIdentity();
try {
IActivityManager am = ActivityManager.getService();
if (am != null) {
try {
am.killApplication(pkgName, appId, userId, reason);
} catch (RemoteException e) {
}
}
} finally {
Binder.restoreCallingIdentity(token);
}
}
private void removePackageLI(PackageParser.Package pkg, boolean chatty) {
// Remove the parent package setting
PackageSetting ps = (PackageSetting) pkg.mExtras;
if (ps != null) {
removePackageLI(ps, chatty);
}
// Remove the child package setting
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
ps = (PackageSetting) childPkg.mExtras;
if (ps != null) {
removePackageLI(ps, chatty);
}
}
}
void removePackageLI(PackageSetting ps, boolean chatty) {
if (DEBUG_INSTALL) {
if (chatty)
Log.d(TAG, "Removing package " + ps.name);
}
// writer
synchronized (mPackages) {
mPackages.remove(ps.name);
final PackageParser.Package pkg = ps.pkg;
if (pkg != null) {
cleanPackageDataStructuresLILPw(pkg, chatty);
}
}
}
void removeInstalledPackageLI(PackageParser.Package pkg, boolean chatty) {
if (DEBUG_INSTALL) {
if (chatty)
Log.d(TAG, "Removing package " + pkg.applicationInfo.packageName);
}
// writer
synchronized (mPackages) {
// Remove the parent package
mPackages.remove(pkg.applicationInfo.packageName);
cleanPackageDataStructuresLILPw(pkg, chatty);
// Remove the child packages
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
mPackages.remove(childPkg.applicationInfo.packageName);
cleanPackageDataStructuresLILPw(childPkg, chatty);
}
}
}
void cleanPackageDataStructuresLILPw(PackageParser.Package pkg, boolean chatty) {
int N = pkg.providers.size();
StringBuilder r = null;
int i;
for (i=0; i<N; i++) {
PackageParser.Provider p = pkg.providers.get(i);
mProviders.removeProvider(p);
if (p.info.authority == null) {
/* There was another ContentProvider with this authority when
* this app was installed so this authority is null,
* Ignore it as we don't have to unregister the provider.
*/
continue;
}
String names[] = p.info.authority.split(";");
for (int j = 0; j < names.length; j++) {
if (mProvidersByAuthority.get(names[j]) == p) {
mProvidersByAuthority.remove(names[j]);
if (DEBUG_REMOVE) {
if (chatty)
Log.d(TAG, "Unregistered content provider: " + names[j]
+ ", className = " + p.info.name + ", isSyncable = "
+ p.info.isSyncable);
}
}
}
if (DEBUG_REMOVE && chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(p.info.name);
}
}
if (r != null) {
if (DEBUG_REMOVE) Log.d(TAG, " Providers: " + r);
}
N = pkg.services.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Service s = pkg.services.get(i);
mServices.removeService(s);
if (chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(s.info.name);
}
}
if (r != null) {
if (DEBUG_REMOVE) Log.d(TAG, " Services: " + r);
}
N = pkg.receivers.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Activity a = pkg.receivers.get(i);
mReceivers.removeActivity(a, "receiver");
if (DEBUG_REMOVE && chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(a.info.name);
}
}
if (r != null) {
if (DEBUG_REMOVE) Log.d(TAG, " Receivers: " + r);
}
N = pkg.activities.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Activity a = pkg.activities.get(i);
mActivities.removeActivity(a, "activity");
if (DEBUG_REMOVE && chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(a.info.name);
}
}
if (r != null) {
if (DEBUG_REMOVE) Log.d(TAG, " Activities: " + r);
}
mPermissionManager.removeAllPermissions(pkg, chatty);
N = pkg.instrumentation.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Instrumentation a = pkg.instrumentation.get(i);
mInstrumentation.remove(a.getComponentName());
if (DEBUG_REMOVE && chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(a.info.name);
}
}
if (r != null) {
if (DEBUG_REMOVE) Log.d(TAG, " Instrumentation: " + r);
}
r = null;
if ((pkg.applicationInfo.flags&ApplicationInfo.FLAG_SYSTEM) != 0) {
// Only system apps can hold shared libraries.
if (pkg.libraryNames != null) {
for (i = 0; i < pkg.libraryNames.size(); i++) {
String name = pkg.libraryNames.get(i);
if (removeSharedLibraryLPw(name, 0)) {
if (DEBUG_REMOVE && chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(name);
}
}
}
}
}
r = null;
// Any package can hold static shared libraries.
if (pkg.staticSharedLibName != null) {
if (removeSharedLibraryLPw(pkg.staticSharedLibName, pkg.staticSharedLibVersion)) {
if (DEBUG_REMOVE && chatty) {
if (r == null) {
r = new StringBuilder(256);
} else {
r.append(' ');
}
r.append(pkg.staticSharedLibName);
}
}
}
if (r != null) {
if (DEBUG_REMOVE) Log.d(TAG, " Libraries: " + r);
}
}
final class ActivityIntentResolver
extends IntentResolver<PackageParser.ActivityIntentInfo, ResolveInfo> {
public List<ResolveInfo> queryIntent(Intent intent, String resolvedType,
boolean defaultOnly, int userId) {
if (!sUserManager.exists(userId)) return null;
mFlags = (defaultOnly ? PackageManager.MATCH_DEFAULT_ONLY : 0);
return super.queryIntent(intent, resolvedType, defaultOnly, userId);
}
public List<ResolveInfo> queryIntent(Intent intent, String resolvedType, int flags,
int userId) {
if (!sUserManager.exists(userId)) return null;
mFlags = flags;
return super.queryIntent(intent, resolvedType,
(flags & PackageManager.MATCH_DEFAULT_ONLY) != 0,
userId);
}
public List<ResolveInfo> queryIntentForPackage(Intent intent, String resolvedType,
int flags, ArrayList<PackageParser.Activity> packageActivities, int userId) {
if (!sUserManager.exists(userId)) return null;
if (packageActivities == null) {
return null;
}
mFlags = flags;
final boolean defaultOnly = (flags & PackageManager.MATCH_DEFAULT_ONLY) != 0;
final int N = packageActivities.size();
ArrayList<PackageParser.ActivityIntentInfo[]> listCut =
new ArrayList<PackageParser.ActivityIntentInfo[]>(N);
ArrayList<PackageParser.ActivityIntentInfo> intentFilters;
for (int i = 0; i < N; ++i) {
intentFilters = packageActivities.get(i).intents;
if (intentFilters != null && intentFilters.size() > 0) {
PackageParser.ActivityIntentInfo[] array =
new PackageParser.ActivityIntentInfo[intentFilters.size()];
intentFilters.toArray(array);
listCut.add(array);
}
}
return super.queryIntentFromList(intent, resolvedType, defaultOnly, listCut, userId);
}
/**
* Finds a privileged activity that matches the specified activity names.
*/
private PackageParser.Activity findMatchingActivity(
List<PackageParser.Activity> activityList, ActivityInfo activityInfo) {
for (PackageParser.Activity sysActivity : activityList) {
if (sysActivity.info.name.equals(activityInfo.name)) {
return sysActivity;
}
if (sysActivity.info.name.equals(activityInfo.targetActivity)) {
return sysActivity;
}
if (sysActivity.info.targetActivity != null) {
if (sysActivity.info.targetActivity.equals(activityInfo.name)) {
return sysActivity;
}
if (sysActivity.info.targetActivity.equals(activityInfo.targetActivity)) {
return sysActivity;
}
}
}
return null;
}
public class IterGenerator<E> {
public Iterator<E> generate(ActivityIntentInfo info) {
return null;
}
}
public class ActionIterGenerator extends IterGenerator<String> {
@Override
public Iterator<String> generate(ActivityIntentInfo info) {
return info.actionsIterator();
}
}
public class CategoriesIterGenerator extends IterGenerator<String> {
@Override
public Iterator<String> generate(ActivityIntentInfo info) {
return info.categoriesIterator();
}
}
public class SchemesIterGenerator extends IterGenerator<String> {
@Override
public Iterator<String> generate(ActivityIntentInfo info) {
return info.schemesIterator();
}
}
public class AuthoritiesIterGenerator extends IterGenerator<IntentFilter.AuthorityEntry> {
@Override
public Iterator<IntentFilter.AuthorityEntry> generate(ActivityIntentInfo info) {
return info.authoritiesIterator();
}
}
/**
* <em>WARNING</em> for performance reasons, the passed in intentList WILL BE
* MODIFIED. Do not pass in a list that should not be changed.
*/
private <T> void getIntentListSubset(List<ActivityIntentInfo> intentList,
IterGenerator<T> generator, Iterator<T> searchIterator) {
// loop through the set of actions; every one must be found in the intent filter
while (searchIterator.hasNext()) {
// we must have at least one filter in the list to consider a match
if (intentList.size() == 0) {
break;
}
final T searchAction = searchIterator.next();
// loop through the set of intent filters
final Iterator<ActivityIntentInfo> intentIter = intentList.iterator();
while (intentIter.hasNext()) {
final ActivityIntentInfo intentInfo = intentIter.next();
boolean selectionFound = false;
// loop through the intent filter's selection criteria; at least one
// of them must match the searched criteria
final Iterator<T> intentSelectionIter = generator.generate(intentInfo);
while (intentSelectionIter != null && intentSelectionIter.hasNext()) {
final T intentSelection = intentSelectionIter.next();
if (intentSelection != null && intentSelection.equals(searchAction)) {
selectionFound = true;
break;
}
}
// the selection criteria wasn't found in this filter's set; this filter
// is not a potential match
if (!selectionFound) {
intentIter.remove();
}
}
}
}
private boolean isProtectedAction(ActivityIntentInfo filter) {
final Iterator<String> actionsIter = filter.actionsIterator();
while (actionsIter != null && actionsIter.hasNext()) {
final String filterAction = actionsIter.next();
if (PROTECTED_ACTIONS.contains(filterAction)) {
return true;
}
}
return false;
}
/**
* Adjusts the priority of the given intent filter according to policy.
* <p>
* <ul>
* <li>The priority for non privileged applications is capped to '0'</li>
* <li>The priority for protected actions on privileged applications is capped to '0'</li>
* <li>The priority for unbundled updates to privileged applications is capped to the
* priority defined on the system partition</li>
* </ul>
* <p>
* <em>NOTE:</em> There is one exception. For security reasons, the setup wizard is
* allowed to obtain any priority on any action.
*/
private void adjustPriority(
List<PackageParser.Activity> systemActivities, ActivityIntentInfo intent) {
// nothing to do; priority is fine as-is
if (intent.getPriority() <= 0) {
return;
}
final ActivityInfo activityInfo = intent.activity.info;
final ApplicationInfo applicationInfo = activityInfo.applicationInfo;
final boolean privilegedApp =
((applicationInfo.privateFlags & ApplicationInfo.PRIVATE_FLAG_PRIVILEGED) != 0);
if (!privilegedApp) {
// non-privileged applications can never define a priority >0
if (DEBUG_FILTERS) {
Slog.i(TAG, "Non-privileged app; cap priority to 0;"
+ " package: " + applicationInfo.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
intent.setPriority(0);
return;
}
if (systemActivities == null) {
// the system package is not disabled; we're parsing the system partition
if (isProtectedAction(intent)) {
if (mDeferProtectedFilters) {
// We can't deal with these just yet. No component should ever obtain a
// >0 priority for a protected actions, with ONE exception -- the setup
// wizard. The setup wizard, however, cannot be known until we're able to
// query it for the category CATEGORY_SETUP_WIZARD. Which we can't do
// until all intent filters have been processed. Chicken, meet egg.
// Let the filter temporarily have a high priority and rectify the
// priorities after all system packages have been scanned.
mProtectedFilters.add(intent);
if (DEBUG_FILTERS) {
Slog.i(TAG, "Protected action; save for later;"
+ " package: " + applicationInfo.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
return;
} else {
if (DEBUG_FILTERS && mSetupWizardPackage == null) {
Slog.i(TAG, "No setup wizard;"
+ " All protected intents capped to priority 0");
}
if (intent.activity.info.packageName.equals(mSetupWizardPackage)) {
if (DEBUG_FILTERS) {
Slog.i(TAG, "Found setup wizard;"
+ " allow priority " + intent.getPriority() + ";"
+ " package: " + intent.activity.info.packageName
+ " activity: " + intent.activity.className
+ " priority: " + intent.getPriority());
}
// setup wizard gets whatever it wants
return;
}
if (DEBUG_FILTERS) {
Slog.i(TAG, "Protected action; cap priority to 0;"
+ " package: " + intent.activity.info.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
intent.setPriority(0);
return;
}
}
// privileged apps on the system image get whatever priority they request
return;
}
// privileged app unbundled update ... try to find the same activity
final PackageParser.Activity foundActivity =
findMatchingActivity(systemActivities, activityInfo);
if (foundActivity == null) {
// this is a new activity; it cannot obtain >0 priority
if (DEBUG_FILTERS) {
Slog.i(TAG, "New activity; cap priority to 0;"
+ " package: " + applicationInfo.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
intent.setPriority(0);
return;
}
// found activity, now check for filter equivalence
// a shallow copy is enough; we modify the list, not its contents
final List<ActivityIntentInfo> intentListCopy =
new ArrayList<>(foundActivity.intents);
final List<ActivityIntentInfo> foundFilters = findFilters(intent);
// find matching action subsets
final Iterator<String> actionsIterator = intent.actionsIterator();
if (actionsIterator != null) {
getIntentListSubset(
intentListCopy, new ActionIterGenerator(), actionsIterator);
if (intentListCopy.size() == 0) {
// no more intents to match; we're not equivalent
if (DEBUG_FILTERS) {
Slog.i(TAG, "Mismatched action; cap priority to 0;"
+ " package: " + applicationInfo.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
intent.setPriority(0);
return;
}
}
// find matching category subsets
final Iterator<String> categoriesIterator = intent.categoriesIterator();
if (categoriesIterator != null) {
getIntentListSubset(intentListCopy, new CategoriesIterGenerator(),
categoriesIterator);
if (intentListCopy.size() == 0) {
// no more intents to match; we're not equivalent
if (DEBUG_FILTERS) {
Slog.i(TAG, "Mismatched category; cap priority to 0;"
+ " package: " + applicationInfo.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
intent.setPriority(0);
return;
}
}
// find matching schemes subsets
final Iterator<String> schemesIterator = intent.schemesIterator();
if (schemesIterator != null) {
getIntentListSubset(intentListCopy, new SchemesIterGenerator(),
schemesIterator);
if (intentListCopy.size() == 0) {
// no more intents to match; we're not equivalent
if (DEBUG_FILTERS) {
Slog.i(TAG, "Mismatched scheme; cap priority to 0;"
+ " package: " + applicationInfo.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
intent.setPriority(0);
return;
}
}
// find matching authorities subsets
final Iterator<IntentFilter.AuthorityEntry>
authoritiesIterator = intent.authoritiesIterator();
if (authoritiesIterator != null) {
getIntentListSubset(intentListCopy,
new AuthoritiesIterGenerator(),
authoritiesIterator);
if (intentListCopy.size() == 0) {
// no more intents to match; we're not equivalent
if (DEBUG_FILTERS) {
Slog.i(TAG, "Mismatched authority; cap priority to 0;"
+ " package: " + applicationInfo.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
intent.setPriority(0);
return;
}
}
// we found matching filter(s); app gets the max priority of all intents
int cappedPriority = 0;
for (int i = intentListCopy.size() - 1; i >= 0; --i) {
cappedPriority = Math.max(cappedPriority, intentListCopy.get(i).getPriority());
}
if (intent.getPriority() > cappedPriority) {
if (DEBUG_FILTERS) {
Slog.i(TAG, "Found matching filter(s);"
+ " cap priority to " + cappedPriority + ";"
+ " package: " + applicationInfo.packageName
+ " activity: " + intent.activity.className
+ " origPrio: " + intent.getPriority());
}
intent.setPriority(cappedPriority);
return;
}
// all this for nothing; the requested priority was <= what was on the system
}
public final void addActivity(PackageParser.Activity a, String type) {
mActivities.put(a.getComponentName(), a);
if (DEBUG_SHOW_INFO)
Log.v(
TAG, " " + type + " " +
(a.info.nonLocalizedLabel != null ? a.info.nonLocalizedLabel : a.info.name) + ":");
if (DEBUG_SHOW_INFO)
Log.v(TAG, " Class=" + a.info.name);
final int NI = a.intents.size();
for (int j=0; j<NI; j++) {
PackageParser.ActivityIntentInfo intent = a.intents.get(j);
if ("activity".equals(type)) {
final PackageSetting ps =
mSettings.getDisabledSystemPkgLPr(intent.activity.info.packageName);
final List<PackageParser.Activity> systemActivities =
ps != null && ps.pkg != null ? ps.pkg.activities : null;
adjustPriority(systemActivities, intent);
}
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " IntentFilter:");
intent.dump(new LogPrinter(Log.VERBOSE, TAG), " ");
}
if (!intent.debugCheck()) {
Log.w(TAG, "==> For Activity " + a.info.name);
}
addFilter(intent);
}
}
public final void removeActivity(PackageParser.Activity a, String type) {
mActivities.remove(a.getComponentName());
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " " + type + " "
+ (a.info.nonLocalizedLabel != null ? a.info.nonLocalizedLabel
: a.info.name) + ":");
Log.v(TAG, " Class=" + a.info.name);
}
final int NI = a.intents.size();
for (int j=0; j<NI; j++) {
PackageParser.ActivityIntentInfo intent = a.intents.get(j);
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " IntentFilter:");
intent.dump(new LogPrinter(Log.VERBOSE, TAG), " ");
}
removeFilter(intent);
}
}
@Override
protected boolean allowFilterResult(
PackageParser.ActivityIntentInfo filter, List<ResolveInfo> dest) {
ActivityInfo filterAi = filter.activity.info;
for (int i=dest.size()-1; i>=0; i--) {
ActivityInfo destAi = dest.get(i).activityInfo;
if (destAi.name == filterAi.name
&& destAi.packageName == filterAi.packageName) {
return false;
}
}
return true;
}
@Override
protected ActivityIntentInfo[] newArray(int size) {
return new ActivityIntentInfo[size];
}
@Override
protected boolean isFilterStopped(PackageParser.ActivityIntentInfo filter, int userId) {
if (!sUserManager.exists(userId)) return true;
PackageParser.Package p = filter.activity.owner;
if (p != null) {
PackageSetting ps = (PackageSetting)p.mExtras;
if (ps != null) {
// System apps are never considered stopped for purposes of
// filtering, because there may be no way for the user to
// actually re-launch them.
return (ps.pkgFlags&ApplicationInfo.FLAG_SYSTEM) == 0
&& ps.getStopped(userId);
}
}
return false;
}
@Override
protected boolean isPackageForFilter(String packageName,
PackageParser.ActivityIntentInfo info) {
return packageName.equals(info.activity.owner.packageName);
}
@Override
protected ResolveInfo newResult(PackageParser.ActivityIntentInfo info,
int match, int userId) {
if (!sUserManager.exists(userId)) return null;
if (!mSettings.isEnabledAndMatchLPr(info.activity.info, mFlags, userId)) {
return null;
}
final PackageParser.Activity activity = info.activity;
PackageSetting ps = (PackageSetting) activity.owner.mExtras;
if (ps == null) {
return null;
}
final PackageUserState userState = ps.readUserState(userId);
ActivityInfo ai =
PackageParser.generateActivityInfo(activity, mFlags, userState, userId);
if (ai == null) {
return null;
}
final boolean matchExplicitlyVisibleOnly =
(mFlags & PackageManager.MATCH_EXPLICITLY_VISIBLE_ONLY) != 0;
final boolean matchVisibleToInstantApp =
(mFlags & PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY) != 0;
final boolean componentVisible =
matchVisibleToInstantApp
&& info.isVisibleToInstantApp()
&& (!matchExplicitlyVisibleOnly || info.isExplicitlyVisibleToInstantApp());
final boolean matchInstantApp = (mFlags & PackageManager.MATCH_INSTANT) != 0;
// throw out filters that aren't visible to ephemeral apps
if (matchVisibleToInstantApp && !(componentVisible || userState.instantApp)) {
return null;
}
// throw out instant app filters if we're not explicitly requesting them
if (!matchInstantApp && userState.instantApp) {
return null;
}
// throw out instant app filters if updates are available; will trigger
// instant app resolution
if (userState.instantApp && ps.isUpdateAvailable()) {
return null;
}
final ResolveInfo res = new ResolveInfo();
res.activityInfo = ai;
if ((mFlags&PackageManager.GET_RESOLVED_FILTER) != 0) {
res.filter = info;
}
if (info != null) {
res.handleAllWebDataURI = info.handleAllWebDataURI();
}
res.priority = info.getPriority();
res.preferredOrder = activity.owner.mPreferredOrder;
//System.out.println("Result: " + res.activityInfo.className +
// " = " + res.priority);
res.match = match;
res.isDefault = info.hasDefault;
res.labelRes = info.labelRes;
res.nonLocalizedLabel = info.nonLocalizedLabel;
if (userNeedsBadging(userId)) {
res.noResourceId = true;
} else {
res.icon = info.icon;
}
res.iconResourceId = info.icon;
res.system = res.activityInfo.applicationInfo.isSystemApp();
res.isInstantAppAvailable = userState.instantApp;
return res;
}
@Override
protected void sortResults(List<ResolveInfo> results) {
Collections.sort(results, mResolvePrioritySorter);
}
@Override
protected void dumpFilter(PrintWriter out, String prefix,
PackageParser.ActivityIntentInfo filter) {
out.print(prefix); out.print(
Integer.toHexString(System.identityHashCode(filter.activity)));
out.print(' ');
filter.activity.printComponentShortName(out);
out.print(" filter ");
out.println(Integer.toHexString(System.identityHashCode(filter)));
}
@Override
protected Object filterToLabel(PackageParser.ActivityIntentInfo filter) {
return filter.activity;
}
protected void dumpFilterLabel(PrintWriter out, String prefix, Object label, int count) {
PackageParser.Activity activity = (PackageParser.Activity)label;
out.print(prefix); out.print(
Integer.toHexString(System.identityHashCode(activity)));
out.print(' ');
activity.printComponentShortName(out);
if (count > 1) {
out.print(" ("); out.print(count); out.print(" filters)");
}
out.println();
}
// Keys are String (activity class name), values are Activity.
private final ArrayMap<ComponentName, PackageParser.Activity> mActivities
= new ArrayMap<ComponentName, PackageParser.Activity>();
private int mFlags;
}
private final class ServiceIntentResolver
extends IntentResolver<PackageParser.ServiceIntentInfo, ResolveInfo> {
public List<ResolveInfo> queryIntent(Intent intent, String resolvedType,
boolean defaultOnly, int userId) {
mFlags = defaultOnly ? PackageManager.MATCH_DEFAULT_ONLY : 0;
return super.queryIntent(intent, resolvedType, defaultOnly, userId);
}
public List<ResolveInfo> queryIntent(Intent intent, String resolvedType, int flags,
int userId) {
if (!sUserManager.exists(userId)) return null;
mFlags = flags;
return super.queryIntent(intent, resolvedType,
(flags & PackageManager.MATCH_DEFAULT_ONLY) != 0,
userId);
}
public List<ResolveInfo> queryIntentForPackage(Intent intent, String resolvedType,
int flags, ArrayList<PackageParser.Service> packageServices, int userId) {
if (!sUserManager.exists(userId)) return null;
if (packageServices == null) {
return null;
}
mFlags = flags;
final boolean defaultOnly = (flags&PackageManager.MATCH_DEFAULT_ONLY) != 0;
final int N = packageServices.size();
ArrayList<PackageParser.ServiceIntentInfo[]> listCut =
new ArrayList<PackageParser.ServiceIntentInfo[]>(N);
ArrayList<PackageParser.ServiceIntentInfo> intentFilters;
for (int i = 0; i < N; ++i) {
intentFilters = packageServices.get(i).intents;
if (intentFilters != null && intentFilters.size() > 0) {
PackageParser.ServiceIntentInfo[] array =
new PackageParser.ServiceIntentInfo[intentFilters.size()];
intentFilters.toArray(array);
listCut.add(array);
}
}
return super.queryIntentFromList(intent, resolvedType, defaultOnly, listCut, userId);
}
public final void addService(PackageParser.Service s) {
mServices.put(s.getComponentName(), s);
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " "
+ (s.info.nonLocalizedLabel != null
? s.info.nonLocalizedLabel : s.info.name) + ":");
Log.v(TAG, " Class=" + s.info.name);
}
final int NI = s.intents.size();
int j;
for (j=0; j<NI; j++) {
PackageParser.ServiceIntentInfo intent = s.intents.get(j);
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " IntentFilter:");
intent.dump(new LogPrinter(Log.VERBOSE, TAG), " ");
}
if (!intent.debugCheck()) {
Log.w(TAG, "==> For Service " + s.info.name);
}
addFilter(intent);
}
}
public final void removeService(PackageParser.Service s) {
mServices.remove(s.getComponentName());
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " " + (s.info.nonLocalizedLabel != null
? s.info.nonLocalizedLabel : s.info.name) + ":");
Log.v(TAG, " Class=" + s.info.name);
}
final int NI = s.intents.size();
int j;
for (j=0; j<NI; j++) {
PackageParser.ServiceIntentInfo intent = s.intents.get(j);
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " IntentFilter:");
intent.dump(new LogPrinter(Log.VERBOSE, TAG), " ");
}
removeFilter(intent);
}
}
@Override
protected boolean allowFilterResult(
PackageParser.ServiceIntentInfo filter, List<ResolveInfo> dest) {
ServiceInfo filterSi = filter.service.info;
for (int i=dest.size()-1; i>=0; i--) {
ServiceInfo destAi = dest.get(i).serviceInfo;
if (destAi.name == filterSi.name
&& destAi.packageName == filterSi.packageName) {
return false;
}
}
return true;
}
@Override
protected PackageParser.ServiceIntentInfo[] newArray(int size) {
return new PackageParser.ServiceIntentInfo[size];
}
@Override
protected boolean isFilterStopped(PackageParser.ServiceIntentInfo filter, int userId) {
if (!sUserManager.exists(userId)) return true;
PackageParser.Package p = filter.service.owner;
if (p != null) {
PackageSetting ps = (PackageSetting)p.mExtras;
if (ps != null) {
// System apps are never considered stopped for purposes of
// filtering, because there may be no way for the user to
// actually re-launch them.
return (ps.pkgFlags & ApplicationInfo.FLAG_SYSTEM) == 0
&& ps.getStopped(userId);
}
}
return false;
}
@Override
protected boolean isPackageForFilter(String packageName,
PackageParser.ServiceIntentInfo info) {
return packageName.equals(info.service.owner.packageName);
}
@Override
protected ResolveInfo newResult(PackageParser.ServiceIntentInfo filter,
int match, int userId) {
if (!sUserManager.exists(userId)) return null;
final PackageParser.ServiceIntentInfo info = (PackageParser.ServiceIntentInfo)filter;
if (!mSettings.isEnabledAndMatchLPr(info.service.info, mFlags, userId)) {
return null;
}
final PackageParser.Service service = info.service;
PackageSetting ps = (PackageSetting) service.owner.mExtras;
if (ps == null) {
return null;
}
final PackageUserState userState = ps.readUserState(userId);
ServiceInfo si = PackageParser.generateServiceInfo(service, mFlags,
userState, userId);
if (si == null) {
return null;
}
final boolean matchVisibleToInstantApp =
(mFlags & PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY) != 0;
final boolean isInstantApp = (mFlags & PackageManager.MATCH_INSTANT) != 0;
// throw out filters that aren't visible to ephemeral apps
if (matchVisibleToInstantApp
&& !(info.isVisibleToInstantApp() || userState.instantApp)) {
return null;
}
// throw out ephemeral filters if we're not explicitly requesting them
if (!isInstantApp && userState.instantApp) {
return null;
}
// throw out instant app filters if updates are available; will trigger
// instant app resolution
if (userState.instantApp && ps.isUpdateAvailable()) {
return null;
}
final ResolveInfo res = new ResolveInfo();
res.serviceInfo = si;
if ((mFlags&PackageManager.GET_RESOLVED_FILTER) != 0) {
res.filter = filter;
}
res.priority = info.getPriority();
res.preferredOrder = service.owner.mPreferredOrder;
res.match = match;
res.isDefault = info.hasDefault;
res.labelRes = info.labelRes;
res.nonLocalizedLabel = info.nonLocalizedLabel;
res.icon = info.icon;
res.system = res.serviceInfo.applicationInfo.isSystemApp();
return res;
}
@Override
protected void sortResults(List<ResolveInfo> results) {
Collections.sort(results, mResolvePrioritySorter);
}
@Override
protected void dumpFilter(PrintWriter out, String prefix,
PackageParser.ServiceIntentInfo filter) {
out.print(prefix); out.print(
Integer.toHexString(System.identityHashCode(filter.service)));
out.print(' ');
filter.service.printComponentShortName(out);
out.print(" filter ");
out.print(Integer.toHexString(System.identityHashCode(filter)));
if (filter.service.info.permission != null) {
out.print(" permission "); out.println(filter.service.info.permission);
} else {
out.println();
}
}
@Override
protected Object filterToLabel(PackageParser.ServiceIntentInfo filter) {
return filter.service;
}
protected void dumpFilterLabel(PrintWriter out, String prefix, Object label, int count) {
PackageParser.Service service = (PackageParser.Service)label;
out.print(prefix); out.print(
Integer.toHexString(System.identityHashCode(service)));
out.print(' ');
service.printComponentShortName(out);
if (count > 1) {
out.print(" ("); out.print(count); out.print(" filters)");
}
out.println();
}
// List<ResolveInfo> filterEnabled(List<ResolveInfo> resolveInfoList) {
// final Iterator<ResolveInfo> i = resolveInfoList.iterator();
// final List<ResolveInfo> retList = Lists.newArrayList();
// while (i.hasNext()) {
// final ResolveInfo resolveInfo = (ResolveInfo) i;
// if (isEnabledLP(resolveInfo.serviceInfo)) {
// retList.add(resolveInfo);
// }
// }
// return retList;
// }
// Keys are String (activity class name), values are Activity.
private final ArrayMap<ComponentName, PackageParser.Service> mServices
= new ArrayMap<ComponentName, PackageParser.Service>();
private int mFlags;
}
private final class ProviderIntentResolver
extends IntentResolver<PackageParser.ProviderIntentInfo, ResolveInfo> {
public List<ResolveInfo> queryIntent(Intent intent, String resolvedType,
boolean defaultOnly, int userId) {
mFlags = defaultOnly ? PackageManager.MATCH_DEFAULT_ONLY : 0;
return super.queryIntent(intent, resolvedType, defaultOnly, userId);
}
public List<ResolveInfo> queryIntent(Intent intent, String resolvedType, int flags,
int userId) {
if (!sUserManager.exists(userId))
return null;
mFlags = flags;
return super.queryIntent(intent, resolvedType,
(flags & PackageManager.MATCH_DEFAULT_ONLY) != 0,
userId);
}
public List<ResolveInfo> queryIntentForPackage(Intent intent, String resolvedType,
int flags, ArrayList<PackageParser.Provider> packageProviders, int userId) {
if (!sUserManager.exists(userId))
return null;
if (packageProviders == null) {
return null;
}
mFlags = flags;
final boolean defaultOnly = (flags & PackageManager.MATCH_DEFAULT_ONLY) != 0;
final int N = packageProviders.size();
ArrayList<PackageParser.ProviderIntentInfo[]> listCut =
new ArrayList<PackageParser.ProviderIntentInfo[]>(N);
ArrayList<PackageParser.ProviderIntentInfo> intentFilters;
for (int i = 0; i < N; ++i) {
intentFilters = packageProviders.get(i).intents;
if (intentFilters != null && intentFilters.size() > 0) {
PackageParser.ProviderIntentInfo[] array =
new PackageParser.ProviderIntentInfo[intentFilters.size()];
intentFilters.toArray(array);
listCut.add(array);
}
}
return super.queryIntentFromList(intent, resolvedType, defaultOnly, listCut, userId);
}
public final void addProvider(PackageParser.Provider p) {
if (mProviders.containsKey(p.getComponentName())) {
Slog.w(TAG, "Provider " + p.getComponentName() + " already defined; ignoring");
return;
}
mProviders.put(p.getComponentName(), p);
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " "
+ (p.info.nonLocalizedLabel != null
? p.info.nonLocalizedLabel : p.info.name) + ":");
Log.v(TAG, " Class=" + p.info.name);
}
final int NI = p.intents.size();
int j;
for (j = 0; j < NI; j++) {
PackageParser.ProviderIntentInfo intent = p.intents.get(j);
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " IntentFilter:");
intent.dump(new LogPrinter(Log.VERBOSE, TAG), " ");
}
if (!intent.debugCheck()) {
Log.w(TAG, "==> For Provider " + p.info.name);
}
addFilter(intent);
}
}
public final void removeProvider(PackageParser.Provider p) {
mProviders.remove(p.getComponentName());
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " " + (p.info.nonLocalizedLabel != null
? p.info.nonLocalizedLabel : p.info.name) + ":");
Log.v(TAG, " Class=" + p.info.name);
}
final int NI = p.intents.size();
int j;
for (j = 0; j < NI; j++) {
PackageParser.ProviderIntentInfo intent = p.intents.get(j);
if (DEBUG_SHOW_INFO) {
Log.v(TAG, " IntentFilter:");
intent.dump(new LogPrinter(Log.VERBOSE, TAG), " ");
}
removeFilter(intent);
}
}
@Override
protected boolean allowFilterResult(
PackageParser.ProviderIntentInfo filter, List<ResolveInfo> dest) {
ProviderInfo filterPi = filter.provider.info;
for (int i = dest.size() - 1; i >= 0; i--) {
ProviderInfo destPi = dest.get(i).providerInfo;
if (destPi.name == filterPi.name
&& destPi.packageName == filterPi.packageName) {
return false;
}
}
return true;
}
@Override
protected PackageParser.ProviderIntentInfo[] newArray(int size) {
return new PackageParser.ProviderIntentInfo[size];
}
@Override
protected boolean isFilterStopped(PackageParser.ProviderIntentInfo filter, int userId) {
if (!sUserManager.exists(userId))
return true;
PackageParser.Package p = filter.provider.owner;
if (p != null) {
PackageSetting ps = (PackageSetting) p.mExtras;
if (ps != null) {
// System apps are never considered stopped for purposes of
// filtering, because there may be no way for the user to
// actually re-launch them.
return (ps.pkgFlags & ApplicationInfo.FLAG_SYSTEM) == 0
&& ps.getStopped(userId);
}
}
return false;
}
@Override
protected boolean isPackageForFilter(String packageName,
PackageParser.ProviderIntentInfo info) {
return packageName.equals(info.provider.owner.packageName);
}
@Override
protected ResolveInfo newResult(PackageParser.ProviderIntentInfo filter,
int match, int userId) {
if (!sUserManager.exists(userId))
return null;
final PackageParser.ProviderIntentInfo info = filter;
if (!mSettings.isEnabledAndMatchLPr(info.provider.info, mFlags, userId)) {
return null;
}
final PackageParser.Provider provider = info.provider;
PackageSetting ps = (PackageSetting) provider.owner.mExtras;
if (ps == null) {
return null;
}
final PackageUserState userState = ps.readUserState(userId);
final boolean matchVisibleToInstantApp =
(mFlags & PackageManager.MATCH_VISIBLE_TO_INSTANT_APP_ONLY) != 0;
final boolean isInstantApp = (mFlags & PackageManager.MATCH_INSTANT) != 0;
// throw out filters that aren't visible to instant applications
if (matchVisibleToInstantApp
&& !(info.isVisibleToInstantApp() || userState.instantApp)) {
return null;
}
// throw out instant application filters if we're not explicitly requesting them
if (!isInstantApp && userState.instantApp) {
return null;
}
// throw out instant application filters if updates are available; will trigger
// instant application resolution
if (userState.instantApp && ps.isUpdateAvailable()) {
return null;
}
ProviderInfo pi = PackageParser.generateProviderInfo(provider, mFlags,
userState, userId);
if (pi == null) {
return null;
}
final ResolveInfo res = new ResolveInfo();
res.providerInfo = pi;
if ((mFlags & PackageManager.GET_RESOLVED_FILTER) != 0) {
res.filter = filter;
}
res.priority = info.getPriority();
res.preferredOrder = provider.owner.mPreferredOrder;
res.match = match;
res.isDefault = info.hasDefault;
res.labelRes = info.labelRes;
res.nonLocalizedLabel = info.nonLocalizedLabel;
res.icon = info.icon;
res.system = res.providerInfo.applicationInfo.isSystemApp();
return res;
}
@Override
protected void sortResults(List<ResolveInfo> results) {
Collections.sort(results, mResolvePrioritySorter);
}
@Override
protected void dumpFilter(PrintWriter out, String prefix,
PackageParser.ProviderIntentInfo filter) {
out.print(prefix);
out.print(
Integer.toHexString(System.identityHashCode(filter.provider)));
out.print(' ');
filter.provider.printComponentShortName(out);
out.print(" filter ");
out.println(Integer.toHexString(System.identityHashCode(filter)));
}
@Override
protected Object filterToLabel(PackageParser.ProviderIntentInfo filter) {
return filter.provider;
}
protected void dumpFilterLabel(PrintWriter out, String prefix, Object label, int count) {
PackageParser.Provider provider = (PackageParser.Provider)label;
out.print(prefix); out.print(
Integer.toHexString(System.identityHashCode(provider)));
out.print(' ');
provider.printComponentShortName(out);
if (count > 1) {
out.print(" ("); out.print(count); out.print(" filters)");
}
out.println();
}
private final ArrayMap<ComponentName, PackageParser.Provider> mProviders
= new ArrayMap<ComponentName, PackageParser.Provider>();
private int mFlags;
}
static final class InstantAppIntentResolver
extends IntentResolver<AuxiliaryResolveInfo.AuxiliaryFilter,
AuxiliaryResolveInfo.AuxiliaryFilter> {
/**
* The result that has the highest defined order. Ordering applies on a
* per-package basis. Mapping is from package name to Pair of order and
* EphemeralResolveInfo.
* <p>
* NOTE: This is implemented as a field variable for convenience and efficiency.
* By having a field variable, we're able to track filter ordering as soon as
* a non-zero order is defined. Otherwise, multiple loops across the result set
* would be needed to apply ordering. If the intent resolver becomes re-entrant,
* this needs to be contained entirely within {@link #filterResults}.
*/
final ArrayMap<String, Pair<Integer, InstantAppResolveInfo>> mOrderResult = new ArrayMap<>();
@Override
protected AuxiliaryResolveInfo.AuxiliaryFilter[] newArray(int size) {
return new AuxiliaryResolveInfo.AuxiliaryFilter[size];
}
@Override
protected boolean isPackageForFilter(String packageName,
AuxiliaryResolveInfo.AuxiliaryFilter responseObj) {
return true;
}
@Override
protected AuxiliaryResolveInfo.AuxiliaryFilter newResult(
AuxiliaryResolveInfo.AuxiliaryFilter responseObj, int match, int userId) {
if (!sUserManager.exists(userId)) {
return null;
}
final String packageName = responseObj.resolveInfo.getPackageName();
final Integer order = responseObj.getOrder();
final Pair<Integer, InstantAppResolveInfo> lastOrderResult =
mOrderResult.get(packageName);
// ordering is enabled and this item's order isn't high enough
if (lastOrderResult != null && lastOrderResult.first >= order) {
return null;
}
final InstantAppResolveInfo res = responseObj.resolveInfo;
if (order > 0) {
// non-zero order, enable ordering
mOrderResult.put(packageName, new Pair<>(order, res));
}
return responseObj;
}
@Override
protected void filterResults(List<AuxiliaryResolveInfo.AuxiliaryFilter> results) {
// only do work if ordering is enabled [most of the time it won't be]
if (mOrderResult.size() == 0) {
return;
}
int resultSize = results.size();
for (int i = 0; i < resultSize; i++) {
final InstantAppResolveInfo info = results.get(i).resolveInfo;
final String packageName = info.getPackageName();
final Pair<Integer, InstantAppResolveInfo> savedInfo = mOrderResult.get(packageName);
if (savedInfo == null) {
// package doesn't having ordering
continue;
}
if (savedInfo.second == info) {
// circled back to the highest ordered item; remove from order list
mOrderResult.remove(packageName);
if (mOrderResult.size() == 0) {
// no more ordered items
break;
}
continue;
}
// item has a worse order, remove it from the result list
results.remove(i);
resultSize--;
i--;
}
}
}
private static final Comparator<ResolveInfo> mResolvePrioritySorter =
new Comparator<ResolveInfo>() {
public int compare(ResolveInfo r1, ResolveInfo r2) {
int v1 = r1.priority;
int v2 = r2.priority;
//System.out.println("Comparing: q1=" + q1 + " q2=" + q2);
if (v1 != v2) {
return (v1 > v2) ? -1 : 1;
}
v1 = r1.preferredOrder;
v2 = r2.preferredOrder;
if (v1 != v2) {
return (v1 > v2) ? -1 : 1;
}
if (r1.isDefault != r2.isDefault) {
return r1.isDefault ? -1 : 1;
}
v1 = r1.match;
v2 = r2.match;
//System.out.println("Comparing: m1=" + m1 + " m2=" + m2);
if (v1 != v2) {
return (v1 > v2) ? -1 : 1;
}
if (r1.system != r2.system) {
return r1.system ? -1 : 1;
}
if (r1.activityInfo != null) {
return r1.activityInfo.packageName.compareTo(r2.activityInfo.packageName);
}
if (r1.serviceInfo != null) {
return r1.serviceInfo.packageName.compareTo(r2.serviceInfo.packageName);
}
if (r1.providerInfo != null) {
return r1.providerInfo.packageName.compareTo(r2.providerInfo.packageName);
}
return 0;
}
};
private static final Comparator<ProviderInfo> mProviderInitOrderSorter =
new Comparator<ProviderInfo>() {
public int compare(ProviderInfo p1, ProviderInfo p2) {
final int v1 = p1.initOrder;
final int v2 = p2.initOrder;
return (v1 > v2) ? -1 : ((v1 < v2) ? 1 : 0);
}
};
@Override
public void sendPackageBroadcast(final String action, final String pkg, final Bundle extras,
final int flags, final String targetPkg, final IIntentReceiver finishedReceiver,
final int[] userIds, int[] instantUserIds) {
mHandler.post(new Runnable() {
@Override
public void run() {
try {
final IActivityManager am = ActivityManager.getService();
if (am == null) return;
final int[] resolvedUserIds;
if (userIds == null) {
resolvedUserIds = am.getRunningUserIds();
} else {
resolvedUserIds = userIds;
}
doSendBroadcast(am, action, pkg, extras, flags, targetPkg, finishedReceiver,
resolvedUserIds, false);
if (instantUserIds != null && instantUserIds != EMPTY_INT_ARRAY) {
doSendBroadcast(am, action, pkg, extras, flags, targetPkg, finishedReceiver,
instantUserIds, true);
}
} catch (RemoteException ex) {
}
}
});
}
@Override
public void notifyPackageAdded(String packageName) {
final PackageListObserver[] observers;
synchronized (mPackages) {
if (mPackageListObservers.size() == 0) {
return;
}
observers = (PackageListObserver[]) mPackageListObservers.toArray();
}
for (int i = observers.length - 1; i >= 0; --i) {
observers[i].onPackageAdded(packageName);
}
}
@Override
public void notifyPackageRemoved(String packageName) {
final PackageListObserver[] observers;
synchronized (mPackages) {
if (mPackageListObservers.size() == 0) {
return;
}
observers = (PackageListObserver[]) mPackageListObservers.toArray();
}
for (int i = observers.length - 1; i >= 0; --i) {
observers[i].onPackageRemoved(packageName);
}
}
/**
* Sends a broadcast for the given action.
* <p>If {@code isInstantApp} is {@code true}, then the broadcast is protected with
* the {@link android.Manifest.permission#ACCESS_INSTANT_APPS} permission. This allows
* the system and applications allowed to see instant applications to receive package
* lifecycle events for instant applications.
*/
private void doSendBroadcast(IActivityManager am, String action, String pkg, Bundle extras,
int flags, String targetPkg, IIntentReceiver finishedReceiver,
int[] userIds, boolean isInstantApp)
throws RemoteException {
for (int id : userIds) {
final Intent intent = new Intent(action,
pkg != null ? Uri.fromParts(PACKAGE_SCHEME, pkg, null) : null);
final String[] requiredPermissions =
isInstantApp ? INSTANT_APP_BROADCAST_PERMISSION : null;
if (extras != null) {
intent.putExtras(extras);
}
if (targetPkg != null) {
intent.setPackage(targetPkg);
}
// Modify the UID when posting to other users
int uid = intent.getIntExtra(Intent.EXTRA_UID, -1);
if (uid > 0 && UserHandle.getUserId(uid) != id) {
uid = UserHandle.getUid(id, UserHandle.getAppId(uid));
intent.putExtra(Intent.EXTRA_UID, uid);
}
intent.putExtra(Intent.EXTRA_USER_HANDLE, id);
intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT | flags);
if (DEBUG_BROADCASTS) {
RuntimeException here = new RuntimeException("here");
here.fillInStackTrace();
Slog.d(TAG, "Sending to user " + id + ": "
+ intent.toShortString(false, true, false, false)
+ " " + intent.getExtras(), here);
}
am.broadcastIntent(null, intent, null, finishedReceiver,
0, null, null, requiredPermissions, android.app.AppOpsManager.OP_NONE,
null, finishedReceiver != null, false, id);
}
}
/**
* Check if the external storage media is available. This is true if there
* is a mounted external storage medium or if the external storage is
* emulated.
*/
private boolean isExternalMediaAvailable() {
return mMediaMounted || Environment.isExternalStorageEmulated();
}
@Override
public PackageCleanItem nextPackageToClean(PackageCleanItem lastPackage) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
if (!isExternalMediaAvailable()) {
// If the external storage is no longer mounted at this point,
// the caller may not have been able to delete all of this
// packages files and can not delete any more. Bail.
return null;
}
synchronized (mPackages) {
final ArrayList<PackageCleanItem> pkgs = mSettings.mPackagesToBeCleaned;
if (lastPackage != null) {
pkgs.remove(lastPackage);
}
if (pkgs.size() > 0) {
return pkgs.get(0);
}
}
return null;
}
void schedulePackageCleaning(String packageName, int userId, boolean andCode) {
final Message msg = mHandler.obtainMessage(START_CLEANING_PACKAGE,
userId, andCode ? 1 : 0, packageName);
if (mSystemReady) {
msg.sendToTarget();
} else {
if (mPostSystemReadyMessages == null) {
mPostSystemReadyMessages = new ArrayList<>();
}
mPostSystemReadyMessages.add(msg);
}
}
void startCleaningPackages() {
// reader
if (!isExternalMediaAvailable()) {
return;
}
synchronized (mPackages) {
if (mSettings.mPackagesToBeCleaned.isEmpty()) {
return;
}
}
Intent intent = new Intent(PackageManager.ACTION_CLEAN_EXTERNAL_STORAGE);
intent.setComponent(DEFAULT_CONTAINER_COMPONENT);
IActivityManager am = ActivityManager.getService();
if (am != null) {
int dcsUid = -1;
synchronized (mPackages) {
if (!mDefaultContainerWhitelisted) {
mDefaultContainerWhitelisted = true;
PackageSetting ps = mSettings.mPackages.get(DEFAULT_CONTAINER_PACKAGE);
dcsUid = UserHandle.getUid(UserHandle.USER_SYSTEM, ps.appId);
}
}
try {
if (dcsUid > 0) {
am.backgroundWhitelistUid(dcsUid);
}
am.startService(null, intent, null, false, mContext.getOpPackageName(),
UserHandle.USER_SYSTEM);
} catch (RemoteException e) {
}
}
}
/**
* Ensure that the install reason matches what we know about the package installer (e.g. whether
* it is acting on behalf on an enterprise or the user).
*
* Note that the ordering of the conditionals in this method is important. The checks we perform
* are as follows, in this order:
*
* 1) If the install is being performed by a system app, we can trust the app to have set the
* install reason correctly. Thus, we pass through the install reason unchanged, no matter
* what it is.
* 2) If the install is being performed by a device or profile owner app, the install reason
* should be enterprise policy. However, we cannot be sure that the device or profile owner
* set the install reason correctly. If the app targets an older SDK version where install
* reasons did not exist yet, or if the app author simply forgot, the install reason may be
* unset or wrong. Thus, we force the install reason to be enterprise policy.
* 3) In all other cases, the install is being performed by a regular app that is neither part
* of the system nor a device or profile owner. We have no reason to believe that this app is
* acting on behalf of the enterprise admin. Thus, we check whether the install reason was
* set to enterprise policy and if so, change it to unknown instead.
*/
private int fixUpInstallReason(String installerPackageName, int installerUid,
int installReason) {
if (checkUidPermission(android.Manifest.permission.INSTALL_PACKAGES, installerUid)
== PERMISSION_GRANTED) {
// If the install is being performed by a system app, we trust that app to have set the
// install reason correctly.
return installReason;
}
final String ownerPackage = mProtectedPackages.getDeviceOwnerOrProfileOwnerPackage(
UserHandle.getUserId(installerUid));
if (ownerPackage != null && ownerPackage.equals(installerPackageName)) {
// If the install is being performed by a device or profile owner, the install
// reason should be enterprise policy.
return PackageManager.INSTALL_REASON_POLICY;
}
if (installReason == PackageManager.INSTALL_REASON_POLICY) {
// If the install is being performed by a regular app (i.e. neither system app nor
// device or profile owner), we have no reason to believe that the app is acting on
// behalf of an enterprise. If the app set the install reason to enterprise policy,
// change it to unknown instead.
return PackageManager.INSTALL_REASON_UNKNOWN;
}
// If the install is being performed by a regular app and the install reason was set to any
// value but enterprise policy, leave the install reason unchanged.
return installReason;
}
/**
* Attempts to bind to the default container service explicitly instead of doing so lazily on
* install commit.
*/
void earlyBindToDefContainer() {
mHandler.sendMessage(mHandler.obtainMessage(DEF_CONTAINER_BIND));
}
void installStage(String packageName, File stagedDir,
IPackageInstallObserver2 observer, PackageInstaller.SessionParams sessionParams,
String installerPackageName, int installerUid, UserHandle user,
PackageParser.SigningDetails signingDetails) {
if (DEBUG_INSTANT) {
if ((sessionParams.installFlags & PackageManager.INSTALL_INSTANT_APP) != 0) {
Slog.d(TAG, "Ephemeral install of " + packageName);
}
}
final VerificationInfo verificationInfo = new VerificationInfo(
sessionParams.originatingUri, sessionParams.referrerUri,
sessionParams.originatingUid, installerUid);
final OriginInfo origin = OriginInfo.fromStagedFile(stagedDir);
final Message msg = mHandler.obtainMessage(INIT_COPY);
final int installReason = fixUpInstallReason(installerPackageName, installerUid,
sessionParams.installReason);
final InstallParams params = new InstallParams(origin, null, observer,
sessionParams.installFlags, installerPackageName, sessionParams.volumeUuid,
verificationInfo, user, sessionParams.abiOverride,
sessionParams.grantedRuntimePermissions, signingDetails, installReason);
params.setTraceMethod("installStage").setTraceCookie(System.identityHashCode(params));
msg.obj = params;
Trace.asyncTraceBegin(TRACE_TAG_PACKAGE_MANAGER, "installStage",
System.identityHashCode(msg.obj));
Trace.asyncTraceBegin(TRACE_TAG_PACKAGE_MANAGER, "queueInstall",
System.identityHashCode(msg.obj));
mHandler.sendMessage(msg);
}
private void sendPackageAddedForUser(String packageName, PackageSetting pkgSetting,
int userId) {
final boolean isSystem = isSystemApp(pkgSetting) || isUpdatedSystemApp(pkgSetting);
final boolean isInstantApp = pkgSetting.getInstantApp(userId);
final int[] userIds = isInstantApp ? EMPTY_INT_ARRAY : new int[] { userId };
final int[] instantUserIds = isInstantApp ? new int[] { userId } : EMPTY_INT_ARRAY;
sendPackageAddedForNewUsers(packageName, isSystem /*sendBootCompleted*/,
false /*startReceiver*/, pkgSetting.appId, userIds, instantUserIds);
// Send a session commit broadcast
final PackageInstaller.SessionInfo info = new PackageInstaller.SessionInfo();
info.installReason = pkgSetting.getInstallReason(userId);
info.appPackageName = packageName;
sendSessionCommitBroadcast(info, userId);
}
@Override
public void sendPackageAddedForNewUsers(String packageName, boolean sendBootCompleted,
boolean includeStopped, int appId, int[] userIds, int[] instantUserIds) {
if (ArrayUtils.isEmpty(userIds) && ArrayUtils.isEmpty(instantUserIds)) {
return;
}
Bundle extras = new Bundle(1);
// Set to UID of the first user, EXTRA_UID is automatically updated in sendPackageBroadcast
final int uid = UserHandle.getUid(
(ArrayUtils.isEmpty(userIds) ? instantUserIds[0] : userIds[0]), appId);
extras.putInt(Intent.EXTRA_UID, uid);
sendPackageBroadcast(Intent.ACTION_PACKAGE_ADDED,
packageName, extras, 0, null, null, userIds, instantUserIds);
if (sendBootCompleted && !ArrayUtils.isEmpty(userIds)) {
mHandler.post(() -> {
for (int userId : userIds) {
sendBootCompletedBroadcastToSystemApp(
packageName, includeStopped, userId);
}
}
);
}
}
/**
* The just-installed/enabled app is bundled on the system, so presumed to be able to run
* automatically without needing an explicit launch.
* Send it a LOCKED_BOOT_COMPLETED/BOOT_COMPLETED if it would ordinarily have gotten ones.
*/
private void sendBootCompletedBroadcastToSystemApp(String packageName, boolean includeStopped,
int userId) {
// If user is not running, the app didn't miss any broadcast
if (!mUserManagerInternal.isUserRunning(userId)) {
return;
}
final IActivityManager am = ActivityManager.getService();
try {
// Deliver LOCKED_BOOT_COMPLETED first
Intent lockedBcIntent = new Intent(Intent.ACTION_LOCKED_BOOT_COMPLETED)
.setPackage(packageName);
if (includeStopped) {
lockedBcIntent.addFlags(Intent.FLAG_INCLUDE_STOPPED_PACKAGES);
}
final String[] requiredPermissions = {Manifest.permission.RECEIVE_BOOT_COMPLETED};
am.broadcastIntent(null, lockedBcIntent, null, null, 0, null, null, requiredPermissions,
android.app.AppOpsManager.OP_NONE, null, false, false, userId);
// Deliver BOOT_COMPLETED only if user is unlocked
if (mUserManagerInternal.isUserUnlockingOrUnlocked(userId)) {
Intent bcIntent = new Intent(Intent.ACTION_BOOT_COMPLETED).setPackage(packageName);
if (includeStopped) {
bcIntent.addFlags(Intent.FLAG_INCLUDE_STOPPED_PACKAGES);
}
am.broadcastIntent(null, bcIntent, null, null, 0, null, null, requiredPermissions,
android.app.AppOpsManager.OP_NONE, null, false, false, userId);
}
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
@Override
public boolean setApplicationHiddenSettingAsUser(String packageName, boolean hidden,
int userId) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.MANAGE_USERS, null);
PackageSetting pkgSetting;
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, true /* checkShell */,
"setApplicationHiddenSetting for user " + userId);
if (hidden && isPackageDeviceAdmin(packageName, userId)) {
Slog.w(TAG, "Not hiding package " + packageName + ": has active device admin");
return false;
}
long callingId = Binder.clearCallingIdentity();
try {
boolean sendAdded = false;
boolean sendRemoved = false;
// writer
synchronized (mPackages) {
pkgSetting = mSettings.mPackages.get(packageName);
if (pkgSetting == null) {
return false;
}
if (filterAppAccessLPr(pkgSetting, callingUid, userId)) {
return false;
}
// Do not allow "android" is being disabled
if ("android".equals(packageName)) {
Slog.w(TAG, "Cannot hide package: android");
return false;
}
// Cannot hide static shared libs as they are considered
// a part of the using app (emulating static linking). Also
// static libs are installed always on internal storage.
PackageParser.Package pkg = mPackages.get(packageName);
if (pkg != null && pkg.staticSharedLibName != null) {
Slog.w(TAG, "Cannot hide package: " + packageName
+ " providing static shared library: "
+ pkg.staticSharedLibName);
return false;
}
// Only allow protected packages to hide themselves.
if (hidden && !UserHandle.isSameApp(callingUid, pkgSetting.appId)
&& mProtectedPackages.isPackageStateProtected(userId, packageName)) {
Slog.w(TAG, "Not hiding protected package: " + packageName);
return false;
}
if (pkgSetting.getHidden(userId) != hidden) {
pkgSetting.setHidden(hidden, userId);
mSettings.writePackageRestrictionsLPr(userId);
if (hidden) {
sendRemoved = true;
} else {
sendAdded = true;
}
}
}
if (sendAdded) {
sendPackageAddedForUser(packageName, pkgSetting, userId);
return true;
}
if (sendRemoved) {
killApplication(packageName, UserHandle.getUid(userId, pkgSetting.appId),
"hiding pkg");
sendApplicationHiddenForUser(packageName, pkgSetting, userId);
return true;
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
return false;
}
private void sendApplicationHiddenForUser(String packageName, PackageSetting pkgSetting,
int userId) {
final PackageRemovedInfo info = new PackageRemovedInfo(this);
info.removedPackage = packageName;
info.installerPackageName = pkgSetting.installerPackageName;
info.removedUsers = new int[] {userId};
info.broadcastUsers = new int[] {userId};
info.uid = UserHandle.getUid(userId, pkgSetting.appId);
info.sendPackageRemovedBroadcasts(true /*killApp*/);
}
private void sendPackagesSuspendedForUser(String[] pkgList, int userId, boolean suspended,
PersistableBundle launcherExtras) {
if (pkgList.length > 0) {
Bundle extras = new Bundle(1);
extras.putStringArray(Intent.EXTRA_CHANGED_PACKAGE_LIST, pkgList);
if (launcherExtras != null) {
extras.putBundle(Intent.EXTRA_LAUNCHER_EXTRAS,
new Bundle(launcherExtras.deepCopy()));
}
sendPackageBroadcast(
suspended ? Intent.ACTION_PACKAGES_SUSPENDED
: Intent.ACTION_PACKAGES_UNSUSPENDED,
null, extras, Intent.FLAG_RECEIVER_REGISTERED_ONLY, null, null,
new int[] {userId}, null);
}
}
/**
* Returns true if application is not found or there was an error. Otherwise it returns
* the hidden state of the package for the given user.
*/
@Override
public boolean getApplicationHiddenSettingAsUser(String packageName, int userId) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.MANAGE_USERS, null);
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, false /* checkShell */,
"getApplicationHidden for user " + userId);
PackageSetting ps;
long callingId = Binder.clearCallingIdentity();
try {
// writer
synchronized (mPackages) {
ps = mSettings.mPackages.get(packageName);
if (ps == null) {
return true;
}
if (filterAppAccessLPr(ps, callingUid, userId)) {
return true;
}
return ps.getHidden(userId);
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
}
/**
* @hide
*/
@Override
public int installExistingPackageAsUser(String packageName, int userId, int installFlags,
int installReason) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.INSTALL_PACKAGES,
null);
PackageSetting pkgSetting;
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, true /* checkShell */,
"installExistingPackage for user " + userId);
if (isUserRestricted(userId, UserManager.DISALLOW_INSTALL_APPS)) {
return PackageManager.INSTALL_FAILED_USER_RESTRICTED;
}
long callingId = Binder.clearCallingIdentity();
try {
boolean installed = false;
final boolean instantApp =
(installFlags & PackageManager.INSTALL_INSTANT_APP) != 0;
final boolean fullApp =
(installFlags & PackageManager.INSTALL_FULL_APP) != 0;
// writer
synchronized (mPackages) {
pkgSetting = mSettings.mPackages.get(packageName);
if (pkgSetting == null) {
return PackageManager.INSTALL_FAILED_INVALID_URI;
}
if (!canViewInstantApps(callingUid, UserHandle.getUserId(callingUid))) {
// only allow the existing package to be used if it's installed as a full
// application for at least one user
boolean installAllowed = false;
for (int checkUserId : sUserManager.getUserIds()) {
installAllowed = !pkgSetting.getInstantApp(checkUserId);
if (installAllowed) {
break;
}
}
if (!installAllowed) {
return PackageManager.INSTALL_FAILED_INVALID_URI;
}
}
if (!pkgSetting.getInstalled(userId)) {
pkgSetting.setInstalled(true, userId);
pkgSetting.setHidden(false, userId);
pkgSetting.setInstallReason(installReason, userId);
mSettings.writePackageRestrictionsLPr(userId);
mSettings.writeKernelMappingLPr(pkgSetting);
installed = true;
} else if (fullApp && pkgSetting.getInstantApp(userId)) {
// upgrade app from instant to full; we don't allow app downgrade
installed = true;
}
setInstantAppForUser(pkgSetting, userId, instantApp, fullApp);
}
if (installed) {
if (pkgSetting.pkg != null) {
synchronized (mInstallLock) {
// We don't need to freeze for a brand new install
prepareAppDataAfterInstallLIF(pkgSetting.pkg);
}
}
sendPackageAddedForUser(packageName, pkgSetting, userId);
synchronized (mPackages) {
updateSequenceNumberLP(pkgSetting, new int[]{ userId });
}
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
return PackageManager.INSTALL_SUCCEEDED;
}
static void setInstantAppForUser(PackageSetting pkgSetting, int userId,
boolean instantApp, boolean fullApp) {
// no state specified; do nothing
if (!instantApp && !fullApp) {
return;
}
if (userId != UserHandle.USER_ALL) {
if (instantApp && !pkgSetting.getInstantApp(userId)) {
pkgSetting.setInstantApp(true /*instantApp*/, userId);
} else if (fullApp && pkgSetting.getInstantApp(userId)) {
pkgSetting.setInstantApp(false /*instantApp*/, userId);
}
} else {
for (int currentUserId : sUserManager.getUserIds()) {
if (instantApp && !pkgSetting.getInstantApp(currentUserId)) {
pkgSetting.setInstantApp(true /*instantApp*/, currentUserId);
} else if (fullApp && pkgSetting.getInstantApp(currentUserId)) {
pkgSetting.setInstantApp(false /*instantApp*/, currentUserId);
}
}
}
}
boolean isUserRestricted(int userId, String restrictionKey) {
Bundle restrictions = sUserManager.getUserRestrictions(userId);
if (restrictions.getBoolean(restrictionKey, false)) {
Log.w(TAG, "User is restricted: " + restrictionKey);
return true;
}
return false;
}
@Override
public String[] setPackagesSuspendedAsUser(String[] packageNames, boolean suspended,
PersistableBundle appExtras, PersistableBundle launcherExtras, String dialogMessage,
String callingPackage, int userId) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.SUSPEND_APPS,
"setPackagesSuspendedAsUser");
final int callingUid = Binder.getCallingUid();
if (callingUid != Process.ROOT_UID && callingUid != Process.SYSTEM_UID
&& getPackageUid(callingPackage, 0, userId) != callingUid) {
throw new SecurityException("Calling package " + callingPackage + " in user "
+ userId + " does not belong to calling uid " + callingUid);
}
if (!PLATFORM_PACKAGE_NAME.equals(callingPackage)
&& mProtectedPackages.getDeviceOwnerOrProfileOwnerPackage(userId) != null) {
throw new UnsupportedOperationException("Cannot suspend/unsuspend packages. User "
+ userId + " has an active DO or PO");
}
if (ArrayUtils.isEmpty(packageNames)) {
return packageNames;
}
final List<String> changedPackagesList = new ArrayList<>(packageNames.length);
final List<String> unactionedPackages = new ArrayList<>(packageNames.length);
final long callingId = Binder.clearCallingIdentity();
try {
synchronized (mPackages) {
for (int i = 0; i < packageNames.length; i++) {
final String packageName = packageNames[i];
if (callingPackage.equals(packageName)) {
Slog.w(TAG, "Calling package: " + callingPackage + " trying to "
+ (suspended ? "" : "un") + "suspend itself. Ignoring");
unactionedPackages.add(packageName);
continue;
}
final PackageSetting pkgSetting = mSettings.mPackages.get(packageName);
if (pkgSetting == null
|| filterAppAccessLPr(pkgSetting, callingUid, userId)) {
Slog.w(TAG, "Could not find package setting for package: " + packageName
+ ". Skipping suspending/un-suspending.");
unactionedPackages.add(packageName);
continue;
}
if (suspended && !canSuspendPackageForUserLocked(packageName, userId)) {
unactionedPackages.add(packageName);
continue;
}
pkgSetting.setSuspended(suspended, callingPackage, dialogMessage, appExtras,
launcherExtras, userId);
changedPackagesList.add(packageName);
}
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
if (!changedPackagesList.isEmpty()) {
final String[] changedPackages = changedPackagesList.toArray(
new String[changedPackagesList.size()]);
sendPackagesSuspendedForUser(changedPackages, userId, suspended, launcherExtras);
sendMyPackageSuspendedOrUnsuspended(changedPackages, suspended, appExtras, userId);
synchronized (mPackages) {
scheduleWritePackageRestrictionsLocked(userId);
}
}
return unactionedPackages.toArray(new String[unactionedPackages.size()]);
}
@Override
public PersistableBundle getSuspendedPackageAppExtras(String packageName, int userId) {
final int callingUid = Binder.getCallingUid();
if (getPackageUid(packageName, 0, userId) != callingUid) {
throw new SecurityException("Calling package " + packageName
+ " does not belong to calling uid " + callingUid);
}
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null || filterAppAccessLPr(ps, callingUid, userId)) {
throw new IllegalArgumentException("Unknown target package: " + packageName);
}
final PackageUserState packageUserState = ps.readUserState(userId);
if (packageUserState.suspended) {
return packageUserState.suspendedAppExtras;
}
return null;
}
}
private void sendMyPackageSuspendedOrUnsuspended(String[] affectedPackages, boolean suspended,
PersistableBundle appExtras, int userId) {
final String action;
final Bundle intentExtras = new Bundle();
if (suspended) {
action = Intent.ACTION_MY_PACKAGE_SUSPENDED;
if (appExtras != null) {
final Bundle bundledAppExtras = new Bundle(appExtras.deepCopy());
intentExtras.putBundle(Intent.EXTRA_SUSPENDED_PACKAGE_EXTRAS, bundledAppExtras);
}
} else {
action = Intent.ACTION_MY_PACKAGE_UNSUSPENDED;
}
mHandler.post(new Runnable() {
@Override
public void run() {
try {
final IActivityManager am = ActivityManager.getService();
if (am == null) {
Slog.wtf(TAG, "IActivityManager null. Cannot send MY_PACKAGE_ "
+ (suspended ? "" : "UN") + "SUSPENDED broadcasts");
return;
}
final int[] targetUserIds = new int[] {userId};
for (String packageName : affectedPackages) {
doSendBroadcast(am, action, null, intentExtras,
Intent.FLAG_RECEIVER_INCLUDE_BACKGROUND, packageName, null,
targetUserIds, false);
}
} catch (RemoteException ex) {
// Shouldn't happen as AMS is in the same process.
}
}
});
}
@Override
public boolean isPackageSuspendedForUser(String packageName, int userId) {
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, false /* checkShell */,
"isPackageSuspendedForUser for user " + userId);
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null || filterAppAccessLPr(ps, callingUid, userId)) {
throw new IllegalArgumentException("Unknown target package: " + packageName);
}
return ps.getSuspended(userId);
}
}
/**
* Immediately unsuspends any packages suspended by the given package. To be called
* when such a package's data is cleared or it is removed from the device.
*
* <p><b>Should not be used on a frequent code path</b> as it flushes state to disk
* synchronously
*
* @param packageName The package holding {@link Manifest.permission#SUSPEND_APPS} permission
* @param affectedUser The user for which the changes are taking place.
*/
void unsuspendForSuspendingPackage(final String packageName, int affectedUser) {
final int[] userIds = (affectedUser == UserHandle.USER_ALL) ? sUserManager.getUserIds()
: new int[] {affectedUser};
for (int userId : userIds) {
unsuspendForSuspendingPackages(packageName::equals, userId);
}
}
/**
* Immediately unsuspends any packages in the given users not suspended by the platform or root.
* To be called when a profile owner or a device owner is added.
*
* <p><b>Should not be used on a frequent code path</b> as it flushes state to disk
* synchronously
*
* @param userIds The users for which to unsuspend packages
*/
void unsuspendForNonSystemSuspendingPackages(ArraySet<Integer> userIds) {
final int sz = userIds.size();
for (int i = 0; i < sz; i++) {
unsuspendForSuspendingPackages(
(suspendingPackage) -> !PLATFORM_PACKAGE_NAME.equals(suspendingPackage),
userIds.valueAt(i));
}
}
private void unsuspendForSuspendingPackages(Predicate<String> packagePredicate, int userId) {
final List<String> affectedPackages = new ArrayList<>();
synchronized (mPackages) {
for (PackageSetting ps : mSettings.mPackages.values()) {
final PackageUserState pus = ps.readUserState(userId);
if (pus.suspended && packagePredicate.test(pus.suspendingPackage)) {
ps.setSuspended(false, null, null, null, null, userId);
affectedPackages.add(ps.name);
}
}
}
if (!affectedPackages.isEmpty()) {
final String[] packageArray = affectedPackages.toArray(
new String[affectedPackages.size()]);
sendMyPackageSuspendedOrUnsuspended(packageArray, false, null, userId);
sendPackagesSuspendedForUser(packageArray, userId, false, null);
// Write package restrictions immediately to avoid an inconsistent state.
mSettings.writePackageRestrictionsLPr(userId);
}
}
@GuardedBy("mPackages")
private boolean canSuspendPackageForUserLocked(String packageName, int userId) {
if (isPackageDeviceAdmin(packageName, userId)) {
Slog.w(TAG, "Cannot suspend package \"" + packageName
+ "\": has an active device admin");
return false;
}
String activeLauncherPackageName = getActiveLauncherPackageName(userId);
if (packageName.equals(activeLauncherPackageName)) {
Slog.w(TAG, "Cannot suspend package \"" + packageName
+ "\": contains the active launcher");
return false;
}
if (packageName.equals(mRequiredInstallerPackage)) {
Slog.w(TAG, "Cannot suspend package \"" + packageName
+ "\": required for package installation");
return false;
}
if (packageName.equals(mRequiredUninstallerPackage)) {
Slog.w(TAG, "Cannot suspend package \"" + packageName
+ "\": required for package uninstallation");
return false;
}
if (packageName.equals(mRequiredVerifierPackage)) {
Slog.w(TAG, "Cannot suspend package \"" + packageName
+ "\": required for package verification");
return false;
}
if (packageName.equals(getDefaultDialerPackageName(userId))) {
Slog.w(TAG, "Cannot suspend package \"" + packageName
+ "\": is the default dialer");
return false;
}
if (mProtectedPackages.isPackageStateProtected(userId, packageName)) {
Slog.w(TAG, "Cannot suspend package \"" + packageName
+ "\": protected package");
return false;
}
// Cannot suspend static shared libs as they are considered
// a part of the using app (emulating static linking). Also
// static libs are installed always on internal storage.
PackageParser.Package pkg = mPackages.get(packageName);
if (pkg != null && pkg.applicationInfo.isStaticSharedLibrary()) {
Slog.w(TAG, "Cannot suspend package: " + packageName
+ " providing static shared library: "
+ pkg.staticSharedLibName);
return false;
}
if (PLATFORM_PACKAGE_NAME.equals(packageName)) {
Slog.w(TAG, "Cannot suspend package: " + packageName);
return false;
}
return true;
}
private String getActiveLauncherPackageName(int userId) {
Intent intent = new Intent(Intent.ACTION_MAIN);
intent.addCategory(Intent.CATEGORY_HOME);
ResolveInfo resolveInfo = resolveIntent(
intent,
intent.resolveTypeIfNeeded(mContext.getContentResolver()),
PackageManager.MATCH_DEFAULT_ONLY,
userId);
return resolveInfo == null ? null : resolveInfo.activityInfo.packageName;
}
private String getDefaultDialerPackageName(int userId) {
synchronized (mPackages) {
return mSettings.getDefaultDialerPackageNameLPw(userId);
}
}
@Override
public void verifyPendingInstall(int id, int verificationCode) throws RemoteException {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.PACKAGE_VERIFICATION_AGENT,
"Only package verification agents can verify applications");
final Message msg = mHandler.obtainMessage(PACKAGE_VERIFIED);
final PackageVerificationResponse response = new PackageVerificationResponse(
verificationCode, Binder.getCallingUid());
msg.arg1 = id;
msg.obj = response;
mHandler.sendMessage(msg);
}
@Override
public void extendVerificationTimeout(int id, int verificationCodeAtTimeout,
long millisecondsToDelay) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.PACKAGE_VERIFICATION_AGENT,
"Only package verification agents can extend verification timeouts");
final PackageVerificationState state = mPendingVerification.get(id);
final PackageVerificationResponse response = new PackageVerificationResponse(
verificationCodeAtTimeout, Binder.getCallingUid());
if (millisecondsToDelay > PackageManager.MAXIMUM_VERIFICATION_TIMEOUT) {
millisecondsToDelay = PackageManager.MAXIMUM_VERIFICATION_TIMEOUT;
}
if (millisecondsToDelay < 0) {
millisecondsToDelay = 0;
}
if ((verificationCodeAtTimeout != PackageManager.VERIFICATION_ALLOW)
&& (verificationCodeAtTimeout != PackageManager.VERIFICATION_REJECT)) {
verificationCodeAtTimeout = PackageManager.VERIFICATION_REJECT;
}
if ((state != null) && !state.timeoutExtended()) {
state.extendTimeout();
final Message msg = mHandler.obtainMessage(PACKAGE_VERIFIED);
msg.arg1 = id;
msg.obj = response;
mHandler.sendMessageDelayed(msg, millisecondsToDelay);
}
}
private void broadcastPackageVerified(int verificationId, Uri packageUri,
int verificationCode, UserHandle user) {
final Intent intent = new Intent(Intent.ACTION_PACKAGE_VERIFIED);
intent.setDataAndType(packageUri, PACKAGE_MIME_TYPE);
intent.addFlags(Intent.FLAG_GRANT_READ_URI_PERMISSION);
intent.putExtra(PackageManager.EXTRA_VERIFICATION_ID, verificationId);
intent.putExtra(PackageManager.EXTRA_VERIFICATION_RESULT, verificationCode);
mContext.sendBroadcastAsUser(intent, user,
android.Manifest.permission.PACKAGE_VERIFICATION_AGENT);
}
private ComponentName matchComponentForVerifier(String packageName,
List<ResolveInfo> receivers) {
ActivityInfo targetReceiver = null;
final int NR = receivers.size();
for (int i = 0; i < NR; i++) {
final ResolveInfo info = receivers.get(i);
if (info.activityInfo == null) {
continue;
}
if (packageName.equals(info.activityInfo.packageName)) {
targetReceiver = info.activityInfo;
break;
}
}
if (targetReceiver == null) {
return null;
}
return new ComponentName(targetReceiver.packageName, targetReceiver.name);
}
private List<ComponentName> matchVerifiers(PackageInfoLite pkgInfo,
List<ResolveInfo> receivers, final PackageVerificationState verificationState) {
if (pkgInfo.verifiers.length == 0) {
return null;
}
final int N = pkgInfo.verifiers.length;
final List<ComponentName> sufficientVerifiers = new ArrayList<ComponentName>(N + 1);
for (int i = 0; i < N; i++) {
final VerifierInfo verifierInfo = pkgInfo.verifiers[i];
final ComponentName comp = matchComponentForVerifier(verifierInfo.packageName,
receivers);
if (comp == null) {
continue;
}
final int verifierUid = getUidForVerifier(verifierInfo);
if (verifierUid == -1) {
continue;
}
if (DEBUG_VERIFY) {
Slog.d(TAG, "Added sufficient verifier " + verifierInfo.packageName
+ " with the correct signature");
}
sufficientVerifiers.add(comp);
verificationState.addSufficientVerifier(verifierUid);
}
return sufficientVerifiers;
}
private int getUidForVerifier(VerifierInfo verifierInfo) {
synchronized (mPackages) {
final PackageParser.Package pkg = mPackages.get(verifierInfo.packageName);
if (pkg == null) {
return -1;
} else if (pkg.mSigningDetails.signatures.length != 1) {
Slog.i(TAG, "Verifier package " + verifierInfo.packageName
+ " has more than one signature; ignoring");
return -1;
}
/*
* If the public key of the package's signature does not match
* our expected public key, then this is a different package and
* we should skip.
*/
final byte[] expectedPublicKey;
try {
final Signature verifierSig = pkg.mSigningDetails.signatures[0];
final PublicKey publicKey = verifierSig.getPublicKey();
expectedPublicKey = publicKey.getEncoded();
} catch (CertificateException e) {
return -1;
}
final byte[] actualPublicKey = verifierInfo.publicKey.getEncoded();
if (!Arrays.equals(actualPublicKey, expectedPublicKey)) {
Slog.i(TAG, "Verifier package " + verifierInfo.packageName
+ " does not have the expected public key; ignoring");
return -1;
}
return pkg.applicationInfo.uid;
}
}
@Override
public void finishPackageInstall(int token, boolean didLaunch) {
enforceSystemOrRoot("Only the system is allowed to finish installs");
if (DEBUG_INSTALL) {
Slog.v(TAG, "BM finishing package install for " + token);
}
Trace.asyncTraceEnd(TRACE_TAG_PACKAGE_MANAGER, "restore", token);
final Message msg = mHandler.obtainMessage(POST_INSTALL, token, didLaunch ? 1 : 0);
mHandler.sendMessage(msg);
}
/**
* Get the verification agent timeout. Used for both the APK verifier and the
* intent filter verifier.
*
* @return verification timeout in milliseconds
*/
private long getVerificationTimeout() {
return android.provider.Settings.Global.getLong(mContext.getContentResolver(),
android.provider.Settings.Global.PACKAGE_VERIFIER_TIMEOUT,
DEFAULT_VERIFICATION_TIMEOUT);
}
/**
* Get the default verification agent response code.
*
* @return default verification response code
*/
private int getDefaultVerificationResponse(UserHandle user) {
if (sUserManager.hasUserRestriction(UserManager.ENSURE_VERIFY_APPS, user.getIdentifier())) {
return PackageManager.VERIFICATION_REJECT;
}
return android.provider.Settings.Global.getInt(mContext.getContentResolver(),
android.provider.Settings.Global.PACKAGE_VERIFIER_DEFAULT_RESPONSE,
DEFAULT_VERIFICATION_RESPONSE);
}
/**
* Check whether or not package verification has been enabled.
*
* @return true if verification should be performed
*/
private boolean isVerificationEnabled(int userId, int installFlags, int installerUid) {
if (!DEFAULT_VERIFY_ENABLE) {
return false;
}
boolean ensureVerifyAppsEnabled = isUserRestricted(userId, UserManager.ENSURE_VERIFY_APPS);
// Check if installing from ADB
if ((installFlags & PackageManager.INSTALL_FROM_ADB) != 0) {
// Do not run verification in a test harness environment
if (ActivityManager.isRunningInTestHarness()) {
return false;
}
if (ensureVerifyAppsEnabled) {
return true;
}
// Check if the developer does not want package verification for ADB installs
if (android.provider.Settings.Global.getInt(mContext.getContentResolver(),
android.provider.Settings.Global.PACKAGE_VERIFIER_INCLUDE_ADB, 1) == 0) {
return false;
}
} else {
// only when not installed from ADB, skip verification for instant apps when
// the installer and verifier are the same.
if ((installFlags & PackageManager.INSTALL_INSTANT_APP) != 0) {
if (mInstantAppInstallerActivity != null
&& mInstantAppInstallerActivity.packageName.equals(
mRequiredVerifierPackage)) {
try {
mContext.getSystemService(AppOpsManager.class)
.checkPackage(installerUid, mRequiredVerifierPackage);
if (DEBUG_VERIFY) {
Slog.i(TAG, "disable verification for instant app");
}
return false;
} catch (SecurityException ignore) { }
}
}
}
if (ensureVerifyAppsEnabled) {
return true;
}
return android.provider.Settings.Global.getInt(mContext.getContentResolver(),
android.provider.Settings.Global.PACKAGE_VERIFIER_ENABLE, 1) == 1;
}
@Override
public void verifyIntentFilter(int id, int verificationCode, List<String> failedDomains)
throws RemoteException {
mContext.enforceCallingOrSelfPermission(
Manifest.permission.INTENT_FILTER_VERIFICATION_AGENT,
"Only intentfilter verification agents can verify applications");
final Message msg = mHandler.obtainMessage(INTENT_FILTER_VERIFIED);
final IntentFilterVerificationResponse response = new IntentFilterVerificationResponse(
Binder.getCallingUid(), verificationCode, failedDomains);
msg.arg1 = id;
msg.obj = response;
mHandler.sendMessage(msg);
}
@Override
public int getIntentVerificationStatus(String packageName, int userId) {
final int callingUid = Binder.getCallingUid();
if (UserHandle.getUserId(callingUid) != userId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL,
"getIntentVerificationStatus" + userId);
}
if (getInstantAppPackageName(callingUid) != null) {
return INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED;
}
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null
|| filterAppAccessLPr(ps, callingUid, UserHandle.getUserId(callingUid))) {
return INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED;
}
return mSettings.getIntentFilterVerificationStatusLPr(packageName, userId);
}
}
@Override
public boolean updateIntentVerificationStatus(String packageName, int status, int userId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS, null);
boolean result = false;
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (filterAppAccessLPr(ps, Binder.getCallingUid(), UserHandle.getCallingUserId())) {
return false;
}
result = mSettings.updateIntentFilterVerificationStatusLPw(packageName, status, userId);
}
if (result) {
scheduleWritePackageRestrictionsLocked(userId);
}
return result;
}
@Override
public @NonNull ParceledListSlice<IntentFilterVerificationInfo> getIntentFilterVerifications(
String packageName) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return ParceledListSlice.emptyList();
}
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (filterAppAccessLPr(ps, callingUid, UserHandle.getUserId(callingUid))) {
return ParceledListSlice.emptyList();
}
return new ParceledListSlice<>(mSettings.getIntentFilterVerificationsLPr(packageName));
}
}
@Override
public @NonNull ParceledListSlice<IntentFilter> getAllIntentFilters(String packageName) {
if (TextUtils.isEmpty(packageName)) {
return ParceledListSlice.emptyList();
}
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
synchronized (mPackages) {
PackageParser.Package pkg = mPackages.get(packageName);
if (pkg == null || pkg.activities == null) {
return ParceledListSlice.emptyList();
}
if (pkg.mExtras == null) {
return ParceledListSlice.emptyList();
}
final PackageSetting ps = (PackageSetting) pkg.mExtras;
if (filterAppAccessLPr(ps, callingUid, callingUserId)) {
return ParceledListSlice.emptyList();
}
final int count = pkg.activities.size();
ArrayList<IntentFilter> result = new ArrayList<>();
for (int n=0; n<count; n++) {
PackageParser.Activity activity = pkg.activities.get(n);
if (activity.intents != null && activity.intents.size() > 0) {
result.addAll(activity.intents);
}
}
return new ParceledListSlice<>(result);
}
}
@Override
public boolean setDefaultBrowserPackageName(String packageName, int userId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS, null);
if (UserHandle.getCallingUserId() != userId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL, null);
}
synchronized (mPackages) {
boolean result = mSettings.setDefaultBrowserPackageNameLPw(packageName, userId);
if (packageName != null) {
mDefaultPermissionPolicy.grantDefaultPermissionsToDefaultBrowser(
packageName, userId);
}
return result;
}
}
@Override
public String getDefaultBrowserPackageName(int userId) {
if (UserHandle.getCallingUserId() != userId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL, null);
}
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
synchronized (mPackages) {
return mSettings.getDefaultBrowserPackageNameLPw(userId);
}
}
/**
* Get the "allow unknown sources" setting.
*
* @return the current "allow unknown sources" setting
*/
private int getUnknownSourcesSettings() {
return android.provider.Settings.Secure.getInt(mContext.getContentResolver(),
android.provider.Settings.Secure.INSTALL_NON_MARKET_APPS,
-1);
}
@Override
public void setInstallerPackageName(String targetPackage, String installerPackageName) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return;
}
// writer
synchronized (mPackages) {
PackageSetting targetPackageSetting = mSettings.mPackages.get(targetPackage);
if (targetPackageSetting == null
|| filterAppAccessLPr(
targetPackageSetting, callingUid, UserHandle.getUserId(callingUid))) {
throw new IllegalArgumentException("Unknown target package: " + targetPackage);
}
PackageSetting installerPackageSetting;
if (installerPackageName != null) {
installerPackageSetting = mSettings.mPackages.get(installerPackageName);
if (installerPackageSetting == null) {
throw new IllegalArgumentException("Unknown installer package: "
+ installerPackageName);
}
} else {
installerPackageSetting = null;
}
Signature[] callerSignature;
Object obj = mSettings.getUserIdLPr(callingUid);
if (obj != null) {
if (obj instanceof SharedUserSetting) {
callerSignature =
((SharedUserSetting)obj).signatures.mSigningDetails.signatures;
} else if (obj instanceof PackageSetting) {
callerSignature = ((PackageSetting)obj).signatures.mSigningDetails.signatures;
} else {
throw new SecurityException("Bad object " + obj + " for uid " + callingUid);
}
} else {
throw new SecurityException("Unknown calling UID: " + callingUid);
}
// Verify: can't set installerPackageName to a package that is
// not signed with the same cert as the caller.
if (installerPackageSetting != null) {
if (compareSignatures(callerSignature,
installerPackageSetting.signatures.mSigningDetails.signatures)
!= PackageManager.SIGNATURE_MATCH) {
throw new SecurityException(
"Caller does not have same cert as new installer package "
+ installerPackageName);
}
}
// Verify: if target already has an installer package, it must
// be signed with the same cert as the caller.
if (targetPackageSetting.installerPackageName != null) {
PackageSetting setting = mSettings.mPackages.get(
targetPackageSetting.installerPackageName);
// If the currently set package isn't valid, then it's always
// okay to change it.
if (setting != null) {
if (compareSignatures(callerSignature,
setting.signatures.mSigningDetails.signatures)
!= PackageManager.SIGNATURE_MATCH) {
throw new SecurityException(
"Caller does not have same cert as old installer package "
+ targetPackageSetting.installerPackageName);
}
}
}
// Okay!
targetPackageSetting.installerPackageName = installerPackageName;
if (installerPackageName != null) {
mSettings.mInstallerPackages.add(installerPackageName);
}
scheduleWriteSettingsLocked();
}
}
@Override
public void setApplicationCategoryHint(String packageName, int categoryHint,
String callerPackageName) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
throw new SecurityException("Instant applications don't have access to this method");
}
mContext.getSystemService(AppOpsManager.class).checkPackage(Binder.getCallingUid(),
callerPackageName);
synchronized (mPackages) {
PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null) {
throw new IllegalArgumentException("Unknown target package " + packageName);
}
if (filterAppAccessLPr(ps, Binder.getCallingUid(), UserHandle.getCallingUserId())) {
throw new IllegalArgumentException("Unknown target package " + packageName);
}
if (!Objects.equals(callerPackageName, ps.installerPackageName)) {
throw new IllegalArgumentException("Calling package " + callerPackageName
+ " is not installer for " + packageName);
}
if (ps.categoryHint != categoryHint) {
ps.categoryHint = categoryHint;
scheduleWriteSettingsLocked();
}
}
}
private void processPendingInstall(final InstallArgs args, final int currentStatus) {
// Queue up an async operation since the package installation may take a little while.
mHandler.post(new Runnable() {
public void run() {
mHandler.removeCallbacks(this);
// Result object to be returned
PackageInstalledInfo res = new PackageInstalledInfo();
res.setReturnCode(currentStatus);
res.uid = -1;
res.pkg = null;
res.removedInfo = null;
if (res.returnCode == PackageManager.INSTALL_SUCCEEDED) {
args.doPreInstall(res.returnCode);
synchronized (mInstallLock) {
installPackageTracedLI(args, res);
}
args.doPostInstall(res.returnCode, res.uid);
}
// A restore should be performed at this point if (a) the install
// succeeded, (b) the operation is not an update, and (c) the new
// package has not opted out of backup participation.
final boolean update = res.removedInfo != null
&& res.removedInfo.removedPackage != null;
final int flags = (res.pkg == null) ? 0 : res.pkg.applicationInfo.flags;
boolean doRestore = !update
&& ((flags & ApplicationInfo.FLAG_ALLOW_BACKUP) != 0);
// Set up the post-install work request bookkeeping. This will be used
// and cleaned up by the post-install event handling regardless of whether
// there's a restore pass performed. Token values are >= 1.
int token;
if (mNextInstallToken < 0) mNextInstallToken = 1;
token = mNextInstallToken++;
PostInstallData data = new PostInstallData(args, res);
mRunningInstalls.put(token, data);
if (DEBUG_INSTALL) Log.v(TAG, "+ starting restore round-trip " + token);
if (res.returnCode == PackageManager.INSTALL_SUCCEEDED && doRestore) {
// Pass responsibility to the Backup Manager. It will perform a
// restore if appropriate, then pass responsibility back to the
// Package Manager to run the post-install observer callbacks
// and broadcasts.
IBackupManager bm = IBackupManager.Stub.asInterface(
ServiceManager.getService(Context.BACKUP_SERVICE));
if (bm != null) {
if (DEBUG_INSTALL) Log.v(TAG, "token " + token
+ " to BM for possible restore");
Trace.asyncTraceBegin(TRACE_TAG_PACKAGE_MANAGER, "restore", token);
try {
// TODO: http://b/22388012
if (bm.isBackupServiceActive(UserHandle.USER_SYSTEM)) {
bm.restoreAtInstall(res.pkg.applicationInfo.packageName, token);
} else {
doRestore = false;
}
} catch (RemoteException e) {
// can't happen; the backup manager is local
} catch (Exception e) {
Slog.e(TAG, "Exception trying to enqueue restore", e);
doRestore = false;
}
} else {
Slog.e(TAG, "Backup Manager not found!");
doRestore = false;
}
}
if (!doRestore) {
// No restore possible, or the Backup Manager was mysteriously not
// available -- just fire the post-install work request directly.
if (DEBUG_INSTALL) Log.v(TAG, "No restore - queue post-install for " + token);
Trace.asyncTraceBegin(TRACE_TAG_PACKAGE_MANAGER, "postInstall", token);
Message msg = mHandler.obtainMessage(POST_INSTALL, token, 0);
mHandler.sendMessage(msg);
}
}
});
}
/**
* Callback from PackageSettings whenever an app is first transitioned out of the
* 'stopped' state. Normally we just issue the broadcast, but we can't do that if
* the app was "launched" for a restoreAtInstall operation. Therefore we check
* here whether the app is the target of an ongoing install, and only send the
* broadcast immediately if it is not in that state. If it *is* undergoing a restore,
* the first-launch broadcast will be sent implicitly on that basis in POST_INSTALL
* handling.
*/
void notifyFirstLaunch(final String packageName, final String installerPackage,
final int userId) {
// Serialize this with the rest of the install-process message chain. In the
// restore-at-install case, this Runnable will necessarily run before the
// POST_INSTALL message is processed, so the contents of mRunningInstalls
// are coherent. In the non-restore case, the app has already completed install
// and been launched through some other means, so it is not in a problematic
// state for observers to see the FIRST_LAUNCH signal.
mHandler.post(new Runnable() {
@Override
public void run() {
for (int i = 0; i < mRunningInstalls.size(); i++) {
final PostInstallData data = mRunningInstalls.valueAt(i);
if (data.res.returnCode != PackageManager.INSTALL_SUCCEEDED) {
continue;
}
if (packageName.equals(data.res.pkg.applicationInfo.packageName)) {
// right package; but is it for the right user?
for (int uIndex = 0; uIndex < data.res.newUsers.length; uIndex++) {
if (userId == data.res.newUsers[uIndex]) {
if (DEBUG_BACKUP) {
Slog.i(TAG, "Package " + packageName
+ " being restored so deferring FIRST_LAUNCH");
}
return;
}
}
}
}
// didn't find it, so not being restored
if (DEBUG_BACKUP) {
Slog.i(TAG, "Package " + packageName + " sending normal FIRST_LAUNCH");
}
final boolean isInstantApp = isInstantApp(packageName, userId);
final int[] userIds = isInstantApp ? EMPTY_INT_ARRAY : new int[] { userId };
final int[] instantUserIds = isInstantApp ? new int[] { userId } : EMPTY_INT_ARRAY;
sendFirstLaunchBroadcast(packageName, installerPackage, userIds, instantUserIds);
}
});
}
private void sendFirstLaunchBroadcast(String pkgName, String installerPkg,
int[] userIds, int[] instantUserIds) {
sendPackageBroadcast(Intent.ACTION_PACKAGE_FIRST_LAUNCH, pkgName, null, 0,
installerPkg, null, userIds, instantUserIds);
}
private abstract class HandlerParams {
private static final int MAX_RETRIES = 4;
/**
* Number of times startCopy() has been attempted and had a non-fatal
* error.
*/
private int mRetries = 0;
/** User handle for the user requesting the information or installation. */
private final UserHandle mUser;
String traceMethod;
int traceCookie;
HandlerParams(UserHandle user) {
mUser = user;
}
UserHandle getUser() {
return mUser;
}
HandlerParams setTraceMethod(String traceMethod) {
this.traceMethod = traceMethod;
return this;
}
HandlerParams setTraceCookie(int traceCookie) {
this.traceCookie = traceCookie;
return this;
}
final boolean startCopy() {
boolean res;
try {
if (DEBUG_INSTALL) Slog.i(TAG, "startCopy " + mUser + ": " + this);
if (++mRetries > MAX_RETRIES) {
Slog.w(TAG, "Failed to invoke remote methods on default container service. Giving up");
mHandler.sendEmptyMessage(MCS_GIVE_UP);
handleServiceError();
return false;
} else {
handleStartCopy();
res = true;
}
} catch (RemoteException e) {
if (DEBUG_INSTALL) Slog.i(TAG, "Posting install MCS_RECONNECT");
mHandler.sendEmptyMessage(MCS_RECONNECT);
res = false;
}
handleReturnCode();
return res;
}
final void serviceError() {
if (DEBUG_INSTALL) Slog.i(TAG, "serviceError");
handleServiceError();
handleReturnCode();
}
abstract void handleStartCopy() throws RemoteException;
abstract void handleServiceError();
abstract void handleReturnCode();
}
private static void clearDirectory(IMediaContainerService mcs, File[] paths) {
for (File path : paths) {
try {
mcs.clearDirectory(path.getAbsolutePath());
} catch (RemoteException e) {
}
}
}
static class OriginInfo {
/**
* Location where install is coming from, before it has been
* copied/renamed into place. This could be a single monolithic APK
* file, or a cluster directory. This location may be untrusted.
*/
final File file;
/**
* Flag indicating that {@link #file} or {@link #cid} has already been
* staged, meaning downstream users don't need to defensively copy the
* contents.
*/
final boolean staged;
/**
* Flag indicating that {@link #file} or {@link #cid} is an already
* installed app that is being moved.
*/
final boolean existing;
final String resolvedPath;
final File resolvedFile;
static OriginInfo fromNothing() {
return new OriginInfo(null, false, false);
}
static OriginInfo fromUntrustedFile(File file) {
return new OriginInfo(file, false, false);
}
static OriginInfo fromExistingFile(File file) {
return new OriginInfo(file, false, true);
}
static OriginInfo fromStagedFile(File file) {
return new OriginInfo(file, true, false);
}
private OriginInfo(File file, boolean staged, boolean existing) {
this.file = file;
this.staged = staged;
this.existing = existing;
if (file != null) {
resolvedPath = file.getAbsolutePath();
resolvedFile = file;
} else {
resolvedPath = null;
resolvedFile = null;
}
}
}
static class MoveInfo {
final int moveId;
final String fromUuid;
final String toUuid;
final String packageName;
final String dataAppName;
final int appId;
final String seinfo;
final int targetSdkVersion;
public MoveInfo(int moveId, String fromUuid, String toUuid, String packageName,
String dataAppName, int appId, String seinfo, int targetSdkVersion) {
this.moveId = moveId;
this.fromUuid = fromUuid;
this.toUuid = toUuid;
this.packageName = packageName;
this.dataAppName = dataAppName;
this.appId = appId;
this.seinfo = seinfo;
this.targetSdkVersion = targetSdkVersion;
}
}
static class VerificationInfo {
/** A constant used to indicate that a uid value is not present. */
public static final int NO_UID = -1;
/** URI referencing where the package was downloaded from. */
final Uri originatingUri;
/** HTTP referrer URI associated with the originatingURI. */
final Uri referrer;
/** UID of the application that the install request originated from. */
final int originatingUid;
/** UID of application requesting the install */
final int installerUid;
VerificationInfo(Uri originatingUri, Uri referrer, int originatingUid, int installerUid) {
this.originatingUri = originatingUri;
this.referrer = referrer;
this.originatingUid = originatingUid;
this.installerUid = installerUid;
}
}
class InstallParams extends HandlerParams {
final OriginInfo origin;
final MoveInfo move;
final IPackageInstallObserver2 observer;
int installFlags;
final String installerPackageName;
final String volumeUuid;
private InstallArgs mArgs;
private int mRet;
final String packageAbiOverride;
final String[] grantedRuntimePermissions;
final VerificationInfo verificationInfo;
final PackageParser.SigningDetails signingDetails;
final int installReason;
InstallParams(OriginInfo origin, MoveInfo move, IPackageInstallObserver2 observer,
int installFlags, String installerPackageName, String volumeUuid,
VerificationInfo verificationInfo, UserHandle user, String packageAbiOverride,
String[] grantedPermissions, PackageParser.SigningDetails signingDetails, int installReason) {
super(user);
this.origin = origin;
this.move = move;
this.observer = observer;
this.installFlags = installFlags;
this.installerPackageName = installerPackageName;
this.volumeUuid = volumeUuid;
this.verificationInfo = verificationInfo;
this.packageAbiOverride = packageAbiOverride;
this.grantedRuntimePermissions = grantedPermissions;
this.signingDetails = signingDetails;
this.installReason = installReason;
}
@Override
public String toString() {
return "InstallParams{" + Integer.toHexString(System.identityHashCode(this))
+ " file=" + origin.file + "}";
}
private int installLocationPolicy(PackageInfoLite pkgLite) {
String packageName = pkgLite.packageName;
int installLocation = pkgLite.installLocation;
boolean onSd = (installFlags & PackageManager.INSTALL_EXTERNAL) != 0;
// reader
synchronized (mPackages) {
// Currently installed package which the new package is attempting to replace or
// null if no such package is installed.
PackageParser.Package installedPkg = mPackages.get(packageName);
// Package which currently owns the data which the new package will own if installed.
// If an app is unstalled while keeping data (e.g., adb uninstall -k), installedPkg
// will be null whereas dataOwnerPkg will contain information about the package
// which was uninstalled while keeping its data.
PackageParser.Package dataOwnerPkg = installedPkg;
if (dataOwnerPkg == null) {
PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps != null) {
dataOwnerPkg = ps.pkg;
}
}
if (dataOwnerPkg != null) {
// If installed, the package will get access to data left on the device by its
// predecessor. As a security measure, this is permited only if this is not a
// version downgrade or if the predecessor package is marked as debuggable and
// a downgrade is explicitly requested.
//
// On debuggable platform builds, downgrades are permitted even for
// non-debuggable packages to make testing easier. Debuggable platform builds do
// not offer security guarantees and thus it's OK to disable some security
// mechanisms to make debugging/testing easier on those builds. However, even on
// debuggable builds downgrades of packages are permitted only if requested via
// installFlags. This is because we aim to keep the behavior of debuggable
// platform builds as close as possible to the behavior of non-debuggable
// platform builds.
final boolean downgradeRequested =
(installFlags & PackageManager.INSTALL_ALLOW_DOWNGRADE) != 0;
final boolean packageDebuggable =
(dataOwnerPkg.applicationInfo.flags
& ApplicationInfo.FLAG_DEBUGGABLE) != 0;
final boolean downgradePermitted =
(downgradeRequested) && ((Build.IS_DEBUGGABLE) || (packageDebuggable));
if (!downgradePermitted) {
try {
checkDowngrade(dataOwnerPkg, pkgLite);
} catch (PackageManagerException e) {
Slog.w(TAG, "Downgrade detected: " + e.getMessage());
return PackageHelper.RECOMMEND_FAILED_VERSION_DOWNGRADE;
}
}
}
if (installedPkg != null) {
if ((installFlags & PackageManager.INSTALL_REPLACE_EXISTING) != 0) {
// Check for updated system application.
if ((installedPkg.applicationInfo.flags & ApplicationInfo.FLAG_SYSTEM) != 0) {
if (onSd) {
Slog.w(TAG, "Cannot install update to system app on sdcard");
return PackageHelper.RECOMMEND_FAILED_INVALID_LOCATION;
}
return PackageHelper.RECOMMEND_INSTALL_INTERNAL;
} else {
if (onSd) {
// Install flag overrides everything.
return PackageHelper.RECOMMEND_INSTALL_EXTERNAL;
}
// If current upgrade specifies particular preference
if (installLocation == PackageInfo.INSTALL_LOCATION_INTERNAL_ONLY) {
// Application explicitly specified internal.
return PackageHelper.RECOMMEND_INSTALL_INTERNAL;
} else if (installLocation == PackageInfo.INSTALL_LOCATION_PREFER_EXTERNAL) {
// App explictly prefers external. Let policy decide
} else {
// Prefer previous location
if (isExternal(installedPkg)) {
return PackageHelper.RECOMMEND_INSTALL_EXTERNAL;
}
return PackageHelper.RECOMMEND_INSTALL_INTERNAL;
}
}
} else {
// Invalid install. Return error code
return PackageHelper.RECOMMEND_FAILED_ALREADY_EXISTS;
}
}
}
// All the special cases have been taken care of.
// Return result based on recommended install location.
if (onSd) {
return PackageHelper.RECOMMEND_INSTALL_EXTERNAL;
}
return pkgLite.recommendedInstallLocation;
}
/*
* Invoke remote method to get package information and install
* location values. Override install location based on default
* policy if needed and then create install arguments based
* on the install location.
*/
public void handleStartCopy() throws RemoteException {
int ret = PackageManager.INSTALL_SUCCEEDED;
// If we're already staged, we've firmly committed to an install location
if (origin.staged) {
if (origin.file != null) {
installFlags |= PackageManager.INSTALL_INTERNAL;
installFlags &= ~PackageManager.INSTALL_EXTERNAL;
} else {
throw new IllegalStateException("Invalid stage location");
}
}
final boolean onSd = (installFlags & PackageManager.INSTALL_EXTERNAL) != 0;
final boolean onInt = (installFlags & PackageManager.INSTALL_INTERNAL) != 0;
final boolean ephemeral = (installFlags & PackageManager.INSTALL_INSTANT_APP) != 0;
PackageInfoLite pkgLite = null;
if (onInt && onSd) {
// Check if both bits are set.
Slog.w(TAG, "Conflicting flags specified for installing on both internal and external");
ret = PackageManager.INSTALL_FAILED_INVALID_INSTALL_LOCATION;
} else if (onSd && ephemeral) {
Slog.w(TAG, "Conflicting flags specified for installing ephemeral on external");
ret = PackageManager.INSTALL_FAILED_INVALID_INSTALL_LOCATION;
} else {
pkgLite = mContainerService.getMinimalPackageInfo(origin.resolvedPath, installFlags,
packageAbiOverride);
if (DEBUG_INSTANT && ephemeral) {
Slog.v(TAG, "pkgLite for install: " + pkgLite);
}
/*
* If we have too little free space, try to free cache
* before giving up.
*/
if (!origin.staged && pkgLite.recommendedInstallLocation
== PackageHelper.RECOMMEND_FAILED_INSUFFICIENT_STORAGE) {
// TODO: focus freeing disk space on the target device
final StorageManager storage = StorageManager.from(mContext);
final long lowThreshold = storage.getStorageLowBytes(
Environment.getDataDirectory());
final long sizeBytes = mContainerService.calculateInstalledSize(
origin.resolvedPath, packageAbiOverride);
try {
mInstaller.freeCache(null, sizeBytes + lowThreshold, 0, 0);
pkgLite = mContainerService.getMinimalPackageInfo(origin.resolvedPath,
installFlags, packageAbiOverride);
} catch (InstallerException e) {
Slog.w(TAG, "Failed to free cache", e);
}
/*
* The cache free must have deleted the file we
* downloaded to install.
*
* TODO: fix the "freeCache" call to not delete
* the file we care about.
*/
if (pkgLite.recommendedInstallLocation
== PackageHelper.RECOMMEND_FAILED_INVALID_URI) {
pkgLite.recommendedInstallLocation
= PackageHelper.RECOMMEND_FAILED_INSUFFICIENT_STORAGE;
}
}
}
if (ret == PackageManager.INSTALL_SUCCEEDED) {
int loc = pkgLite.recommendedInstallLocation;
if (loc == PackageHelper.RECOMMEND_FAILED_INVALID_LOCATION) {
ret = PackageManager.INSTALL_FAILED_INVALID_INSTALL_LOCATION;
} else if (loc == PackageHelper.RECOMMEND_FAILED_ALREADY_EXISTS) {
ret = PackageManager.INSTALL_FAILED_ALREADY_EXISTS;
} else if (loc == PackageHelper.RECOMMEND_FAILED_INSUFFICIENT_STORAGE) {
ret = PackageManager.INSTALL_FAILED_INSUFFICIENT_STORAGE;
} else if (loc == PackageHelper.RECOMMEND_FAILED_INVALID_APK) {
ret = PackageManager.INSTALL_FAILED_INVALID_APK;
} else if (loc == PackageHelper.RECOMMEND_FAILED_INVALID_URI) {
ret = PackageManager.INSTALL_FAILED_INVALID_URI;
} else if (loc == PackageHelper.RECOMMEND_MEDIA_UNAVAILABLE) {
ret = PackageManager.INSTALL_FAILED_MEDIA_UNAVAILABLE;
} else {
// Override with defaults if needed.
loc = installLocationPolicy(pkgLite);
if (loc == PackageHelper.RECOMMEND_FAILED_VERSION_DOWNGRADE) {
ret = PackageManager.INSTALL_FAILED_VERSION_DOWNGRADE;
} else if (!onSd && !onInt) {
// Override install location with flags
if (loc == PackageHelper.RECOMMEND_INSTALL_EXTERNAL) {
// Set the flag to install on external media.
installFlags |= PackageManager.INSTALL_EXTERNAL;
installFlags &= ~PackageManager.INSTALL_INTERNAL;
} else if (loc == PackageHelper.RECOMMEND_INSTALL_EPHEMERAL) {
if (DEBUG_INSTANT) {
Slog.v(TAG, "...setting INSTALL_EPHEMERAL install flag");
}
installFlags |= PackageManager.INSTALL_INSTANT_APP;
installFlags &= ~(PackageManager.INSTALL_EXTERNAL
|PackageManager.INSTALL_INTERNAL);
} else {
// Make sure the flag for installing on external
// media is unset
installFlags |= PackageManager.INSTALL_INTERNAL;
installFlags &= ~PackageManager.INSTALL_EXTERNAL;
}
}
}
}
final InstallArgs args = createInstallArgs(this);
mArgs = args;
if (ret == PackageManager.INSTALL_SUCCEEDED) {
// TODO: http://b/22976637
// Apps installed for "all" users use the device owner to verify the app
UserHandle verifierUser = getUser();
if (verifierUser == UserHandle.ALL) {
verifierUser = UserHandle.SYSTEM;
}
/*
* Determine if we have any installed package verifiers. If we
* do, then we'll defer to them to verify the packages.
*/
final int requiredUid = mRequiredVerifierPackage == null ? -1
: getPackageUid(mRequiredVerifierPackage, MATCH_DEBUG_TRIAGED_MISSING,
verifierUser.getIdentifier());
final int installerUid =
verificationInfo == null ? -1 : verificationInfo.installerUid;
if (!origin.existing && requiredUid != -1
&& isVerificationEnabled(
verifierUser.getIdentifier(), installFlags, installerUid)) {
final Intent verification = new Intent(
Intent.ACTION_PACKAGE_NEEDS_VERIFICATION);
verification.addFlags(Intent.FLAG_RECEIVER_FOREGROUND);
verification.setDataAndType(Uri.fromFile(new File(origin.resolvedPath)),
PACKAGE_MIME_TYPE);
verification.addFlags(Intent.FLAG_GRANT_READ_URI_PERMISSION);
// Query all live verifiers based on current user state
final List<ResolveInfo> receivers = queryIntentReceiversInternal(verification,
PACKAGE_MIME_TYPE, 0, verifierUser.getIdentifier(),
false /*allowDynamicSplits*/);
if (DEBUG_VERIFY) {
Slog.d(TAG, "Found " + receivers.size() + " verifiers for intent "
+ verification.toString() + " with " + pkgLite.verifiers.length
+ " optional verifiers");
}
final int verificationId = mPendingVerificationToken++;
verification.putExtra(PackageManager.EXTRA_VERIFICATION_ID, verificationId);
verification.putExtra(PackageManager.EXTRA_VERIFICATION_INSTALLER_PACKAGE,
installerPackageName);
verification.putExtra(PackageManager.EXTRA_VERIFICATION_INSTALL_FLAGS,
installFlags);
verification.putExtra(PackageManager.EXTRA_VERIFICATION_PACKAGE_NAME,
pkgLite.packageName);
verification.putExtra(PackageManager.EXTRA_VERIFICATION_VERSION_CODE,
pkgLite.versionCode);
verification.putExtra(PackageManager.EXTRA_VERIFICATION_LONG_VERSION_CODE,
pkgLite.getLongVersionCode());
if (verificationInfo != null) {
if (verificationInfo.originatingUri != null) {
verification.putExtra(Intent.EXTRA_ORIGINATING_URI,
verificationInfo.originatingUri);
}
if (verificationInfo.referrer != null) {
verification.putExtra(Intent.EXTRA_REFERRER,
verificationInfo.referrer);
}
if (verificationInfo.originatingUid >= 0) {
verification.putExtra(Intent.EXTRA_ORIGINATING_UID,
verificationInfo.originatingUid);
}
if (verificationInfo.installerUid >= 0) {
verification.putExtra(PackageManager.EXTRA_VERIFICATION_INSTALLER_UID,
verificationInfo.installerUid);
}
}
final PackageVerificationState verificationState = new PackageVerificationState(
requiredUid, args);
mPendingVerification.append(verificationId, verificationState);
final List<ComponentName> sufficientVerifiers = matchVerifiers(pkgLite,
receivers, verificationState);
DeviceIdleController.LocalService idleController = getDeviceIdleController();
final long idleDuration = getVerificationTimeout();
/*
* If any sufficient verifiers were listed in the package
* manifest, attempt to ask them.
*/
if (sufficientVerifiers != null) {
final int N = sufficientVerifiers.size();
if (N == 0) {
Slog.i(TAG, "Additional verifiers required, but none installed.");
ret = PackageManager.INSTALL_FAILED_VERIFICATION_FAILURE;
} else {
for (int i = 0; i < N; i++) {
final ComponentName verifierComponent = sufficientVerifiers.get(i);
idleController.addPowerSaveTempWhitelistApp(Process.myUid(),
verifierComponent.getPackageName(), idleDuration,
verifierUser.getIdentifier(), false, "package verifier");
final Intent sufficientIntent = new Intent(verification);
sufficientIntent.setComponent(verifierComponent);
mContext.sendBroadcastAsUser(sufficientIntent, verifierUser);
}
}
}
final ComponentName requiredVerifierComponent = matchComponentForVerifier(
mRequiredVerifierPackage, receivers);
if (ret == PackageManager.INSTALL_SUCCEEDED
&& mRequiredVerifierPackage != null) {
Trace.asyncTraceBegin(
TRACE_TAG_PACKAGE_MANAGER, "verification", verificationId);
/*
* Send the intent to the required verification agent,
* but only start the verification timeout after the
* target BroadcastReceivers have run.
*/
verification.setComponent(requiredVerifierComponent);
idleController.addPowerSaveTempWhitelistApp(Process.myUid(),
mRequiredVerifierPackage, idleDuration,
verifierUser.getIdentifier(), false, "package verifier");
mContext.sendOrderedBroadcastAsUser(verification, verifierUser,
android.Manifest.permission.PACKAGE_VERIFICATION_AGENT,
new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
final Message msg = mHandler
.obtainMessage(CHECK_PENDING_VERIFICATION);
msg.arg1 = verificationId;
mHandler.sendMessageDelayed(msg, getVerificationTimeout());
}
}, null, 0, null, null);
/*
* We don't want the copy to proceed until verification
* succeeds, so null out this field.
*/
mArgs = null;
}
} else {
/*
* No package verification is enabled, so immediately start
* the remote call to initiate copy using temporary file.
*/
ret = args.copyApk(mContainerService, true);
}
}
mRet = ret;
}
@Override
void handleReturnCode() {
// If mArgs is null, then MCS couldn't be reached. When it
// reconnects, it will try again to install. At that point, this
// will succeed.
if (mArgs != null) {
processPendingInstall(mArgs, mRet);
}
}
@Override
void handleServiceError() {
mArgs = createInstallArgs(this);
mRet = PackageManager.INSTALL_FAILED_INTERNAL_ERROR;
}
}
private InstallArgs createInstallArgs(InstallParams params) {
if (params.move != null) {
return new MoveInstallArgs(params);
} else {
return new FileInstallArgs(params);
}
}
/**
* Create args that describe an existing installed package. Typically used
* when cleaning up old installs, or used as a move source.
*/
private InstallArgs createInstallArgsForExisting(int installFlags, String codePath,
String resourcePath, String[] instructionSets) {
return new FileInstallArgs(codePath, resourcePath, instructionSets);
}
static abstract class InstallArgs {
/** @see InstallParams#origin */
final OriginInfo origin;
/** @see InstallParams#move */
final MoveInfo move;
final IPackageInstallObserver2 observer;
// Always refers to PackageManager flags only
final int installFlags;
final String installerPackageName;
final String volumeUuid;
final UserHandle user;
final String abiOverride;
final String[] installGrantPermissions;
/** If non-null, drop an async trace when the install completes */
final String traceMethod;
final int traceCookie;
final PackageParser.SigningDetails signingDetails;
final int installReason;
// The list of instruction sets supported by this app. This is currently
// only used during the rmdex() phase to clean up resources. We can get rid of this
// if we move dex files under the common app path.
/* nullable */ String[] instructionSets;
InstallArgs(OriginInfo origin, MoveInfo move, IPackageInstallObserver2 observer,
int installFlags, String installerPackageName, String volumeUuid,
UserHandle user, String[] instructionSets,
String abiOverride, String[] installGrantPermissions,
String traceMethod, int traceCookie, PackageParser.SigningDetails signingDetails,
int installReason) {
this.origin = origin;
this.move = move;
this.installFlags = installFlags;
this.observer = observer;
this.installerPackageName = installerPackageName;
this.volumeUuid = volumeUuid;
this.user = user;
this.instructionSets = instructionSets;
this.abiOverride = abiOverride;
this.installGrantPermissions = installGrantPermissions;
this.traceMethod = traceMethod;
this.traceCookie = traceCookie;
this.signingDetails = signingDetails;
this.installReason = installReason;
}
abstract int copyApk(IMediaContainerService imcs, boolean temp) throws RemoteException;
abstract int doPreInstall(int status);
/**
* Rename package into final resting place. All paths on the given
* scanned package should be updated to reflect the rename.
*/
abstract boolean doRename(int status, PackageParser.Package pkg, String oldCodePath);
abstract int doPostInstall(int status, int uid);
/** @see PackageSettingBase#codePathString */
abstract String getCodePath();
/** @see PackageSettingBase#resourcePathString */
abstract String getResourcePath();
// Need installer lock especially for dex file removal.
abstract void cleanUpResourcesLI();
abstract boolean doPostDeleteLI(boolean delete);
/**
* Called before the source arguments are copied. This is used mostly
* for MoveParams when it needs to read the source file to put it in the
* destination.
*/
int doPreCopy() {
return PackageManager.INSTALL_SUCCEEDED;
}
/**
* Called after the source arguments are copied. This is used mostly for
* MoveParams when it needs to read the source file to put it in the
* destination.
*/
int doPostCopy(int uid) {
return PackageManager.INSTALL_SUCCEEDED;
}
protected boolean isFwdLocked() {
return (installFlags & PackageManager.INSTALL_FORWARD_LOCK) != 0;
}
protected boolean isExternalAsec() {
return (installFlags & PackageManager.INSTALL_EXTERNAL) != 0;
}
protected boolean isEphemeral() {
return (installFlags & PackageManager.INSTALL_INSTANT_APP) != 0;
}
UserHandle getUser() {
return user;
}
}
void removeDexFiles(List<String> allCodePaths, String[] instructionSets) {
if (!allCodePaths.isEmpty()) {
if (instructionSets == null) {
throw new IllegalStateException("instructionSet == null");
}
String[] dexCodeInstructionSets = getDexCodeInstructionSets(instructionSets);
for (String codePath : allCodePaths) {
for (String dexCodeInstructionSet : dexCodeInstructionSets) {
try {
mInstaller.rmdex(codePath, dexCodeInstructionSet);
} catch (InstallerException ignored) {
}
}
}
}
}
/**
* Logic to handle installation of non-ASEC applications, including copying
* and renaming logic.
*/
class FileInstallArgs extends InstallArgs {
private File codeFile;
private File resourceFile;
// Example topology:
// /data/app/com.example/base.apk
// /data/app/com.example/split_foo.apk
// /data/app/com.example/lib/arm/libfoo.so
// /data/app/com.example/lib/arm64/libfoo.so
// /data/app/com.example/dalvik/arm/base.apk@classes.dex
/** New install */
FileInstallArgs(InstallParams params) {
super(params.origin, params.move, params.observer, params.installFlags,
params.installerPackageName, params.volumeUuid,
params.getUser(), null /*instructionSets*/, params.packageAbiOverride,
params.grantedRuntimePermissions,
params.traceMethod, params.traceCookie, params.signingDetails,
params.installReason);
if (isFwdLocked()) {
throw new IllegalArgumentException("Forward locking only supported in ASEC");
}
}
/** Existing install */
FileInstallArgs(String codePath, String resourcePath, String[] instructionSets) {
super(OriginInfo.fromNothing(), null, null, 0, null, null, null, instructionSets,
null, null, null, 0, PackageParser.SigningDetails.UNKNOWN,
PackageManager.INSTALL_REASON_UNKNOWN);
this.codeFile = (codePath != null) ? new File(codePath) : null;
this.resourceFile = (resourcePath != null) ? new File(resourcePath) : null;
}
int copyApk(IMediaContainerService imcs, boolean temp) throws RemoteException {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "copyApk");
try {
return doCopyApk(imcs, temp);
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
private int doCopyApk(IMediaContainerService imcs, boolean temp) throws RemoteException {
if (origin.staged) {
if (DEBUG_INSTALL) Slog.d(TAG, origin.file + " already staged; skipping copy");
codeFile = origin.file;
resourceFile = origin.file;
return PackageManager.INSTALL_SUCCEEDED;
}
try {
final boolean isEphemeral = (installFlags & PackageManager.INSTALL_INSTANT_APP) != 0;
final File tempDir =
mInstallerService.allocateStageDirLegacy(volumeUuid, isEphemeral);
codeFile = tempDir;
resourceFile = tempDir;
} catch (IOException e) {
Slog.w(TAG, "Failed to create copy file: " + e);
return PackageManager.INSTALL_FAILED_INSUFFICIENT_STORAGE;
}
final IParcelFileDescriptorFactory target = new IParcelFileDescriptorFactory.Stub() {
@Override
public ParcelFileDescriptor open(String name, int mode) throws RemoteException {
if (!FileUtils.isValidExtFilename(name)) {
throw new IllegalArgumentException("Invalid filename: " + name);
}
try {
final File file = new File(codeFile, name);
final FileDescriptor fd = Os.open(file.getAbsolutePath(),
O_RDWR | O_CREAT, 0644);
Os.chmod(file.getAbsolutePath(), 0644);
return new ParcelFileDescriptor(fd);
} catch (ErrnoException e) {
throw new RemoteException("Failed to open: " + e.getMessage());
}
}
};
int ret = PackageManager.INSTALL_SUCCEEDED;
ret = imcs.copyPackage(origin.file.getAbsolutePath(), target);
if (ret != PackageManager.INSTALL_SUCCEEDED) {
Slog.e(TAG, "Failed to copy package");
return ret;
}
final File libraryRoot = new File(codeFile, LIB_DIR_NAME);
NativeLibraryHelper.Handle handle = null;
try {
handle = NativeLibraryHelper.Handle.create(codeFile);
ret = NativeLibraryHelper.copyNativeBinariesWithOverride(handle, libraryRoot,
abiOverride);
} catch (IOException e) {
Slog.e(TAG, "Copying native libraries failed", e);
ret = PackageManager.INSTALL_FAILED_INTERNAL_ERROR;
} finally {
IoUtils.closeQuietly(handle);
}
return ret;
}
int doPreInstall(int status) {
if (status != PackageManager.INSTALL_SUCCEEDED) {
cleanUp();
}
return status;
}
boolean doRename(int status, PackageParser.Package pkg, String oldCodePath) {
if (status != PackageManager.INSTALL_SUCCEEDED) {
cleanUp();
return false;
}
final File targetDir = codeFile.getParentFile();
final File beforeCodeFile = codeFile;
final File afterCodeFile = getNextCodePath(targetDir, pkg.packageName);
if (DEBUG_INSTALL) Slog.d(TAG, "Renaming " + beforeCodeFile + " to " + afterCodeFile);
try {
Os.rename(beforeCodeFile.getAbsolutePath(), afterCodeFile.getAbsolutePath());
} catch (ErrnoException e) {
Slog.w(TAG, "Failed to rename", e);
return false;
}
if (!SELinux.restoreconRecursive(afterCodeFile)) {
Slog.w(TAG, "Failed to restorecon");
return false;
}
// Reflect the rename internally
codeFile = afterCodeFile;
resourceFile = afterCodeFile;
// Reflect the rename in scanned details
try {
pkg.setCodePath(afterCodeFile.getCanonicalPath());
} catch (IOException e) {
Slog.e(TAG, "Failed to get path: " + afterCodeFile, e);
return false;
}
pkg.setBaseCodePath(FileUtils.rewriteAfterRename(beforeCodeFile,
afterCodeFile, pkg.baseCodePath));
pkg.setSplitCodePaths(FileUtils.rewriteAfterRename(beforeCodeFile,
afterCodeFile, pkg.splitCodePaths));
// Reflect the rename in app info
pkg.setApplicationVolumeUuid(pkg.volumeUuid);
pkg.setApplicationInfoCodePath(pkg.codePath);
pkg.setApplicationInfoBaseCodePath(pkg.baseCodePath);
pkg.setApplicationInfoSplitCodePaths(pkg.splitCodePaths);
pkg.setApplicationInfoResourcePath(pkg.codePath);
pkg.setApplicationInfoBaseResourcePath(pkg.baseCodePath);
pkg.setApplicationInfoSplitResourcePaths(pkg.splitCodePaths);
return true;
}
int doPostInstall(int status, int uid) {
if (status != PackageManager.INSTALL_SUCCEEDED) {
cleanUp();
}
return status;
}
@Override
String getCodePath() {
return (codeFile != null) ? codeFile.getAbsolutePath() : null;
}
@Override
String getResourcePath() {
return (resourceFile != null) ? resourceFile.getAbsolutePath() : null;
}
private boolean cleanUp() {
if (codeFile == null || !codeFile.exists()) {
return false;
}
removeCodePathLI(codeFile);
if (resourceFile != null && !FileUtils.contains(codeFile, resourceFile)) {
resourceFile.delete();
}
return true;
}
void cleanUpResourcesLI() {
// Try enumerating all code paths before deleting
List<String> allCodePaths = Collections.EMPTY_LIST;
if (codeFile != null && codeFile.exists()) {
try {
final PackageLite pkg = PackageParser.parsePackageLite(codeFile, 0);
allCodePaths = pkg.getAllCodePaths();
} catch (PackageParserException e) {
// Ignored; we tried our best
}
}
cleanUp();
removeDexFiles(allCodePaths, instructionSets);
}
boolean doPostDeleteLI(boolean delete) {
// XXX err, shouldn't we respect the delete flag?
cleanUpResourcesLI();
return true;
}
}
private static void maybeThrowExceptionForMultiArchCopy(String message, int copyRet) throws
PackageManagerException {
if (copyRet < 0) {
if (copyRet != PackageManager.NO_NATIVE_LIBRARIES &&
copyRet != PackageManager.INSTALL_FAILED_NO_MATCHING_ABIS) {
throw new PackageManagerException(copyRet, message);
}
}
}
/**
* Extract the StorageManagerService "container ID" from the full code path of an
* .apk.
*/
static String cidFromCodePath(String fullCodePath) {
int eidx = fullCodePath.lastIndexOf("/");
String subStr1 = fullCodePath.substring(0, eidx);
int sidx = subStr1.lastIndexOf("/");
return subStr1.substring(sidx+1, eidx);
}
/**
* Logic to handle movement of existing installed applications.
*/
class MoveInstallArgs extends InstallArgs {
private File codeFile;
private File resourceFile;
/** New install */
MoveInstallArgs(InstallParams params) {
super(params.origin, params.move, params.observer, params.installFlags,
params.installerPackageName, params.volumeUuid,
params.getUser(), null /* instruction sets */, params.packageAbiOverride,
params.grantedRuntimePermissions,
params.traceMethod, params.traceCookie, params.signingDetails,
params.installReason);
}
int copyApk(IMediaContainerService imcs, boolean temp) {
if (DEBUG_INSTALL) Slog.d(TAG, "Moving " + move.packageName + " from "
+ move.fromUuid + " to " + move.toUuid);
synchronized (mInstaller) {
try {
mInstaller.moveCompleteApp(move.fromUuid, move.toUuid, move.packageName,
move.dataAppName, move.appId, move.seinfo, move.targetSdkVersion);
} catch (InstallerException e) {
Slog.w(TAG, "Failed to move app", e);
return PackageManager.INSTALL_FAILED_INTERNAL_ERROR;
}
}
codeFile = new File(Environment.getDataAppDirectory(move.toUuid), move.dataAppName);
resourceFile = codeFile;
if (DEBUG_INSTALL) Slog.d(TAG, "codeFile after move is " + codeFile);
return PackageManager.INSTALL_SUCCEEDED;
}
int doPreInstall(int status) {
if (status != PackageManager.INSTALL_SUCCEEDED) {
cleanUp(move.toUuid);
}
return status;
}
boolean doRename(int status, PackageParser.Package pkg, String oldCodePath) {
if (status != PackageManager.INSTALL_SUCCEEDED) {
cleanUp(move.toUuid);
return false;
}
// Reflect the move in app info
pkg.setApplicationVolumeUuid(pkg.volumeUuid);
pkg.setApplicationInfoCodePath(pkg.codePath);
pkg.setApplicationInfoBaseCodePath(pkg.baseCodePath);
pkg.setApplicationInfoSplitCodePaths(pkg.splitCodePaths);
pkg.setApplicationInfoResourcePath(pkg.codePath);
pkg.setApplicationInfoBaseResourcePath(pkg.baseCodePath);
pkg.setApplicationInfoSplitResourcePaths(pkg.splitCodePaths);
return true;
}
int doPostInstall(int status, int uid) {
if (status == PackageManager.INSTALL_SUCCEEDED) {
cleanUp(move.fromUuid);
} else {
cleanUp(move.toUuid);
}
return status;
}
@Override
String getCodePath() {
return (codeFile != null) ? codeFile.getAbsolutePath() : null;
}
@Override
String getResourcePath() {
return (resourceFile != null) ? resourceFile.getAbsolutePath() : null;
}
private boolean cleanUp(String volumeUuid) {
final File codeFile = new File(Environment.getDataAppDirectory(volumeUuid),
move.dataAppName);
Slog.d(TAG, "Cleaning up " + move.packageName + " on " + volumeUuid);
final int[] userIds = sUserManager.getUserIds();
synchronized (mInstallLock) {
// Clean up both app data and code
// All package moves are frozen until finished
for (int userId : userIds) {
try {
mInstaller.destroyAppData(volumeUuid, move.packageName, userId,
StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE, 0);
} catch (InstallerException e) {
Slog.w(TAG, String.valueOf(e));
}
}
removeCodePathLI(codeFile);
}
return true;
}
void cleanUpResourcesLI() {
throw new UnsupportedOperationException();
}
boolean doPostDeleteLI(boolean delete) {
throw new UnsupportedOperationException();
}
}
static String getAsecPackageName(String packageCid) {
int idx = packageCid.lastIndexOf("-");
if (idx == -1) {
return packageCid;
}
return packageCid.substring(0, idx);
}
// Utility method used to create code paths based on package name and available index.
private static String getNextCodePath(String oldCodePath, String prefix, String suffix) {
String idxStr = "";
int idx = 1;
// Fall back to default value of idx=1 if prefix is not
// part of oldCodePath
if (oldCodePath != null) {
String subStr = oldCodePath;
// Drop the suffix right away
if (suffix != null && subStr.endsWith(suffix)) {
subStr = subStr.substring(0, subStr.length() - suffix.length());
}
// If oldCodePath already contains prefix find out the
// ending index to either increment or decrement.
int sidx = subStr.lastIndexOf(prefix);
if (sidx != -1) {
subStr = subStr.substring(sidx + prefix.length());
if (subStr != null) {
if (subStr.startsWith(INSTALL_PACKAGE_SUFFIX)) {
subStr = subStr.substring(INSTALL_PACKAGE_SUFFIX.length());
}
try {
idx = Integer.parseInt(subStr);
if (idx <= 1) {
idx++;
} else {
idx--;
}
} catch(NumberFormatException e) {
}
}
}
}
idxStr = INSTALL_PACKAGE_SUFFIX + Integer.toString(idx);
return prefix + idxStr;
}
private File getNextCodePath(File targetDir, String packageName) {
File result;
SecureRandom random = new SecureRandom();
byte[] bytes = new byte[16];
do {
random.nextBytes(bytes);
String suffix = Base64.encodeToString(bytes, Base64.URL_SAFE | Base64.NO_WRAP);
result = new File(targetDir, packageName + "-" + suffix);
} while (result.exists());
return result;
}
// Utility method that returns the relative package path with respect
// to the installation directory. Like say for /data/data/com.test-1.apk
// string com.test-1 is returned.
static String deriveCodePathName(String codePath) {
if (codePath == null) {
return null;
}
final File codeFile = new File(codePath);
final String name = codeFile.getName();
if (codeFile.isDirectory()) {
return name;
} else if (name.endsWith(".apk") || name.endsWith(".tmp")) {
final int lastDot = name.lastIndexOf('.');
return name.substring(0, lastDot);
} else {
Slog.w(TAG, "Odd, " + codePath + " doesn't look like an APK");
return null;
}
}
static class PackageInstalledInfo {
String name;
int uid;
// The set of users that originally had this package installed.
int[] origUsers;
// The set of users that now have this package installed.
int[] newUsers;
PackageParser.Package pkg;
int returnCode;
String returnMsg;
String installerPackageName;
PackageRemovedInfo removedInfo;
ArrayMap<String, PackageInstalledInfo> addedChildPackages;
public void setError(int code, String msg) {
setReturnCode(code);
setReturnMessage(msg);
Slog.w(TAG, msg);
}
public void setError(String msg, PackageParserException e) {
setReturnCode(e.error);
setReturnMessage(ExceptionUtils.getCompleteMessage(msg, e));
final int childCount = (addedChildPackages != null) ? addedChildPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
addedChildPackages.valueAt(i).setError(msg, e);
}
Slog.w(TAG, msg, e);
}
public void setError(String msg, PackageManagerException e) {
returnCode = e.error;
setReturnMessage(ExceptionUtils.getCompleteMessage(msg, e));
final int childCount = (addedChildPackages != null) ? addedChildPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
addedChildPackages.valueAt(i).setError(msg, e);
}
Slog.w(TAG, msg, e);
}
public void setReturnCode(int returnCode) {
this.returnCode = returnCode;
final int childCount = (addedChildPackages != null) ? addedChildPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
addedChildPackages.valueAt(i).returnCode = returnCode;
}
}
private void setReturnMessage(String returnMsg) {
this.returnMsg = returnMsg;
final int childCount = (addedChildPackages != null) ? addedChildPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
addedChildPackages.valueAt(i).returnMsg = returnMsg;
}
}
// In some error cases we want to convey more info back to the observer
String origPackage;
String origPermission;
}
/*
* Install a non-existing package.
*/
private void installNewPackageLIF(PackageParser.Package pkg, final @ParseFlags int parseFlags,
final @ScanFlags int scanFlags, UserHandle user, String installerPackageName,
String volumeUuid, PackageInstalledInfo res, int installReason) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "installNewPackage");
// Remember this for later, in case we need to rollback this install
String pkgName = pkg.packageName;
if (DEBUG_INSTALL) Slog.d(TAG, "installNewPackageLI: " + pkg);
synchronized(mPackages) {
final String renamedPackage = mSettings.getRenamedPackageLPr(pkgName);
if (renamedPackage != null) {
// A package with the same name is already installed, though
// it has been renamed to an older name. The package we
// are trying to install should be installed as an update to
// the existing one, but that has not been requested, so bail.
res.setError(INSTALL_FAILED_ALREADY_EXISTS, "Attempt to re-install " + pkgName
+ " without first uninstalling package running as "
+ renamedPackage);
return;
}
if (mPackages.containsKey(pkgName)) {
// Don't allow installation over an existing package with the same name.
res.setError(INSTALL_FAILED_ALREADY_EXISTS, "Attempt to re-install " + pkgName
+ " without first uninstalling.");
return;
}
}
try {
PackageParser.Package newPackage = scanPackageTracedLI(pkg, parseFlags, scanFlags,
System.currentTimeMillis(), user);
updateSettingsLI(newPackage, installerPackageName, null, res, user, installReason);
if (res.returnCode == PackageManager.INSTALL_SUCCEEDED) {
prepareAppDataAfterInstallLIF(newPackage);
} else {
// Remove package from internal structures, but keep around any
// data that might have already existed
deletePackageLIF(pkgName, UserHandle.ALL, false, null,
PackageManager.DELETE_KEEP_DATA, res.removedInfo, true, null);
}
} catch (PackageManagerException e) {
res.setError("Package couldn't be installed in " + pkg.codePath, e);
}
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
private static void updateDigest(MessageDigest digest, File file) throws IOException {
try (DigestInputStream digestStream =
new DigestInputStream(new FileInputStream(file), digest)) {
while (digestStream.read() != -1) {} // nothing to do; just plow through the file
}
}
private void replacePackageLIF(PackageParser.Package pkg, final @ParseFlags int parseFlags,
final @ScanFlags int scanFlags, UserHandle user, String installerPackageName,
PackageInstalledInfo res, int installReason) {
final boolean isInstantApp = (scanFlags & SCAN_AS_INSTANT_APP) != 0;
final PackageParser.Package oldPackage;
final PackageSetting ps;
final String pkgName = pkg.packageName;
final int[] allUsers;
final int[] installedUsers;
synchronized(mPackages) {
oldPackage = mPackages.get(pkgName);
if (DEBUG_INSTALL) Slog.d(TAG, "replacePackageLI: new=" + pkg + ", old=" + oldPackage);
// don't allow upgrade to target a release SDK from a pre-release SDK
final boolean oldTargetsPreRelease = oldPackage.applicationInfo.targetSdkVersion
== android.os.Build.VERSION_CODES.CUR_DEVELOPMENT;
final boolean newTargetsPreRelease = pkg.applicationInfo.targetSdkVersion
== android.os.Build.VERSION_CODES.CUR_DEVELOPMENT;
if (oldTargetsPreRelease
&& !newTargetsPreRelease
&& ((parseFlags & PackageParser.PARSE_FORCE_SDK) == 0)) {
Slog.w(TAG, "Can't install package targeting released sdk");
res.setReturnCode(PackageManager.INSTALL_FAILED_UPDATE_INCOMPATIBLE);
return;
}
ps = mSettings.mPackages.get(pkgName);
// verify signatures are valid
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
if (ksms.shouldCheckUpgradeKeySetLocked(ps, scanFlags)) {
if (!ksms.checkUpgradeKeySetLocked(ps, pkg)) {
res.setError(INSTALL_FAILED_UPDATE_INCOMPATIBLE,
"New package not signed by keys specified by upgrade-keysets: "
+ pkgName);
return;
}
} else {
// default to original signature matching
if (!pkg.mSigningDetails.checkCapability(oldPackage.mSigningDetails,
PackageParser.SigningDetails.CertCapabilities.INSTALLED_DATA)
&& !oldPackage.mSigningDetails.checkCapability(
pkg.mSigningDetails,
PackageParser.SigningDetails.CertCapabilities.ROLLBACK)) {
res.setError(INSTALL_FAILED_UPDATE_INCOMPATIBLE,
"New package has a different signature: " + pkgName);
return;
}
}
// don't allow a system upgrade unless the upgrade hash matches
if (oldPackage.restrictUpdateHash != null && oldPackage.isSystem()) {
byte[] digestBytes = null;
try {
final MessageDigest digest = MessageDigest.getInstance("SHA-512");
updateDigest(digest, new File(pkg.baseCodePath));
if (!ArrayUtils.isEmpty(pkg.splitCodePaths)) {
for (String path : pkg.splitCodePaths) {
updateDigest(digest, new File(path));
}
}
digestBytes = digest.digest();
} catch (NoSuchAlgorithmException | IOException e) {
res.setError(INSTALL_FAILED_INVALID_APK,
"Could not compute hash: " + pkgName);
return;
}
if (!Arrays.equals(oldPackage.restrictUpdateHash, digestBytes)) {
res.setError(INSTALL_FAILED_INVALID_APK,
"New package fails restrict-update check: " + pkgName);
return;
}
// retain upgrade restriction
pkg.restrictUpdateHash = oldPackage.restrictUpdateHash;
}
// Check for shared user id changes
String invalidPackageName =
getParentOrChildPackageChangedSharedUser(oldPackage, pkg);
if (invalidPackageName != null) {
res.setError(INSTALL_FAILED_SHARED_USER_INCOMPATIBLE,
"Package " + invalidPackageName + " tried to change user "
+ oldPackage.mSharedUserId);
return;
}
// check if the new package supports all of the abis which the old package supports
boolean oldPkgSupportMultiArch = oldPackage.applicationInfo.secondaryCpuAbi != null;
boolean newPkgSupportMultiArch = pkg.applicationInfo.secondaryCpuAbi != null;
if (isSystemApp(oldPackage) && oldPkgSupportMultiArch && !newPkgSupportMultiArch) {
res.setError(INSTALL_FAILED_UPDATE_INCOMPATIBLE,
"Update to package " + pkgName + " doesn't support multi arch");
return;
}
// In case of rollback, remember per-user/profile install state
allUsers = sUserManager.getUserIds();
installedUsers = ps.queryInstalledUsers(allUsers, true);
// don't allow an upgrade from full to ephemeral
if (isInstantApp) {
if (user == null || user.getIdentifier() == UserHandle.USER_ALL) {
for (int currentUser : allUsers) {
if (!ps.getInstantApp(currentUser)) {
// can't downgrade from full to instant
Slog.w(TAG, "Can't replace full app with instant app: " + pkgName
+ " for user: " + currentUser);
res.setReturnCode(PackageManager.INSTALL_FAILED_INSTANT_APP_INVALID);
return;
}
}
} else if (!ps.getInstantApp(user.getIdentifier())) {
// can't downgrade from full to instant
Slog.w(TAG, "Can't replace full app with instant app: " + pkgName
+ " for user: " + user.getIdentifier());
res.setReturnCode(PackageManager.INSTALL_FAILED_INSTANT_APP_INVALID);
return;
}
}
}
// Update what is removed
res.removedInfo = new PackageRemovedInfo(this);
res.removedInfo.uid = oldPackage.applicationInfo.uid;
res.removedInfo.removedPackage = oldPackage.packageName;
res.removedInfo.installerPackageName = ps.installerPackageName;
res.removedInfo.isStaticSharedLib = pkg.staticSharedLibName != null;
res.removedInfo.isUpdate = true;
res.removedInfo.origUsers = installedUsers;
res.removedInfo.installReasons = new SparseArray<>(installedUsers.length);
for (int i = 0; i < installedUsers.length; i++) {
final int userId = installedUsers[i];
res.removedInfo.installReasons.put(userId, ps.getInstallReason(userId));
}
final int childCount = (oldPackage.childPackages != null)
? oldPackage.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
boolean childPackageUpdated = false;
PackageParser.Package childPkg = oldPackage.childPackages.get(i);
final PackageSetting childPs = mSettings.getPackageLPr(childPkg.packageName);
if (res.addedChildPackages != null) {
PackageInstalledInfo childRes = res.addedChildPackages.get(childPkg.packageName);
if (childRes != null) {
childRes.removedInfo.uid = childPkg.applicationInfo.uid;
childRes.removedInfo.removedPackage = childPkg.packageName;
if (childPs != null) {
childRes.removedInfo.installerPackageName = childPs.installerPackageName;
}
childRes.removedInfo.isUpdate = true;
childRes.removedInfo.installReasons = res.removedInfo.installReasons;
childPackageUpdated = true;
}
}
if (!childPackageUpdated) {
PackageRemovedInfo childRemovedRes = new PackageRemovedInfo(this);
childRemovedRes.removedPackage = childPkg.packageName;
if (childPs != null) {
childRemovedRes.installerPackageName = childPs.installerPackageName;
}
childRemovedRes.isUpdate = false;
childRemovedRes.dataRemoved = true;
synchronized (mPackages) {
if (childPs != null) {
childRemovedRes.origUsers = childPs.queryInstalledUsers(allUsers, true);
}
}
if (res.removedInfo.removedChildPackages == null) {
res.removedInfo.removedChildPackages = new ArrayMap<>();
}
res.removedInfo.removedChildPackages.put(childPkg.packageName, childRemovedRes);
}
}
boolean sysPkg = (isSystemApp(oldPackage));
if (sysPkg) {
// Set the system/privileged/oem/vendor/product flags as needed
final boolean privileged =
(oldPackage.applicationInfo.privateFlags
& ApplicationInfo.PRIVATE_FLAG_PRIVILEGED) != 0;
final boolean oem =
(oldPackage.applicationInfo.privateFlags
& ApplicationInfo.PRIVATE_FLAG_OEM) != 0;
final boolean vendor =
(oldPackage.applicationInfo.privateFlags
& ApplicationInfo.PRIVATE_FLAG_VENDOR) != 0;
final boolean product =
(oldPackage.applicationInfo.privateFlags
& ApplicationInfo.PRIVATE_FLAG_PRODUCT) != 0;
final @ParseFlags int systemParseFlags = parseFlags;
final @ScanFlags int systemScanFlags = scanFlags
| SCAN_AS_SYSTEM
| (privileged ? SCAN_AS_PRIVILEGED : 0)
| (oem ? SCAN_AS_OEM : 0)
| (vendor ? SCAN_AS_VENDOR : 0)
| (product ? SCAN_AS_PRODUCT : 0);
replaceSystemPackageLIF(oldPackage, pkg, systemParseFlags, systemScanFlags,
user, allUsers, installerPackageName, res, installReason);
} else {
replaceNonSystemPackageLIF(oldPackage, pkg, parseFlags, scanFlags,
user, allUsers, installerPackageName, res, installReason);
}
}
private void replaceNonSystemPackageLIF(PackageParser.Package deletedPackage,
PackageParser.Package pkg, final @ParseFlags int parseFlags,
final @ScanFlags int scanFlags, UserHandle user, int[] allUsers,
String installerPackageName, PackageInstalledInfo res, int installReason) {
if (DEBUG_INSTALL) Slog.d(TAG, "replaceNonSystemPackageLI: new=" + pkg + ", old="
+ deletedPackage);
String pkgName = deletedPackage.packageName;
boolean deletedPkg = true;
boolean addedPkg = false;
boolean updatedSettings = false;
final boolean killApp = (scanFlags & SCAN_DONT_KILL_APP) == 0;
final int deleteFlags = PackageManager.DELETE_KEEP_DATA
| (killApp ? 0 : PackageManager.DELETE_DONT_KILL_APP);
final long origUpdateTime = (pkg.mExtras != null)
? ((PackageSetting)pkg.mExtras).lastUpdateTime : 0;
// First delete the existing package while retaining the data directory
if (!deletePackageLIF(pkgName, null, true, allUsers, deleteFlags,
res.removedInfo, true, pkg)) {
// If the existing package wasn't successfully deleted
res.setError(INSTALL_FAILED_REPLACE_COULDNT_DELETE, "replaceNonSystemPackageLI");
deletedPkg = false;
} else {
// Successfully deleted the old package; proceed with replace.
// If deleted package lived in a container, give users a chance to
// relinquish resources before killing.
if (deletedPackage.isForwardLocked() || isExternal(deletedPackage)) {
if (DEBUG_INSTALL) {
Slog.i(TAG, "upgrading pkg " + deletedPackage + " is ASEC-hosted -> UNAVAILABLE");
}
final int[] uidArray = new int[] { deletedPackage.applicationInfo.uid };
final ArrayList<String> pkgList = new ArrayList<String>(1);
pkgList.add(deletedPackage.applicationInfo.packageName);
sendResourcesChangedBroadcast(false, true, pkgList, uidArray, null);
}
clearAppDataLIF(pkg, UserHandle.USER_ALL, StorageManager.FLAG_STORAGE_DE
| StorageManager.FLAG_STORAGE_CE | Installer.FLAG_CLEAR_CODE_CACHE_ONLY);
try {
final PackageParser.Package newPackage = scanPackageTracedLI(pkg, parseFlags,
scanFlags | SCAN_UPDATE_TIME, System.currentTimeMillis(), user);
updateSettingsLI(newPackage, installerPackageName, allUsers, res, user,
installReason);
// Update the in-memory copy of the previous code paths.
PackageSetting ps = mSettings.mPackages.get(pkgName);
if (!killApp) {
if (ps.oldCodePaths == null) {
ps.oldCodePaths = new ArraySet<>();
}
Collections.addAll(ps.oldCodePaths, deletedPackage.baseCodePath);
if (deletedPackage.splitCodePaths != null) {
Collections.addAll(ps.oldCodePaths, deletedPackage.splitCodePaths);
}
} else {
ps.oldCodePaths = null;
}
if (ps.childPackageNames != null) {
for (int i = ps.childPackageNames.size() - 1; i >= 0; --i) {
final String childPkgName = ps.childPackageNames.get(i);
final PackageSetting childPs = mSettings.mPackages.get(childPkgName);
childPs.oldCodePaths = ps.oldCodePaths;
}
}
prepareAppDataAfterInstallLIF(newPackage);
addedPkg = true;
mDexManager.notifyPackageUpdated(newPackage.packageName,
newPackage.baseCodePath, newPackage.splitCodePaths);
} catch (PackageManagerException e) {
res.setError("Package couldn't be installed in " + pkg.codePath, e);
}
}
if (res.returnCode != PackageManager.INSTALL_SUCCEEDED) {
if (DEBUG_INSTALL) Slog.d(TAG, "Install failed, rolling pack: " + pkgName);
// Revert all internal state mutations and added folders for the failed install
if (addedPkg) {
deletePackageLIF(pkgName, null, true, allUsers, deleteFlags,
res.removedInfo, true, null);
}
// Restore the old package
if (deletedPkg) {
if (DEBUG_INSTALL) Slog.d(TAG, "Install failed, reinstalling: " + deletedPackage);
File restoreFile = new File(deletedPackage.codePath);
// Parse old package
boolean oldExternal = isExternal(deletedPackage);
int oldParseFlags = mDefParseFlags | PackageParser.PARSE_CHATTY |
(deletedPackage.isForwardLocked() ? PackageParser.PARSE_FORWARD_LOCK : 0) |
(oldExternal ? PackageParser.PARSE_EXTERNAL_STORAGE : 0);
int oldScanFlags = SCAN_UPDATE_SIGNATURE | SCAN_UPDATE_TIME;
try {
scanPackageTracedLI(restoreFile, oldParseFlags, oldScanFlags, origUpdateTime,
null);
} catch (PackageManagerException e) {
Slog.e(TAG, "Failed to restore package : " + pkgName + " after failed upgrade: "
+ e.getMessage());
return;
}
synchronized (mPackages) {
// Ensure the installer package name up to date
setInstallerPackageNameLPw(deletedPackage, installerPackageName);
// Update permissions for restored package
mPermissionManager.updatePermissions(
deletedPackage.packageName, deletedPackage, false, mPackages.values(),
mPermissionCallback);
mSettings.writeLPr();
}
Slog.i(TAG, "Successfully restored package : " + pkgName + " after failed upgrade");
}
} else {
synchronized (mPackages) {
PackageSetting ps = mSettings.getPackageLPr(pkg.packageName);
if (ps != null) {
res.removedInfo.removedForAllUsers = mPackages.get(ps.name) == null;
if (res.removedInfo.removedChildPackages != null) {
final int childCount = res.removedInfo.removedChildPackages.size();
// Iterate in reverse as we may modify the collection
for (int i = childCount - 1; i >= 0; i--) {
String childPackageName = res.removedInfo.removedChildPackages.keyAt(i);
if (res.addedChildPackages.containsKey(childPackageName)) {
res.removedInfo.removedChildPackages.removeAt(i);
} else {
PackageRemovedInfo childInfo = res.removedInfo
.removedChildPackages.valueAt(i);
childInfo.removedForAllUsers = mPackages.get(
childInfo.removedPackage) == null;
}
}
}
}
}
}
}
private void replaceSystemPackageLIF(PackageParser.Package deletedPackage,
PackageParser.Package pkg, final @ParseFlags int parseFlags,
final @ScanFlags int scanFlags, UserHandle user,
int[] allUsers, String installerPackageName, PackageInstalledInfo res,
int installReason) {
if (DEBUG_INSTALL) Slog.d(TAG, "replaceSystemPackageLI: new=" + pkg
+ ", old=" + deletedPackage);
final boolean disabledSystem;
// Remove existing system package
removePackageLI(deletedPackage, true);
synchronized (mPackages) {
disabledSystem = disableSystemPackageLPw(deletedPackage, pkg);
}
if (!disabledSystem) {
// We didn't need to disable the .apk as a current system package,
// which means we are replacing another update that is already
// installed. We need to make sure to delete the older one's .apk.
res.removedInfo.args = createInstallArgsForExisting(0,
deletedPackage.applicationInfo.getCodePath(),
deletedPackage.applicationInfo.getResourcePath(),
getAppDexInstructionSets(deletedPackage.applicationInfo));
} else {
res.removedInfo.args = null;
}
// Successfully disabled the old package. Now proceed with re-installation
clearAppDataLIF(pkg, UserHandle.USER_ALL, StorageManager.FLAG_STORAGE_DE
| StorageManager.FLAG_STORAGE_CE | Installer.FLAG_CLEAR_CODE_CACHE_ONLY);
res.setReturnCode(PackageManager.INSTALL_SUCCEEDED);
pkg.setApplicationInfoFlags(ApplicationInfo.FLAG_UPDATED_SYSTEM_APP,
ApplicationInfo.FLAG_UPDATED_SYSTEM_APP);
PackageParser.Package newPackage = null;
try {
// Add the package to the internal data structures
newPackage = scanPackageTracedLI(pkg, parseFlags, scanFlags, 0, user);
// Set the update and install times
PackageSetting deletedPkgSetting = (PackageSetting) deletedPackage.mExtras;
setInstallAndUpdateTime(newPackage, deletedPkgSetting.firstInstallTime,
System.currentTimeMillis());
// Update the package dynamic state if succeeded
if (res.returnCode == PackageManager.INSTALL_SUCCEEDED) {
// Now that the install succeeded make sure we remove data
// directories for any child package the update removed.
final int deletedChildCount = (deletedPackage.childPackages != null)
? deletedPackage.childPackages.size() : 0;
final int newChildCount = (newPackage.childPackages != null)
? newPackage.childPackages.size() : 0;
for (int i = 0; i < deletedChildCount; i++) {
PackageParser.Package deletedChildPkg = deletedPackage.childPackages.get(i);
boolean childPackageDeleted = true;
for (int j = 0; j < newChildCount; j++) {
PackageParser.Package newChildPkg = newPackage.childPackages.get(j);
if (deletedChildPkg.packageName.equals(newChildPkg.packageName)) {
childPackageDeleted = false;
break;
}
}
if (childPackageDeleted) {
PackageSetting ps = mSettings.getDisabledSystemPkgLPr(
deletedChildPkg.packageName);
if (ps != null && res.removedInfo.removedChildPackages != null) {
PackageRemovedInfo removedChildRes = res.removedInfo
.removedChildPackages.get(deletedChildPkg.packageName);
removePackageDataLIF(ps, allUsers, removedChildRes, 0, false);
removedChildRes.removedForAllUsers = mPackages.get(ps.name) == null;
}
}
}
updateSettingsLI(newPackage, installerPackageName, allUsers, res, user,
installReason);
prepareAppDataAfterInstallLIF(newPackage);
mDexManager.notifyPackageUpdated(newPackage.packageName,
newPackage.baseCodePath, newPackage.splitCodePaths);
}
} catch (PackageManagerException e) {
res.setReturnCode(INSTALL_FAILED_INTERNAL_ERROR);
res.setError("Package couldn't be installed in " + pkg.codePath, e);
}
if (res.returnCode != PackageManager.INSTALL_SUCCEEDED) {
// Re installation failed. Restore old information
// Remove new pkg information
if (newPackage != null) {
removeInstalledPackageLI(newPackage, true);
}
// Add back the old system package
try {
scanPackageTracedLI(deletedPackage, parseFlags, SCAN_UPDATE_SIGNATURE, 0, user);
} catch (PackageManagerException e) {
Slog.e(TAG, "Failed to restore original package: " + e.getMessage());
}
synchronized (mPackages) {
if (disabledSystem) {
enableSystemPackageLPw(deletedPackage);
}
// Ensure the installer package name up to date
setInstallerPackageNameLPw(deletedPackage, installerPackageName);
// Update permissions for restored package
mPermissionManager.updatePermissions(
deletedPackage.packageName, deletedPackage, false, mPackages.values(),
mPermissionCallback);
mSettings.writeLPr();
}
Slog.i(TAG, "Successfully restored package : " + deletedPackage.packageName
+ " after failed upgrade");
}
}
/**
* Checks whether the parent or any of the child packages have a change shared
* user. For a package to be a valid update the shred users of the parent and
* the children should match. We may later support changing child shared users.
* @param oldPkg The updated package.
* @param newPkg The update package.
* @return The shared user that change between the versions.
*/
private String getParentOrChildPackageChangedSharedUser(PackageParser.Package oldPkg,
PackageParser.Package newPkg) {
// Check parent shared user
if (!Objects.equals(oldPkg.mSharedUserId, newPkg.mSharedUserId)) {
return newPkg.packageName;
}
// Check child shared users
final int oldChildCount = (oldPkg.childPackages != null) ? oldPkg.childPackages.size() : 0;
final int newChildCount = (newPkg.childPackages != null) ? newPkg.childPackages.size() : 0;
for (int i = 0; i < newChildCount; i++) {
PackageParser.Package newChildPkg = newPkg.childPackages.get(i);
// If this child was present, did it have the same shared user?
for (int j = 0; j < oldChildCount; j++) {
PackageParser.Package oldChildPkg = oldPkg.childPackages.get(j);
if (newChildPkg.packageName.equals(oldChildPkg.packageName)
&& !Objects.equals(newChildPkg.mSharedUserId, oldChildPkg.mSharedUserId)) {
return newChildPkg.packageName;
}
}
}
return null;
}
private void removeNativeBinariesLI(PackageSetting ps) {
// Remove the lib path for the parent package
if (ps != null) {
NativeLibraryHelper.removeNativeBinariesLI(ps.legacyNativeLibraryPathString);
// Remove the lib path for the child packages
final int childCount = (ps.childPackageNames != null) ? ps.childPackageNames.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageSetting childPs = null;
synchronized (mPackages) {
childPs = mSettings.getPackageLPr(ps.childPackageNames.get(i));
}
if (childPs != null) {
NativeLibraryHelper.removeNativeBinariesLI(childPs
.legacyNativeLibraryPathString);
}
}
}
}
private void enableSystemPackageLPw(PackageParser.Package pkg) {
// Enable the parent package
mSettings.enableSystemPackageLPw(pkg.packageName);
// Enable the child packages
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
mSettings.enableSystemPackageLPw(childPkg.packageName);
}
}
private boolean disableSystemPackageLPw(PackageParser.Package oldPkg,
PackageParser.Package newPkg) {
// Disable the parent package (parent always replaced)
boolean disabled = mSettings.disableSystemPackageLPw(oldPkg.packageName, true);
// Disable the child packages
final int childCount = (oldPkg.childPackages != null) ? oldPkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = oldPkg.childPackages.get(i);
final boolean replace = newPkg.hasChildPackage(childPkg.packageName);
disabled |= mSettings.disableSystemPackageLPw(childPkg.packageName, replace);
}
return disabled;
}
private void setInstallerPackageNameLPw(PackageParser.Package pkg,
String installerPackageName) {
// Enable the parent package
mSettings.setInstallerPackageName(pkg.packageName, installerPackageName);
// Enable the child packages
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
mSettings.setInstallerPackageName(childPkg.packageName, installerPackageName);
}
}
private void updateSettingsLI(PackageParser.Package newPackage, String installerPackageName,
int[] allUsers, PackageInstalledInfo res, UserHandle user, int installReason) {
// Update the parent package setting
updateSettingsInternalLI(newPackage, installerPackageName, allUsers, res.origUsers,
res, user, installReason);
// Update the child packages setting
final int childCount = (newPackage.childPackages != null)
? newPackage.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPackage = newPackage.childPackages.get(i);
PackageInstalledInfo childRes = res.addedChildPackages.get(childPackage.packageName);
updateSettingsInternalLI(childPackage, installerPackageName, allUsers,
childRes.origUsers, childRes, user, installReason);
}
}
private void updateSettingsInternalLI(PackageParser.Package pkg,
String installerPackageName, int[] allUsers, int[] installedForUsers,
PackageInstalledInfo res, UserHandle user, int installReason) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "updateSettings");
final String pkgName = pkg.packageName;
if (DEBUG_INSTALL) Slog.d(TAG, "New package installed in " + pkg.codePath);
synchronized (mPackages) {
// NOTE: This changes slightly to include UPDATE_PERMISSIONS_ALL regardless of the size of pkg.permissions
mPermissionManager.updatePermissions(pkg.packageName, pkg, true, mPackages.values(),
mPermissionCallback);
// For system-bundled packages, we assume that installing an upgraded version
// of the package implies that the user actually wants to run that new code,
// so we enable the package.
PackageSetting ps = mSettings.mPackages.get(pkgName);
final int userId = user.getIdentifier();
if (ps != null) {
if (isSystemApp(pkg)) {
if (DEBUG_INSTALL) {
Slog.d(TAG, "Implicitly enabling system package on upgrade: " + pkgName);
}
// Enable system package for requested users
if (res.origUsers != null) {
for (int origUserId : res.origUsers) {
if (userId == UserHandle.USER_ALL || userId == origUserId) {
ps.setEnabled(COMPONENT_ENABLED_STATE_DEFAULT,
origUserId, installerPackageName);
}
}
}
// Also convey the prior install/uninstall state
if (allUsers != null && installedForUsers != null) {
for (int currentUserId : allUsers) {
final boolean installed = ArrayUtils.contains(
installedForUsers, currentUserId);
if (DEBUG_INSTALL) {
Slog.d(TAG, " user " + currentUserId + " => " + installed);
}
ps.setInstalled(installed, currentUserId);
}
// these install state changes will be persisted in the
// upcoming call to mSettings.writeLPr().
}
}
// It's implied that when a user requests installation, they want the app to be
// installed and enabled.
if (userId != UserHandle.USER_ALL) {
ps.setInstalled(true, userId);
ps.setEnabled(COMPONENT_ENABLED_STATE_DEFAULT, userId, installerPackageName);
}
// When replacing an existing package, preserve the original install reason for all
// users that had the package installed before.
final Set<Integer> previousUserIds = new ArraySet<>();
if (res.removedInfo != null && res.removedInfo.installReasons != null) {
final int installReasonCount = res.removedInfo.installReasons.size();
for (int i = 0; i < installReasonCount; i++) {
final int previousUserId = res.removedInfo.installReasons.keyAt(i);
final int previousInstallReason = res.removedInfo.installReasons.valueAt(i);
ps.setInstallReason(previousInstallReason, previousUserId);
previousUserIds.add(previousUserId);
}
}
// Set install reason for users that are having the package newly installed.
if (userId == UserHandle.USER_ALL) {
for (int currentUserId : sUserManager.getUserIds()) {
if (!previousUserIds.contains(currentUserId)) {
ps.setInstallReason(installReason, currentUserId);
}
}
} else if (!previousUserIds.contains(userId)) {
ps.setInstallReason(installReason, userId);
}
mSettings.writeKernelMappingLPr(ps);
}
res.name = pkgName;
res.uid = pkg.applicationInfo.uid;
res.pkg = pkg;
mSettings.setInstallerPackageName(pkgName, installerPackageName);
res.setReturnCode(PackageManager.INSTALL_SUCCEEDED);
//to update install status
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "writeSettings");
mSettings.writeLPr();
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
private void installPackageTracedLI(InstallArgs args, PackageInstalledInfo res) {
try {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "installPackage");
installPackageLI(args, res);
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
private void installPackageLI(InstallArgs args, PackageInstalledInfo res) {
final int installFlags = args.installFlags;
final String installerPackageName = args.installerPackageName;
final String volumeUuid = args.volumeUuid;
final File tmpPackageFile = new File(args.getCodePath());
final boolean forwardLocked = ((installFlags & PackageManager.INSTALL_FORWARD_LOCK) != 0);
final boolean onExternal = (((installFlags & PackageManager.INSTALL_EXTERNAL) != 0)
|| (args.volumeUuid != null));
final boolean instantApp = ((installFlags & PackageManager.INSTALL_INSTANT_APP) != 0);
final boolean fullApp = ((installFlags & PackageManager.INSTALL_FULL_APP) != 0);
final boolean forceSdk = ((installFlags & PackageManager.INSTALL_FORCE_SDK) != 0);
final boolean virtualPreload =
((installFlags & PackageManager.INSTALL_VIRTUAL_PRELOAD) != 0);
boolean replace = false;
@ScanFlags int scanFlags = SCAN_NEW_INSTALL | SCAN_UPDATE_SIGNATURE;
if (args.move != null) {
// moving a complete application; perform an initial scan on the new install location
scanFlags |= SCAN_INITIAL;
}
if ((installFlags & PackageManager.INSTALL_DONT_KILL_APP) != 0) {
scanFlags |= SCAN_DONT_KILL_APP;
}
if (instantApp) {
scanFlags |= SCAN_AS_INSTANT_APP;
}
if (fullApp) {
scanFlags |= SCAN_AS_FULL_APP;
}
if (virtualPreload) {
scanFlags |= SCAN_AS_VIRTUAL_PRELOAD;
}
// Result object to be returned
res.setReturnCode(PackageManager.INSTALL_SUCCEEDED);
res.installerPackageName = installerPackageName;
if (DEBUG_INSTALL) Slog.d(TAG, "installPackageLI: path=" + tmpPackageFile);
// Sanity check
if (instantApp && (forwardLocked || onExternal)) {
Slog.i(TAG, "Incompatible ephemeral install; fwdLocked=" + forwardLocked
+ " external=" + onExternal);
res.setReturnCode(PackageManager.INSTALL_FAILED_INSTANT_APP_INVALID);
return;
}
// Retrieve PackageSettings and parse package
@ParseFlags final int parseFlags = mDefParseFlags | PackageParser.PARSE_CHATTY
| PackageParser.PARSE_ENFORCE_CODE
| (forwardLocked ? PackageParser.PARSE_FORWARD_LOCK : 0)
| (onExternal ? PackageParser.PARSE_EXTERNAL_STORAGE : 0)
| (forceSdk ? PackageParser.PARSE_FORCE_SDK : 0);
PackageParser pp = new PackageParser();
pp.setSeparateProcesses(mSeparateProcesses);
pp.setDisplayMetrics(mMetrics);
pp.setCallback(mPackageParserCallback);
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "parsePackage");
final PackageParser.Package pkg;
try {
pkg = pp.parsePackage(tmpPackageFile, parseFlags);
DexMetadataHelper.validatePackageDexMetadata(pkg);
} catch (PackageParserException e) {
res.setError("Failed parse during installPackageLI", e);
return;
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
// Instant apps have several additional install-time checks.
if (instantApp) {
if (pkg.applicationInfo.targetSdkVersion < Build.VERSION_CODES.O) {
Slog.w(TAG,
"Instant app package " + pkg.packageName + " does not target at least O");
res.setError(INSTALL_FAILED_INSTANT_APP_INVALID,
"Instant app package must target at least O");
return;
}
if (pkg.applicationInfo.targetSandboxVersion != 2) {
Slog.w(TAG, "Instant app package " + pkg.packageName
+ " does not target targetSandboxVersion 2");
res.setError(INSTALL_FAILED_INSTANT_APP_INVALID,
"Instant app package must use targetSandboxVersion 2");
return;
}
if (pkg.mSharedUserId != null) {
Slog.w(TAG, "Instant app package " + pkg.packageName
+ " may not declare sharedUserId.");
res.setError(INSTALL_FAILED_INSTANT_APP_INVALID,
"Instant app package may not declare a sharedUserId");
return;
}
}
if (pkg.applicationInfo.isStaticSharedLibrary()) {
// Static shared libraries have synthetic package names
renameStaticSharedLibraryPackage(pkg);
// No static shared libs on external storage
if (onExternal) {
Slog.i(TAG, "Static shared libs can only be installed on internal storage.");
res.setError(INSTALL_FAILED_INVALID_INSTALL_LOCATION,
"Packages declaring static-shared libs cannot be updated");
return;
}
}
// If we are installing a clustered package add results for the children
if (pkg.childPackages != null) {
synchronized (mPackages) {
final int childCount = pkg.childPackages.size();
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
PackageInstalledInfo childRes = new PackageInstalledInfo();
childRes.setReturnCode(PackageManager.INSTALL_SUCCEEDED);
childRes.pkg = childPkg;
childRes.name = childPkg.packageName;
PackageSetting childPs = mSettings.getPackageLPr(childPkg.packageName);
if (childPs != null) {
childRes.origUsers = childPs.queryInstalledUsers(
sUserManager.getUserIds(), true);
}
if ((mPackages.containsKey(childPkg.packageName))) {
childRes.removedInfo = new PackageRemovedInfo(this);
childRes.removedInfo.removedPackage = childPkg.packageName;
childRes.removedInfo.installerPackageName = childPs.installerPackageName;
}
if (res.addedChildPackages == null) {
res.addedChildPackages = new ArrayMap<>();
}
res.addedChildPackages.put(childPkg.packageName, childRes);
}
}
}
// If package doesn't declare API override, mark that we have an install
// time CPU ABI override.
if (TextUtils.isEmpty(pkg.cpuAbiOverride)) {
pkg.cpuAbiOverride = args.abiOverride;
}
String pkgName = res.name = pkg.packageName;
if ((pkg.applicationInfo.flags&ApplicationInfo.FLAG_TEST_ONLY) != 0) {
if ((installFlags & PackageManager.INSTALL_ALLOW_TEST) == 0) {
res.setError(INSTALL_FAILED_TEST_ONLY, "installPackageLI");
return;
}
}
try {
// either use what we've been given or parse directly from the APK
if (args.signingDetails != PackageParser.SigningDetails.UNKNOWN) {
pkg.setSigningDetails(args.signingDetails);
} else {
PackageParser.collectCertificates(pkg, false /* skipVerify */);
}
} catch (PackageParserException e) {
res.setError("Failed collect during installPackageLI", e);
return;
}
if (instantApp && pkg.mSigningDetails.signatureSchemeVersion
< SignatureSchemeVersion.SIGNING_BLOCK_V2) {
Slog.w(TAG, "Instant app package " + pkg.packageName
+ " is not signed with at least APK Signature Scheme v2");
res.setError(INSTALL_FAILED_INSTANT_APP_INVALID,
"Instant app package must be signed with APK Signature Scheme v2 or greater");
return;
}
// Get rid of all references to package scan path via parser.
pp = null;
String oldCodePath = null;
boolean systemApp = false;
synchronized (mPackages) {
// Check if installing already existing package
if ((installFlags & PackageManager.INSTALL_REPLACE_EXISTING) != 0) {
String oldName = mSettings.getRenamedPackageLPr(pkgName);
if (pkg.mOriginalPackages != null
&& pkg.mOriginalPackages.contains(oldName)
&& mPackages.containsKey(oldName)) {
// This package is derived from an original package,
// and this device has been updating from that original
// name. We must continue using the original name, so
// rename the new package here.
pkg.setPackageName(oldName);
pkgName = pkg.packageName;
replace = true;
if (DEBUG_INSTALL) Slog.d(TAG, "Replacing existing renamed package: oldName="
+ oldName + " pkgName=" + pkgName);
} else if (mPackages.containsKey(pkgName)) {
// This package, under its official name, already exists
// on the device; we should replace it.
replace = true;
if (DEBUG_INSTALL) Slog.d(TAG, "Replace existing pacakge: " + pkgName);
}
// Child packages are installed through the parent package
if (pkg.parentPackage != null) {
res.setError(PackageManager.INSTALL_PARSE_FAILED_BAD_PACKAGE_NAME,
"Package " + pkg.packageName + " is child of package "
+ pkg.parentPackage.parentPackage + ". Child packages "
+ "can be updated only through the parent package.");
return;
}
if (replace) {
// Prevent apps opting out from runtime permissions
PackageParser.Package oldPackage = mPackages.get(pkgName);
final int oldTargetSdk = oldPackage.applicationInfo.targetSdkVersion;
final int newTargetSdk = pkg.applicationInfo.targetSdkVersion;
if (oldTargetSdk > Build.VERSION_CODES.LOLLIPOP_MR1
&& newTargetSdk <= Build.VERSION_CODES.LOLLIPOP_MR1) {
res.setError(PackageManager.INSTALL_FAILED_PERMISSION_MODEL_DOWNGRADE,
"Package " + pkg.packageName + " new target SDK " + newTargetSdk
+ " doesn't support runtime permissions but the old"
+ " target SDK " + oldTargetSdk + " does.");
return;
}
// Prevent persistent apps from being updated
if ((oldPackage.applicationInfo.flags & ApplicationInfo.FLAG_PERSISTENT) != 0) {
res.setError(PackageManager.INSTALL_FAILED_INVALID_APK,
"Package " + oldPackage.packageName + " is a persistent app. "
+ "Persistent apps are not updateable.");
return;
}
// Prevent installing of child packages
if (oldPackage.parentPackage != null) {
res.setError(PackageManager.INSTALL_PARSE_FAILED_BAD_PACKAGE_NAME,
"Package " + pkg.packageName + " is child of package "
+ oldPackage.parentPackage + ". Child packages "
+ "can be updated only through the parent package.");
return;
}
}
}
PackageSetting ps = mSettings.mPackages.get(pkgName);
if (ps != null) {
if (DEBUG_INSTALL) Slog.d(TAG, "Existing package: " + ps);
// Static shared libs have same package with different versions where
// we internally use a synthetic package name to allow multiple versions
// of the same package, therefore we need to compare signatures against
// the package setting for the latest library version.
PackageSetting signatureCheckPs = ps;
if (pkg.applicationInfo.isStaticSharedLibrary()) {
SharedLibraryEntry libraryEntry = getLatestSharedLibraVersionLPr(pkg);
if (libraryEntry != null) {
signatureCheckPs = mSettings.getPackageLPr(libraryEntry.apk);
}
}
// Quick sanity check that we're signed correctly if updating;
// we'll check this again later when scanning, but we want to
// bail early here before tripping over redefined permissions.
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
if (ksms.shouldCheckUpgradeKeySetLocked(signatureCheckPs, scanFlags)) {
if (!ksms.checkUpgradeKeySetLocked(signatureCheckPs, pkg)) {
res.setError(INSTALL_FAILED_UPDATE_INCOMPATIBLE, "Package "
+ pkg.packageName + " upgrade keys do not match the "
+ "previously installed version");
return;
}
} else {
try {
final boolean compareCompat = isCompatSignatureUpdateNeeded(pkg);
final boolean compareRecover = isRecoverSignatureUpdateNeeded(pkg);
// We don't care about disabledPkgSetting on install for now.
final boolean compatMatch = verifySignatures(
signatureCheckPs, null, pkg.mSigningDetails, compareCompat,
compareRecover);
// The new KeySets will be re-added later in the scanning process.
if (compatMatch) {
synchronized (mPackages) {
ksms.removeAppKeySetDataLPw(pkg.packageName);
}
}
} catch (PackageManagerException e) {
res.setError(e.error, e.getMessage());
return;
}
}
oldCodePath = mSettings.mPackages.get(pkgName).codePathString;
if (ps.pkg != null && ps.pkg.applicationInfo != null) {
systemApp = (ps.pkg.applicationInfo.flags &
ApplicationInfo.FLAG_SYSTEM) != 0;
}
res.origUsers = ps.queryInstalledUsers(sUserManager.getUserIds(), true);
}
int N = pkg.permissions.size();
for (int i = N-1; i >= 0; i--) {
final PackageParser.Permission perm = pkg.permissions.get(i);
final BasePermission bp =
(BasePermission) mPermissionManager.getPermissionTEMP(perm.info.name);
// Don't allow anyone but the system to define ephemeral permissions.
if ((perm.info.protectionLevel & PermissionInfo.PROTECTION_FLAG_INSTANT) != 0
&& !systemApp) {
Slog.w(TAG, "Non-System package " + pkg.packageName
+ " attempting to delcare ephemeral permission "
+ perm.info.name + "; Removing ephemeral.");
perm.info.protectionLevel &= ~PermissionInfo.PROTECTION_FLAG_INSTANT;
}
// Check whether the newly-scanned package wants to define an already-defined perm
if (bp != null) {
// If the defining package is signed with our cert, it's okay. This
// also includes the "updating the same package" case, of course.
// "updating same package" could also involve key-rotation.
final boolean sigsOk;
final String sourcePackageName = bp.getSourcePackageName();
final PackageSettingBase sourcePackageSetting = bp.getSourcePackageSetting();
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
if (sourcePackageName.equals(pkg.packageName)
&& (ksms.shouldCheckUpgradeKeySetLocked(
sourcePackageSetting, scanFlags))) {
sigsOk = ksms.checkUpgradeKeySetLocked(sourcePackageSetting, pkg);
} else {
// in the event of signing certificate rotation, we need to see if the
// package's certificate has rotated from the current one, or if it is an
// older certificate with which the current is ok with sharing permissions
if (sourcePackageSetting.signatures.mSigningDetails.checkCapability(
pkg.mSigningDetails,
PackageParser.SigningDetails.CertCapabilities.PERMISSION)) {
sigsOk = true;
} else if (pkg.mSigningDetails.checkCapability(
sourcePackageSetting.signatures.mSigningDetails,
PackageParser.SigningDetails.CertCapabilities.PERMISSION)) {
// the scanned package checks out, has signing certificate rotation
// history, and is newer; bring it over
sourcePackageSetting.signatures.mSigningDetails = pkg.mSigningDetails;
sigsOk = true;
} else {
sigsOk = false;
}
}
if (!sigsOk) {
// If the owning package is the system itself, we log but allow
// install to proceed; we fail the install on all other permission
// redefinitions.
if (!sourcePackageName.equals("android")) {
res.setError(INSTALL_FAILED_DUPLICATE_PERMISSION, "Package "
+ pkg.packageName + " attempting to redeclare permission "
+ perm.info.name + " already owned by " + sourcePackageName);
res.origPermission = perm.info.name;
res.origPackage = sourcePackageName;
return;
} else {
Slog.w(TAG, "Package " + pkg.packageName
+ " attempting to redeclare system permission "
+ perm.info.name + "; ignoring new declaration");
pkg.permissions.remove(i);
}
} else if (!PLATFORM_PACKAGE_NAME.equals(pkg.packageName)) {
// Prevent apps to change protection level to dangerous from any other
// type as this would allow a privilege escalation where an app adds a
// normal/signature permission in other app's group and later redefines
// it as dangerous leading to the group auto-grant.
if ((perm.info.protectionLevel & PermissionInfo.PROTECTION_MASK_BASE)
== PermissionInfo.PROTECTION_DANGEROUS) {
if (bp != null && !bp.isRuntime()) {
Slog.w(TAG, "Package " + pkg.packageName + " trying to change a "
+ "non-runtime permission " + perm.info.name
+ " to runtime; keeping old protection level");
perm.info.protectionLevel = bp.getProtectionLevel();
}
}
}
}
}
}
if (systemApp) {
if (onExternal) {
// Abort update; system app can't be replaced with app on sdcard
res.setError(INSTALL_FAILED_INVALID_INSTALL_LOCATION,
"Cannot install updates to system apps on sdcard");
return;
} else if (instantApp) {
// Abort update; system app can't be replaced with an instant app
res.setError(INSTALL_FAILED_INSTANT_APP_INVALID,
"Cannot update a system app with an instant app");
return;
}
}
if (args.move != null) {
// We did an in-place move, so dex is ready to roll
scanFlags |= SCAN_NO_DEX;
scanFlags |= SCAN_MOVE;
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(pkgName);
if (ps == null) {
res.setError(INSTALL_FAILED_INTERNAL_ERROR,
"Missing settings for moved package " + pkgName);
}
// We moved the entire application as-is, so bring over the
// previously derived ABI information.
pkg.applicationInfo.primaryCpuAbi = ps.primaryCpuAbiString;
pkg.applicationInfo.secondaryCpuAbi = ps.secondaryCpuAbiString;
}
} else if (!forwardLocked && !pkg.applicationInfo.isExternalAsec()) {
// Enable SCAN_NO_DEX flag to skip dexopt at a later stage
scanFlags |= SCAN_NO_DEX;
try {
String abiOverride = (TextUtils.isEmpty(pkg.cpuAbiOverride) ?
args.abiOverride : pkg.cpuAbiOverride);
final boolean extractNativeLibs = !pkg.isLibrary();
derivePackageAbi(pkg, abiOverride, extractNativeLibs);
} catch (PackageManagerException pme) {
Slog.e(TAG, "Error deriving application ABI", pme);
res.setError(INSTALL_FAILED_INTERNAL_ERROR, "Error deriving application ABI");
return;
}
// Shared libraries for the package need to be updated.
synchronized (mPackages) {
try {
updateSharedLibrariesLPr(pkg, null);
} catch (PackageManagerException e) {
Slog.e(TAG, "updateAllSharedLibrariesLPw failed: " + e.getMessage());
}
}
}
if (!args.doRename(res.returnCode, pkg, oldCodePath)) {
res.setError(INSTALL_FAILED_INSUFFICIENT_STORAGE, "Failed rename");
return;
}
if (PackageManagerServiceUtils.isApkVerityEnabled()) {
String apkPath = null;
synchronized (mPackages) {
// Note that if the attacker managed to skip verify setup, for example by tampering
// with the package settings, upon reboot we will do full apk verification when
// verity is not detected.
final PackageSetting ps = mSettings.mPackages.get(pkgName);
if (ps != null && ps.isPrivileged()) {
apkPath = pkg.baseCodePath;
}
}
if (apkPath != null) {
final VerityUtils.SetupResult result =
VerityUtils.generateApkVeritySetupData(apkPath);
if (result.isOk()) {
if (Build.IS_DEBUGGABLE) Slog.i(TAG, "Enabling apk verity to " + apkPath);
FileDescriptor fd = result.getUnownedFileDescriptor();
try {
final byte[] signedRootHash = VerityUtils.generateFsverityRootHash(apkPath);
mInstaller.installApkVerity(apkPath, fd, result.getContentSize());
mInstaller.assertFsverityRootHashMatches(apkPath, signedRootHash);
} catch (InstallerException | IOException | DigestException |
NoSuchAlgorithmException e) {
res.setError(INSTALL_FAILED_INTERNAL_ERROR,
"Failed to set up verity: " + e);
return;
} finally {
IoUtils.closeQuietly(fd);
}
} else if (result.isFailed()) {
res.setError(INSTALL_FAILED_INTERNAL_ERROR, "Failed to generate verity");
return;
} else {
// Do nothing if verity is skipped. Will fall back to full apk verification on
// reboot.
}
}
}
if (!instantApp) {
startIntentFilterVerifications(args.user.getIdentifier(), replace, pkg);
} else {
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.d(TAG, "Not verifying instant app install for app links: " + pkgName);
}
}
try (PackageFreezer freezer = freezePackageForInstall(pkgName, installFlags,
"installPackageLI")) {
if (replace) {
if (pkg.applicationInfo.isStaticSharedLibrary()) {
// Static libs have a synthetic package name containing the version
// and cannot be updated as an update would get a new package name,
// unless this is the exact same version code which is useful for
// development.
PackageParser.Package existingPkg = mPackages.get(pkg.packageName);
if (existingPkg != null &&
existingPkg.getLongVersionCode() != pkg.getLongVersionCode()) {
res.setError(INSTALL_FAILED_DUPLICATE_PACKAGE, "Packages declaring "
+ "static-shared libs cannot be updated");
return;
}
}
replacePackageLIF(pkg, parseFlags, scanFlags, args.user,
installerPackageName, res, args.installReason);
} else {
installNewPackageLIF(pkg, parseFlags, scanFlags | SCAN_DELETE_DATA_ON_FAILURES,
args.user, installerPackageName, volumeUuid, res, args.installReason);
}
}
// Prepare the application profiles for the new code paths.
// This needs to be done before invoking dexopt so that any install-time profile
// can be used for optimizations.
mArtManagerService.prepareAppProfiles(pkg, resolveUserIds(args.user.getIdentifier()));
// Check whether we need to dexopt the app.
//
// NOTE: it is IMPORTANT to call dexopt:
// - after doRename which will sync the package data from PackageParser.Package and its
// corresponding ApplicationInfo.
// - after installNewPackageLIF or replacePackageLIF which will update result with the
// uid of the application (pkg.applicationInfo.uid).
// This update happens in place!
//
// We only need to dexopt if the package meets ALL of the following conditions:
// 1) it is not forward locked.
// 2) it is not on on an external ASEC container.
// 3) it is not an instant app or if it is then dexopt is enabled via gservices.
// 4) it is not debuggable.
//
// Note that we do not dexopt instant apps by default. dexopt can take some time to
// complete, so we skip this step during installation. Instead, we'll take extra time
// the first time the instant app starts. It's preferred to do it this way to provide
// continuous progress to the useur instead of mysteriously blocking somewhere in the
// middle of running an instant app. The default behaviour can be overridden
// via gservices.
final boolean performDexopt = (res.returnCode == PackageManager.INSTALL_SUCCEEDED)
&& !forwardLocked
&& !pkg.applicationInfo.isExternalAsec()
&& (!instantApp || Global.getInt(mContext.getContentResolver(),
Global.INSTANT_APP_DEXOPT_ENABLED, 0) != 0)
&& ((pkg.applicationInfo.flags & ApplicationInfo.FLAG_DEBUGGABLE) == 0);
if (performDexopt) {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "dexopt");
// Do not run PackageDexOptimizer through the local performDexOpt
// method because `pkg` may not be in `mPackages` yet.
//
// Also, don't fail application installs if the dexopt step fails.
DexoptOptions dexoptOptions = new DexoptOptions(pkg.packageName,
REASON_INSTALL,
DexoptOptions.DEXOPT_BOOT_COMPLETE |
DexoptOptions.DEXOPT_INSTALL_WITH_DEX_METADATA_FILE);
mPackageDexOptimizer.performDexOpt(pkg, pkg.usesLibraryFiles,
null /* instructionSets */,
getOrCreateCompilerPackageStats(pkg),
mDexManager.getPackageUseInfoOrDefault(pkg.packageName),
dexoptOptions);
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
// Notify BackgroundDexOptService that the package has been changed.
// If this is an update of a package which used to fail to compile,
// BackgroundDexOptService will remove it from its blacklist.
// TODO: Layering violation
BackgroundDexOptService.notifyPackageChanged(pkg.packageName);
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(pkgName);
if (ps != null) {
res.newUsers = ps.queryInstalledUsers(sUserManager.getUserIds(), true);
ps.setUpdateAvailable(false /*updateAvailable*/);
}
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
PackageInstalledInfo childRes = res.addedChildPackages.get(childPkg.packageName);
PackageSetting childPs = mSettings.getPackageLPr(childPkg.packageName);
if (childPs != null) {
childRes.newUsers = childPs.queryInstalledUsers(
sUserManager.getUserIds(), true);
}
}
if (res.returnCode == PackageManager.INSTALL_SUCCEEDED) {
updateSequenceNumberLP(ps, res.newUsers);
updateInstantAppInstallerLocked(pkgName);
}
}
}
private void startIntentFilterVerifications(int userId, boolean replacing,
PackageParser.Package pkg) {
if (mIntentFilterVerifierComponent == null) {
Slog.w(TAG, "No IntentFilter verification will not be done as "
+ "there is no IntentFilterVerifier available!");
return;
}
final int verifierUid = getPackageUid(
mIntentFilterVerifierComponent.getPackageName(),
MATCH_DEBUG_TRIAGED_MISSING,
(userId == UserHandle.USER_ALL) ? UserHandle.USER_SYSTEM : userId);
Message msg = mHandler.obtainMessage(START_INTENT_FILTER_VERIFICATIONS);
msg.obj = new IFVerificationParams(pkg, replacing, userId, verifierUid);
mHandler.sendMessage(msg);
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageParser.Package childPkg = pkg.childPackages.get(i);
msg = mHandler.obtainMessage(START_INTENT_FILTER_VERIFICATIONS);
msg.obj = new IFVerificationParams(childPkg, replacing, userId, verifierUid);
mHandler.sendMessage(msg);
}
}
private void verifyIntentFiltersIfNeeded(int userId, int verifierUid, boolean replacing,
PackageParser.Package pkg) {
int size = pkg.activities.size();
if (size == 0) {
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG,
"No activity, so no need to verify any IntentFilter!");
return;
}
final boolean hasDomainURLs = hasDomainURLs(pkg);
if (!hasDomainURLs) {
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG,
"No domain URLs, so no need to verify any IntentFilter!");
return;
}
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG, "Checking for userId:" + userId
+ " if any IntentFilter from the " + size
+ " Activities needs verification ...");
int count = 0;
final String packageName = pkg.packageName;
synchronized (mPackages) {
// If this is a new install and we see that we've already run verification for this
// package, we have nothing to do: it means the state was restored from backup.
if (!replacing) {
IntentFilterVerificationInfo ivi =
mSettings.getIntentFilterVerificationLPr(packageName);
if (ivi != null) {
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.i(TAG, "Package " + packageName+ " already verified: status="
+ ivi.getStatusString());
}
return;
}
}
// If any filters need to be verified, then all need to be.
boolean needToVerify = false;
for (PackageParser.Activity a : pkg.activities) {
for (ActivityIntentInfo filter : a.intents) {
if (filter.needsVerification() && needsNetworkVerificationLPr(filter)) {
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.d(TAG,
"Intent filter needs verification, so processing all filters");
}
needToVerify = true;
break;
}
}
}
if (needToVerify) {
final int verificationId = mIntentFilterVerificationToken++;
for (PackageParser.Activity a : pkg.activities) {
for (ActivityIntentInfo filter : a.intents) {
if (filter.handlesWebUris(true) && needsNetworkVerificationLPr(filter)) {
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG,
"Verification needed for IntentFilter:" + filter.toString());
mIntentFilterVerifier.addOneIntentFilterVerification(
verifierUid, userId, verificationId, filter, packageName);
count++;
}
}
}
}
}
if (count > 0) {
if (DEBUG_DOMAIN_VERIFICATION) Slog.d(TAG, "Starting " + count
+ " IntentFilter verification" + (count > 1 ? "s" : "")
+ " for userId:" + userId);
mIntentFilterVerifier.startVerifications(userId);
} else {
if (DEBUG_DOMAIN_VERIFICATION) {
Slog.d(TAG, "No filters or not all autoVerify for " + packageName);
}
}
}
private boolean needsNetworkVerificationLPr(ActivityIntentInfo filter) {
final ComponentName cn = filter.activity.getComponentName();
final String packageName = cn.getPackageName();
IntentFilterVerificationInfo ivi = mSettings.getIntentFilterVerificationLPr(
packageName);
if (ivi == null) {
return true;
}
int status = ivi.getStatus();
switch (status) {
case INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED:
case INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_ASK:
return true;
default:
// Nothing to do
return false;
}
}
private static boolean isMultiArch(ApplicationInfo info) {
return (info.flags & ApplicationInfo.FLAG_MULTIARCH) != 0;
}
private static boolean isExternal(PackageParser.Package pkg) {
return (pkg.applicationInfo.flags & ApplicationInfo.FLAG_EXTERNAL_STORAGE) != 0;
}
private static boolean isExternal(PackageSetting ps) {
return (ps.pkgFlags & ApplicationInfo.FLAG_EXTERNAL_STORAGE) != 0;
}
private static boolean isSystemApp(PackageParser.Package pkg) {
return (pkg.applicationInfo.flags & ApplicationInfo.FLAG_SYSTEM) != 0;
}
private static boolean isPrivilegedApp(PackageParser.Package pkg) {
return (pkg.applicationInfo.privateFlags & ApplicationInfo.PRIVATE_FLAG_PRIVILEGED) != 0;
}
private static boolean isOemApp(PackageParser.Package pkg) {
return (pkg.applicationInfo.privateFlags & ApplicationInfo.PRIVATE_FLAG_OEM) != 0;
}
private static boolean isVendorApp(PackageParser.Package pkg) {
return (pkg.applicationInfo.privateFlags & ApplicationInfo.PRIVATE_FLAG_VENDOR) != 0;
}
private static boolean isProductApp(PackageParser.Package pkg) {
return (pkg.applicationInfo.privateFlags & ApplicationInfo.PRIVATE_FLAG_PRODUCT) != 0;
}
private static boolean hasDomainURLs(PackageParser.Package pkg) {
return (pkg.applicationInfo.privateFlags & ApplicationInfo.PRIVATE_FLAG_HAS_DOMAIN_URLS) != 0;
}
private static boolean isSystemApp(PackageSetting ps) {
return (ps.pkgFlags & ApplicationInfo.FLAG_SYSTEM) != 0;
}
private static boolean isUpdatedSystemApp(PackageSetting ps) {
return (ps.pkgFlags & ApplicationInfo.FLAG_UPDATED_SYSTEM_APP) != 0;
}
private int packageFlagsToInstallFlags(PackageSetting ps) {
int installFlags = 0;
if (isExternal(ps) && TextUtils.isEmpty(ps.volumeUuid)) {
// This existing package was an external ASEC install when we have
// the external flag without a UUID
installFlags |= PackageManager.INSTALL_EXTERNAL;
}
if (ps.isForwardLocked()) {
installFlags |= PackageManager.INSTALL_FORWARD_LOCK;
}
return installFlags;
}
private VersionInfo getSettingsVersionForPackage(PackageParser.Package pkg) {
if (isExternal(pkg)) {
if (TextUtils.isEmpty(pkg.volumeUuid)) {
return mSettings.getExternalVersion();
} else {
return mSettings.findOrCreateVersion(pkg.volumeUuid);
}
} else {
return mSettings.getInternalVersion();
}
}
private void deleteTempPackageFiles() {
final FilenameFilter filter = new FilenameFilter() {
public boolean accept(File dir, String name) {
return name.startsWith("vmdl") && name.endsWith(".tmp");
}
};
for (File file : sDrmAppPrivateInstallDir.listFiles(filter)) {
file.delete();
}
}
@Override
public void deletePackageAsUser(String packageName, int versionCode,
IPackageDeleteObserver observer, int userId, int flags) {
deletePackageVersioned(new VersionedPackage(packageName, versionCode),
new LegacyPackageDeleteObserver(observer).getBinder(), userId, flags);
}
@Override
public void deletePackageVersioned(VersionedPackage versionedPackage,
final IPackageDeleteObserver2 observer, final int userId, final int deleteFlags) {
final int callingUid = Binder.getCallingUid();
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.DELETE_PACKAGES, null);
final boolean canViewInstantApps = canViewInstantApps(callingUid, userId);
Preconditions.checkNotNull(versionedPackage);
Preconditions.checkNotNull(observer);
Preconditions.checkArgumentInRange(versionedPackage.getLongVersionCode(),
PackageManager.VERSION_CODE_HIGHEST,
Long.MAX_VALUE, "versionCode must be >= -1");
final String packageName = versionedPackage.getPackageName();
final long versionCode = versionedPackage.getLongVersionCode();
final String internalPackageName;
synchronized (mPackages) {
// Normalize package name to handle renamed packages and static libs
internalPackageName = resolveInternalPackageNameLPr(packageName, versionCode);
}
final int uid = Binder.getCallingUid();
if (!isOrphaned(internalPackageName)
&& !isCallerAllowedToSilentlyUninstall(uid, internalPackageName)) {
try {
final Intent intent = new Intent(Intent.ACTION_UNINSTALL_PACKAGE);
intent.setData(Uri.fromParts(PACKAGE_SCHEME, packageName, null));
intent.putExtra(PackageInstaller.EXTRA_CALLBACK, observer.asBinder());
observer.onUserActionRequired(intent);
} catch (RemoteException re) {
}
return;
}
final boolean deleteAllUsers = (deleteFlags & PackageManager.DELETE_ALL_USERS) != 0;
final int[] users = deleteAllUsers ? sUserManager.getUserIds() : new int[]{ userId };
if (UserHandle.getUserId(uid) != userId || (deleteAllUsers && users.length > 1)) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL,
"deletePackage for user " + userId);
}
if (isUserRestricted(userId, UserManager.DISALLOW_UNINSTALL_APPS)) {
try {
observer.onPackageDeleted(packageName,
PackageManager.DELETE_FAILED_USER_RESTRICTED, null);
} catch (RemoteException re) {
}
return;
}
if (!deleteAllUsers && getBlockUninstallForUser(internalPackageName, userId)) {
try {
observer.onPackageDeleted(packageName,
PackageManager.DELETE_FAILED_OWNER_BLOCKED, null);
} catch (RemoteException re) {
}
return;
}
if (DEBUG_REMOVE) {
Slog.d(TAG, "deletePackageAsUser: pkg=" + internalPackageName + " user=" + userId
+ " deleteAllUsers: " + deleteAllUsers + " version="
+ (versionCode == PackageManager.VERSION_CODE_HIGHEST
? "VERSION_CODE_HIGHEST" : versionCode));
}
// Queue up an async operation since the package deletion may take a little while.
mHandler.post(new Runnable() {
public void run() {
mHandler.removeCallbacks(this);
int returnCode;
final PackageSetting ps = mSettings.mPackages.get(internalPackageName);
boolean doDeletePackage = true;
if (ps != null) {
final boolean targetIsInstantApp =
ps.getInstantApp(UserHandle.getUserId(callingUid));
doDeletePackage = !targetIsInstantApp
|| canViewInstantApps;
}
if (doDeletePackage) {
if (!deleteAllUsers) {
returnCode = deletePackageX(internalPackageName, versionCode,
userId, deleteFlags);
} else {
int[] blockUninstallUserIds = getBlockUninstallForUsers(
internalPackageName, users);
// If nobody is blocking uninstall, proceed with delete for all users
if (ArrayUtils.isEmpty(blockUninstallUserIds)) {
returnCode = deletePackageX(internalPackageName, versionCode,
userId, deleteFlags);
} else {
// Otherwise uninstall individually for users with blockUninstalls=false
final int userFlags = deleteFlags & ~PackageManager.DELETE_ALL_USERS;
for (int userId : users) {
if (!ArrayUtils.contains(blockUninstallUserIds, userId)) {
returnCode = deletePackageX(internalPackageName, versionCode,
userId, userFlags);
if (returnCode != PackageManager.DELETE_SUCCEEDED) {
Slog.w(TAG, "Package delete failed for user " + userId
+ ", returnCode " + returnCode);
}
}
}
// The app has only been marked uninstalled for certain users.
// We still need to report that delete was blocked
returnCode = PackageManager.DELETE_FAILED_OWNER_BLOCKED;
}
}
} else {
returnCode = PackageManager.DELETE_FAILED_INTERNAL_ERROR;
}
try {
observer.onPackageDeleted(packageName, returnCode, null);
} catch (RemoteException e) {
Log.i(TAG, "Observer no longer exists.");
} //end catch
} //end run
});
}
private String resolveExternalPackageNameLPr(PackageParser.Package pkg) {
if (pkg.staticSharedLibName != null) {
return pkg.manifestPackageName;
}
return pkg.packageName;
}
private String resolveInternalPackageNameLPr(String packageName, long versionCode) {
// Handle renamed packages
String normalizedPackageName = mSettings.getRenamedPackageLPr(packageName);
packageName = normalizedPackageName != null ? normalizedPackageName : packageName;
// Is this a static library?
LongSparseArray<SharedLibraryEntry> versionedLib =
mStaticLibsByDeclaringPackage.get(packageName);
if (versionedLib == null || versionedLib.size() <= 0) {
return packageName;
}
// Figure out which lib versions the caller can see
LongSparseLongArray versionsCallerCanSee = null;
final int callingAppId = UserHandle.getAppId(Binder.getCallingUid());
if (callingAppId != Process.SYSTEM_UID && callingAppId != Process.SHELL_UID
&& callingAppId != Process.ROOT_UID) {
versionsCallerCanSee = new LongSparseLongArray();
String libName = versionedLib.valueAt(0).info.getName();
String[] uidPackages = getPackagesForUid(Binder.getCallingUid());
if (uidPackages != null) {
for (String uidPackage : uidPackages) {
PackageSetting ps = mSettings.getPackageLPr(uidPackage);
final int libIdx = ArrayUtils.indexOf(ps.usesStaticLibraries, libName);
if (libIdx >= 0) {
final long libVersion = ps.usesStaticLibrariesVersions[libIdx];
versionsCallerCanSee.append(libVersion, libVersion);
}
}
}
}
// Caller can see nothing - done
if (versionsCallerCanSee != null && versionsCallerCanSee.size() <= 0) {
return packageName;
}
// Find the version the caller can see and the app version code
SharedLibraryEntry highestVersion = null;
final int versionCount = versionedLib.size();
for (int i = 0; i < versionCount; i++) {
SharedLibraryEntry libEntry = versionedLib.valueAt(i);
if (versionsCallerCanSee != null && versionsCallerCanSee.indexOfKey(
libEntry.info.getLongVersion()) < 0) {
continue;
}
final long libVersionCode = libEntry.info.getDeclaringPackage().getLongVersionCode();
if (versionCode != PackageManager.VERSION_CODE_HIGHEST) {
if (libVersionCode == versionCode) {
return libEntry.apk;
}
} else if (highestVersion == null) {
highestVersion = libEntry;
} else if (libVersionCode > highestVersion.info
.getDeclaringPackage().getLongVersionCode()) {
highestVersion = libEntry;
}
}
if (highestVersion != null) {
return highestVersion.apk;
}
return packageName;
}
boolean isCallerVerifier(int callingUid) {
final int callingUserId = UserHandle.getUserId(callingUid);
return mRequiredVerifierPackage != null &&
callingUid == getPackageUid(mRequiredVerifierPackage, 0, callingUserId);
}
private boolean isCallerAllowedToSilentlyUninstall(int callingUid, String pkgName) {
if (callingUid == Process.SHELL_UID || callingUid == Process.ROOT_UID
|| UserHandle.getAppId(callingUid) == Process.SYSTEM_UID) {
return true;
}
final int callingUserId = UserHandle.getUserId(callingUid);
// If the caller installed the pkgName, then allow it to silently uninstall.
if (callingUid == getPackageUid(getInstallerPackageName(pkgName), 0, callingUserId)) {
return true;
}
// Allow package verifier to silently uninstall.
if (mRequiredVerifierPackage != null &&
callingUid == getPackageUid(mRequiredVerifierPackage, 0, callingUserId)) {
return true;
}
// Allow package uninstaller to silently uninstall.
if (mRequiredUninstallerPackage != null &&
callingUid == getPackageUid(mRequiredUninstallerPackage, 0, callingUserId)) {
return true;
}
// Allow storage manager to silently uninstall.
if (mStorageManagerPackage != null &&
callingUid == getPackageUid(mStorageManagerPackage, 0, callingUserId)) {
return true;
}
// Allow caller having MANAGE_PROFILE_AND_DEVICE_OWNERS permission to silently
// uninstall for device owner provisioning.
if (checkUidPermission(MANAGE_PROFILE_AND_DEVICE_OWNERS, callingUid)
== PERMISSION_GRANTED) {
return true;
}
return false;
}
private int[] getBlockUninstallForUsers(String packageName, int[] userIds) {
int[] result = EMPTY_INT_ARRAY;
for (int userId : userIds) {
if (getBlockUninstallForUser(packageName, userId)) {
result = ArrayUtils.appendInt(result, userId);
}
}
return result;
}
@Override
public boolean isPackageDeviceAdminOnAnyUser(String packageName) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null
&& !isCallerSameApp(packageName, callingUid)) {
return false;
}
return isPackageDeviceAdmin(packageName, UserHandle.USER_ALL);
}
private boolean isPackageDeviceAdmin(String packageName, int userId) {
IDevicePolicyManager dpm = IDevicePolicyManager.Stub.asInterface(
ServiceManager.getService(Context.DEVICE_POLICY_SERVICE));
try {
if (dpm != null) {
final ComponentName deviceOwnerComponentName = dpm.getDeviceOwnerComponent(
/* callingUserOnly =*/ false);
final String deviceOwnerPackageName = deviceOwnerComponentName == null ? null
: deviceOwnerComponentName.getPackageName();
// Does the package contains the device owner?
// TODO Do we have to do it even if userId != UserHandle.USER_ALL? Otherwise,
// this check is probably not needed, since DO should be registered as a device
// admin on some user too. (Original bug for this: b/17657954)
if (packageName.equals(deviceOwnerPackageName)) {
return true;
}
// Does it contain a device admin for any user?
int[] users;
if (userId == UserHandle.USER_ALL) {
users = sUserManager.getUserIds();
} else {
users = new int[]{userId};
}
for (int i = 0; i < users.length; ++i) {
if (dpm.packageHasActiveAdmins(packageName, users[i])) {
return true;
}
}
}
} catch (RemoteException e) {
}
return false;
}
private boolean shouldKeepUninstalledPackageLPr(String packageName) {
return mKeepUninstalledPackages != null && mKeepUninstalledPackages.contains(packageName);
}
/**
* This method is an internal method that could be get invoked either
* to delete an installed package or to clean up a failed installation.
* After deleting an installed package, a broadcast is sent to notify any
* listeners that the package has been removed. For cleaning up a failed
* installation, the broadcast is not necessary since the package's
* installation wouldn't have sent the initial broadcast either
* The key steps in deleting a package are
* deleting the package information in internal structures like mPackages,
* deleting the packages base directories through installd
* updating mSettings to reflect current status
* persisting settings for later use
* sending a broadcast if necessary
*/
int deletePackageX(String packageName, long versionCode, int userId, int deleteFlags) {
final PackageRemovedInfo info = new PackageRemovedInfo(this);
final boolean res;
final int removeUser = (deleteFlags & PackageManager.DELETE_ALL_USERS) != 0
? UserHandle.USER_ALL : userId;
if (isPackageDeviceAdmin(packageName, removeUser)) {
Slog.w(TAG, "Not removing package " + packageName + ": has active device admin");
return PackageManager.DELETE_FAILED_DEVICE_POLICY_MANAGER;
}
PackageSetting uninstalledPs = null;
PackageParser.Package pkg = null;
// for the uninstall-updates case and restricted profiles, remember the per-
// user handle installed state
int[] allUsers;
synchronized (mPackages) {
uninstalledPs = mSettings.mPackages.get(packageName);
if (uninstalledPs == null) {
Slog.w(TAG, "Not removing non-existent package " + packageName);
return PackageManager.DELETE_FAILED_INTERNAL_ERROR;
}
if (versionCode != PackageManager.VERSION_CODE_HIGHEST
&& uninstalledPs.versionCode != versionCode) {
Slog.w(TAG, "Not removing package " + packageName + " with versionCode "
+ uninstalledPs.versionCode + " != " + versionCode);
return PackageManager.DELETE_FAILED_INTERNAL_ERROR;
}
// Static shared libs can be declared by any package, so let us not
// allow removing a package if it provides a lib others depend on.
pkg = mPackages.get(packageName);
allUsers = sUserManager.getUserIds();
if (pkg != null && pkg.staticSharedLibName != null) {
SharedLibraryEntry libEntry = getSharedLibraryEntryLPr(pkg.staticSharedLibName,
pkg.staticSharedLibVersion);
if (libEntry != null) {
for (int currUserId : allUsers) {
if (removeUser != UserHandle.USER_ALL && removeUser != currUserId) {
continue;
}
List<VersionedPackage> libClientPackages = getPackagesUsingSharedLibraryLPr(
libEntry.info, 0, currUserId);
if (!ArrayUtils.isEmpty(libClientPackages)) {
Slog.w(TAG, "Not removing package " + pkg.manifestPackageName
+ " hosting lib " + libEntry.info.getName() + " version "
+ libEntry.info.getLongVersion() + " used by " + libClientPackages
+ " for user " + currUserId);
return PackageManager.DELETE_FAILED_USED_SHARED_LIBRARY;
}
}
}
}
info.origUsers = uninstalledPs.queryInstalledUsers(allUsers, true);
}
final int freezeUser;
if (isUpdatedSystemApp(uninstalledPs)
&& ((deleteFlags & PackageManager.DELETE_SYSTEM_APP) == 0)) {
// We're downgrading a system app, which will apply to all users, so
// freeze them all during the downgrade
freezeUser = UserHandle.USER_ALL;
} else {
freezeUser = removeUser;
}
synchronized (mInstallLock) {
if (DEBUG_REMOVE) Slog.d(TAG, "deletePackageX: pkg=" + packageName + " user=" + userId);
try (PackageFreezer freezer = freezePackageForDelete(packageName, freezeUser,
deleteFlags, "deletePackageX")) {
res = deletePackageLIF(packageName, UserHandle.of(removeUser), true, allUsers,
deleteFlags | PackageManager.DELETE_CHATTY, info, true, null);
}
synchronized (mPackages) {
if (res) {
if (pkg != null) {
mInstantAppRegistry.onPackageUninstalledLPw(pkg, info.removedUsers);
}
updateSequenceNumberLP(uninstalledPs, info.removedUsers);
updateInstantAppInstallerLocked(packageName);
}
}
}
if (res) {
final boolean killApp = (deleteFlags & PackageManager.DELETE_DONT_KILL_APP) == 0;
info.sendPackageRemovedBroadcasts(killApp);
info.sendSystemPackageUpdatedBroadcasts();
info.sendSystemPackageAppearedBroadcasts();
}
// Force a gc here.
Runtime.getRuntime().gc();
// Delete the resources here after sending the broadcast to let
// other processes clean up before deleting resources.
if (info.args != null) {
synchronized (mInstallLock) {
info.args.doPostDeleteLI(true);
}
}
return res ? PackageManager.DELETE_SUCCEEDED : PackageManager.DELETE_FAILED_INTERNAL_ERROR;
}
static class PackageRemovedInfo {
final PackageSender packageSender;
String removedPackage;
String installerPackageName;
int uid = -1;
int removedAppId = -1;
int[] origUsers;
int[] removedUsers = null;
int[] broadcastUsers = null;
int[] instantUserIds = null;
SparseArray<Integer> installReasons;
boolean isRemovedPackageSystemUpdate = false;
boolean isUpdate;
boolean dataRemoved;
boolean removedForAllUsers;
boolean isStaticSharedLib;
// Clean up resources deleted packages.
InstallArgs args = null;
ArrayMap<String, PackageRemovedInfo> removedChildPackages;
ArrayMap<String, PackageInstalledInfo> appearedChildPackages;
PackageRemovedInfo(PackageSender packageSender) {
this.packageSender = packageSender;
}
void sendPackageRemovedBroadcasts(boolean killApp) {
sendPackageRemovedBroadcastInternal(killApp);
final int childCount = removedChildPackages != null ? removedChildPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageRemovedInfo childInfo = removedChildPackages.valueAt(i);
childInfo.sendPackageRemovedBroadcastInternal(killApp);
}
}
void sendSystemPackageUpdatedBroadcasts() {
if (isRemovedPackageSystemUpdate) {
sendSystemPackageUpdatedBroadcastsInternal();
final int childCount = (removedChildPackages != null)
? removedChildPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageRemovedInfo childInfo = removedChildPackages.valueAt(i);
if (childInfo.isRemovedPackageSystemUpdate) {
childInfo.sendSystemPackageUpdatedBroadcastsInternal();
}
}
}
}
void sendSystemPackageAppearedBroadcasts() {
final int packageCount = (appearedChildPackages != null)
? appearedChildPackages.size() : 0;
for (int i = 0; i < packageCount; i++) {
PackageInstalledInfo installedInfo = appearedChildPackages.valueAt(i);
packageSender.sendPackageAddedForNewUsers(installedInfo.name,
true /*sendBootCompleted*/, false /*startReceiver*/,
UserHandle.getAppId(installedInfo.uid), installedInfo.newUsers, null);
}
}
private void sendSystemPackageUpdatedBroadcastsInternal() {
Bundle extras = new Bundle(2);
extras.putInt(Intent.EXTRA_UID, removedAppId >= 0 ? removedAppId : uid);
extras.putBoolean(Intent.EXTRA_REPLACING, true);
packageSender.sendPackageBroadcast(Intent.ACTION_PACKAGE_ADDED,
removedPackage, extras, 0, null /*targetPackage*/, null, null, null);
packageSender.sendPackageBroadcast(Intent.ACTION_PACKAGE_REPLACED,
removedPackage, extras, 0, null /*targetPackage*/, null, null, null);
packageSender.sendPackageBroadcast(Intent.ACTION_MY_PACKAGE_REPLACED,
null, null, 0, removedPackage, null, null, null);
if (installerPackageName != null) {
packageSender.sendPackageBroadcast(Intent.ACTION_PACKAGE_ADDED,
removedPackage, extras, 0 /*flags*/,
installerPackageName, null, null, null);
packageSender.sendPackageBroadcast(Intent.ACTION_PACKAGE_REPLACED,
removedPackage, extras, 0 /*flags*/,
installerPackageName, null, null, null);
}
}
private void sendPackageRemovedBroadcastInternal(boolean killApp) {
// Don't send static shared library removal broadcasts as these
// libs are visible only the the apps that depend on them an one
// cannot remove the library if it has a dependency.
if (isStaticSharedLib) {
return;
}
Bundle extras = new Bundle(2);
extras.putInt(Intent.EXTRA_UID, removedAppId >= 0 ? removedAppId : uid);
extras.putBoolean(Intent.EXTRA_DATA_REMOVED, dataRemoved);
extras.putBoolean(Intent.EXTRA_DONT_KILL_APP, !killApp);
if (isUpdate || isRemovedPackageSystemUpdate) {
extras.putBoolean(Intent.EXTRA_REPLACING, true);
}
extras.putBoolean(Intent.EXTRA_REMOVED_FOR_ALL_USERS, removedForAllUsers);
if (removedPackage != null) {
packageSender.sendPackageBroadcast(Intent.ACTION_PACKAGE_REMOVED,
removedPackage, extras, 0, null /*targetPackage*/, null,
broadcastUsers, instantUserIds);
if (installerPackageName != null) {
packageSender.sendPackageBroadcast(Intent.ACTION_PACKAGE_REMOVED,
removedPackage, extras, 0 /*flags*/,
installerPackageName, null, broadcastUsers, instantUserIds);
}
if (dataRemoved && !isRemovedPackageSystemUpdate) {
packageSender.sendPackageBroadcast(Intent.ACTION_PACKAGE_FULLY_REMOVED,
removedPackage, extras,
Intent.FLAG_RECEIVER_INCLUDE_BACKGROUND,
null, null, broadcastUsers, instantUserIds);
packageSender.notifyPackageRemoved(removedPackage);
}
}
if (removedAppId >= 0) {
packageSender.sendPackageBroadcast(Intent.ACTION_UID_REMOVED,
null, extras, Intent.FLAG_RECEIVER_INCLUDE_BACKGROUND,
null, null, broadcastUsers, instantUserIds);
}
}
void populateUsers(int[] userIds, PackageSetting deletedPackageSetting) {
removedUsers = userIds;
if (removedUsers == null) {
broadcastUsers = null;
return;
}
broadcastUsers = EMPTY_INT_ARRAY;
instantUserIds = EMPTY_INT_ARRAY;
for (int i = userIds.length - 1; i >= 0; --i) {
final int userId = userIds[i];
if (deletedPackageSetting.getInstantApp(userId)) {
instantUserIds = ArrayUtils.appendInt(instantUserIds, userId);
} else {
broadcastUsers = ArrayUtils.appendInt(broadcastUsers, userId);
}
}
}
}
/*
* This method deletes the package from internal data structures. If the DONT_DELETE_DATA
* flag is not set, the data directory is removed as well.
* make sure this flag is set for partially installed apps. If not its meaningless to
* delete a partially installed application.
*/
private void removePackageDataLIF(PackageSetting ps, int[] allUserHandles,
PackageRemovedInfo outInfo, int flags, boolean writeSettings) {
String packageName = ps.name;
if (DEBUG_REMOVE) Slog.d(TAG, "removePackageDataLI: " + ps);
// Retrieve object to delete permissions for shared user later on
final PackageParser.Package deletedPkg;
final PackageSetting deletedPs;
// reader
synchronized (mPackages) {
deletedPkg = mPackages.get(packageName);
deletedPs = mSettings.mPackages.get(packageName);
if (outInfo != null) {
outInfo.removedPackage = packageName;
outInfo.installerPackageName = ps.installerPackageName;
outInfo.isStaticSharedLib = deletedPkg != null
&& deletedPkg.staticSharedLibName != null;
outInfo.populateUsers(deletedPs == null ? null
: deletedPs.queryInstalledUsers(sUserManager.getUserIds(), true), deletedPs);
}
}
removePackageLI(ps, (flags & PackageManager.DELETE_CHATTY) != 0);
if ((flags & PackageManager.DELETE_KEEP_DATA) == 0) {
final PackageParser.Package resolvedPkg;
if (deletedPkg != null) {
resolvedPkg = deletedPkg;
} else {
// We don't have a parsed package when it lives on an ejected
// adopted storage device, so fake something together
resolvedPkg = new PackageParser.Package(ps.name);
resolvedPkg.setVolumeUuid(ps.volumeUuid);
}
destroyAppDataLIF(resolvedPkg, UserHandle.USER_ALL,
StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE);
destroyAppProfilesLIF(resolvedPkg, UserHandle.USER_ALL);
if (outInfo != null) {
outInfo.dataRemoved = true;
}
schedulePackageCleaning(packageName, UserHandle.USER_ALL, true);
}
int removedAppId = -1;
// writer
synchronized (mPackages) {
boolean installedStateChanged = false;
if (deletedPs != null) {
if ((flags&PackageManager.DELETE_KEEP_DATA) == 0) {
clearIntentFilterVerificationsLPw(deletedPs.name, UserHandle.USER_ALL);
clearDefaultBrowserIfNeeded(packageName);
mSettings.mKeySetManagerService.removeAppKeySetDataLPw(packageName);
removedAppId = mSettings.removePackageLPw(packageName);
if (outInfo != null) {
outInfo.removedAppId = removedAppId;
}
mPermissionManager.updatePermissions(
deletedPs.name, null, false, mPackages.values(), mPermissionCallback);
if (deletedPs.sharedUser != null) {
// Remove permissions associated with package. Since runtime
// permissions are per user we have to kill the removed package
// or packages running under the shared user of the removed
// package if revoking the permissions requested only by the removed
// package is successful and this causes a change in gids.
for (int userId : UserManagerService.getInstance().getUserIds()) {
final int userIdToKill = mSettings.updateSharedUserPermsLPw(deletedPs,
userId);
if (userIdToKill == UserHandle.USER_ALL
|| userIdToKill >= UserHandle.USER_SYSTEM) {
// If gids changed for this user, kill all affected packages.
mHandler.post(new Runnable() {
@Override
public void run() {
// This has to happen with no lock held.
killApplication(deletedPs.name, deletedPs.appId,
KILL_APP_REASON_GIDS_CHANGED);
}
});
break;
}
}
}
clearPackagePreferredActivitiesLPw(deletedPs.name, UserHandle.USER_ALL);
}
// make sure to preserve per-user disabled state if this removal was just
// a downgrade of a system app to the factory package
if (allUserHandles != null && outInfo != null && outInfo.origUsers != null) {
if (DEBUG_REMOVE) {
Slog.d(TAG, "Propagating install state across downgrade");
}
for (int userId : allUserHandles) {
final boolean installed = ArrayUtils.contains(outInfo.origUsers, userId);
if (DEBUG_REMOVE) {
Slog.d(TAG, " user " + userId + " => " + installed);
}
if (installed != ps.getInstalled(userId)) {
installedStateChanged = true;
}
ps.setInstalled(installed, userId);
}
}
}
// can downgrade to reader
if (writeSettings) {
// Save settings now
mSettings.writeLPr();
}
if (installedStateChanged) {
mSettings.writeKernelMappingLPr(ps);
}
}
if (removedAppId != -1) {
// A user ID was deleted here. Go through all users and remove it
// from KeyStore.
removeKeystoreDataIfNeeded(UserHandle.USER_ALL, removedAppId);
}
}
static boolean locationIsPrivileged(String path) {
try {
final File privilegedAppDir = new File(Environment.getRootDirectory(), "priv-app");
final File privilegedVendorAppDir = new File(Environment.getVendorDirectory(), "priv-app");
final File privilegedOdmAppDir = new File(Environment.getOdmDirectory(), "priv-app");
final File privilegedProductAppDir = new File(Environment.getProductDirectory(), "priv-app");
return path.startsWith(privilegedAppDir.getCanonicalPath())
|| path.startsWith(privilegedVendorAppDir.getCanonicalPath())
|| path.startsWith(privilegedOdmAppDir.getCanonicalPath())
|| path.startsWith(privilegedProductAppDir.getCanonicalPath());
} catch (IOException e) {
Slog.e(TAG, "Unable to access code path " + path);
}
return false;
}
static boolean locationIsOem(String path) {
try {
return path.startsWith(Environment.getOemDirectory().getCanonicalPath());
} catch (IOException e) {
Slog.e(TAG, "Unable to access code path " + path);
}
return false;
}
static boolean locationIsVendor(String path) {
try {
return path.startsWith(Environment.getVendorDirectory().getCanonicalPath())
|| path.startsWith(Environment.getOdmDirectory().getCanonicalPath());
} catch (IOException e) {
Slog.e(TAG, "Unable to access code path " + path);
}
return false;
}
static boolean locationIsProduct(String path) {
try {
return path.startsWith(Environment.getProductDirectory().getCanonicalPath());
} catch (IOException e) {
Slog.e(TAG, "Unable to access code path " + path);
}
return false;
}
/*
* Tries to delete system package.
*/
private boolean deleteSystemPackageLIF(PackageParser.Package deletedPkg,
PackageSetting deletedPs, int[] allUserHandles, int flags, PackageRemovedInfo outInfo,
boolean writeSettings) {
if (deletedPs.parentPackageName != null) {
Slog.w(TAG, "Attempt to delete child system package " + deletedPkg.packageName);
return false;
}
final boolean applyUserRestrictions
= (allUserHandles != null) && (outInfo.origUsers != null);
final PackageSetting disabledPs;
// Confirm if the system package has been updated
// An updated system app can be deleted. This will also have to restore
// the system pkg from system partition
// reader
synchronized (mPackages) {
disabledPs = mSettings.getDisabledSystemPkgLPr(deletedPs.name);
}
if (DEBUG_REMOVE) Slog.d(TAG, "deleteSystemPackageLI: newPs=" + deletedPkg.packageName
+ " disabledPs=" + disabledPs);
if (disabledPs == null) {
Slog.w(TAG, "Attempt to delete unknown system package "+ deletedPkg.packageName);
return false;
} else if (DEBUG_REMOVE) {
Slog.d(TAG, "Deleting system pkg from data partition");
}
if (DEBUG_REMOVE) {
if (applyUserRestrictions) {
Slog.d(TAG, "Remembering install states:");
for (int userId : allUserHandles) {
final boolean finstalled = ArrayUtils.contains(outInfo.origUsers, userId);
Slog.d(TAG, " u=" + userId + " inst=" + finstalled);
}
}
}
// Delete the updated package
outInfo.isRemovedPackageSystemUpdate = true;
if (outInfo.removedChildPackages != null) {
final int childCount = (deletedPs.childPackageNames != null)
? deletedPs.childPackageNames.size() : 0;
for (int i = 0; i < childCount; i++) {
String childPackageName = deletedPs.childPackageNames.get(i);
if (disabledPs.childPackageNames != null && disabledPs.childPackageNames
.contains(childPackageName)) {
PackageRemovedInfo childInfo = outInfo.removedChildPackages.get(
childPackageName);
if (childInfo != null) {
childInfo.isRemovedPackageSystemUpdate = true;
}
}
}
}
if (disabledPs.versionCode < deletedPs.versionCode) {
// Delete data for downgrades
flags &= ~PackageManager.DELETE_KEEP_DATA;
} else {
// Preserve data by setting flag
flags |= PackageManager.DELETE_KEEP_DATA;
}
boolean ret = deleteInstalledPackageLIF(deletedPs, true, flags, allUserHandles,
outInfo, writeSettings, disabledPs.pkg);
if (!ret) {
return false;
}
// writer
synchronized (mPackages) {
// NOTE: The system package always needs to be enabled; even if it's for
// a compressed stub. If we don't, installing the system package fails
// during scan [scanning checks the disabled packages]. We will reverse
// this later, after we've "installed" the stub.
// Reinstate the old system package
enableSystemPackageLPw(disabledPs.pkg);
// Remove any native libraries from the upgraded package.
removeNativeBinariesLI(deletedPs);
}
// Install the system package
if (DEBUG_REMOVE) Slog.d(TAG, "Re-installing system package: " + disabledPs);
try {
installPackageFromSystemLIF(disabledPs.codePathString, false, allUserHandles,
outInfo.origUsers, deletedPs.getPermissionsState(), writeSettings);
} catch (PackageManagerException e) {
Slog.w(TAG, "Failed to restore system package:" + deletedPkg.packageName + ": "
+ e.getMessage());
return false;
} finally {
if (disabledPs.pkg.isStub) {
mSettings.disableSystemPackageLPw(disabledPs.name, true /*replaced*/);
}
}
return true;
}
/**
* Installs a package that's already on the system partition.
*/
private PackageParser.Package installPackageFromSystemLIF(@NonNull String codePathString,
boolean isPrivileged, @Nullable int[] allUserHandles, @Nullable int[] origUserHandles,
@Nullable PermissionsState origPermissionState, boolean writeSettings)
throws PackageManagerException {
@ParseFlags int parseFlags =
mDefParseFlags
| PackageParser.PARSE_MUST_BE_APK
| PackageParser.PARSE_IS_SYSTEM_DIR;
@ScanFlags int scanFlags = SCAN_AS_SYSTEM;
if (isPrivileged || locationIsPrivileged(codePathString)) {
scanFlags |= SCAN_AS_PRIVILEGED;
}
if (locationIsOem(codePathString)) {
scanFlags |= SCAN_AS_OEM;
}
if (locationIsVendor(codePathString)) {
scanFlags |= SCAN_AS_VENDOR;
}
if (locationIsProduct(codePathString)) {
scanFlags |= SCAN_AS_PRODUCT;
}
final File codePath = new File(codePathString);
final PackageParser.Package pkg =
scanPackageTracedLI(codePath, parseFlags, scanFlags, 0 /*currentTime*/, null);
try {
// update shared libraries for the newly re-installed system package
updateSharedLibrariesLPr(pkg, null);
} catch (PackageManagerException e) {
Slog.e(TAG, "updateAllSharedLibrariesLPw failed: " + e.getMessage());
}
prepareAppDataAfterInstallLIF(pkg);
// writer
synchronized (mPackages) {
PackageSetting ps = mSettings.mPackages.get(pkg.packageName);
// Propagate the permissions state as we do not want to drop on the floor
// runtime permissions. The update permissions method below will take
// care of removing obsolete permissions and grant install permissions.
if (origPermissionState != null) {
ps.getPermissionsState().copyFrom(origPermissionState);
}
mPermissionManager.updatePermissions(pkg.packageName, pkg, true, mPackages.values(),
mPermissionCallback);
final boolean applyUserRestrictions
= (allUserHandles != null) && (origUserHandles != null);
if (applyUserRestrictions) {
boolean installedStateChanged = false;
if (DEBUG_REMOVE) {
Slog.d(TAG, "Propagating install state across reinstall");
}
for (int userId : allUserHandles) {
final boolean installed = ArrayUtils.contains(origUserHandles, userId);
if (DEBUG_REMOVE) {
Slog.d(TAG, " user " + userId + " => " + installed);
}
if (installed != ps.getInstalled(userId)) {
installedStateChanged = true;
}
ps.setInstalled(installed, userId);
mSettings.writeRuntimePermissionsForUserLPr(userId, false);
}
// Regardless of writeSettings we need to ensure that this restriction
// state propagation is persisted
mSettings.writeAllUsersPackageRestrictionsLPr();
if (installedStateChanged) {
mSettings.writeKernelMappingLPr(ps);
}
}
// can downgrade to reader here
if (writeSettings) {
mSettings.writeLPr();
}
}
return pkg;
}
private boolean deleteInstalledPackageLIF(PackageSetting ps,
boolean deleteCodeAndResources, int flags, int[] allUserHandles,
PackageRemovedInfo outInfo, boolean writeSettings,
PackageParser.Package replacingPackage) {
synchronized (mPackages) {
if (outInfo != null) {
outInfo.uid = ps.appId;
}
if (outInfo != null && outInfo.removedChildPackages != null) {
final int childCount = (ps.childPackageNames != null)
? ps.childPackageNames.size() : 0;
for (int i = 0; i < childCount; i++) {
String childPackageName = ps.childPackageNames.get(i);
PackageSetting childPs = mSettings.mPackages.get(childPackageName);
if (childPs == null) {
return false;
}
PackageRemovedInfo childInfo = outInfo.removedChildPackages.get(
childPackageName);
if (childInfo != null) {
childInfo.uid = childPs.appId;
}
}
}
}
// Delete package data from internal structures and also remove data if flag is set
removePackageDataLIF(ps, allUserHandles, outInfo, flags, writeSettings);
// Delete the child packages data
final int childCount = (ps.childPackageNames != null) ? ps.childPackageNames.size() : 0;
for (int i = 0; i < childCount; i++) {
PackageSetting childPs;
synchronized (mPackages) {
childPs = mSettings.getPackageLPr(ps.childPackageNames.get(i));
}
if (childPs != null) {
PackageRemovedInfo childOutInfo = (outInfo != null
&& outInfo.removedChildPackages != null)
? outInfo.removedChildPackages.get(childPs.name) : null;
final int deleteFlags = (flags & DELETE_KEEP_DATA) != 0
&& (replacingPackage != null
&& !replacingPackage.hasChildPackage(childPs.name))
? flags & ~DELETE_KEEP_DATA : flags;
removePackageDataLIF(childPs, allUserHandles, childOutInfo,
deleteFlags, writeSettings);
}
}
// Delete application code and resources only for parent packages
if (ps.parentPackageName == null) {
if (deleteCodeAndResources && (outInfo != null)) {
outInfo.args = createInstallArgsForExisting(packageFlagsToInstallFlags(ps),
ps.codePathString, ps.resourcePathString, getAppDexInstructionSets(ps));
if (DEBUG_SD_INSTALL) Slog.i(TAG, "args=" + outInfo.args);
}
}
return true;
}
@Override
public boolean setBlockUninstallForUser(String packageName, boolean blockUninstall,
int userId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.DELETE_PACKAGES, null);
synchronized (mPackages) {
// Cannot block uninstall of static shared libs as they are
// considered a part of the using app (emulating static linking).
// Also static libs are installed always on internal storage.
PackageParser.Package pkg = mPackages.get(packageName);
if (pkg != null && pkg.staticSharedLibName != null) {
Slog.w(TAG, "Cannot block uninstall of package: " + packageName
+ " providing static shared library: " + pkg.staticSharedLibName);
return false;
}
mSettings.setBlockUninstallLPw(userId, packageName, blockUninstall);
mSettings.writePackageRestrictionsLPr(userId);
}
return true;
}
@Override
public boolean getBlockUninstallForUser(String packageName, int userId) {
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null || filterAppAccessLPr(ps, Binder.getCallingUid(), userId)) {
return false;
}
return mSettings.getBlockUninstallLPr(userId, packageName);
}
}
@Override
public boolean setRequiredForSystemUser(String packageName, boolean systemUserApp) {
enforceSystemOrRoot("setRequiredForSystemUser can only be run by the system or root");
synchronized (mPackages) {
PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null) {
Log.w(TAG, "Package doesn't exist: " + packageName);
return false;
}
if (systemUserApp) {
ps.pkgPrivateFlags |= ApplicationInfo.PRIVATE_FLAG_REQUIRED_FOR_SYSTEM_USER;
} else {
ps.pkgPrivateFlags &= ~ApplicationInfo.PRIVATE_FLAG_REQUIRED_FOR_SYSTEM_USER;
}
mSettings.writeLPr();
}
return true;
}
/*
* This method handles package deletion in general
*/
private boolean deletePackageLIF(String packageName, UserHandle user,
boolean deleteCodeAndResources, int[] allUserHandles, int flags,
PackageRemovedInfo outInfo, boolean writeSettings,
PackageParser.Package replacingPackage) {
if (packageName == null) {
Slog.w(TAG, "Attempt to delete null packageName.");
return false;
}
if (DEBUG_REMOVE) Slog.d(TAG, "deletePackageLI: " + packageName + " user " + user);
PackageSetting ps;
synchronized (mPackages) {
ps = mSettings.mPackages.get(packageName);
if (ps == null) {
Slog.w(TAG, "Package named '" + packageName + "' doesn't exist.");
return false;
}
if (ps.parentPackageName != null && (!isSystemApp(ps)
|| (flags & PackageManager.DELETE_SYSTEM_APP) != 0)) {
if (DEBUG_REMOVE) {
Slog.d(TAG, "Uninstalled child package:" + packageName + " for user:"
+ ((user == null) ? UserHandle.USER_ALL : user));
}
final int removedUserId = (user != null) ? user.getIdentifier()
: UserHandle.USER_ALL;
if (!clearPackageStateForUserLIF(ps, removedUserId, outInfo)) {
return false;
}
markPackageUninstalledForUserLPw(ps, user);
scheduleWritePackageRestrictionsLocked(user);
return true;
}
}
final int userId = user == null ? UserHandle.USER_ALL : user.getIdentifier();
if (ps.getPermissionsState().hasPermission(Manifest.permission.SUSPEND_APPS, userId)) {
unsuspendForSuspendingPackage(packageName, userId);
}
if (((!isSystemApp(ps) || (flags&PackageManager.DELETE_SYSTEM_APP) != 0) && user != null
&& user.getIdentifier() != UserHandle.USER_ALL)) {
// The caller is asking that the package only be deleted for a single
// user. To do this, we just mark its uninstalled state and delete
// its data. If this is a system app, we only allow this to happen if
// they have set the special DELETE_SYSTEM_APP which requests different
// semantics than normal for uninstalling system apps.
markPackageUninstalledForUserLPw(ps, user);
if (!isSystemApp(ps)) {
// Do not uninstall the APK if an app should be cached
boolean keepUninstalledPackage = shouldKeepUninstalledPackageLPr(packageName);
if (ps.isAnyInstalled(sUserManager.getUserIds()) || keepUninstalledPackage) {
// Other user still have this package installed, so all
// we need to do is clear this user's data and save that
// it is uninstalled.
if (DEBUG_REMOVE) Slog.d(TAG, "Still installed by other users");
if (!clearPackageStateForUserLIF(ps, user.getIdentifier(), outInfo)) {
return false;
}
scheduleWritePackageRestrictionsLocked(user);
return true;
} else {
// We need to set it back to 'installed' so the uninstall
// broadcasts will be sent correctly.
if (DEBUG_REMOVE) Slog.d(TAG, "Not installed by other users, full delete");
ps.setInstalled(true, user.getIdentifier());
mSettings.writeKernelMappingLPr(ps);
}
} else {
// This is a system app, so we assume that the
// other users still have this package installed, so all
// we need to do is clear this user's data and save that
// it is uninstalled.
if (DEBUG_REMOVE) Slog.d(TAG, "Deleting system app");
if (!clearPackageStateForUserLIF(ps, user.getIdentifier(), outInfo)) {
return false;
}
scheduleWritePackageRestrictionsLocked(user);
return true;
}
}
// If we are deleting a composite package for all users, keep track
// of result for each child.
if (ps.childPackageNames != null && outInfo != null) {
synchronized (mPackages) {
final int childCount = ps.childPackageNames.size();
outInfo.removedChildPackages = new ArrayMap<>(childCount);
for (int i = 0; i < childCount; i++) {
String childPackageName = ps.childPackageNames.get(i);
PackageRemovedInfo childInfo = new PackageRemovedInfo(this);
childInfo.removedPackage = childPackageName;
childInfo.installerPackageName = ps.installerPackageName;
outInfo.removedChildPackages.put(childPackageName, childInfo);
PackageSetting childPs = mSettings.getPackageLPr(childPackageName);
if (childPs != null) {
childInfo.origUsers = childPs.queryInstalledUsers(allUserHandles, true);
}
}
}
}
boolean ret = false;
if (isSystemApp(ps)) {
if (DEBUG_REMOVE) Slog.d(TAG, "Removing system package: " + ps.name);
// When an updated system application is deleted we delete the existing resources
// as well and fall back to existing code in system partition
ret = deleteSystemPackageLIF(ps.pkg, ps, allUserHandles, flags, outInfo, writeSettings);
} else {
if (DEBUG_REMOVE) Slog.d(TAG, "Removing non-system package: " + ps.name);
ret = deleteInstalledPackageLIF(ps, deleteCodeAndResources, flags, allUserHandles,
outInfo, writeSettings, replacingPackage);
}
// Take a note whether we deleted the package for all users
if (outInfo != null) {
outInfo.removedForAllUsers = mPackages.get(ps.name) == null;
if (outInfo.removedChildPackages != null) {
synchronized (mPackages) {
final int childCount = outInfo.removedChildPackages.size();
for (int i = 0; i < childCount; i++) {
PackageRemovedInfo childInfo = outInfo.removedChildPackages.valueAt(i);
if (childInfo != null) {
childInfo.removedForAllUsers = mPackages.get(
childInfo.removedPackage) == null;
}
}
}
}
// If we uninstalled an update to a system app there may be some
// child packages that appeared as they are declared in the system
// app but were not declared in the update.
if (isSystemApp(ps)) {
synchronized (mPackages) {
PackageSetting updatedPs = mSettings.getPackageLPr(ps.name);
final int childCount = (updatedPs.childPackageNames != null)
? updatedPs.childPackageNames.size() : 0;
for (int i = 0; i < childCount; i++) {
String childPackageName = updatedPs.childPackageNames.get(i);
if (outInfo.removedChildPackages == null
|| outInfo.removedChildPackages.indexOfKey(childPackageName) < 0) {
PackageSetting childPs = mSettings.getPackageLPr(childPackageName);
if (childPs == null) {
continue;
}
PackageInstalledInfo installRes = new PackageInstalledInfo();
installRes.name = childPackageName;
installRes.newUsers = childPs.queryInstalledUsers(allUserHandles, true);
installRes.pkg = mPackages.get(childPackageName);
installRes.uid = childPs.pkg.applicationInfo.uid;
if (outInfo.appearedChildPackages == null) {
outInfo.appearedChildPackages = new ArrayMap<>();
}
outInfo.appearedChildPackages.put(childPackageName, installRes);
}
}
}
}
}
return ret;
}
private void markPackageUninstalledForUserLPw(PackageSetting ps, UserHandle user) {
final int[] userIds = (user == null || user.getIdentifier() == UserHandle.USER_ALL)
? sUserManager.getUserIds() : new int[] {user.getIdentifier()};
for (int nextUserId : userIds) {
if (DEBUG_REMOVE) {
Slog.d(TAG, "Marking package:" + ps.name + " uninstalled for user:" + nextUserId);
}
ps.setUserState(nextUserId, 0, COMPONENT_ENABLED_STATE_DEFAULT,
false /*installed*/,
true /*stopped*/,
true /*notLaunched*/,
false /*hidden*/,
false /*suspended*/,
null /*suspendingPackage*/,
null /*dialogMessage*/,
null /*suspendedAppExtras*/,
null /*suspendedLauncherExtras*/,
false /*instantApp*/,
false /*virtualPreload*/,
null /*lastDisableAppCaller*/,
null /*enabledComponents*/,
null /*disabledComponents*/,
ps.readUserState(nextUserId).domainVerificationStatus,
0, PackageManager.INSTALL_REASON_UNKNOWN,
null /*harmfulAppWarning*/);
}
mSettings.writeKernelMappingLPr(ps);
}
private boolean clearPackageStateForUserLIF(PackageSetting ps, int userId,
PackageRemovedInfo outInfo) {
final PackageParser.Package pkg;
synchronized (mPackages) {
pkg = mPackages.get(ps.name);
}
final int[] userIds = (userId == UserHandle.USER_ALL) ? sUserManager.getUserIds()
: new int[] {userId};
for (int nextUserId : userIds) {
if (DEBUG_REMOVE) {
Slog.d(TAG, "Updating package:" + ps.name + " install state for user:"
+ nextUserId);
}
destroyAppDataLIF(pkg, userId,
StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE);
destroyAppProfilesLIF(pkg, userId);
clearDefaultBrowserIfNeededForUser(ps.name, userId);
removeKeystoreDataIfNeeded(nextUserId, ps.appId);
schedulePackageCleaning(ps.name, nextUserId, false);
synchronized (mPackages) {
if (clearPackagePreferredActivitiesLPw(ps.name, nextUserId)) {
scheduleWritePackageRestrictionsLocked(nextUserId);
}
resetUserChangesToRuntimePermissionsAndFlagsLPw(ps, nextUserId);
}
}
if (outInfo != null) {
outInfo.removedPackage = ps.name;
outInfo.installerPackageName = ps.installerPackageName;
outInfo.isStaticSharedLib = pkg != null && pkg.staticSharedLibName != null;
outInfo.removedAppId = ps.appId;
outInfo.removedUsers = userIds;
outInfo.broadcastUsers = userIds;
}
return true;
}
private final class ClearStorageConnection implements ServiceConnection {
IMediaContainerService mContainerService;
@Override
public void onServiceConnected(ComponentName name, IBinder service) {
synchronized (this) {
mContainerService = IMediaContainerService.Stub
.asInterface(Binder.allowBlocking(service));
notifyAll();
}
}
@Override
public void onServiceDisconnected(ComponentName name) {
}
}
private void clearExternalStorageDataSync(String packageName, int userId, boolean allData) {
if (DEFAULT_CONTAINER_PACKAGE.equals(packageName)) return;
final boolean mounted;
if (Environment.isExternalStorageEmulated()) {
mounted = true;
} else {
final String status = Environment.getExternalStorageState();
mounted = status.equals(Environment.MEDIA_MOUNTED)
|| status.equals(Environment.MEDIA_MOUNTED_READ_ONLY);
}
if (!mounted) {
return;
}
final Intent containerIntent = new Intent().setComponent(DEFAULT_CONTAINER_COMPONENT);
int[] users;
if (userId == UserHandle.USER_ALL) {
users = sUserManager.getUserIds();
} else {
users = new int[] { userId };
}
final ClearStorageConnection conn = new ClearStorageConnection();
if (mContext.bindServiceAsUser(
containerIntent, conn, Context.BIND_AUTO_CREATE, UserHandle.SYSTEM)) {
try {
for (int curUser : users) {
long timeout = SystemClock.uptimeMillis() + 5000;
synchronized (conn) {
long now;
while (conn.mContainerService == null &&
(now = SystemClock.uptimeMillis()) < timeout) {
try {
conn.wait(timeout - now);
} catch (InterruptedException e) {
}
}
}
if (conn.mContainerService == null) {
return;
}
final UserEnvironment userEnv = new UserEnvironment(curUser);
clearDirectory(conn.mContainerService,
userEnv.buildExternalStorageAppCacheDirs(packageName));
if (allData) {
clearDirectory(conn.mContainerService,
userEnv.buildExternalStorageAppDataDirs(packageName));
clearDirectory(conn.mContainerService,
userEnv.buildExternalStorageAppMediaDirs(packageName));
}
}
} finally {
mContext.unbindService(conn);
}
}
}
@Override
public void clearApplicationProfileData(String packageName) {
enforceSystemOrRoot("Only the system can clear all profile data");
final PackageParser.Package pkg;
synchronized (mPackages) {
pkg = mPackages.get(packageName);
}
try (PackageFreezer freezer = freezePackage(packageName, "clearApplicationProfileData")) {
synchronized (mInstallLock) {
clearAppProfilesLIF(pkg, UserHandle.USER_ALL);
}
}
}
@Override
public void clearApplicationUserData(final String packageName,
final IPackageDataObserver observer, final int userId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.CLEAR_APP_USER_DATA, null);
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, false /* checkShell */, "clear application data");
final PackageSetting ps = mSettings.getPackageLPr(packageName);
final boolean filterApp = (ps != null && filterAppAccessLPr(ps, callingUid, userId));
if (!filterApp && mProtectedPackages.isPackageDataProtected(userId, packageName)) {
throw new SecurityException("Cannot clear data for a protected package: "
+ packageName);
}
// Queue up an async operation since the package deletion may take a little while.
mHandler.post(new Runnable() {
public void run() {
mHandler.removeCallbacks(this);
final boolean succeeded;
if (!filterApp) {
try (PackageFreezer freezer = freezePackage(packageName,
"clearApplicationUserData")) {
synchronized (mInstallLock) {
succeeded = clearApplicationUserDataLIF(packageName, userId);
}
clearExternalStorageDataSync(packageName, userId, true);
synchronized (mPackages) {
mInstantAppRegistry.deleteInstantApplicationMetadataLPw(
packageName, userId);
}
}
if (succeeded) {
// invoke DeviceStorageMonitor's update method to clear any notifications
DeviceStorageMonitorInternal dsm = LocalServices
.getService(DeviceStorageMonitorInternal.class);
if (dsm != null) {
dsm.checkMemory();
}
if (checkPermission(Manifest.permission.SUSPEND_APPS, packageName, userId)
== PERMISSION_GRANTED) {
unsuspendForSuspendingPackage(packageName, userId);
}
}
} else {
succeeded = false;
}
if (observer != null) {
try {
observer.onRemoveCompleted(packageName, succeeded);
} catch (RemoteException e) {
Log.i(TAG, "Observer no longer exists.");
}
} //end if observer
} //end run
});
}
private boolean clearApplicationUserDataLIF(String packageName, int userId) {
if (packageName == null) {
Slog.w(TAG, "Attempt to delete null packageName.");
return false;
}
// Try finding details about the requested package
PackageParser.Package pkg;
synchronized (mPackages) {
pkg = mPackages.get(packageName);
if (pkg == null) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps != null) {
pkg = ps.pkg;
}
}
if (pkg == null) {
Slog.w(TAG, "Package named '" + packageName + "' doesn't exist.");
return false;
}
PackageSetting ps = (PackageSetting) pkg.mExtras;
resetUserChangesToRuntimePermissionsAndFlagsLPw(ps, userId);
}
clearAppDataLIF(pkg, userId,
StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE);
final int appId = UserHandle.getAppId(pkg.applicationInfo.uid);
removeKeystoreDataIfNeeded(userId, appId);
UserManagerInternal umInternal = getUserManagerInternal();
final int flags;
if (umInternal.isUserUnlockingOrUnlocked(userId)) {
flags = StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE;
} else if (umInternal.isUserRunning(userId)) {
flags = StorageManager.FLAG_STORAGE_DE;
} else {
flags = 0;
}
prepareAppDataContentsLIF(pkg, userId, flags);
return true;
}
/**
* Reverts user permission state changes (permissions and flags) in
* all packages for a given user.
*
* @param userId The device user for which to do a reset.
*/
private void resetUserChangesToRuntimePermissionsAndFlagsLPw(int userId) {
final int packageCount = mPackages.size();
for (int i = 0; i < packageCount; i++) {
PackageParser.Package pkg = mPackages.valueAt(i);
PackageSetting ps = (PackageSetting) pkg.mExtras;
resetUserChangesToRuntimePermissionsAndFlagsLPw(ps, userId);
}
}
private void resetNetworkPolicies(int userId) {
LocalServices.getService(NetworkPolicyManagerInternal.class).resetUserState(userId);
}
/**
* Reverts user permission state changes (permissions and flags).
*
* @param ps The package for which to reset.
* @param userId The device user for which to do a reset.
*/
private void resetUserChangesToRuntimePermissionsAndFlagsLPw(
final PackageSetting ps, final int userId) {
if (ps.pkg == null) {
return;
}
// These are flags that can change base on user actions.
final int userSettableMask = FLAG_PERMISSION_USER_SET
| FLAG_PERMISSION_USER_FIXED
| FLAG_PERMISSION_REVOKE_ON_UPGRADE
| FLAG_PERMISSION_REVIEW_REQUIRED;
final int policyOrSystemFlags = FLAG_PERMISSION_SYSTEM_FIXED
| FLAG_PERMISSION_POLICY_FIXED;
boolean writeInstallPermissions = false;
boolean writeRuntimePermissions = false;
final int permissionCount = ps.pkg.requestedPermissions.size();
for (int i = 0; i < permissionCount; i++) {
final String permName = ps.pkg.requestedPermissions.get(i);
final BasePermission bp =
(BasePermission) mPermissionManager.getPermissionTEMP(permName);
if (bp == null) {
continue;
}
// If shared user we just reset the state to which only this app contributed.
if (ps.sharedUser != null) {
boolean used = false;
final int packageCount = ps.sharedUser.packages.size();
for (int j = 0; j < packageCount; j++) {
PackageSetting pkg = ps.sharedUser.packages.valueAt(j);
if (pkg.pkg != null && !pkg.pkg.packageName.equals(ps.pkg.packageName)
&& pkg.pkg.requestedPermissions.contains(permName)) {
used = true;
break;
}
}
if (used) {
continue;
}
}
final PermissionsState permissionsState = ps.getPermissionsState();
final int oldFlags = permissionsState.getPermissionFlags(permName, userId);
// Always clear the user settable flags.
final boolean hasInstallState =
permissionsState.getInstallPermissionState(permName) != null;
// If permission review is enabled and this is a legacy app, mark the
// permission as requiring a review as this is the initial state.
int flags = 0;
if (mSettings.mPermissions.mPermissionReviewRequired
&& ps.pkg.applicationInfo.targetSdkVersion < Build.VERSION_CODES.M) {
flags |= FLAG_PERMISSION_REVIEW_REQUIRED;
}
if (permissionsState.updatePermissionFlags(bp, userId, userSettableMask, flags)) {
if (hasInstallState) {
writeInstallPermissions = true;
} else {
writeRuntimePermissions = true;
}
}
// Below is only runtime permission handling.
if (!bp.isRuntime()) {
continue;
}
// Never clobber system or policy.
if ((oldFlags & policyOrSystemFlags) != 0) {
continue;
}
// If this permission was granted by default, make sure it is.
if ((oldFlags & FLAG_PERMISSION_GRANTED_BY_DEFAULT) != 0) {
if (permissionsState.grantRuntimePermission(bp, userId)
!= PERMISSION_OPERATION_FAILURE) {
writeRuntimePermissions = true;
}
// If permission review is enabled the permissions for a legacy apps
// are represented as constantly granted runtime ones, so don't revoke.
} else if ((flags & FLAG_PERMISSION_REVIEW_REQUIRED) == 0) {
// Otherwise, reset the permission.
final int revokeResult = permissionsState.revokeRuntimePermission(bp, userId);
switch (revokeResult) {
case PERMISSION_OPERATION_SUCCESS:
case PERMISSION_OPERATION_SUCCESS_GIDS_CHANGED: {
writeRuntimePermissions = true;
final int appId = ps.appId;
mHandler.post(new Runnable() {
@Override
public void run() {
killUid(appId, userId, KILL_APP_REASON_PERMISSIONS_REVOKED);
}
});
} break;
}
}
}
// Synchronously write as we are taking permissions away.
if (writeRuntimePermissions) {
mSettings.writeRuntimePermissionsForUserLPr(userId, true);
}
// Synchronously write as we are taking permissions away.
if (writeInstallPermissions) {
mSettings.writeLPr();
}
}
/**
* Remove entries from the keystore daemon. Will only remove it if the
* {@code appId} is valid.
*/
private static void removeKeystoreDataIfNeeded(int userId, int appId) {
if (appId < 0) {
return;
}
final KeyStore keyStore = KeyStore.getInstance();
if (keyStore != null) {
if (userId == UserHandle.USER_ALL) {
for (final int individual : sUserManager.getUserIds()) {
keyStore.clearUid(UserHandle.getUid(individual, appId));
}
} else {
keyStore.clearUid(UserHandle.getUid(userId, appId));
}
} else {
Slog.w(TAG, "Could not contact keystore to clear entries for app id " + appId);
}
}
@Override
public void deleteApplicationCacheFiles(final String packageName,
final IPackageDataObserver observer) {
final int userId = UserHandle.getCallingUserId();
deleteApplicationCacheFilesAsUser(packageName, userId, observer);
}
@Override
public void deleteApplicationCacheFilesAsUser(final String packageName, final int userId,
final IPackageDataObserver observer) {
final int callingUid = Binder.getCallingUid();
if (mContext.checkCallingOrSelfPermission(
android.Manifest.permission.INTERNAL_DELETE_CACHE_FILES)
!= PackageManager.PERMISSION_GRANTED) {
// If the caller has the old delete cache permission, silently ignore. Else throw.
if (mContext.checkCallingOrSelfPermission(
android.Manifest.permission.DELETE_CACHE_FILES)
== PackageManager.PERMISSION_GRANTED) {
Slog.w(TAG, "Calling uid " + callingUid + " does not have " +
android.Manifest.permission.INTERNAL_DELETE_CACHE_FILES +
", silently ignoring");
return;
}
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERNAL_DELETE_CACHE_FILES, null);
}
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
/* requireFullPermission= */ true, /* checkShell= */ false,
"delete application cache files");
final int hasAccessInstantApps = mContext.checkCallingOrSelfPermission(
android.Manifest.permission.ACCESS_INSTANT_APPS);
final PackageParser.Package pkg;
synchronized (mPackages) {
pkg = mPackages.get(packageName);
}
// Queue up an async operation since the package deletion may take a little while.
mHandler.post(new Runnable() {
public void run() {
final PackageSetting ps = pkg == null ? null : (PackageSetting) pkg.mExtras;
boolean doClearData = true;
if (ps != null) {
final boolean targetIsInstantApp =
ps.getInstantApp(UserHandle.getUserId(callingUid));
doClearData = !targetIsInstantApp
|| hasAccessInstantApps == PackageManager.PERMISSION_GRANTED;
}
if (doClearData) {
synchronized (mInstallLock) {
final int flags = StorageManager.FLAG_STORAGE_DE
| StorageManager.FLAG_STORAGE_CE;
// We're only clearing cache files, so we don't care if the
// app is unfrozen and still able to run
clearAppDataLIF(pkg, userId, flags | Installer.FLAG_CLEAR_CACHE_ONLY);
clearAppDataLIF(pkg, userId, flags | Installer.FLAG_CLEAR_CODE_CACHE_ONLY);
}
clearExternalStorageDataSync(packageName, userId, false);
}
if (observer != null) {
try {
observer.onRemoveCompleted(packageName, true);
} catch (RemoteException e) {
Log.i(TAG, "Observer no longer exists.");
}
}
}
});
}
@Override
public void getPackageSizeInfo(final String packageName, int userHandle,
final IPackageStatsObserver observer) {
throw new UnsupportedOperationException(
"Shame on you for calling the hidden API getPackageSizeInfo(). Shame!");
}
private boolean getPackageSizeInfoLI(String packageName, int userId, PackageStats stats) {
final PackageSetting ps;
synchronized (mPackages) {
ps = mSettings.mPackages.get(packageName);
if (ps == null) {
Slog.w(TAG, "Failed to find settings for " + packageName);
return false;
}
}
final String[] packageNames = { packageName };
final long[] ceDataInodes = { ps.getCeDataInode(userId) };
final String[] codePaths = { ps.codePathString };
try {
mInstaller.getAppSize(ps.volumeUuid, packageNames, userId, 0,
ps.appId, ceDataInodes, codePaths, stats);
// For now, ignore code size of packages on system partition
if (isSystemApp(ps) && !isUpdatedSystemApp(ps)) {
stats.codeSize = 0;
}
// External clients expect these to be tracked separately
stats.dataSize -= stats.cacheSize;
} catch (InstallerException e) {
Slog.w(TAG, String.valueOf(e));
return false;
}
return true;
}
private int getUidTargetSdkVersionLockedLPr(int uid) {
Object obj = mSettings.getUserIdLPr(uid);
if (obj instanceof SharedUserSetting) {
final SharedUserSetting sus = (SharedUserSetting) obj;
int vers = Build.VERSION_CODES.CUR_DEVELOPMENT;
final Iterator<PackageSetting> it = sus.packages.iterator();
while (it.hasNext()) {
final PackageSetting ps = it.next();
if (ps.pkg != null) {
int v = ps.pkg.applicationInfo.targetSdkVersion;
if (v < vers) vers = v;
}
}
return vers;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
if (ps.pkg != null) {
return ps.pkg.applicationInfo.targetSdkVersion;
}
}
return Build.VERSION_CODES.CUR_DEVELOPMENT;
}
private int getPackageTargetSdkVersionLockedLPr(String packageName) {
final PackageParser.Package p = mPackages.get(packageName);
if (p != null) {
return p.applicationInfo.targetSdkVersion;
}
return Build.VERSION_CODES.CUR_DEVELOPMENT;
}
@Override
public void addPreferredActivity(IntentFilter filter, int match,
ComponentName[] set, ComponentName activity, int userId) {
addPreferredActivityInternal(filter, match, set, activity, true, userId,
"Adding preferred");
}
private void addPreferredActivityInternal(IntentFilter filter, int match,
ComponentName[] set, ComponentName activity, boolean always, int userId,
String opname) {
// writer
int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, false /* checkShell */, "add preferred activity");
if (filter.countActions() == 0) {
Slog.w(TAG, "Cannot set a preferred activity with no filter actions");
return;
}
synchronized (mPackages) {
if (mContext.checkCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS)
!= PackageManager.PERMISSION_GRANTED) {
if (getUidTargetSdkVersionLockedLPr(callingUid)
< Build.VERSION_CODES.FROYO) {
Slog.w(TAG, "Ignoring addPreferredActivity() from uid "
+ callingUid);
return;
}
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS, null);
}
PreferredIntentResolver pir = mSettings.editPreferredActivitiesLPw(userId);
Slog.i(TAG, opname + " activity " + activity.flattenToShortString() + " for user "
+ userId + ":");
filter.dump(new LogPrinter(Log.INFO, TAG), " ");
pir.addFilter(new PreferredActivity(filter, match, set, activity, always));
scheduleWritePackageRestrictionsLocked(userId);
postPreferredActivityChangedBroadcast(userId);
}
}
private void postPreferredActivityChangedBroadcast(int userId) {
mHandler.post(() -> {
final IActivityManager am = ActivityManager.getService();
if (am == null) {
return;
}
final Intent intent = new Intent(Intent.ACTION_PREFERRED_ACTIVITY_CHANGED);
intent.putExtra(Intent.EXTRA_USER_HANDLE, userId);
try {
am.broadcastIntent(null, intent, null, null,
0, null, null, null, android.app.AppOpsManager.OP_NONE,
null, false, false, userId);
} catch (RemoteException e) {
}
});
}
@Override
public void replacePreferredActivity(IntentFilter filter, int match,
ComponentName[] set, ComponentName activity, int userId) {
if (filter.countActions() != 1) {
throw new IllegalArgumentException(
"replacePreferredActivity expects filter to have only 1 action.");
}
if (filter.countDataAuthorities() != 0
|| filter.countDataPaths() != 0
|| filter.countDataSchemes() > 1
|| filter.countDataTypes() != 0) {
throw new IllegalArgumentException(
"replacePreferredActivity expects filter to have no data authorities, " +
"paths, or types; and at most one scheme.");
}
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, false /* checkShell */,
"replace preferred activity");
synchronized (mPackages) {
if (mContext.checkCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS)
!= PackageManager.PERMISSION_GRANTED) {
if (getUidTargetSdkVersionLockedLPr(callingUid)
< Build.VERSION_CODES.FROYO) {
Slog.w(TAG, "Ignoring replacePreferredActivity() from uid "
+ Binder.getCallingUid());
return;
}
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS, null);
}
PreferredIntentResolver pir = mSettings.mPreferredActivities.get(userId);
if (pir != null) {
// Get all of the existing entries that exactly match this filter.
ArrayList<PreferredActivity> existing = pir.findFilters(filter);
if (existing != null && existing.size() == 1) {
PreferredActivity cur = existing.get(0);
if (DEBUG_PREFERRED) {
Slog.i(TAG, "Checking replace of preferred:");
filter.dump(new LogPrinter(Log.INFO, TAG), " ");
if (!cur.mPref.mAlways) {
Slog.i(TAG, " -- CUR; not mAlways!");
} else {
Slog.i(TAG, " -- CUR: mMatch=" + cur.mPref.mMatch);
Slog.i(TAG, " -- CUR: mSet="
+ Arrays.toString(cur.mPref.mSetComponents));
Slog.i(TAG, " -- CUR: mComponent=" + cur.mPref.mShortComponent);
Slog.i(TAG, " -- NEW: mMatch="
+ (match&IntentFilter.MATCH_CATEGORY_MASK));
Slog.i(TAG, " -- CUR: mSet=" + Arrays.toString(set));
Slog.i(TAG, " -- CUR: mComponent=" + activity.flattenToShortString());
}
}
if (cur.mPref.mAlways && cur.mPref.mComponent.equals(activity)
&& cur.mPref.mMatch == (match&IntentFilter.MATCH_CATEGORY_MASK)
&& cur.mPref.sameSet(set)) {
// Setting the preferred activity to what it happens to be already
if (DEBUG_PREFERRED) {
Slog.i(TAG, "Replacing with same preferred activity "
+ cur.mPref.mShortComponent + " for user "
+ userId + ":");
filter.dump(new LogPrinter(Log.INFO, TAG), " ");
}
return;
}
}
if (existing != null) {
if (DEBUG_PREFERRED) {
Slog.i(TAG, existing.size() + " existing preferred matches for:");
filter.dump(new LogPrinter(Log.INFO, TAG), " ");
}
for (int i = 0; i < existing.size(); i++) {
PreferredActivity pa = existing.get(i);
if (DEBUG_PREFERRED) {
Slog.i(TAG, "Removing existing preferred activity "
+ pa.mPref.mComponent + ":");
pa.dump(new LogPrinter(Log.INFO, TAG), " ");
}
pir.removeFilter(pa);
}
}
}
addPreferredActivityInternal(filter, match, set, activity, true, userId,
"Replacing preferred");
}
}
@Override
public void clearPackagePreferredActivities(String packageName) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return;
}
// writer
synchronized (mPackages) {
PackageParser.Package pkg = mPackages.get(packageName);
if (pkg == null || pkg.applicationInfo.uid != callingUid) {
if (mContext.checkCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS)
!= PackageManager.PERMISSION_GRANTED) {
if (getUidTargetSdkVersionLockedLPr(callingUid)
< Build.VERSION_CODES.FROYO) {
Slog.w(TAG, "Ignoring clearPackagePreferredActivities() from uid "
+ callingUid);
return;
}
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS, null);
}
}
final PackageSetting ps = mSettings.getPackageLPr(packageName);
if (ps != null
&& filterAppAccessLPr(ps, callingUid, UserHandle.getUserId(callingUid))) {
return;
}
int user = UserHandle.getCallingUserId();
if (clearPackagePreferredActivitiesLPw(packageName, user)) {
scheduleWritePackageRestrictionsLocked(user);
}
}
}
/** This method takes a specific user id as well as UserHandle.USER_ALL. */
boolean clearPackagePreferredActivitiesLPw(String packageName, int userId) {
ArrayList<PreferredActivity> removed = null;
boolean changed = false;
for (int i=0; i<mSettings.mPreferredActivities.size(); i++) {
final int thisUserId = mSettings.mPreferredActivities.keyAt(i);
PreferredIntentResolver pir = mSettings.mPreferredActivities.valueAt(i);
if (userId != UserHandle.USER_ALL && userId != thisUserId) {
continue;
}
Iterator<PreferredActivity> it = pir.filterIterator();
while (it.hasNext()) {
PreferredActivity pa = it.next();
// Mark entry for removal only if it matches the package name
// and the entry is of type "always".
if (packageName == null ||
(pa.mPref.mComponent.getPackageName().equals(packageName)
&& pa.mPref.mAlways)) {
if (removed == null) {
removed = new ArrayList<PreferredActivity>();
}
removed.add(pa);
}
}
if (removed != null) {
for (int j=0; j<removed.size(); j++) {
PreferredActivity pa = removed.get(j);
pir.removeFilter(pa);
}
changed = true;
}
}
if (changed) {
postPreferredActivityChangedBroadcast(userId);
}
return changed;
}
/** This method takes a specific user id as well as UserHandle.USER_ALL. */
private void clearIntentFilterVerificationsLPw(int userId) {
final int packageCount = mPackages.size();
for (int i = 0; i < packageCount; i++) {
PackageParser.Package pkg = mPackages.valueAt(i);
clearIntentFilterVerificationsLPw(pkg.packageName, userId);
}
}
/** This method takes a specific user id as well as UserHandle.USER_ALL. */
void clearIntentFilterVerificationsLPw(String packageName, int userId) {
if (userId == UserHandle.USER_ALL) {
if (mSettings.removeIntentFilterVerificationLPw(packageName,
sUserManager.getUserIds())) {
for (int oneUserId : sUserManager.getUserIds()) {
scheduleWritePackageRestrictionsLocked(oneUserId);
}
}
} else {
if (mSettings.removeIntentFilterVerificationLPw(packageName, userId)) {
scheduleWritePackageRestrictionsLocked(userId);
}
}
}
/** Clears state for all users, and touches intent filter verification policy */
void clearDefaultBrowserIfNeeded(String packageName) {
for (int oneUserId : sUserManager.getUserIds()) {
clearDefaultBrowserIfNeededForUser(packageName, oneUserId);
}
}
private void clearDefaultBrowserIfNeededForUser(String packageName, int userId) {
final String defaultBrowserPackageName = getDefaultBrowserPackageName(userId);
if (!TextUtils.isEmpty(defaultBrowserPackageName)) {
if (packageName.equals(defaultBrowserPackageName)) {
setDefaultBrowserPackageName(null, userId);
}
}
}
@Override
public void resetApplicationPreferences(int userId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.SET_PREFERRED_APPLICATIONS, null);
final long identity = Binder.clearCallingIdentity();
// writer
try {
synchronized (mPackages) {
clearPackagePreferredActivitiesLPw(null, userId);
mSettings.applyDefaultPreferredAppsLPw(this, userId);
// TODO: We have to reset the default SMS and Phone. This requires
// significant refactoring to keep all default apps in the package
// manager (cleaner but more work) or have the services provide
// callbacks to the package manager to request a default app reset.
applyFactoryDefaultBrowserLPw(userId);
clearIntentFilterVerificationsLPw(userId);
primeDomainVerificationsLPw(userId);
resetUserChangesToRuntimePermissionsAndFlagsLPw(userId);
scheduleWritePackageRestrictionsLocked(userId);
}
resetNetworkPolicies(userId);
} finally {
Binder.restoreCallingIdentity(identity);
}
}
@Override
public int getPreferredActivities(List<IntentFilter> outFilters,
List<ComponentName> outActivities, String packageName) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return 0;
}
int num = 0;
final int userId = UserHandle.getCallingUserId();
// reader
synchronized (mPackages) {
PreferredIntentResolver pir = mSettings.mPreferredActivities.get(userId);
if (pir != null) {
final Iterator<PreferredActivity> it = pir.filterIterator();
while (it.hasNext()) {
final PreferredActivity pa = it.next();
if (packageName == null
|| (pa.mPref.mComponent.getPackageName().equals(packageName)
&& pa.mPref.mAlways)) {
if (outFilters != null) {
outFilters.add(new IntentFilter(pa));
}
if (outActivities != null) {
outActivities.add(pa.mPref.mComponent);
}
}
}
}
}
return num;
}
@Override
public void addPersistentPreferredActivity(IntentFilter filter, ComponentName activity,
int userId) {
int callingUid = Binder.getCallingUid();
if (callingUid != Process.SYSTEM_UID) {
throw new SecurityException(
"addPersistentPreferredActivity can only be run by the system");
}
if (filter.countActions() == 0) {
Slog.w(TAG, "Cannot set a preferred activity with no filter actions");
return;
}
synchronized (mPackages) {
Slog.i(TAG, "Adding persistent preferred activity " + activity + " for user " + userId +
":");
filter.dump(new LogPrinter(Log.INFO, TAG), " ");
mSettings.editPersistentPreferredActivitiesLPw(userId).addFilter(
new PersistentPreferredActivity(filter, activity));
scheduleWritePackageRestrictionsLocked(userId);
postPreferredActivityChangedBroadcast(userId);
}
}
@Override
public void clearPackagePersistentPreferredActivities(String packageName, int userId) {
int callingUid = Binder.getCallingUid();
if (callingUid != Process.SYSTEM_UID) {
throw new SecurityException(
"clearPackagePersistentPreferredActivities can only be run by the system");
}
ArrayList<PersistentPreferredActivity> removed = null;
boolean changed = false;
synchronized (mPackages) {
for (int i=0; i<mSettings.mPersistentPreferredActivities.size(); i++) {
final int thisUserId = mSettings.mPersistentPreferredActivities.keyAt(i);
PersistentPreferredIntentResolver ppir = mSettings.mPersistentPreferredActivities
.valueAt(i);
if (userId != thisUserId) {
continue;
}
Iterator<PersistentPreferredActivity> it = ppir.filterIterator();
while (it.hasNext()) {
PersistentPreferredActivity ppa = it.next();
// Mark entry for removal only if it matches the package name.
if (ppa.mComponent.getPackageName().equals(packageName)) {
if (removed == null) {
removed = new ArrayList<PersistentPreferredActivity>();
}
removed.add(ppa);
}
}
if (removed != null) {
for (int j=0; j<removed.size(); j++) {
PersistentPreferredActivity ppa = removed.get(j);
ppir.removeFilter(ppa);
}
changed = true;
}
}
if (changed) {
scheduleWritePackageRestrictionsLocked(userId);
postPreferredActivityChangedBroadcast(userId);
}
}
}
/**
* Common machinery for picking apart a restored XML blob and passing
* it to a caller-supplied functor to be applied to the running system.
*/
private void restoreFromXml(XmlPullParser parser, int userId,
String expectedStartTag, BlobXmlRestorer functor)
throws IOException, XmlPullParserException {
int type;
while ((type = parser.next()) != XmlPullParser.START_TAG
&& type != XmlPullParser.END_DOCUMENT) {
}
if (type != XmlPullParser.START_TAG) {
// oops didn't find a start tag?!
if (DEBUG_BACKUP) {
Slog.e(TAG, "Didn't find start tag during restore");
}
return;
}
Slog.v(TAG, ":: restoreFromXml() : got to tag " + parser.getName());
// this is supposed to be TAG_PREFERRED_BACKUP
if (!expectedStartTag.equals(parser.getName())) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Found unexpected tag " + parser.getName());
}
return;
}
// skip interfering stuff, then we're aligned with the backing implementation
while ((type = parser.next()) == XmlPullParser.TEXT) { }
Slog.v(TAG, ":: stepped forward, applying functor at tag " + parser.getName());
functor.apply(parser, userId);
}
private interface BlobXmlRestorer {
public void apply(XmlPullParser parser, int userId) throws IOException, XmlPullParserException;
}
/**
* Non-Binder method, support for the backup/restore mechanism: write the
* full set of preferred activities in its canonical XML format. Returns the
* XML output as a byte array, or null if there is none.
*/
@Override
public byte[] getPreferredActivityBackup(int userId) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("Only the system may call getPreferredActivityBackup()");
}
ByteArrayOutputStream dataStream = new ByteArrayOutputStream();
try {
final XmlSerializer serializer = new FastXmlSerializer();
serializer.setOutput(dataStream, StandardCharsets.UTF_8.name());
serializer.startDocument(null, true);
serializer.startTag(null, TAG_PREFERRED_BACKUP);
synchronized (mPackages) {
mSettings.writePreferredActivitiesLPr(serializer, userId, true);
}
serializer.endTag(null, TAG_PREFERRED_BACKUP);
serializer.endDocument();
serializer.flush();
} catch (Exception e) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Unable to write preferred activities for backup", e);
}
return null;
}
return dataStream.toByteArray();
}
@Override
public void restorePreferredActivities(byte[] backup, int userId) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("Only the system may call restorePreferredActivities()");
}
try {
final XmlPullParser parser = Xml.newPullParser();
parser.setInput(new ByteArrayInputStream(backup), StandardCharsets.UTF_8.name());
restoreFromXml(parser, userId, TAG_PREFERRED_BACKUP,
new BlobXmlRestorer() {
@Override
public void apply(XmlPullParser parser, int userId)
throws XmlPullParserException, IOException {
synchronized (mPackages) {
mSettings.readPreferredActivitiesLPw(parser, userId);
}
}
} );
} catch (Exception e) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Exception restoring preferred activities: " + e.getMessage());
}
}
}
/**
* Non-Binder method, support for the backup/restore mechanism: write the
* default browser (etc) settings in its canonical XML format. Returns the default
* browser XML representation as a byte array, or null if there is none.
*/
@Override
public byte[] getDefaultAppsBackup(int userId) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("Only the system may call getDefaultAppsBackup()");
}
ByteArrayOutputStream dataStream = new ByteArrayOutputStream();
try {
final XmlSerializer serializer = new FastXmlSerializer();
serializer.setOutput(dataStream, StandardCharsets.UTF_8.name());
serializer.startDocument(null, true);
serializer.startTag(null, TAG_DEFAULT_APPS);
synchronized (mPackages) {
mSettings.writeDefaultAppsLPr(serializer, userId);
}
serializer.endTag(null, TAG_DEFAULT_APPS);
serializer.endDocument();
serializer.flush();
} catch (Exception e) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Unable to write default apps for backup", e);
}
return null;
}
return dataStream.toByteArray();
}
@Override
public void restoreDefaultApps(byte[] backup, int userId) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("Only the system may call restoreDefaultApps()");
}
try {
final XmlPullParser parser = Xml.newPullParser();
parser.setInput(new ByteArrayInputStream(backup), StandardCharsets.UTF_8.name());
restoreFromXml(parser, userId, TAG_DEFAULT_APPS,
new BlobXmlRestorer() {
@Override
public void apply(XmlPullParser parser, int userId)
throws XmlPullParserException, IOException {
synchronized (mPackages) {
mSettings.readDefaultAppsLPw(parser, userId);
}
}
} );
} catch (Exception e) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Exception restoring default apps: " + e.getMessage());
}
}
}
@Override
public byte[] getIntentFilterVerificationBackup(int userId) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("Only the system may call getIntentFilterVerificationBackup()");
}
ByteArrayOutputStream dataStream = new ByteArrayOutputStream();
try {
final XmlSerializer serializer = new FastXmlSerializer();
serializer.setOutput(dataStream, StandardCharsets.UTF_8.name());
serializer.startDocument(null, true);
serializer.startTag(null, TAG_INTENT_FILTER_VERIFICATION);
synchronized (mPackages) {
mSettings.writeAllDomainVerificationsLPr(serializer, userId);
}
serializer.endTag(null, TAG_INTENT_FILTER_VERIFICATION);
serializer.endDocument();
serializer.flush();
} catch (Exception e) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Unable to write default apps for backup", e);
}
return null;
}
return dataStream.toByteArray();
}
@Override
public void restoreIntentFilterVerification(byte[] backup, int userId) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("Only the system may call restorePreferredActivities()");
}
try {
final XmlPullParser parser = Xml.newPullParser();
parser.setInput(new ByteArrayInputStream(backup), StandardCharsets.UTF_8.name());
restoreFromXml(parser, userId, TAG_INTENT_FILTER_VERIFICATION,
new BlobXmlRestorer() {
@Override
public void apply(XmlPullParser parser, int userId)
throws XmlPullParserException, IOException {
synchronized (mPackages) {
mSettings.readAllDomainVerificationsLPr(parser, userId);
mSettings.writeLPr();
}
}
} );
} catch (Exception e) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Exception restoring preferred activities: " + e.getMessage());
}
}
}
@Override
public byte[] getPermissionGrantBackup(int userId) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("Only the system may call getPermissionGrantBackup()");
}
ByteArrayOutputStream dataStream = new ByteArrayOutputStream();
try {
final XmlSerializer serializer = new FastXmlSerializer();
serializer.setOutput(dataStream, StandardCharsets.UTF_8.name());
serializer.startDocument(null, true);
serializer.startTag(null, TAG_PERMISSION_BACKUP);
synchronized (mPackages) {
serializeRuntimePermissionGrantsLPr(serializer, userId);
}
serializer.endTag(null, TAG_PERMISSION_BACKUP);
serializer.endDocument();
serializer.flush();
} catch (Exception e) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Unable to write default apps for backup", e);
}
return null;
}
return dataStream.toByteArray();
}
@Override
public void restorePermissionGrants(byte[] backup, int userId) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("Only the system may call restorePermissionGrants()");
}
try {
final XmlPullParser parser = Xml.newPullParser();
parser.setInput(new ByteArrayInputStream(backup), StandardCharsets.UTF_8.name());
restoreFromXml(parser, userId, TAG_PERMISSION_BACKUP,
new BlobXmlRestorer() {
@Override
public void apply(XmlPullParser parser, int userId)
throws XmlPullParserException, IOException {
synchronized (mPackages) {
processRestoredPermissionGrantsLPr(parser, userId);
}
}
} );
} catch (Exception e) {
if (DEBUG_BACKUP) {
Slog.e(TAG, "Exception restoring preferred activities: " + e.getMessage());
}
}
}
private void serializeRuntimePermissionGrantsLPr(XmlSerializer serializer, final int userId)
throws IOException {
serializer.startTag(null, TAG_ALL_GRANTS);
final int N = mSettings.mPackages.size();
for (int i = 0; i < N; i++) {
final PackageSetting ps = mSettings.mPackages.valueAt(i);
boolean pkgGrantsKnown = false;
PermissionsState packagePerms = ps.getPermissionsState();
for (PermissionState state : packagePerms.getRuntimePermissionStates(userId)) {
final int grantFlags = state.getFlags();
// only look at grants that are not system/policy fixed
if ((grantFlags & SYSTEM_RUNTIME_GRANT_MASK) == 0) {
final boolean isGranted = state.isGranted();
// And only back up the user-twiddled state bits
if (isGranted || (grantFlags & USER_RUNTIME_GRANT_MASK) != 0) {
final String packageName = mSettings.mPackages.keyAt(i);
if (!pkgGrantsKnown) {
serializer.startTag(null, TAG_GRANT);
serializer.attribute(null, ATTR_PACKAGE_NAME, packageName);
pkgGrantsKnown = true;
}
final boolean userSet =
(grantFlags & FLAG_PERMISSION_USER_SET) != 0;
final boolean userFixed =
(grantFlags & FLAG_PERMISSION_USER_FIXED) != 0;
final boolean revoke =
(grantFlags & FLAG_PERMISSION_REVOKE_ON_UPGRADE) != 0;
serializer.startTag(null, TAG_PERMISSION);
serializer.attribute(null, ATTR_PERMISSION_NAME, state.getName());
if (isGranted) {
serializer.attribute(null, ATTR_IS_GRANTED, "true");
}
if (userSet) {
serializer.attribute(null, ATTR_USER_SET, "true");
}
if (userFixed) {
serializer.attribute(null, ATTR_USER_FIXED, "true");
}
if (revoke) {
serializer.attribute(null, ATTR_REVOKE_ON_UPGRADE, "true");
}
serializer.endTag(null, TAG_PERMISSION);
}
}
}
if (pkgGrantsKnown) {
serializer.endTag(null, TAG_GRANT);
}
}
serializer.endTag(null, TAG_ALL_GRANTS);
}
private void processRestoredPermissionGrantsLPr(XmlPullParser parser, int userId)
throws XmlPullParserException, IOException {
String pkgName = null;
int outerDepth = parser.getDepth();
int type;
while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
&& (type != XmlPullParser.END_TAG || parser.getDepth() > outerDepth)) {
if (type == XmlPullParser.END_TAG || type == XmlPullParser.TEXT) {
continue;
}
final String tagName = parser.getName();
if (tagName.equals(TAG_GRANT)) {
pkgName = parser.getAttributeValue(null, ATTR_PACKAGE_NAME);
if (DEBUG_BACKUP) {
Slog.v(TAG, "+++ Restoring grants for package " + pkgName);
}
} else if (tagName.equals(TAG_PERMISSION)) {
final boolean isGranted = "true".equals(parser.getAttributeValue(null, ATTR_IS_GRANTED));
final String permName = parser.getAttributeValue(null, ATTR_PERMISSION_NAME);
int newFlagSet = 0;
if ("true".equals(parser.getAttributeValue(null, ATTR_USER_SET))) {
newFlagSet |= FLAG_PERMISSION_USER_SET;
}
if ("true".equals(parser.getAttributeValue(null, ATTR_USER_FIXED))) {
newFlagSet |= FLAG_PERMISSION_USER_FIXED;
}
if ("true".equals(parser.getAttributeValue(null, ATTR_REVOKE_ON_UPGRADE))) {
newFlagSet |= FLAG_PERMISSION_REVOKE_ON_UPGRADE;
}
if (DEBUG_BACKUP) {
Slog.v(TAG, " + Restoring grant:"
+ " pkg=" + pkgName
+ " perm=" + permName
+ " granted=" + isGranted
+ " bits=0x" + Integer.toHexString(newFlagSet));
}
final PackageSetting ps = mSettings.mPackages.get(pkgName);
if (ps != null) {
// Already installed so we apply the grant immediately
if (DEBUG_BACKUP) {
Slog.v(TAG, " + already installed; applying");
}
PermissionsState perms = ps.getPermissionsState();
BasePermission bp =
(BasePermission) mPermissionManager.getPermissionTEMP(permName);
if (bp != null) {
if (isGranted) {
perms.grantRuntimePermission(bp, userId);
}
if (newFlagSet != 0) {
perms.updatePermissionFlags(
bp, userId, USER_RUNTIME_GRANT_MASK, newFlagSet);
}
}
} else {
// Need to wait for post-restore install to apply the grant
if (DEBUG_BACKUP) {
Slog.v(TAG, " - not yet installed; saving for later");
}
mSettings.processRestoredPermissionGrantLPr(pkgName, permName,
isGranted, newFlagSet, userId);
}
} else {
PackageManagerService.reportSettingsProblem(Log.WARN,
"Unknown element under <" + TAG_PERMISSION_BACKUP + ">: " + tagName);
XmlUtils.skipCurrentTag(parser);
}
}
scheduleWriteSettingsLocked();
mSettings.writeRuntimePermissionsForUserLPr(userId, false);
}
@Override
public void addCrossProfileIntentFilter(IntentFilter intentFilter, String ownerPackage,
int sourceUserId, int targetUserId, int flags) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL, null);
int callingUid = Binder.getCallingUid();
enforceOwnerRights(ownerPackage, callingUid);
PackageManagerServiceUtils.enforceShellRestriction(
UserManager.DISALLOW_DEBUGGING_FEATURES, callingUid, sourceUserId);
if (intentFilter.countActions() == 0) {
Slog.w(TAG, "Cannot set a crossProfile intent filter with no filter actions");
return;
}
synchronized (mPackages) {
CrossProfileIntentFilter newFilter = new CrossProfileIntentFilter(intentFilter,
ownerPackage, targetUserId, flags);
CrossProfileIntentResolver resolver =
mSettings.editCrossProfileIntentResolverLPw(sourceUserId);
ArrayList<CrossProfileIntentFilter> existing = resolver.findFilters(intentFilter);
// We have all those whose filter is equal. Now checking if the rest is equal as well.
if (existing != null) {
int size = existing.size();
for (int i = 0; i < size; i++) {
if (newFilter.equalsIgnoreFilter(existing.get(i))) {
return;
}
}
}
resolver.addFilter(newFilter);
scheduleWritePackageRestrictionsLocked(sourceUserId);
}
}
@Override
public void clearCrossProfileIntentFilters(int sourceUserId, String ownerPackage) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS_FULL, null);
final int callingUid = Binder.getCallingUid();
enforceOwnerRights(ownerPackage, callingUid);
PackageManagerServiceUtils.enforceShellRestriction(
UserManager.DISALLOW_DEBUGGING_FEATURES, callingUid, sourceUserId);
synchronized (mPackages) {
CrossProfileIntentResolver resolver =
mSettings.editCrossProfileIntentResolverLPw(sourceUserId);
ArraySet<CrossProfileIntentFilter> set =
new ArraySet<CrossProfileIntentFilter>(resolver.filterSet());
for (CrossProfileIntentFilter filter : set) {
if (filter.getOwnerPackage().equals(ownerPackage)) {
resolver.removeFilter(filter);
}
}
scheduleWritePackageRestrictionsLocked(sourceUserId);
}
}
// Enforcing that callingUid is owning pkg on userId
private void enforceOwnerRights(String pkg, int callingUid) {
// The system owns everything.
if (UserHandle.getAppId(callingUid) == Process.SYSTEM_UID) {
return;
}
final int callingUserId = UserHandle.getUserId(callingUid);
PackageInfo pi = getPackageInfo(pkg, 0, callingUserId);
if (pi == null) {
throw new IllegalArgumentException("Unknown package " + pkg + " on user "
+ callingUserId);
}
if (!UserHandle.isSameApp(pi.applicationInfo.uid, callingUid)) {
throw new SecurityException("Calling uid " + callingUid
+ " does not own package " + pkg);
}
}
@Override
public ComponentName getHomeActivities(List<ResolveInfo> allHomeCandidates) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
return getHomeActivitiesAsUser(allHomeCandidates, UserHandle.getCallingUserId());
}
public void sendSessionCommitBroadcast(PackageInstaller.SessionInfo sessionInfo, int userId) {
UserManagerService ums = UserManagerService.getInstance();
if (ums != null) {
final UserInfo parent = ums.getProfileParent(userId);
final int launcherUid = (parent != null) ? parent.id : userId;
final ComponentName launcherComponent = getDefaultHomeActivity(launcherUid);
if (launcherComponent != null) {
Intent launcherIntent = new Intent(PackageInstaller.ACTION_SESSION_COMMITTED)
.putExtra(PackageInstaller.EXTRA_SESSION, sessionInfo)
.putExtra(Intent.EXTRA_USER, UserHandle.of(userId))
.setPackage(launcherComponent.getPackageName());
mContext.sendBroadcastAsUser(launcherIntent, UserHandle.of(launcherUid));
}
}
}
/**
* Report the 'Home' activity which is currently set as "always use this one". If non is set
* then reports the most likely home activity or null if there are more than one.
*/
private ComponentName getDefaultHomeActivity(int userId) {
List<ResolveInfo> allHomeCandidates = new ArrayList<>();
ComponentName cn = getHomeActivitiesAsUser(allHomeCandidates, userId);
if (cn != null) {
return cn;
}
// Find the launcher with the highest priority and return that component if there are no
// other home activity with the same priority.
int lastPriority = Integer.MIN_VALUE;
ComponentName lastComponent = null;
final int size = allHomeCandidates.size();
for (int i = 0; i < size; i++) {
final ResolveInfo ri = allHomeCandidates.get(i);
if (ri.priority > lastPriority) {
lastComponent = ri.activityInfo.getComponentName();
lastPriority = ri.priority;
} else if (ri.priority == lastPriority) {
// Two components found with same priority.
lastComponent = null;
}
}
return lastComponent;
}
private Intent getHomeIntent() {
Intent intent = new Intent(Intent.ACTION_MAIN);
intent.addCategory(Intent.CATEGORY_HOME);
intent.addCategory(Intent.CATEGORY_DEFAULT);
return intent;
}
private IntentFilter getHomeFilter() {
IntentFilter filter = new IntentFilter(Intent.ACTION_MAIN);
filter.addCategory(Intent.CATEGORY_HOME);
filter.addCategory(Intent.CATEGORY_DEFAULT);
return filter;
}
ComponentName getHomeActivitiesAsUser(List<ResolveInfo> allHomeCandidates,
int userId) {
Intent intent = getHomeIntent();
List<ResolveInfo> list = queryIntentActivitiesInternal(intent, null,
PackageManager.GET_META_DATA, userId);
ResolveInfo preferred = findPreferredActivity(intent, null, 0, list, 0,
true, false, false, userId);
allHomeCandidates.clear();
if (list != null) {
for (ResolveInfo ri : list) {
allHomeCandidates.add(ri);
}
}
return (preferred == null || preferred.activityInfo == null)
? null
: new ComponentName(preferred.activityInfo.packageName,
preferred.activityInfo.name);
}
@Override
public void setHomeActivity(ComponentName comp, int userId) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return;
}
ArrayList<ResolveInfo> homeActivities = new ArrayList<>();
getHomeActivitiesAsUser(homeActivities, userId);
boolean found = false;
final int size = homeActivities.size();
final ComponentName[] set = new ComponentName[size];
for (int i = 0; i < size; i++) {
final ResolveInfo candidate = homeActivities.get(i);
final ActivityInfo info = candidate.activityInfo;
final ComponentName activityName = new ComponentName(info.packageName, info.name);
set[i] = activityName;
if (!found && activityName.equals(comp)) {
found = true;
}
}
if (!found) {
throw new IllegalArgumentException("Component " + comp + " cannot be home on user "
+ userId);
}
replacePreferredActivity(getHomeFilter(), IntentFilter.MATCH_CATEGORY_EMPTY,
set, comp, userId);
}
private @Nullable String getSetupWizardPackageName() {
final Intent intent = new Intent(Intent.ACTION_MAIN);
intent.addCategory(Intent.CATEGORY_SETUP_WIZARD);
final List<ResolveInfo> matches = queryIntentActivitiesInternal(intent, null,
MATCH_SYSTEM_ONLY | MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE
| MATCH_DISABLED_COMPONENTS,
UserHandle.myUserId());
if (matches.size() == 1) {
return matches.get(0).getComponentInfo().packageName;
} else {
Slog.e(TAG, "There should probably be exactly one setup wizard; found " + matches.size()
+ ": matches=" + matches);
return null;
}
}
private @Nullable String getStorageManagerPackageName() {
final Intent intent = new Intent(StorageManager.ACTION_MANAGE_STORAGE);
final List<ResolveInfo> matches = queryIntentActivitiesInternal(intent, null,
MATCH_SYSTEM_ONLY | MATCH_DIRECT_BOOT_AWARE | MATCH_DIRECT_BOOT_UNAWARE
| MATCH_DISABLED_COMPONENTS,
UserHandle.myUserId());
if (matches.size() == 1) {
return matches.get(0).getComponentInfo().packageName;
} else {
Slog.e(TAG, "There should probably be exactly one storage manager; found "
+ matches.size() + ": matches=" + matches);
return null;
}
}
@Override
public String getSystemTextClassifierPackageName() {
return mContext.getString(R.string.config_defaultTextClassifierPackage);
}
@Override
public void setApplicationEnabledSetting(String appPackageName,
int newState, int flags, int userId, String callingPackage) {
if (!sUserManager.exists(userId)) return;
if (callingPackage == null) {
callingPackage = Integer.toString(Binder.getCallingUid());
}
setEnabledSetting(appPackageName, null, newState, flags, userId, callingPackage);
}
@Override
public void setUpdateAvailable(String packageName, boolean updateAvailable) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.INSTALL_PACKAGES, null);
synchronized (mPackages) {
final PackageSetting pkgSetting = mSettings.mPackages.get(packageName);
if (pkgSetting != null) {
pkgSetting.setUpdateAvailable(updateAvailable);
}
}
}
@Override
public void setComponentEnabledSetting(ComponentName componentName,
int newState, int flags, int userId) {
if (!sUserManager.exists(userId)) return;
setEnabledSetting(componentName.getPackageName(),
componentName.getClassName(), newState, flags, userId, null);
}
private void setEnabledSetting(final String packageName, String className, int newState,
final int flags, int userId, String callingPackage) {
if (!(newState == COMPONENT_ENABLED_STATE_DEFAULT
|| newState == COMPONENT_ENABLED_STATE_ENABLED
|| newState == COMPONENT_ENABLED_STATE_DISABLED
|| newState == COMPONENT_ENABLED_STATE_DISABLED_USER
|| newState == COMPONENT_ENABLED_STATE_DISABLED_UNTIL_USED)) {
throw new IllegalArgumentException("Invalid new component state: "
+ newState);
}
PackageSetting pkgSetting;
final int callingUid = Binder.getCallingUid();
final int permission;
if (callingUid == Process.SYSTEM_UID) {
permission = PackageManager.PERMISSION_GRANTED;
} else {
permission = mContext.checkCallingOrSelfPermission(
android.Manifest.permission.CHANGE_COMPONENT_ENABLED_STATE);
}
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /* requireFullPermission */, true /* checkShell */, "set enabled");
final boolean allowedByPermission = (permission == PackageManager.PERMISSION_GRANTED);
boolean sendNow = false;
boolean isApp = (className == null);
final boolean isCallerInstantApp = (getInstantAppPackageName(callingUid) != null);
String componentName = isApp ? packageName : className;
int packageUid = -1;
ArrayList<String> components;
// reader
synchronized (mPackages) {
pkgSetting = mSettings.mPackages.get(packageName);
if (pkgSetting == null) {
if (!isCallerInstantApp) {
if (className == null) {
throw new IllegalArgumentException("Unknown package: " + packageName);
}
throw new IllegalArgumentException(
"Unknown component: " + packageName + "/" + className);
} else {
// throw SecurityException to prevent leaking package information
throw new SecurityException(
"Attempt to change component state; "
+ "pid=" + Binder.getCallingPid()
+ ", uid=" + callingUid
+ (className == null
? ", package=" + packageName
: ", component=" + packageName + "/" + className));
}
}
}
// Limit who can change which apps
if (!UserHandle.isSameApp(callingUid, pkgSetting.appId)) {
// Don't allow apps that don't have permission to modify other apps
if (!allowedByPermission
|| filterAppAccessLPr(pkgSetting, callingUid, userId)) {
throw new SecurityException(
"Attempt to change component state; "
+ "pid=" + Binder.getCallingPid()
+ ", uid=" + callingUid
+ (className == null
? ", package=" + packageName
: ", component=" + packageName + "/" + className));
}
// Don't allow changing protected packages.
if (mProtectedPackages.isPackageStateProtected(userId, packageName)) {
throw new SecurityException("Cannot disable a protected package: " + packageName);
}
}
synchronized (mPackages) {
if (callingUid == Process.SHELL_UID
&& (pkgSetting.pkgFlags & ApplicationInfo.FLAG_TEST_ONLY) == 0) {
// Shell can only change whole packages between ENABLED and DISABLED_USER states
// unless it is a test package.
int oldState = pkgSetting.getEnabled(userId);
if (className == null
&&
(oldState == COMPONENT_ENABLED_STATE_DISABLED_USER
|| oldState == COMPONENT_ENABLED_STATE_DEFAULT
|| oldState == COMPONENT_ENABLED_STATE_ENABLED)
&&
(newState == COMPONENT_ENABLED_STATE_DISABLED_USER
|| newState == COMPONENT_ENABLED_STATE_DEFAULT
|| newState == COMPONENT_ENABLED_STATE_ENABLED)) {
// ok
} else {
throw new SecurityException(
"Shell cannot change component state for " + packageName + "/"
+ className + " to " + newState);
}
}
}
if (className == null) {
// We're dealing with an application/package level state change
synchronized (mPackages) {
if (pkgSetting.getEnabled(userId) == newState) {
// Nothing to do
return;
}
}
// If we're enabling a system stub, there's a little more work to do.
// Prior to enabling the package, we need to decompress the APK(s) to the
// data partition and then replace the version on the system partition.
final PackageParser.Package deletedPkg = pkgSetting.pkg;
final boolean isSystemStub = deletedPkg.isStub
&& deletedPkg.isSystem();
if (isSystemStub
&& (newState == PackageManager.COMPONENT_ENABLED_STATE_DEFAULT
|| newState == PackageManager.COMPONENT_ENABLED_STATE_ENABLED)) {
final File codePath = decompressPackage(deletedPkg);
if (codePath == null) {
Slog.e(TAG, "couldn't decompress pkg: " + pkgSetting.name);
return;
}
// TODO remove direct parsing of the package object during internal cleanup
// of scan package
// We need to call parse directly here for no other reason than we need
// the new package in order to disable the old one [we use the information
// for some internal optimization to optionally create a new package setting
// object on replace]. However, we can't get the package from the scan
// because the scan modifies live structures and we need to remove the
// old [system] package from the system before a scan can be attempted.
// Once scan is indempotent we can remove this parse and use the package
// object we scanned, prior to adding it to package settings.
final PackageParser pp = new PackageParser();
pp.setSeparateProcesses(mSeparateProcesses);
pp.setDisplayMetrics(mMetrics);
pp.setCallback(mPackageParserCallback);
final PackageParser.Package tmpPkg;
try {
final @ParseFlags int parseFlags = mDefParseFlags
| PackageParser.PARSE_MUST_BE_APK
| PackageParser.PARSE_IS_SYSTEM_DIR;
tmpPkg = pp.parsePackage(codePath, parseFlags);
} catch (PackageParserException e) {
Slog.w(TAG, "Failed to parse compressed system package:" + pkgSetting.name, e);
return;
}
synchronized (mInstallLock) {
// Disable the stub and remove any package entries
removePackageLI(deletedPkg, true);
synchronized (mPackages) {
disableSystemPackageLPw(deletedPkg, tmpPkg);
}
final PackageParser.Package pkg;
try (PackageFreezer freezer =
freezePackage(deletedPkg.packageName, "setEnabledSetting")) {
final int parseFlags = mDefParseFlags | PackageParser.PARSE_CHATTY
| PackageParser.PARSE_ENFORCE_CODE;
pkg = scanPackageTracedLI(codePath, parseFlags, 0 /*scanFlags*/,
0 /*currentTime*/, null /*user*/);
prepareAppDataAfterInstallLIF(pkg);
synchronized (mPackages) {
try {
updateSharedLibrariesLPr(pkg, null);
} catch (PackageManagerException e) {
Slog.e(TAG, "updateAllSharedLibrariesLPw failed: ", e);
}
mPermissionManager.updatePermissions(
pkg.packageName, pkg, true, mPackages.values(),
mPermissionCallback);
mSettings.writeLPr();
}
} catch (PackageManagerException e) {
// Whoops! Something went wrong; try to roll back to the stub
Slog.w(TAG, "Failed to install compressed system package:"
+ pkgSetting.name, e);
// Remove the failed install
removeCodePathLI(codePath);
// Install the system package
try (PackageFreezer freezer =
freezePackage(deletedPkg.packageName, "setEnabledSetting")) {
synchronized (mPackages) {
// NOTE: The system package always needs to be enabled; even
// if it's for a compressed stub. If we don't, installing the
// system package fails during scan [scanning checks the disabled
// packages]. We will reverse this later, after we've "installed"
// the stub.
// This leaves us in a fragile state; the stub should never be
// enabled, so, cross your fingers and hope nothing goes wrong
// until we can disable the package later.
enableSystemPackageLPw(deletedPkg);
}
installPackageFromSystemLIF(deletedPkg.codePath,
false /*isPrivileged*/, null /*allUserHandles*/,
null /*origUserHandles*/, null /*origPermissionsState*/,
true /*writeSettings*/);
} catch (PackageManagerException pme) {
Slog.w(TAG, "Failed to restore system package:"
+ deletedPkg.packageName, pme);
} finally {
synchronized (mPackages) {
mSettings.disableSystemPackageLPw(
deletedPkg.packageName, true /*replaced*/);
mSettings.writeLPr();
}
}
return;
}
clearAppDataLIF(pkg, UserHandle.USER_ALL, FLAG_STORAGE_DE
| FLAG_STORAGE_CE | Installer.FLAG_CLEAR_CODE_CACHE_ONLY);
mDexManager.notifyPackageUpdated(pkg.packageName,
pkg.baseCodePath, pkg.splitCodePaths);
}
}
if (newState == PackageManager.COMPONENT_ENABLED_STATE_DEFAULT
|| newState == PackageManager.COMPONENT_ENABLED_STATE_ENABLED) {
// Don't care about who enables an app.
callingPackage = null;
}
synchronized (mPackages) {
pkgSetting.setEnabled(newState, userId, callingPackage);
}
} else {
synchronized (mPackages) {
// We're dealing with a component level state change
// First, verify that this is a valid class name.
PackageParser.Package pkg = pkgSetting.pkg;
if (pkg == null || !pkg.hasComponentClassName(className)) {
if (pkg != null &&
pkg.applicationInfo.targetSdkVersion >=
Build.VERSION_CODES.JELLY_BEAN) {
throw new IllegalArgumentException("Component class " + className
+ " does not exist in " + packageName);
} else {
Slog.w(TAG, "Failed setComponentEnabledSetting: component class "
+ className + " does not exist in " + packageName);
}
}
switch (newState) {
case COMPONENT_ENABLED_STATE_ENABLED:
if (!pkgSetting.enableComponentLPw(className, userId)) {
return;
}
break;
case COMPONENT_ENABLED_STATE_DISABLED:
if (!pkgSetting.disableComponentLPw(className, userId)) {
return;
}
break;
case COMPONENT_ENABLED_STATE_DEFAULT:
if (!pkgSetting.restoreComponentLPw(className, userId)) {
return;
}
break;
default:
Slog.e(TAG, "Invalid new component state: " + newState);
return;
}
}
}
synchronized (mPackages) {
scheduleWritePackageRestrictionsLocked(userId);
updateSequenceNumberLP(pkgSetting, new int[] { userId });
final long callingId = Binder.clearCallingIdentity();
try {
updateInstantAppInstallerLocked(packageName);
} finally {
Binder.restoreCallingIdentity(callingId);
}
components = mPendingBroadcasts.get(userId, packageName);
final boolean newPackage = components == null;
if (newPackage) {
components = new ArrayList<String>();
}
if (!components.contains(componentName)) {
components.add(componentName);
}
if ((flags&PackageManager.DONT_KILL_APP) == 0) {
sendNow = true;
// Purge entry from pending broadcast list if another one exists already
// since we are sending one right away.
mPendingBroadcasts.remove(userId, packageName);
} else {
if (newPackage) {
mPendingBroadcasts.put(userId, packageName, components);
}
if (!mHandler.hasMessages(SEND_PENDING_BROADCAST)) {
// Schedule a message
mHandler.sendEmptyMessageDelayed(SEND_PENDING_BROADCAST, BROADCAST_DELAY);
}
}
}
long callingId = Binder.clearCallingIdentity();
try {
if (sendNow) {
packageUid = UserHandle.getUid(userId, pkgSetting.appId);
sendPackageChangedBroadcast(packageName,
(flags&PackageManager.DONT_KILL_APP) != 0, components, packageUid);
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
}
@Override
public void flushPackageRestrictionsAsUser(int userId) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return;
}
if (!sUserManager.exists(userId)) {
return;
}
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId, false /* requireFullPermission*/,
false /* checkShell */, "flushPackageRestrictions");
synchronized (mPackages) {
mSettings.writePackageRestrictionsLPr(userId);
mDirtyUsers.remove(userId);
if (mDirtyUsers.isEmpty()) {
mHandler.removeMessages(WRITE_PACKAGE_RESTRICTIONS);
}
}
}
private void sendPackageChangedBroadcast(String packageName,
boolean killFlag, ArrayList<String> componentNames, int packageUid) {
if (DEBUG_INSTALL)
Log.v(TAG, "Sending package changed: package=" + packageName + " components="
+ componentNames);
Bundle extras = new Bundle(4);
extras.putString(Intent.EXTRA_CHANGED_COMPONENT_NAME, componentNames.get(0));
String nameList[] = new String[componentNames.size()];
componentNames.toArray(nameList);
extras.putStringArray(Intent.EXTRA_CHANGED_COMPONENT_NAME_LIST, nameList);
extras.putBoolean(Intent.EXTRA_DONT_KILL_APP, killFlag);
extras.putInt(Intent.EXTRA_UID, packageUid);
// If this is not reporting a change of the overall package, then only send it
// to registered receivers. We don't want to launch a swath of apps for every
// little component state change.
final int flags = !componentNames.contains(packageName)
? Intent.FLAG_RECEIVER_REGISTERED_ONLY : 0;
final int userId = UserHandle.getUserId(packageUid);
final boolean isInstantApp = isInstantApp(packageName, userId);
final int[] userIds = isInstantApp ? EMPTY_INT_ARRAY : new int[] { userId };
final int[] instantUserIds = isInstantApp ? new int[] { userId } : EMPTY_INT_ARRAY;
sendPackageBroadcast(Intent.ACTION_PACKAGE_CHANGED, packageName, extras, flags, null, null,
userIds, instantUserIds);
}
@Override
public void setPackageStoppedState(String packageName, boolean stopped, int userId) {
if (!sUserManager.exists(userId)) return;
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return;
}
final int permission = mContext.checkCallingOrSelfPermission(
android.Manifest.permission.CHANGE_COMPONENT_ENABLED_STATE);
final boolean allowedByPermission = (permission == PackageManager.PERMISSION_GRANTED);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, true /* checkShell */, "stop package");
// writer
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (!filterAppAccessLPr(ps, callingUid, userId)
&& mSettings.setPackageStoppedStateLPw(this, packageName, stopped,
allowedByPermission, callingUid, userId)) {
scheduleWritePackageRestrictionsLocked(userId);
}
}
}
@Override
public String getInstallerPackageName(String packageName) {
final int callingUid = Binder.getCallingUid();
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (filterAppAccessLPr(ps, callingUid, UserHandle.getUserId(callingUid))) {
return null;
}
return mSettings.getInstallerPackageNameLPr(packageName);
}
}
public boolean isOrphaned(String packageName) {
// reader
synchronized (mPackages) {
return mSettings.isOrphaned(packageName);
}
}
@Override
public int getApplicationEnabledSetting(String packageName, int userId) {
if (!sUserManager.exists(userId)) return COMPONENT_ENABLED_STATE_DISABLED;
int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /* requireFullPermission */, false /* checkShell */, "get enabled");
// reader
synchronized (mPackages) {
if (filterAppAccessLPr(mSettings.getPackageLPr(packageName), callingUid, userId)) {
return COMPONENT_ENABLED_STATE_DISABLED;
}
return mSettings.getApplicationEnabledSettingLPr(packageName, userId);
}
}
@Override
public int getComponentEnabledSetting(ComponentName component, int userId) {
if (!sUserManager.exists(userId)) return COMPONENT_ENABLED_STATE_DISABLED;
int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, false /*checkShell*/, "getComponentEnabled");
synchronized (mPackages) {
if (filterAppAccessLPr(mSettings.getPackageLPr(component.getPackageName()), callingUid,
component, TYPE_UNKNOWN, userId)) {
return COMPONENT_ENABLED_STATE_DISABLED;
}
return mSettings.getComponentEnabledSettingLPr(component, userId);
}
}
@Override
public void enterSafeMode() {
enforceSystemOrRoot("Only the system can request entering safe mode");
if (!mSystemReady) {
mSafeMode = true;
}
}
@Override
public void systemReady() {
enforceSystemOrRoot("Only the system can claim the system is ready");
mSystemReady = true;
final ContentResolver resolver = mContext.getContentResolver();
ContentObserver co = new ContentObserver(mHandler) {
@Override
public void onChange(boolean selfChange) {
mWebInstantAppsDisabled =
(Global.getInt(resolver, Global.ENABLE_EPHEMERAL_FEATURE, 1) == 0) ||
(Secure.getInt(resolver, Secure.INSTANT_APPS_ENABLED, 1) == 0);
}
};
mContext.getContentResolver().registerContentObserver(android.provider.Settings.Global
.getUriFor(Global.ENABLE_EPHEMERAL_FEATURE),
false, co, UserHandle.USER_SYSTEM);
mContext.getContentResolver().registerContentObserver(android.provider.Settings.Secure
.getUriFor(Secure.INSTANT_APPS_ENABLED), false, co, UserHandle.USER_SYSTEM);
co.onChange(true);
// Disable any carrier apps. We do this very early in boot to prevent the apps from being
// disabled after already being started.
CarrierAppUtils.disableCarrierAppsUntilPrivileged(mContext.getOpPackageName(), this,
mContext.getContentResolver(), UserHandle.USER_SYSTEM);
// Read the compatibilty setting when the system is ready.
boolean compatibilityModeEnabled = android.provider.Settings.Global.getInt(
mContext.getContentResolver(),
android.provider.Settings.Global.COMPATIBILITY_MODE, 1) == 1;
PackageParser.setCompatibilityModeEnabled(compatibilityModeEnabled);
if (DEBUG_SETTINGS) {
Log.d(TAG, "compatibility mode:" + compatibilityModeEnabled);
}
int[] grantPermissionsUserIds = EMPTY_INT_ARRAY;
synchronized (mPackages) {
// Verify that all of the preferred activity components actually
// exist. It is possible for applications to be updated and at
// that point remove a previously declared activity component that
// had been set as a preferred activity. We try to clean this up
// the next time we encounter that preferred activity, but it is
// possible for the user flow to never be able to return to that
// situation so here we do a sanity check to make sure we haven't
// left any junk around.
ArrayList<PreferredActivity> removed = new ArrayList<PreferredActivity>();
for (int i=0; i<mSettings.mPreferredActivities.size(); i++) {
PreferredIntentResolver pir = mSettings.mPreferredActivities.valueAt(i);
removed.clear();
for (PreferredActivity pa : pir.filterSet()) {
if (mActivities.mActivities.get(pa.mPref.mComponent) == null) {
removed.add(pa);
}
}
if (removed.size() > 0) {
for (int r=0; r<removed.size(); r++) {
PreferredActivity pa = removed.get(r);
Slog.w(TAG, "Removing dangling preferred activity: "
+ pa.mPref.mComponent);
pir.removeFilter(pa);
}
mSettings.writePackageRestrictionsLPr(
mSettings.mPreferredActivities.keyAt(i));
}
}
for (int userId : UserManagerService.getInstance().getUserIds()) {
if (!mSettings.areDefaultRuntimePermissionsGrantedLPr(userId)) {
grantPermissionsUserIds = ArrayUtils.appendInt(
grantPermissionsUserIds, userId);
}
}
}
sUserManager.systemReady();
// If we upgraded grant all default permissions before kicking off.
for (int userId : grantPermissionsUserIds) {
mDefaultPermissionPolicy.grantDefaultPermissions(userId);
}
if (grantPermissionsUserIds == EMPTY_INT_ARRAY) {
// If we did not grant default permissions, we preload from this the
// default permission exceptions lazily to ensure we don't hit the
// disk on a new user creation.
mDefaultPermissionPolicy.scheduleReadDefaultPermissionExceptions();
}
// Now that we've scanned all packages, and granted any default
// permissions, ensure permissions are updated. Beware of dragons if you
// try optimizing this.
synchronized (mPackages) {
mPermissionManager.updateAllPermissions(
StorageManager.UUID_PRIVATE_INTERNAL, false, mPackages.values(),
mPermissionCallback);
}
// Kick off any messages waiting for system ready
if (mPostSystemReadyMessages != null) {
for (Message msg : mPostSystemReadyMessages) {
msg.sendToTarget();
}
mPostSystemReadyMessages = null;
}
// Watch for external volumes that come and go over time
final StorageManager storage = mContext.getSystemService(StorageManager.class);
storage.registerListener(mStorageListener);
mInstallerService.systemReady();
mDexManager.systemReady();
mPackageDexOptimizer.systemReady();
StorageManagerInternal StorageManagerInternal = LocalServices.getService(
StorageManagerInternal.class);
StorageManagerInternal.addExternalStoragePolicy(
new StorageManagerInternal.ExternalStorageMountPolicy() {
@Override
public int getMountMode(int uid, String packageName) {
if (Process.isIsolated(uid)) {
return Zygote.MOUNT_EXTERNAL_NONE;
}
if (checkUidPermission(READ_EXTERNAL_STORAGE, uid) == PERMISSION_DENIED) {
return Zygote.MOUNT_EXTERNAL_DEFAULT;
}
if (checkUidPermission(WRITE_EXTERNAL_STORAGE, uid) == PERMISSION_DENIED) {
return Zygote.MOUNT_EXTERNAL_READ;
}
return Zygote.MOUNT_EXTERNAL_WRITE;
}
@Override
public boolean hasExternalStorage(int uid, String packageName) {
return true;
}
});
// Now that we're mostly running, clean up stale users and apps
sUserManager.reconcileUsers(StorageManager.UUID_PRIVATE_INTERNAL);
reconcileApps(StorageManager.UUID_PRIVATE_INTERNAL);
mPermissionManager.systemReady();
if (mInstantAppResolverConnection != null) {
mContext.registerReceiver(new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
mInstantAppResolverConnection.optimisticBind();
mContext.unregisterReceiver(this);
}
}, new IntentFilter(Intent.ACTION_BOOT_COMPLETED));
}
}
public void waitForAppDataPrepared() {
if (mPrepareAppDataFuture == null) {
return;
}
ConcurrentUtils.waitForFutureNoInterrupt(mPrepareAppDataFuture, "wait for prepareAppData");
mPrepareAppDataFuture = null;
}
@Override
public boolean isSafeMode() {
// allow instant applications
return mSafeMode;
}
@Override
public boolean hasSystemUidErrors() {
// allow instant applications
return mHasSystemUidErrors;
}
static String arrayToString(int[] array) {
StringBuffer buf = new StringBuffer(128);
buf.append('[');
if (array != null) {
for (int i=0; i<array.length; i++) {
if (i > 0) buf.append(", ");
buf.append(array[i]);
}
}
buf.append(']');
return buf.toString();
}
@Override
public void onShellCommand(FileDescriptor in, FileDescriptor out,
FileDescriptor err, String[] args, ShellCallback callback,
ResultReceiver resultReceiver) {
(new PackageManagerShellCommand(this)).exec(
this, in, out, err, args, callback, resultReceiver);
}
@Override
protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
if (!DumpUtils.checkDumpAndUsageStatsPermission(mContext, TAG, pw)) return;
DumpState dumpState = new DumpState();
boolean fullPreferred = false;
boolean checkin = false;
String packageName = null;
ArraySet<String> permissionNames = null;
int opti = 0;
while (opti < args.length) {
String opt = args[opti];
if (opt == null || opt.length() <= 0 || opt.charAt(0) != '-') {
break;
}
opti++;
if ("-a".equals(opt)) {
// Right now we only know how to print all.
} else if ("-h".equals(opt)) {
pw.println("Package manager dump options:");
pw.println(" [-h] [-f] [--checkin] [cmd] ...");
pw.println(" --checkin: dump for a checkin");
pw.println(" -f: print details of intent filters");
pw.println(" -h: print this help");
pw.println(" cmd may be one of:");
pw.println(" l[ibraries]: list known shared libraries");
pw.println(" f[eatures]: list device features");
pw.println(" k[eysets]: print known keysets");
pw.println(" r[esolvers] [activity|service|receiver|content]: dump intent resolvers");
pw.println(" perm[issions]: dump permissions");
pw.println(" permission [name ...]: dump declaration and use of given permission");
pw.println(" pref[erred]: print preferred package settings");
pw.println(" preferred-xml [--full]: print preferred package settings as xml");
pw.println(" prov[iders]: dump content providers");
pw.println(" p[ackages]: dump installed packages");
pw.println(" s[hared-users]: dump shared user IDs");
pw.println(" m[essages]: print collected runtime messages");
pw.println(" v[erifiers]: print package verifier info");
pw.println(" d[omain-preferred-apps]: print domains preferred apps");
pw.println(" i[ntent-filter-verifiers]|ifv: print intent filter verifier info");
pw.println(" version: print database version info");
pw.println(" write: write current settings now");
pw.println(" installs: details about install sessions");
pw.println(" check-permission <permission> <package> [<user>]: does pkg hold perm?");
pw.println(" dexopt: dump dexopt state");
pw.println(" compiler-stats: dump compiler statistics");
pw.println(" service-permissions: dump permissions required by services");
pw.println(" <package.name>: info about given package");
return;
} else if ("--checkin".equals(opt)) {
checkin = true;
} else if ("-f".equals(opt)) {
dumpState.setOptionEnabled(DumpState.OPTION_SHOW_FILTERS);
} else if ("--proto".equals(opt)) {
dumpProto(fd);
return;
} else {
pw.println("Unknown argument: " + opt + "; use -h for help");
}
}
// Is the caller requesting to dump a particular piece of data?
if (opti < args.length) {
String cmd = args[opti];
opti++;
// Is this a package name?
if ("android".equals(cmd) || cmd.contains(".")) {
packageName = cmd;
// When dumping a single package, we always dump all of its
// filter information since the amount of data will be reasonable.
dumpState.setOptionEnabled(DumpState.OPTION_SHOW_FILTERS);
} else if ("check-permission".equals(cmd)) {
if (opti >= args.length) {
pw.println("Error: check-permission missing permission argument");
return;
}
String perm = args[opti];
opti++;
if (opti >= args.length) {
pw.println("Error: check-permission missing package argument");
return;
}
String pkg = args[opti];
opti++;
int user = UserHandle.getUserId(Binder.getCallingUid());
if (opti < args.length) {
try {
user = Integer.parseInt(args[opti]);
} catch (NumberFormatException e) {
pw.println("Error: check-permission user argument is not a number: "
+ args[opti]);
return;
}
}
// Normalize package name to handle renamed packages and static libs
pkg = resolveInternalPackageNameLPr(pkg, PackageManager.VERSION_CODE_HIGHEST);
pw.println(checkPermission(perm, pkg, user));
return;
} else if ("l".equals(cmd) || "libraries".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_LIBS);
} else if ("f".equals(cmd) || "features".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_FEATURES);
} else if ("r".equals(cmd) || "resolvers".equals(cmd)) {
if (opti >= args.length) {
dumpState.setDump(DumpState.DUMP_ACTIVITY_RESOLVERS
| DumpState.DUMP_SERVICE_RESOLVERS
| DumpState.DUMP_RECEIVER_RESOLVERS
| DumpState.DUMP_CONTENT_RESOLVERS);
} else {
while (opti < args.length) {
String name = args[opti];
if ("a".equals(name) || "activity".equals(name)) {
dumpState.setDump(DumpState.DUMP_ACTIVITY_RESOLVERS);
} else if ("s".equals(name) || "service".equals(name)) {
dumpState.setDump(DumpState.DUMP_SERVICE_RESOLVERS);
} else if ("r".equals(name) || "receiver".equals(name)) {
dumpState.setDump(DumpState.DUMP_RECEIVER_RESOLVERS);
} else if ("c".equals(name) || "content".equals(name)) {
dumpState.setDump(DumpState.DUMP_CONTENT_RESOLVERS);
} else {
pw.println("Error: unknown resolver table type: " + name);
return;
}
opti++;
}
}
} else if ("perm".equals(cmd) || "permissions".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_PERMISSIONS);
} else if ("permission".equals(cmd)) {
if (opti >= args.length) {
pw.println("Error: permission requires permission name");
return;
}
permissionNames = new ArraySet<>();
while (opti < args.length) {
permissionNames.add(args[opti]);
opti++;
}
dumpState.setDump(DumpState.DUMP_PERMISSIONS
| DumpState.DUMP_PACKAGES | DumpState.DUMP_SHARED_USERS);
} else if ("pref".equals(cmd) || "preferred".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_PREFERRED);
} else if ("preferred-xml".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_PREFERRED_XML);
if (opti < args.length && "--full".equals(args[opti])) {
fullPreferred = true;
opti++;
}
} else if ("d".equals(cmd) || "domain-preferred-apps".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_DOMAIN_PREFERRED);
} else if ("p".equals(cmd) || "packages".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_PACKAGES);
} else if ("s".equals(cmd) || "shared-users".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_SHARED_USERS);
} else if ("prov".equals(cmd) || "providers".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_PROVIDERS);
} else if ("m".equals(cmd) || "messages".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_MESSAGES);
} else if ("v".equals(cmd) || "verifiers".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_VERIFIERS);
} else if ("i".equals(cmd) || "ifv".equals(cmd)
|| "intent-filter-verifiers".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_INTENT_FILTER_VERIFIERS);
} else if ("version".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_VERSION);
} else if ("k".equals(cmd) || "keysets".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_KEYSETS);
} else if ("installs".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_INSTALLS);
} else if ("frozen".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_FROZEN);
} else if ("volumes".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_VOLUMES);
} else if ("dexopt".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_DEXOPT);
} else if ("compiler-stats".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_COMPILER_STATS);
} else if ("changes".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_CHANGES);
} else if ("service-permissions".equals(cmd)) {
dumpState.setDump(DumpState.DUMP_SERVICE_PERMISSIONS);
} else if ("write".equals(cmd)) {
synchronized (mPackages) {
mSettings.writeLPr();
pw.println("Settings written.");
return;
}
}
}
if (checkin) {
pw.println("vers,1");
}
// reader
synchronized (mPackages) {
if (dumpState.isDumping(DumpState.DUMP_VERSION) && packageName == null) {
if (!checkin) {
if (dumpState.onTitlePrinted())
pw.println();
pw.println("Database versions:");
mSettings.dumpVersionLPr(new IndentingPrintWriter(pw, " "));
}
}
if (dumpState.isDumping(DumpState.DUMP_VERIFIERS) && packageName == null) {
if (!checkin) {
if (dumpState.onTitlePrinted())
pw.println();
pw.println("Verifiers:");
pw.print(" Required: ");
pw.print(mRequiredVerifierPackage);
pw.print(" (uid=");
pw.print(getPackageUid(mRequiredVerifierPackage, MATCH_DEBUG_TRIAGED_MISSING,
UserHandle.USER_SYSTEM));
pw.println(")");
} else if (mRequiredVerifierPackage != null) {
pw.print("vrfy,"); pw.print(mRequiredVerifierPackage);
pw.print(",");
pw.println(getPackageUid(mRequiredVerifierPackage, MATCH_DEBUG_TRIAGED_MISSING,
UserHandle.USER_SYSTEM));
}
}
if (dumpState.isDumping(DumpState.DUMP_INTENT_FILTER_VERIFIERS) &&
packageName == null) {
if (mIntentFilterVerifierComponent != null) {
String verifierPackageName = mIntentFilterVerifierComponent.getPackageName();
if (!checkin) {
if (dumpState.onTitlePrinted())
pw.println();
pw.println("Intent Filter Verifier:");
pw.print(" Using: ");
pw.print(verifierPackageName);
pw.print(" (uid=");
pw.print(getPackageUid(verifierPackageName, MATCH_DEBUG_TRIAGED_MISSING,
UserHandle.USER_SYSTEM));
pw.println(")");
} else if (verifierPackageName != null) {
pw.print("ifv,"); pw.print(verifierPackageName);
pw.print(",");
pw.println(getPackageUid(verifierPackageName, MATCH_DEBUG_TRIAGED_MISSING,
UserHandle.USER_SYSTEM));
}
} else {
pw.println();
pw.println("No Intent Filter Verifier available!");
}
}
if (dumpState.isDumping(DumpState.DUMP_LIBS) && packageName == null) {
boolean printedHeader = false;
final Iterator<String> it = mSharedLibraries.keySet().iterator();
while (it.hasNext()) {
String libName = it.next();
LongSparseArray<SharedLibraryEntry> versionedLib
= mSharedLibraries.get(libName);
if (versionedLib == null) {
continue;
}
final int versionCount = versionedLib.size();
for (int i = 0; i < versionCount; i++) {
SharedLibraryEntry libEntry = versionedLib.valueAt(i);
if (!checkin) {
if (!printedHeader) {
if (dumpState.onTitlePrinted())
pw.println();
pw.println("Libraries:");
printedHeader = true;
}
pw.print(" ");
} else {
pw.print("lib,");
}
pw.print(libEntry.info.getName());
if (libEntry.info.isStatic()) {
pw.print(" version=" + libEntry.info.getLongVersion());
}
if (!checkin) {
pw.print(" -> ");
}
if (libEntry.path != null) {
pw.print(" (jar) ");
pw.print(libEntry.path);
} else {
pw.print(" (apk) ");
pw.print(libEntry.apk);
}
pw.println();
}
}
}
if (dumpState.isDumping(DumpState.DUMP_FEATURES) && packageName == null) {
if (dumpState.onTitlePrinted())
pw.println();
if (!checkin) {
pw.println("Features:");
}
synchronized (mAvailableFeatures) {
for (FeatureInfo feat : mAvailableFeatures.values()) {
if (checkin) {
pw.print("feat,");
pw.print(feat.name);
pw.print(",");
pw.println(feat.version);
} else {
pw.print(" ");
pw.print(feat.name);
if (feat.version > 0) {
pw.print(" version=");
pw.print(feat.version);
}
pw.println();
}
}
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_ACTIVITY_RESOLVERS)) {
if (mActivities.dump(pw, dumpState.getTitlePrinted() ? "\nActivity Resolver Table:"
: "Activity Resolver Table:", " ", packageName,
dumpState.isOptionEnabled(DumpState.OPTION_SHOW_FILTERS), true)) {
dumpState.setTitlePrinted(true);
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_RECEIVER_RESOLVERS)) {
if (mReceivers.dump(pw, dumpState.getTitlePrinted() ? "\nReceiver Resolver Table:"
: "Receiver Resolver Table:", " ", packageName,
dumpState.isOptionEnabled(DumpState.OPTION_SHOW_FILTERS), true)) {
dumpState.setTitlePrinted(true);
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_SERVICE_RESOLVERS)) {
if (mServices.dump(pw, dumpState.getTitlePrinted() ? "\nService Resolver Table:"
: "Service Resolver Table:", " ", packageName,
dumpState.isOptionEnabled(DumpState.OPTION_SHOW_FILTERS), true)) {
dumpState.setTitlePrinted(true);
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_CONTENT_RESOLVERS)) {
if (mProviders.dump(pw, dumpState.getTitlePrinted() ? "\nProvider Resolver Table:"
: "Provider Resolver Table:", " ", packageName,
dumpState.isOptionEnabled(DumpState.OPTION_SHOW_FILTERS), true)) {
dumpState.setTitlePrinted(true);
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_PREFERRED)) {
for (int i=0; i<mSettings.mPreferredActivities.size(); i++) {
PreferredIntentResolver pir = mSettings.mPreferredActivities.valueAt(i);
int user = mSettings.mPreferredActivities.keyAt(i);
if (pir.dump(pw,
dumpState.getTitlePrinted()
? "\nPreferred Activities User " + user + ":"
: "Preferred Activities User " + user + ":", " ",
packageName, true, false)) {
dumpState.setTitlePrinted(true);
}
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_PREFERRED_XML)) {
pw.flush();
FileOutputStream fout = new FileOutputStream(fd);
BufferedOutputStream str = new BufferedOutputStream(fout);
XmlSerializer serializer = new FastXmlSerializer();
try {
serializer.setOutput(str, StandardCharsets.UTF_8.name());
serializer.startDocument(null, true);
serializer.setFeature(
"http://xmlpull.org/v1/doc/features.html#indent-output", true);
mSettings.writePreferredActivitiesLPr(serializer, 0, fullPreferred);
serializer.endDocument();
serializer.flush();
} catch (IllegalArgumentException e) {
pw.println("Failed writing: " + e);
} catch (IllegalStateException e) {
pw.println("Failed writing: " + e);
} catch (IOException e) {
pw.println("Failed writing: " + e);
}
}
if (!checkin
&& dumpState.isDumping(DumpState.DUMP_DOMAIN_PREFERRED)
&& packageName == null) {
pw.println();
int count = mSettings.mPackages.size();
if (count == 0) {
pw.println("No applications!");
pw.println();
} else {
final String prefix = " ";
Collection<PackageSetting> allPackageSettings = mSettings.mPackages.values();
if (allPackageSettings.size() == 0) {
pw.println("No domain preferred apps!");
pw.println();
} else {
pw.println("App verification status:");
pw.println();
count = 0;
for (PackageSetting ps : allPackageSettings) {
IntentFilterVerificationInfo ivi = ps.getIntentFilterVerificationInfo();
if (ivi == null || ivi.getPackageName() == null) continue;
pw.println(prefix + "Package: " + ivi.getPackageName());
pw.println(prefix + "Domains: " + ivi.getDomainsString());
pw.println(prefix + "Status: " + ivi.getStatusString());
pw.println();
count++;
}
if (count == 0) {
pw.println(prefix + "No app verification established.");
pw.println();
}
for (int userId : sUserManager.getUserIds()) {
pw.println("App linkages for user " + userId + ":");
pw.println();
count = 0;
for (PackageSetting ps : allPackageSettings) {
final long status = ps.getDomainVerificationStatusForUser(userId);
if (status >> 32 == INTENT_FILTER_DOMAIN_VERIFICATION_STATUS_UNDEFINED
&& !DEBUG_DOMAIN_VERIFICATION) {
continue;
}
pw.println(prefix + "Package: " + ps.name);
pw.println(prefix + "Domains: " + dumpDomainString(ps.name));
String statusStr = IntentFilterVerificationInfo.
getStatusStringFromValue(status);
pw.println(prefix + "Status: " + statusStr);
pw.println();
count++;
}
if (count == 0) {
pw.println(prefix + "No configured app linkages.");
pw.println();
}
}
}
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_PERMISSIONS)) {
mSettings.dumpPermissionsLPr(pw, packageName, permissionNames, dumpState);
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_PROVIDERS)) {
boolean printedSomething = false;
for (PackageParser.Provider p : mProviders.mProviders.values()) {
if (packageName != null && !packageName.equals(p.info.packageName)) {
continue;
}
if (!printedSomething) {
if (dumpState.onTitlePrinted())
pw.println();
pw.println("Registered ContentProviders:");
printedSomething = true;
}
pw.print(" "); p.printComponentShortName(pw); pw.println(":");
pw.print(" "); pw.println(p.toString());
}
printedSomething = false;
for (Map.Entry<String, PackageParser.Provider> entry :
mProvidersByAuthority.entrySet()) {
PackageParser.Provider p = entry.getValue();
if (packageName != null && !packageName.equals(p.info.packageName)) {
continue;
}
if (!printedSomething) {
if (dumpState.onTitlePrinted())
pw.println();
pw.println("ContentProvider Authorities:");
printedSomething = true;
}
pw.print(" ["); pw.print(entry.getKey()); pw.println("]:");
pw.print(" "); pw.println(p.toString());
if (p.info != null && p.info.applicationInfo != null) {
final String appInfo = p.info.applicationInfo.toString();
pw.print(" applicationInfo="); pw.println(appInfo);
}
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_KEYSETS)) {
mSettings.mKeySetManagerService.dumpLPr(pw, packageName, dumpState);
}
if (dumpState.isDumping(DumpState.DUMP_PACKAGES)) {
mSettings.dumpPackagesLPr(pw, packageName, permissionNames, dumpState, checkin);
}
if (dumpState.isDumping(DumpState.DUMP_SHARED_USERS)) {
mSettings.dumpSharedUsersLPr(pw, packageName, permissionNames, dumpState, checkin);
}
if (dumpState.isDumping(DumpState.DUMP_CHANGES)) {
if (dumpState.onTitlePrinted()) pw.println();
pw.println("Package Changes:");
pw.print(" Sequence number="); pw.println(mChangedPackagesSequenceNumber);
final int K = mChangedPackages.size();
for (int i = 0; i < K; i++) {
final SparseArray<String> changes = mChangedPackages.valueAt(i);
pw.print(" User "); pw.print(mChangedPackages.keyAt(i)); pw.println(":");
final int N = changes.size();
if (N == 0) {
pw.print(" "); pw.println("No packages changed");
} else {
for (int j = 0; j < N; j++) {
final String pkgName = changes.valueAt(j);
final int sequenceNumber = changes.keyAt(j);
pw.print(" ");
pw.print("seq=");
pw.print(sequenceNumber);
pw.print(", package=");
pw.println(pkgName);
}
}
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_PERMISSIONS) && packageName == null) {
mSettings.dumpRestoredPermissionGrantsLPr(pw, dumpState);
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_FROZEN) && packageName == null) {
// XXX should handle packageName != null by dumping only install data that
// the given package is involved with.
if (dumpState.onTitlePrinted()) pw.println();
final IndentingPrintWriter ipw = new IndentingPrintWriter(pw, " ", 120);
ipw.println();
ipw.println("Frozen packages:");
ipw.increaseIndent();
if (mFrozenPackages.size() == 0) {
ipw.println("(none)");
} else {
for (int i = 0; i < mFrozenPackages.size(); i++) {
ipw.println(mFrozenPackages.valueAt(i));
}
}
ipw.decreaseIndent();
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_VOLUMES) && packageName == null) {
if (dumpState.onTitlePrinted()) pw.println();
final IndentingPrintWriter ipw = new IndentingPrintWriter(pw, " ", 120);
ipw.println();
ipw.println("Loaded volumes:");
ipw.increaseIndent();
if (mLoadedVolumes.size() == 0) {
ipw.println("(none)");
} else {
for (int i = 0; i < mLoadedVolumes.size(); i++) {
ipw.println(mLoadedVolumes.valueAt(i));
}
}
ipw.decreaseIndent();
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_SERVICE_PERMISSIONS)
&& packageName == null) {
if (dumpState.onTitlePrinted()) pw.println();
pw.println("Service permissions:");
final Iterator<ServiceIntentInfo> filterIterator = mServices.filterIterator();
while (filterIterator.hasNext()) {
final ServiceIntentInfo info = filterIterator.next();
final ServiceInfo serviceInfo = info.service.info;
final String permission = serviceInfo.permission;
if (permission != null) {
pw.print(" ");
pw.print(serviceInfo.getComponentName().flattenToShortString());
pw.print(": ");
pw.println(permission);
}
}
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_DEXOPT)) {
if (dumpState.onTitlePrinted()) pw.println();
dumpDexoptStateLPr(pw, packageName);
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_COMPILER_STATS)) {
if (dumpState.onTitlePrinted()) pw.println();
dumpCompilerStatsLPr(pw, packageName);
}
if (!checkin && dumpState.isDumping(DumpState.DUMP_MESSAGES) && packageName == null) {
if (dumpState.onTitlePrinted()) pw.println();
mSettings.dumpReadMessagesLPr(pw, dumpState);
pw.println();
pw.println("Package warning messages:");
dumpCriticalInfo(pw, null);
}
if (checkin && dumpState.isDumping(DumpState.DUMP_MESSAGES)) {
dumpCriticalInfo(pw, "msg,");
}
}
// PackageInstaller should be called outside of mPackages lock
if (!checkin && dumpState.isDumping(DumpState.DUMP_INSTALLS) && packageName == null) {
// XXX should handle packageName != null by dumping only install data that
// the given package is involved with.
if (dumpState.onTitlePrinted()) pw.println();
mInstallerService.dump(new IndentingPrintWriter(pw, " ", 120));
}
}
private void dumpProto(FileDescriptor fd) {
final ProtoOutputStream proto = new ProtoOutputStream(fd);
synchronized (mPackages) {
final long requiredVerifierPackageToken =
proto.start(PackageServiceDumpProto.REQUIRED_VERIFIER_PACKAGE);
proto.write(PackageServiceDumpProto.PackageShortProto.NAME, mRequiredVerifierPackage);
proto.write(
PackageServiceDumpProto.PackageShortProto.UID,
getPackageUid(
mRequiredVerifierPackage,
MATCH_DEBUG_TRIAGED_MISSING,
UserHandle.USER_SYSTEM));
proto.end(requiredVerifierPackageToken);
if (mIntentFilterVerifierComponent != null) {
String verifierPackageName = mIntentFilterVerifierComponent.getPackageName();
final long verifierPackageToken =
proto.start(PackageServiceDumpProto.VERIFIER_PACKAGE);
proto.write(PackageServiceDumpProto.PackageShortProto.NAME, verifierPackageName);
proto.write(
PackageServiceDumpProto.PackageShortProto.UID,
getPackageUid(
verifierPackageName,
MATCH_DEBUG_TRIAGED_MISSING,
UserHandle.USER_SYSTEM));
proto.end(verifierPackageToken);
}
dumpSharedLibrariesProto(proto);
dumpFeaturesProto(proto);
mSettings.dumpPackagesProto(proto);
mSettings.dumpSharedUsersProto(proto);
dumpCriticalInfo(proto);
}
proto.flush();
}
private void dumpFeaturesProto(ProtoOutputStream proto) {
synchronized (mAvailableFeatures) {
final int count = mAvailableFeatures.size();
for (int i = 0; i < count; i++) {
mAvailableFeatures.valueAt(i).writeToProto(proto, PackageServiceDumpProto.FEATURES);
}
}
}
private void dumpSharedLibrariesProto(ProtoOutputStream proto) {
final int count = mSharedLibraries.size();
for (int i = 0; i < count; i++) {
final String libName = mSharedLibraries.keyAt(i);
LongSparseArray<SharedLibraryEntry> versionedLib = mSharedLibraries.get(libName);
if (versionedLib == null) {
continue;
}
final int versionCount = versionedLib.size();
for (int j = 0; j < versionCount; j++) {
final SharedLibraryEntry libEntry = versionedLib.valueAt(j);
final long sharedLibraryToken =
proto.start(PackageServiceDumpProto.SHARED_LIBRARIES);
proto.write(PackageServiceDumpProto.SharedLibraryProto.NAME, libEntry.info.getName());
final boolean isJar = (libEntry.path != null);
proto.write(PackageServiceDumpProto.SharedLibraryProto.IS_JAR, isJar);
if (isJar) {
proto.write(PackageServiceDumpProto.SharedLibraryProto.PATH, libEntry.path);
} else {
proto.write(PackageServiceDumpProto.SharedLibraryProto.APK, libEntry.apk);
}
proto.end(sharedLibraryToken);
}
}
}
private void dumpDexoptStateLPr(PrintWriter pw, String packageName) {
final IndentingPrintWriter ipw = new IndentingPrintWriter(pw, " ");
ipw.println();
ipw.println("Dexopt state:");
ipw.increaseIndent();
Collection<PackageParser.Package> packages = null;
if (packageName != null) {
PackageParser.Package targetPackage = mPackages.get(packageName);
if (targetPackage != null) {
packages = Collections.singletonList(targetPackage);
} else {
ipw.println("Unable to find package: " + packageName);
return;
}
} else {
packages = mPackages.values();
}
for (PackageParser.Package pkg : packages) {
ipw.println("[" + pkg.packageName + "]");
ipw.increaseIndent();
mPackageDexOptimizer.dumpDexoptState(ipw, pkg,
mDexManager.getPackageUseInfoOrDefault(pkg.packageName));
ipw.decreaseIndent();
}
}
private void dumpCompilerStatsLPr(PrintWriter pw, String packageName) {
final IndentingPrintWriter ipw = new IndentingPrintWriter(pw, " ");
ipw.println();
ipw.println("Compiler stats:");
ipw.increaseIndent();
Collection<PackageParser.Package> packages = null;
if (packageName != null) {
PackageParser.Package targetPackage = mPackages.get(packageName);
if (targetPackage != null) {
packages = Collections.singletonList(targetPackage);
} else {
ipw.println("Unable to find package: " + packageName);
return;
}
} else {
packages = mPackages.values();
}
for (PackageParser.Package pkg : packages) {
ipw.println("[" + pkg.packageName + "]");
ipw.increaseIndent();
CompilerStats.PackageStats stats = getCompilerPackageStats(pkg.packageName);
if (stats == null) {
ipw.println("(No recorded stats)");
} else {
stats.dump(ipw);
}
ipw.decreaseIndent();
}
}
private String dumpDomainString(String packageName) {
List<IntentFilterVerificationInfo> iviList = getIntentFilterVerifications(packageName)
.getList();
List<IntentFilter> filters = getAllIntentFilters(packageName).getList();
ArraySet<String> result = new ArraySet<>();
if (iviList.size() > 0) {
for (IntentFilterVerificationInfo ivi : iviList) {
for (String host : ivi.getDomains()) {
result.add(host);
}
}
}
if (filters != null && filters.size() > 0) {
for (IntentFilter filter : filters) {
if (filter.hasCategory(Intent.CATEGORY_BROWSABLE)
&& (filter.hasDataScheme(IntentFilter.SCHEME_HTTP) ||
filter.hasDataScheme(IntentFilter.SCHEME_HTTPS))) {
result.addAll(filter.getHostsList());
}
}
}
StringBuilder sb = new StringBuilder(result.size() * 16);
for (String domain : result) {
if (sb.length() > 0) sb.append(" ");
sb.append(domain);
}
return sb.toString();
}
// ------- apps on sdcard specific code -------
static final boolean DEBUG_SD_INSTALL = false;
private static final String SD_ENCRYPTION_KEYSTORE_NAME = "AppsOnSD";
private static final String SD_ENCRYPTION_ALGORITHM = "AES";
private boolean mMediaMounted = false;
static String getEncryptKey() {
try {
String sdEncKey = SystemKeyStore.getInstance().retrieveKeyHexString(
SD_ENCRYPTION_KEYSTORE_NAME);
if (sdEncKey == null) {
sdEncKey = SystemKeyStore.getInstance().generateNewKeyHexString(128,
SD_ENCRYPTION_ALGORITHM, SD_ENCRYPTION_KEYSTORE_NAME);
if (sdEncKey == null) {
Slog.e(TAG, "Failed to create encryption keys");
return null;
}
}
return sdEncKey;
} catch (NoSuchAlgorithmException nsae) {
Slog.e(TAG, "Failed to create encryption keys with exception: " + nsae);
return null;
} catch (IOException ioe) {
Slog.e(TAG, "Failed to retrieve encryption keys with exception: " + ioe);
return null;
}
}
private void sendResourcesChangedBroadcast(boolean mediaStatus, boolean replacing,
ArrayList<ApplicationInfo> infos, IIntentReceiver finishedReceiver) {
final int size = infos.size();
final String[] packageNames = new String[size];
final int[] packageUids = new int[size];
for (int i = 0; i < size; i++) {
final ApplicationInfo info = infos.get(i);
packageNames[i] = info.packageName;
packageUids[i] = info.uid;
}
sendResourcesChangedBroadcast(mediaStatus, replacing, packageNames, packageUids,
finishedReceiver);
}
private void sendResourcesChangedBroadcast(boolean mediaStatus, boolean replacing,
ArrayList<String> pkgList, int uidArr[], IIntentReceiver finishedReceiver) {
sendResourcesChangedBroadcast(mediaStatus, replacing,
pkgList.toArray(new String[pkgList.size()]), uidArr, finishedReceiver);
}
private void sendResourcesChangedBroadcast(boolean mediaStatus, boolean replacing,
String[] pkgList, int uidArr[], IIntentReceiver finishedReceiver) {
int size = pkgList.length;
if (size > 0) {
// Send broadcasts here
Bundle extras = new Bundle();
extras.putStringArray(Intent.EXTRA_CHANGED_PACKAGE_LIST, pkgList);
if (uidArr != null) {
extras.putIntArray(Intent.EXTRA_CHANGED_UID_LIST, uidArr);
}
if (replacing) {
extras.putBoolean(Intent.EXTRA_REPLACING, replacing);
}
String action = mediaStatus ? Intent.ACTION_EXTERNAL_APPLICATIONS_AVAILABLE
: Intent.ACTION_EXTERNAL_APPLICATIONS_UNAVAILABLE;
sendPackageBroadcast(action, null, extras, 0, null, finishedReceiver, null, null);
}
}
private void loadPrivatePackages(final VolumeInfo vol) {
mHandler.post(new Runnable() {
@Override
public void run() {
loadPrivatePackagesInner(vol);
}
});
}
private void loadPrivatePackagesInner(VolumeInfo vol) {
final String volumeUuid = vol.fsUuid;
if (TextUtils.isEmpty(volumeUuid)) {
Slog.e(TAG, "Loading internal storage is probably a mistake; ignoring");
return;
}
final ArrayList<PackageFreezer> freezers = new ArrayList<>();
final ArrayList<ApplicationInfo> loaded = new ArrayList<>();
final int parseFlags = mDefParseFlags | PackageParser.PARSE_EXTERNAL_STORAGE;
final VersionInfo ver;
final List<PackageSetting> packages;
synchronized (mPackages) {
ver = mSettings.findOrCreateVersion(volumeUuid);
packages = mSettings.getVolumePackagesLPr(volumeUuid);
}
for (PackageSetting ps : packages) {
freezers.add(freezePackage(ps.name, "loadPrivatePackagesInner"));
synchronized (mInstallLock) {
final PackageParser.Package pkg;
try {
pkg = scanPackageTracedLI(ps.codePath, parseFlags, SCAN_INITIAL, 0, null);
loaded.add(pkg.applicationInfo);
} catch (PackageManagerException e) {
Slog.w(TAG, "Failed to scan " + ps.codePath + ": " + e.getMessage());
}
if (!Build.FINGERPRINT.equals(ver.fingerprint)) {
clearAppDataLIF(ps.pkg, UserHandle.USER_ALL,
StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE
| Installer.FLAG_CLEAR_CODE_CACHE_ONLY);
}
}
}
// Reconcile app data for all started/unlocked users
final StorageManager sm = mContext.getSystemService(StorageManager.class);
final UserManager um = mContext.getSystemService(UserManager.class);
UserManagerInternal umInternal = getUserManagerInternal();
for (UserInfo user : um.getUsers()) {
final int flags;
if (umInternal.isUserUnlockingOrUnlocked(user.id)) {
flags = StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE;
} else if (umInternal.isUserRunning(user.id)) {
flags = StorageManager.FLAG_STORAGE_DE;
} else {
continue;
}
try {
sm.prepareUserStorage(volumeUuid, user.id, user.serialNumber, flags);
synchronized (mInstallLock) {
reconcileAppsDataLI(volumeUuid, user.id, flags, true /* migrateAppData */);
}
} catch (IllegalStateException e) {
// Device was probably ejected, and we'll process that event momentarily
Slog.w(TAG, "Failed to prepare storage: " + e);
}
}
synchronized (mPackages) {
final boolean sdkUpdated = (ver.sdkVersion != mSdkVersion);
if (sdkUpdated) {
logCriticalInfo(Log.INFO, "Platform changed from " + ver.sdkVersion + " to "
+ mSdkVersion + "; regranting permissions for " + volumeUuid);
}
mPermissionManager.updateAllPermissions(volumeUuid, sdkUpdated, mPackages.values(),
mPermissionCallback);
// Yay, everything is now upgraded
ver.forceCurrent();
mSettings.writeLPr();
}
for (PackageFreezer freezer : freezers) {
freezer.close();
}
if (DEBUG_INSTALL) Slog.d(TAG, "Loaded packages " + loaded);
sendResourcesChangedBroadcast(true, false, loaded, null);
mLoadedVolumes.add(vol.getId());
}
private void unloadPrivatePackages(final VolumeInfo vol) {
mHandler.post(new Runnable() {
@Override
public void run() {
unloadPrivatePackagesInner(vol);
}
});
}
private void unloadPrivatePackagesInner(VolumeInfo vol) {
final String volumeUuid = vol.fsUuid;
if (TextUtils.isEmpty(volumeUuid)) {
Slog.e(TAG, "Unloading internal storage is probably a mistake; ignoring");
return;
}
final ArrayList<ApplicationInfo> unloaded = new ArrayList<>();
synchronized (mInstallLock) {
synchronized (mPackages) {
final List<PackageSetting> packages = mSettings.getVolumePackagesLPr(volumeUuid);
for (PackageSetting ps : packages) {
if (ps.pkg == null) continue;
final ApplicationInfo info = ps.pkg.applicationInfo;
final int deleteFlags = PackageManager.DELETE_KEEP_DATA;
final PackageRemovedInfo outInfo = new PackageRemovedInfo(this);
try (PackageFreezer freezer = freezePackageForDelete(ps.name, deleteFlags,
"unloadPrivatePackagesInner")) {
if (deletePackageLIF(ps.name, null, false, null, deleteFlags, outInfo,
false, null)) {
unloaded.add(info);
} else {
Slog.w(TAG, "Failed to unload " + ps.codePath);
}
}
// Try very hard to release any references to this package
// so we don't risk the system server being killed due to
// open FDs
AttributeCache.instance().removePackage(ps.name);
}
mSettings.writeLPr();
}
}
if (DEBUG_INSTALL) Slog.d(TAG, "Unloaded packages " + unloaded);
sendResourcesChangedBroadcast(false, false, unloaded, null);
mLoadedVolumes.remove(vol.getId());
// Try very hard to release any references to this path so we don't risk
// the system server being killed due to open FDs
ResourcesManager.getInstance().invalidatePath(vol.getPath().getAbsolutePath());
for (int i = 0; i < 3; i++) {
System.gc();
System.runFinalization();
}
}
private void assertPackageKnown(String volumeUuid, String packageName)
throws PackageManagerException {
synchronized (mPackages) {
// Normalize package name to handle renamed packages
packageName = normalizePackageNameLPr(packageName);
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null) {
throw new PackageManagerException("Package " + packageName + " is unknown");
} else if (!TextUtils.equals(volumeUuid, ps.volumeUuid)) {
throw new PackageManagerException(
"Package " + packageName + " found on unknown volume " + volumeUuid
+ "; expected volume " + ps.volumeUuid);
}
}
}
private void assertPackageKnownAndInstalled(String volumeUuid, String packageName, int userId)
throws PackageManagerException {
synchronized (mPackages) {
// Normalize package name to handle renamed packages
packageName = normalizePackageNameLPr(packageName);
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null) {
throw new PackageManagerException("Package " + packageName + " is unknown");
} else if (!TextUtils.equals(volumeUuid, ps.volumeUuid)) {
throw new PackageManagerException(
"Package " + packageName + " found on unknown volume " + volumeUuid
+ "; expected volume " + ps.volumeUuid);
} else if (!ps.getInstalled(userId)) {
throw new PackageManagerException(
"Package " + packageName + " not installed for user " + userId);
}
}
}
private List<String> collectAbsoluteCodePaths() {
synchronized (mPackages) {
List<String> codePaths = new ArrayList<>();
final int packageCount = mSettings.mPackages.size();
for (int i = 0; i < packageCount; i++) {
final PackageSetting ps = mSettings.mPackages.valueAt(i);
codePaths.add(ps.codePath.getAbsolutePath());
}
return codePaths;
}
}
/**
* Examine all apps present on given mounted volume, and destroy apps that
* aren't expected, either due to uninstallation or reinstallation on
* another volume.
*/
private void reconcileApps(String volumeUuid) {
List<String> absoluteCodePaths = collectAbsoluteCodePaths();
List<File> filesToDelete = null;
final File[] files = FileUtils.listFilesOrEmpty(
Environment.getDataAppDirectory(volumeUuid));
for (File file : files) {
final boolean isPackage = (isApkFile(file) || file.isDirectory())
&& !PackageInstallerService.isStageName(file.getName());
if (!isPackage) {
// Ignore entries which are not packages
continue;
}
String absolutePath = file.getAbsolutePath();
boolean pathValid = false;
final int absoluteCodePathCount = absoluteCodePaths.size();
for (int i = 0; i < absoluteCodePathCount; i++) {
String absoluteCodePath = absoluteCodePaths.get(i);
if (absolutePath.startsWith(absoluteCodePath)) {
pathValid = true;
break;
}
}
if (!pathValid) {
if (filesToDelete == null) {
filesToDelete = new ArrayList<>();
}
filesToDelete.add(file);
}
}
if (filesToDelete != null) {
final int fileToDeleteCount = filesToDelete.size();
for (int i = 0; i < fileToDeleteCount; i++) {
File fileToDelete = filesToDelete.get(i);
logCriticalInfo(Log.WARN, "Destroying orphaned" + fileToDelete);
synchronized (mInstallLock) {
removeCodePathLI(fileToDelete);
}
}
}
}
/**
* Reconcile all app data for the given user.
* <p>
* Verifies that directories exist and that ownership and labeling is
* correct for all installed apps on all mounted volumes.
*/
void reconcileAppsData(int userId, int flags, boolean migrateAppsData) {
final StorageManager storage = mContext.getSystemService(StorageManager.class);
for (VolumeInfo vol : storage.getWritablePrivateVolumes()) {
final String volumeUuid = vol.getFsUuid();
synchronized (mInstallLock) {
reconcileAppsDataLI(volumeUuid, userId, flags, migrateAppsData);
}
}
}
private void reconcileAppsDataLI(String volumeUuid, int userId, int flags,
boolean migrateAppData) {
reconcileAppsDataLI(volumeUuid, userId, flags, migrateAppData, false /* onlyCoreApps */);
}
/**
* Reconcile all app data on given mounted volume.
* <p>
* Destroys app data that isn't expected, either due to uninstallation or
* reinstallation on another volume.
* <p>
* Verifies that directories exist and that ownership and labeling is
* correct for all installed apps.
* @returns list of skipped non-core packages (if {@code onlyCoreApps} is true)
*/
private List<String> reconcileAppsDataLI(String volumeUuid, int userId, int flags,
boolean migrateAppData, boolean onlyCoreApps) {
Slog.v(TAG, "reconcileAppsData for " + volumeUuid + " u" + userId + " 0x"
+ Integer.toHexString(flags) + " migrateAppData=" + migrateAppData);
List<String> result = onlyCoreApps ? new ArrayList<>() : null;
final File ceDir = Environment.getDataUserCeDirectory(volumeUuid, userId);
final File deDir = Environment.getDataUserDeDirectory(volumeUuid, userId);
// First look for stale data that doesn't belong, and check if things
// have changed since we did our last restorecon
if ((flags & StorageManager.FLAG_STORAGE_CE) != 0) {
if (StorageManager.isFileEncryptedNativeOrEmulated()
&& !StorageManager.isUserKeyUnlocked(userId)) {
throw new RuntimeException(
"Yikes, someone asked us to reconcile CE storage while " + userId
+ " was still locked; this would have caused massive data loss!");
}
final File[] files = FileUtils.listFilesOrEmpty(ceDir);
for (File file : files) {
final String packageName = file.getName();
try {
assertPackageKnownAndInstalled(volumeUuid, packageName, userId);
} catch (PackageManagerException e) {
logCriticalInfo(Log.WARN, "Destroying " + file + " due to: " + e);
try {
mInstaller.destroyAppData(volumeUuid, packageName, userId,
StorageManager.FLAG_STORAGE_CE, 0);
} catch (InstallerException e2) {
logCriticalInfo(Log.WARN, "Failed to destroy: " + e2);
}
}
}
}
if ((flags & StorageManager.FLAG_STORAGE_DE) != 0) {
final File[] files = FileUtils.listFilesOrEmpty(deDir);
for (File file : files) {
final String packageName = file.getName();
try {
assertPackageKnownAndInstalled(volumeUuid, packageName, userId);
} catch (PackageManagerException e) {
logCriticalInfo(Log.WARN, "Destroying " + file + " due to: " + e);
try {
mInstaller.destroyAppData(volumeUuid, packageName, userId,
StorageManager.FLAG_STORAGE_DE, 0);
} catch (InstallerException e2) {
logCriticalInfo(Log.WARN, "Failed to destroy: " + e2);
}
}
}
}
// Ensure that data directories are ready to roll for all packages
// installed for this volume and user
final List<PackageSetting> packages;
synchronized (mPackages) {
packages = mSettings.getVolumePackagesLPr(volumeUuid);
}
int preparedCount = 0;
for (PackageSetting ps : packages) {
final String packageName = ps.name;
if (ps.pkg == null) {
Slog.w(TAG, "Odd, missing scanned package " + packageName);
// TODO: might be due to legacy ASEC apps; we should circle back
// and reconcile again once they're scanned
continue;
}
// Skip non-core apps if requested
if (onlyCoreApps && !ps.pkg.coreApp) {
result.add(packageName);
continue;
}
if (ps.getInstalled(userId)) {
prepareAppDataAndMigrateLIF(ps.pkg, userId, flags, migrateAppData);
preparedCount++;
}
}
Slog.v(TAG, "reconcileAppsData finished " + preparedCount + " packages");
return result;
}
/**
* Prepare app data for the given app just after it was installed or
* upgraded. This method carefully only touches users that it's installed
* for, and it forces a restorecon to handle any seinfo changes.
* <p>
* Verifies that directories exist and that ownership and labeling is
* correct for all installed apps. If there is an ownership mismatch, it
* will try recovering system apps by wiping data; third-party app data is
* left intact.
* <p>
* <em>Note: To avoid a deadlock, do not call this method with {@code mPackages} lock held</em>
*/
private void prepareAppDataAfterInstallLIF(PackageParser.Package pkg) {
final PackageSetting ps;
synchronized (mPackages) {
ps = mSettings.mPackages.get(pkg.packageName);
mSettings.writeKernelMappingLPr(ps);
}
final UserManager um = mContext.getSystemService(UserManager.class);
UserManagerInternal umInternal = getUserManagerInternal();
for (UserInfo user : um.getUsers()) {
final int flags;
if (umInternal.isUserUnlockingOrUnlocked(user.id)) {
flags = StorageManager.FLAG_STORAGE_DE | StorageManager.FLAG_STORAGE_CE;
} else if (umInternal.isUserRunning(user.id)) {
flags = StorageManager.FLAG_STORAGE_DE;
} else {
continue;
}
if (ps.getInstalled(user.id)) {
// TODO: when user data is locked, mark that we're still dirty
prepareAppDataLIF(pkg, user.id, flags);
}
}
}
/**
* Prepare app data for the given app.
* <p>
* Verifies that directories exist and that ownership and labeling is
* correct for all installed apps. If there is an ownership mismatch, this
* will try recovering system apps by wiping data; third-party app data is
* left intact.
*/
private void prepareAppDataLIF(PackageParser.Package pkg, int userId, int flags) {
if (pkg == null) {
Slog.wtf(TAG, "Package was null!", new Throwable());
return;
}
prepareAppDataLeafLIF(pkg, userId, flags);
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
prepareAppDataLeafLIF(pkg.childPackages.get(i), userId, flags);
}
}
private void prepareAppDataAndMigrateLIF(PackageParser.Package pkg, int userId, int flags,
boolean maybeMigrateAppData) {
prepareAppDataLIF(pkg, userId, flags);
if (maybeMigrateAppData && maybeMigrateAppDataLIF(pkg, userId)) {
// We may have just shuffled around app data directories, so
// prepare them one more time
prepareAppDataLIF(pkg, userId, flags);
}
}
private void prepareAppDataLeafLIF(PackageParser.Package pkg, int userId, int flags) {
if (DEBUG_APP_DATA) {
Slog.v(TAG, "prepareAppData for " + pkg.packageName + " u" + userId + " 0x"
+ Integer.toHexString(flags));
}
final PackageSetting ps;
synchronized (mPackages) {
ps = mSettings.mPackages.get(pkg.packageName);
}
final String volumeUuid = pkg.volumeUuid;
final String packageName = pkg.packageName;
ApplicationInfo app = (ps == null)
? pkg.applicationInfo
: PackageParser.generateApplicationInfo(pkg, 0, ps.readUserState(userId), userId);
if (app == null) {
app = pkg.applicationInfo;
}
final int appId = UserHandle.getAppId(app.uid);
Preconditions.checkNotNull(app.seInfo);
final String seInfo = app.seInfo + (app.seInfoUser != null ? app.seInfoUser : "");
long ceDataInode = -1;
try {
ceDataInode = mInstaller.createAppData(volumeUuid, packageName, userId, flags,
appId, seInfo, app.targetSdkVersion);
} catch (InstallerException e) {
if (app.isSystemApp()) {
logCriticalInfo(Log.ERROR, "Failed to create app data for " + packageName
+ ", but trying to recover: " + e);
destroyAppDataLeafLIF(pkg, userId, flags);
try {
ceDataInode = mInstaller.createAppData(volumeUuid, packageName, userId, flags,
appId, seInfo, app.targetSdkVersion);
logCriticalInfo(Log.DEBUG, "Recovery succeeded!");
} catch (InstallerException e2) {
logCriticalInfo(Log.DEBUG, "Recovery failed!");
}
} else {
Slog.e(TAG, "Failed to create app data for " + packageName + ": " + e);
}
}
// Prepare the application profiles only for upgrades and first boot (so that we don't
// repeat the same operation at each boot).
// We only have to cover the upgrade and first boot here because for app installs we
// prepare the profiles before invoking dexopt (in installPackageLI).
//
// We also have to cover non system users because we do not call the usual install package
// methods for them.
if (mIsUpgrade || mFirstBoot || (userId != UserHandle.USER_SYSTEM)) {
mArtManagerService.prepareAppProfiles(pkg, userId);
}
if ((flags & StorageManager.FLAG_STORAGE_CE) != 0 && ceDataInode != -1) {
// TODO: mark this structure as dirty so we persist it!
synchronized (mPackages) {
if (ps != null) {
ps.setCeDataInode(ceDataInode, userId);
}
}
}
prepareAppDataContentsLeafLIF(pkg, userId, flags);
}
private void prepareAppDataContentsLIF(PackageParser.Package pkg, int userId, int flags) {
if (pkg == null) {
Slog.wtf(TAG, "Package was null!", new Throwable());
return;
}
prepareAppDataContentsLeafLIF(pkg, userId, flags);
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
prepareAppDataContentsLeafLIF(pkg.childPackages.get(i), userId, flags);
}
}
private void prepareAppDataContentsLeafLIF(PackageParser.Package pkg, int userId, int flags) {
final String volumeUuid = pkg.volumeUuid;
final String packageName = pkg.packageName;
final ApplicationInfo app = pkg.applicationInfo;
if ((flags & StorageManager.FLAG_STORAGE_CE) != 0) {
// Create a native library symlink only if we have native libraries
// and if the native libraries are 32 bit libraries. We do not provide
// this symlink for 64 bit libraries.
if (app.primaryCpuAbi != null && !VMRuntime.is64BitAbi(app.primaryCpuAbi)) {
final String nativeLibPath = app.nativeLibraryDir;
try {
mInstaller.linkNativeLibraryDirectory(volumeUuid, packageName,
nativeLibPath, userId);
} catch (InstallerException e) {
Slog.e(TAG, "Failed to link native for " + packageName + ": " + e);
}
}
}
}
/**
* For system apps on non-FBE devices, this method migrates any existing
* CE/DE data to match the {@code defaultToDeviceProtectedStorage} flag
* requested by the app.
*/
private boolean maybeMigrateAppDataLIF(PackageParser.Package pkg, int userId) {
if (pkg.isSystem() && !StorageManager.isFileEncryptedNativeOrEmulated()
&& PackageManager.APPLY_DEFAULT_TO_DEVICE_PROTECTED_STORAGE) {
final int storageTarget = pkg.applicationInfo.isDefaultToDeviceProtectedStorage()
? StorageManager.FLAG_STORAGE_DE : StorageManager.FLAG_STORAGE_CE;
try {
mInstaller.migrateAppData(pkg.volumeUuid, pkg.packageName, userId,
storageTarget);
} catch (InstallerException e) {
logCriticalInfo(Log.WARN,
"Failed to migrate " + pkg.packageName + ": " + e.getMessage());
}
return true;
} else {
return false;
}
}
public PackageFreezer freezePackage(String packageName, String killReason) {
return freezePackage(packageName, UserHandle.USER_ALL, killReason);
}
public PackageFreezer freezePackage(String packageName, int userId, String killReason) {
return new PackageFreezer(packageName, userId, killReason);
}
public PackageFreezer freezePackageForInstall(String packageName, int installFlags,
String killReason) {
return freezePackageForInstall(packageName, UserHandle.USER_ALL, installFlags, killReason);
}
public PackageFreezer freezePackageForInstall(String packageName, int userId, int installFlags,
String killReason) {
if ((installFlags & PackageManager.INSTALL_DONT_KILL_APP) != 0) {
return new PackageFreezer();
} else {
return freezePackage(packageName, userId, killReason);
}
}
public PackageFreezer freezePackageForDelete(String packageName, int deleteFlags,
String killReason) {
return freezePackageForDelete(packageName, UserHandle.USER_ALL, deleteFlags, killReason);
}
public PackageFreezer freezePackageForDelete(String packageName, int userId, int deleteFlags,
String killReason) {
if ((deleteFlags & PackageManager.DELETE_DONT_KILL_APP) != 0) {
return new PackageFreezer();
} else {
return freezePackage(packageName, userId, killReason);
}
}
/**
* Class that freezes and kills the given package upon creation, and
* unfreezes it upon closing. This is typically used when doing surgery on
* app code/data to prevent the app from running while you're working.
*/
private class PackageFreezer implements AutoCloseable {
private final String mPackageName;
private final PackageFreezer[] mChildren;
private final boolean mWeFroze;
private final AtomicBoolean mClosed = new AtomicBoolean();
private final CloseGuard mCloseGuard = CloseGuard.get();
/**
* Create and return a stub freezer that doesn't actually do anything,
* typically used when someone requested
* {@link PackageManager#INSTALL_DONT_KILL_APP} or
* {@link PackageManager#DELETE_DONT_KILL_APP}.
*/
public PackageFreezer() {
mPackageName = null;
mChildren = null;
mWeFroze = false;
mCloseGuard.open("close");
}
public PackageFreezer(String packageName, int userId, String killReason) {
synchronized (mPackages) {
mPackageName = packageName;
mWeFroze = mFrozenPackages.add(mPackageName);
final PackageSetting ps = mSettings.mPackages.get(mPackageName);
if (ps != null) {
killApplication(ps.name, ps.appId, userId, killReason);
}
final PackageParser.Package p = mPackages.get(packageName);
if (p != null && p.childPackages != null) {
final int N = p.childPackages.size();
mChildren = new PackageFreezer[N];
for (int i = 0; i < N; i++) {
mChildren[i] = new PackageFreezer(p.childPackages.get(i).packageName,
userId, killReason);
}
} else {
mChildren = null;
}
}
mCloseGuard.open("close");
}
@Override
protected void finalize() throws Throwable {
try {
if (mCloseGuard != null) {
mCloseGuard.warnIfOpen();
}
close();
} finally {
super.finalize();
}
}
@Override
public void close() {
mCloseGuard.close();
if (mClosed.compareAndSet(false, true)) {
synchronized (mPackages) {
if (mWeFroze) {
mFrozenPackages.remove(mPackageName);
}
if (mChildren != null) {
for (PackageFreezer freezer : mChildren) {
freezer.close();
}
}
}
}
}
}
/**
* Verify that given package is currently frozen.
*/
private void checkPackageFrozen(String packageName) {
synchronized (mPackages) {
if (!mFrozenPackages.contains(packageName)) {
Slog.wtf(TAG, "Expected " + packageName + " to be frozen!", new Throwable());
}
}
}
@Override
public int movePackage(final String packageName, final String volumeUuid) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.MOVE_PACKAGE, null);
final int callingUid = Binder.getCallingUid();
final UserHandle user = new UserHandle(UserHandle.getUserId(callingUid));
final int moveId = mNextMoveId.getAndIncrement();
mHandler.post(new Runnable() {
@Override
public void run() {
try {
movePackageInternal(packageName, volumeUuid, moveId, callingUid, user);
} catch (PackageManagerException e) {
Slog.w(TAG, "Failed to move " + packageName, e);
mMoveCallbacks.notifyStatusChanged(moveId, e.error);
}
}
});
return moveId;
}
private void movePackageInternal(final String packageName, final String volumeUuid,
final int moveId, final int callingUid, UserHandle user)
throws PackageManagerException {
final StorageManager storage = mContext.getSystemService(StorageManager.class);
final PackageManager pm = mContext.getPackageManager();
final boolean currentAsec;
final String currentVolumeUuid;
final File codeFile;
final String installerPackageName;
final String packageAbiOverride;
final int appId;
final String seinfo;
final String label;
final int targetSdkVersion;
final PackageFreezer freezer;
final int[] installedUserIds;
// reader
synchronized (mPackages) {
final PackageParser.Package pkg = mPackages.get(packageName);
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (pkg == null
|| ps == null
|| filterAppAccessLPr(ps, callingUid, user.getIdentifier())) {
throw new PackageManagerException(MOVE_FAILED_DOESNT_EXIST, "Missing package");
}
if (pkg.applicationInfo.isSystemApp()) {
throw new PackageManagerException(MOVE_FAILED_SYSTEM_PACKAGE,
"Cannot move system application");
}
final boolean isInternalStorage = VolumeInfo.ID_PRIVATE_INTERNAL.equals(volumeUuid);
final boolean allow3rdPartyOnInternal = mContext.getResources().getBoolean(
com.android.internal.R.bool.config_allow3rdPartyAppOnInternal);
if (isInternalStorage && !allow3rdPartyOnInternal) {
throw new PackageManagerException(MOVE_FAILED_3RD_PARTY_NOT_ALLOWED_ON_INTERNAL,
"3rd party apps are not allowed on internal storage");
}
if (pkg.applicationInfo.isExternalAsec()) {
currentAsec = true;
currentVolumeUuid = StorageManager.UUID_PRIMARY_PHYSICAL;
} else if (pkg.applicationInfo.isForwardLocked()) {
currentAsec = true;
currentVolumeUuid = "forward_locked";
} else {
currentAsec = false;
currentVolumeUuid = ps.volumeUuid;
final File probe = new File(pkg.codePath);
final File probeOat = new File(probe, "oat");
if (!probe.isDirectory() || !probeOat.isDirectory()) {
throw new PackageManagerException(MOVE_FAILED_INTERNAL_ERROR,
"Move only supported for modern cluster style installs");
}
}
if (Objects.equals(currentVolumeUuid, volumeUuid)) {
throw new PackageManagerException(MOVE_FAILED_INTERNAL_ERROR,
"Package already moved to " + volumeUuid);
}
if (pkg.applicationInfo.isInternal() && isPackageDeviceAdminOnAnyUser(packageName)) {
throw new PackageManagerException(MOVE_FAILED_DEVICE_ADMIN,
"Device admin cannot be moved");
}
if (mFrozenPackages.contains(packageName)) {
throw new PackageManagerException(MOVE_FAILED_OPERATION_PENDING,
"Failed to move already frozen package");
}
codeFile = new File(pkg.codePath);
installerPackageName = ps.installerPackageName;
packageAbiOverride = ps.cpuAbiOverrideString;
appId = UserHandle.getAppId(pkg.applicationInfo.uid);
seinfo = pkg.applicationInfo.seInfo;
label = String.valueOf(pm.getApplicationLabel(pkg.applicationInfo));
targetSdkVersion = pkg.applicationInfo.targetSdkVersion;
freezer = freezePackage(packageName, "movePackageInternal");
installedUserIds = ps.queryInstalledUsers(sUserManager.getUserIds(), true);
}
final Bundle extras = new Bundle();
extras.putString(Intent.EXTRA_PACKAGE_NAME, packageName);
extras.putString(Intent.EXTRA_TITLE, label);
mMoveCallbacks.notifyCreated(moveId, extras);
int installFlags;
final boolean moveCompleteApp;
final File measurePath;
if (Objects.equals(StorageManager.UUID_PRIVATE_INTERNAL, volumeUuid)) {
installFlags = INSTALL_INTERNAL;
moveCompleteApp = !currentAsec;
measurePath = Environment.getDataAppDirectory(volumeUuid);
} else if (Objects.equals(StorageManager.UUID_PRIMARY_PHYSICAL, volumeUuid)) {
installFlags = INSTALL_EXTERNAL;
moveCompleteApp = false;
measurePath = storage.getPrimaryPhysicalVolume().getPath();
} else {
final VolumeInfo volume = storage.findVolumeByUuid(volumeUuid);
if (volume == null || volume.getType() != VolumeInfo.TYPE_PRIVATE
|| !volume.isMountedWritable()) {
freezer.close();
throw new PackageManagerException(MOVE_FAILED_INTERNAL_ERROR,
"Move location not mounted private volume");
}
Preconditions.checkState(!currentAsec);
installFlags = INSTALL_INTERNAL;
moveCompleteApp = true;
measurePath = Environment.getDataAppDirectory(volumeUuid);
}
// If we're moving app data around, we need all the users unlocked
if (moveCompleteApp) {
for (int userId : installedUserIds) {
if (StorageManager.isFileEncryptedNativeOrEmulated()
&& !StorageManager.isUserKeyUnlocked(userId)) {
throw new PackageManagerException(MOVE_FAILED_LOCKED_USER,
"User " + userId + " must be unlocked");
}
}
}
final PackageStats stats = new PackageStats(null, -1);
synchronized (mInstaller) {
for (int userId : installedUserIds) {
if (!getPackageSizeInfoLI(packageName, userId, stats)) {
freezer.close();
throw new PackageManagerException(MOVE_FAILED_INTERNAL_ERROR,
"Failed to measure package size");
}
}
}
if (DEBUG_INSTALL) Slog.d(TAG, "Measured code size " + stats.codeSize + ", data size "
+ stats.dataSize);
final long startFreeBytes = measurePath.getUsableSpace();
final long sizeBytes;
if (moveCompleteApp) {
sizeBytes = stats.codeSize + stats.dataSize;
} else {
sizeBytes = stats.codeSize;
}
if (sizeBytes > storage.getStorageBytesUntilLow(measurePath)) {
freezer.close();
throw new PackageManagerException(MOVE_FAILED_INTERNAL_ERROR,
"Not enough free space to move");
}
mMoveCallbacks.notifyStatusChanged(moveId, 10);
final CountDownLatch installedLatch = new CountDownLatch(1);
final IPackageInstallObserver2 installObserver = new IPackageInstallObserver2.Stub() {
@Override
public void onUserActionRequired(Intent intent) throws RemoteException {
throw new IllegalStateException();
}
@Override
public void onPackageInstalled(String basePackageName, int returnCode, String msg,
Bundle extras) throws RemoteException {
if (DEBUG_INSTALL) Slog.d(TAG, "Install result for move: "
+ PackageManager.installStatusToString(returnCode, msg));
installedLatch.countDown();
freezer.close();
final int status = PackageManager.installStatusToPublicStatus(returnCode);
switch (status) {
case PackageInstaller.STATUS_SUCCESS:
mMoveCallbacks.notifyStatusChanged(moveId,
PackageManager.MOVE_SUCCEEDED);
break;
case PackageInstaller.STATUS_FAILURE_STORAGE:
mMoveCallbacks.notifyStatusChanged(moveId,
PackageManager.MOVE_FAILED_INSUFFICIENT_STORAGE);
break;
default:
mMoveCallbacks.notifyStatusChanged(moveId,
PackageManager.MOVE_FAILED_INTERNAL_ERROR);
break;
}
}
};
final MoveInfo move;
if (moveCompleteApp) {
// Kick off a thread to report progress estimates
new Thread() {
@Override
public void run() {
while (true) {
try {
if (installedLatch.await(1, TimeUnit.SECONDS)) {
break;
}
} catch (InterruptedException ignored) {
}
final long deltaFreeBytes = startFreeBytes - measurePath.getUsableSpace();
final int progress = 10 + (int) MathUtils.constrain(
((deltaFreeBytes * 80) / sizeBytes), 0, 80);
mMoveCallbacks.notifyStatusChanged(moveId, progress);
}
}
}.start();
final String dataAppName = codeFile.getName();
move = new MoveInfo(moveId, currentVolumeUuid, volumeUuid, packageName,
dataAppName, appId, seinfo, targetSdkVersion);
} else {
move = null;
}
installFlags |= PackageManager.INSTALL_REPLACE_EXISTING;
final Message msg = mHandler.obtainMessage(INIT_COPY);
final OriginInfo origin = OriginInfo.fromExistingFile(codeFile);
final InstallParams params = new InstallParams(origin, move, installObserver, installFlags,
installerPackageName, volumeUuid, null /*verificationInfo*/, user,
packageAbiOverride, null /*grantedPermissions*/,
PackageParser.SigningDetails.UNKNOWN, PackageManager.INSTALL_REASON_UNKNOWN);
params.setTraceMethod("movePackage").setTraceCookie(System.identityHashCode(params));
msg.obj = params;
Trace.asyncTraceBegin(TRACE_TAG_PACKAGE_MANAGER, "movePackage",
System.identityHashCode(msg.obj));
Trace.asyncTraceBegin(TRACE_TAG_PACKAGE_MANAGER, "queueInstall",
System.identityHashCode(msg.obj));
mHandler.sendMessage(msg);
}
@Override
public int movePrimaryStorage(String volumeUuid) throws RemoteException {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.MOVE_PACKAGE, null);
final int realMoveId = mNextMoveId.getAndIncrement();
final Bundle extras = new Bundle();
extras.putString(VolumeRecord.EXTRA_FS_UUID, volumeUuid);
mMoveCallbacks.notifyCreated(realMoveId, extras);
final IPackageMoveObserver callback = new IPackageMoveObserver.Stub() {
@Override
public void onCreated(int moveId, Bundle extras) {
// Ignored
}
@Override
public void onStatusChanged(int moveId, int status, long estMillis) {
mMoveCallbacks.notifyStatusChanged(realMoveId, status, estMillis);
}
};
final StorageManager storage = mContext.getSystemService(StorageManager.class);
storage.setPrimaryStorageUuid(volumeUuid, callback);
return realMoveId;
}
@Override
public int getMoveStatus(int moveId) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.MOUNT_UNMOUNT_FILESYSTEMS, null);
return mMoveCallbacks.mLastStatus.get(moveId);
}
@Override
public void registerMoveCallback(IPackageMoveObserver callback) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.MOUNT_UNMOUNT_FILESYSTEMS, null);
mMoveCallbacks.register(callback);
}
@Override
public void unregisterMoveCallback(IPackageMoveObserver callback) {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.MOUNT_UNMOUNT_FILESYSTEMS, null);
mMoveCallbacks.unregister(callback);
}
@Override
public boolean setInstallLocation(int loc) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.WRITE_SECURE_SETTINGS,
null);
if (getInstallLocation() == loc) {
return true;
}
if (loc == PackageHelper.APP_INSTALL_AUTO || loc == PackageHelper.APP_INSTALL_INTERNAL
|| loc == PackageHelper.APP_INSTALL_EXTERNAL) {
android.provider.Settings.Global.putInt(mContext.getContentResolver(),
android.provider.Settings.Global.DEFAULT_INSTALL_LOCATION, loc);
return true;
}
return false;
}
@Override
public int getInstallLocation() {
// allow instant app access
return android.provider.Settings.Global.getInt(mContext.getContentResolver(),
android.provider.Settings.Global.DEFAULT_INSTALL_LOCATION,
PackageHelper.APP_INSTALL_AUTO);
}
/** Called by UserManagerService */
void cleanUpUser(UserManagerService userManager, int userHandle) {
synchronized (mPackages) {
mDirtyUsers.remove(userHandle);
mUserNeedsBadging.delete(userHandle);
mSettings.removeUserLPw(userHandle);
mPendingBroadcasts.remove(userHandle);
mInstantAppRegistry.onUserRemovedLPw(userHandle);
removeUnusedPackagesLPw(userManager, userHandle);
}
}
/**
* We're removing userHandle and would like to remove any downloaded packages
* that are no longer in use by any other user.
* @param userHandle the user being removed
*/
private void removeUnusedPackagesLPw(UserManagerService userManager, final int userHandle) {
final boolean DEBUG_CLEAN_APKS = false;
int [] users = userManager.getUserIds();
Iterator<PackageSetting> psit = mSettings.mPackages.values().iterator();
while (psit.hasNext()) {
PackageSetting ps = psit.next();
if (ps.pkg == null) {
continue;
}
final String packageName = ps.pkg.packageName;
// Skip over if system app
if ((ps.pkgFlags & ApplicationInfo.FLAG_SYSTEM) != 0) {
continue;
}
if (DEBUG_CLEAN_APKS) {
Slog.i(TAG, "Checking package " + packageName);
}
boolean keep = shouldKeepUninstalledPackageLPr(packageName);
if (keep) {
if (DEBUG_CLEAN_APKS) {
Slog.i(TAG, " Keeping package " + packageName + " - requested by DO");
}
} else {
for (int i = 0; i < users.length; i++) {
if (users[i] != userHandle && ps.getInstalled(users[i])) {
keep = true;
if (DEBUG_CLEAN_APKS) {
Slog.i(TAG, " Keeping package " + packageName + " for user "
+ users[i]);
}
break;
}
}
}
if (!keep) {
if (DEBUG_CLEAN_APKS) {
Slog.i(TAG, " Removing package " + packageName);
}
mHandler.post(new Runnable() {
public void run() {
deletePackageX(packageName, PackageManager.VERSION_CODE_HIGHEST,
userHandle, 0);
} //end run
});
}
}
}
/** Called by UserManagerService */
void createNewUser(int userId, String[] disallowedPackages) {
synchronized (mInstallLock) {
mSettings.createNewUserLI(this, mInstaller, userId, disallowedPackages);
}
synchronized (mPackages) {
scheduleWritePackageRestrictionsLocked(userId);
scheduleWritePackageListLocked(userId);
applyFactoryDefaultBrowserLPw(userId);
primeDomainVerificationsLPw(userId);
}
}
void onNewUserCreated(final int userId) {
mDefaultPermissionPolicy.grantDefaultPermissions(userId);
synchronized(mPackages) {
// If permission review for legacy apps is required, we represent
// dagerous permissions for such apps as always granted runtime
// permissions to keep per user flag state whether review is needed.
// Hence, if a new user is added we have to propagate dangerous
// permission grants for these legacy apps.
if (mSettings.mPermissions.mPermissionReviewRequired) {
// NOTE: This adds UPDATE_PERMISSIONS_REPLACE_PKG
mPermissionManager.updateAllPermissions(
StorageManager.UUID_PRIVATE_INTERNAL, true, mPackages.values(),
mPermissionCallback);
}
}
}
@Override
public VerifierDeviceIdentity getVerifierDeviceIdentity() throws RemoteException {
mContext.enforceCallingOrSelfPermission(
android.Manifest.permission.PACKAGE_VERIFICATION_AGENT,
"Only package verification agents can read the verifier device identity");
synchronized (mPackages) {
return mSettings.getVerifierDeviceIdentityLPw();
}
}
@Override
public void setPermissionEnforced(String permission, boolean enforced) {
// TODO: Now that we no longer change GID for storage, this should to away.
mContext.enforceCallingOrSelfPermission(Manifest.permission.GRANT_RUNTIME_PERMISSIONS,
"setPermissionEnforced");
if (READ_EXTERNAL_STORAGE.equals(permission)) {
synchronized (mPackages) {
if (mSettings.mReadExternalStorageEnforced == null
|| mSettings.mReadExternalStorageEnforced != enforced) {
mSettings.mReadExternalStorageEnforced =
enforced ? Boolean.TRUE : Boolean.FALSE;
mSettings.writeLPr();
}
}
// kill any non-foreground processes so we restart them and
// grant/revoke the GID.
final IActivityManager am = ActivityManager.getService();
if (am != null) {
final long token = Binder.clearCallingIdentity();
try {
am.killProcessesBelowForeground("setPermissionEnforcement");
} catch (RemoteException e) {
} finally {
Binder.restoreCallingIdentity(token);
}
}
} else {
throw new IllegalArgumentException("No selective enforcement for " + permission);
}
}
@Override
@Deprecated
public boolean isPermissionEnforced(String permission) {
// allow instant applications
return true;
}
@Override
public boolean isStorageLow() {
// allow instant applications
final long token = Binder.clearCallingIdentity();
try {
final DeviceStorageMonitorInternal
dsm = LocalServices.getService(DeviceStorageMonitorInternal.class);
if (dsm != null) {
return dsm.isMemoryLow();
} else {
return false;
}
} finally {
Binder.restoreCallingIdentity(token);
}
}
@Override
public IPackageInstaller getPackageInstaller() {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
return mInstallerService;
}
@Override
public IArtManager getArtManager() {
return mArtManagerService;
}
private boolean userNeedsBadging(int userId) {
int index = mUserNeedsBadging.indexOfKey(userId);
if (index < 0) {
final UserInfo userInfo;
final long token = Binder.clearCallingIdentity();
try {
userInfo = sUserManager.getUserInfo(userId);
} finally {
Binder.restoreCallingIdentity(token);
}
final boolean b;
if (userInfo != null && userInfo.isManagedProfile()) {
b = true;
} else {
b = false;
}
mUserNeedsBadging.put(userId, b);
return b;
}
return mUserNeedsBadging.valueAt(index);
}
@Override
public KeySet getKeySetByAlias(String packageName, String alias) {
if (packageName == null || alias == null) {
return null;
}
synchronized(mPackages) {
final PackageParser.Package pkg = mPackages.get(packageName);
if (pkg == null) {
Slog.w(TAG, "KeySet requested for unknown package: " + packageName);
throw new IllegalArgumentException("Unknown package: " + packageName);
}
final PackageSetting ps = (PackageSetting) pkg.mExtras;
if (filterAppAccessLPr(ps, Binder.getCallingUid(), UserHandle.getCallingUserId())) {
Slog.w(TAG, "KeySet requested for filtered package: " + packageName);
throw new IllegalArgumentException("Unknown package: " + packageName);
}
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
return new KeySet(ksms.getKeySetByAliasAndPackageNameLPr(packageName, alias));
}
}
@Override
public KeySet getSigningKeySet(String packageName) {
if (packageName == null) {
return null;
}
synchronized(mPackages) {
final int callingUid = Binder.getCallingUid();
final int callingUserId = UserHandle.getUserId(callingUid);
final PackageParser.Package pkg = mPackages.get(packageName);
if (pkg == null) {
Slog.w(TAG, "KeySet requested for unknown package: " + packageName);
throw new IllegalArgumentException("Unknown package: " + packageName);
}
final PackageSetting ps = (PackageSetting) pkg.mExtras;
if (filterAppAccessLPr(ps, callingUid, callingUserId)) {
// filter and pretend the package doesn't exist
Slog.w(TAG, "KeySet requested for filtered package: " + packageName
+ ", uid:" + callingUid);
throw new IllegalArgumentException("Unknown package: " + packageName);
}
if (pkg.applicationInfo.uid != callingUid
&& Process.SYSTEM_UID != callingUid) {
throw new SecurityException("May not access signing KeySet of other apps.");
}
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
return new KeySet(ksms.getSigningKeySetByPackageNameLPr(packageName));
}
}
@Override
public boolean isPackageSignedByKeySet(String packageName, KeySet ks) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return false;
}
if (packageName == null || ks == null) {
return false;
}
synchronized(mPackages) {
final PackageParser.Package pkg = mPackages.get(packageName);
if (pkg == null
|| filterAppAccessLPr((PackageSetting) pkg.mExtras, callingUid,
UserHandle.getUserId(callingUid))) {
Slog.w(TAG, "KeySet requested for unknown package: " + packageName);
throw new IllegalArgumentException("Unknown package: " + packageName);
}
IBinder ksh = ks.getToken();
if (ksh instanceof KeySetHandle) {
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
return ksms.packageIsSignedByLPr(packageName, (KeySetHandle) ksh);
}
return false;
}
}
@Override
public boolean isPackageSignedByKeySetExactly(String packageName, KeySet ks) {
final int callingUid = Binder.getCallingUid();
if (getInstantAppPackageName(callingUid) != null) {
return false;
}
if (packageName == null || ks == null) {
return false;
}
synchronized(mPackages) {
final PackageParser.Package pkg = mPackages.get(packageName);
if (pkg == null
|| filterAppAccessLPr((PackageSetting) pkg.mExtras, callingUid,
UserHandle.getUserId(callingUid))) {
Slog.w(TAG, "KeySet requested for unknown package: " + packageName);
throw new IllegalArgumentException("Unknown package: " + packageName);
}
IBinder ksh = ks.getToken();
if (ksh instanceof KeySetHandle) {
final KeySetManagerService ksms = mSettings.mKeySetManagerService;
return ksms.packageIsSignedByExactlyLPr(packageName, (KeySetHandle) ksh);
}
return false;
}
}
private void deletePackageIfUnusedLPr(final String packageName) {
PackageSetting ps = mSettings.mPackages.get(packageName);
if (ps == null) {
return;
}
if (!ps.isAnyInstalled(sUserManager.getUserIds())) {
// TODO Implement atomic delete if package is unused
// It is currently possible that the package will be deleted even if it is installed
// after this method returns.
mHandler.post(new Runnable() {
public void run() {
deletePackageX(packageName, PackageManager.VERSION_CODE_HIGHEST,
0, PackageManager.DELETE_ALL_USERS);
}
});
}
}
/**
* Check and throw if the given before/after packages would be considered a
* downgrade.
*/
private static void checkDowngrade(PackageParser.Package before, PackageInfoLite after)
throws PackageManagerException {
if (after.getLongVersionCode() < before.getLongVersionCode()) {
throw new PackageManagerException(INSTALL_FAILED_VERSION_DOWNGRADE,
"Update version code " + after.versionCode + " is older than current "
+ before.getLongVersionCode());
} else if (after.getLongVersionCode() == before.getLongVersionCode()) {
if (after.baseRevisionCode < before.baseRevisionCode) {
throw new PackageManagerException(INSTALL_FAILED_VERSION_DOWNGRADE,
"Update base revision code " + after.baseRevisionCode
+ " is older than current " + before.baseRevisionCode);
}
if (!ArrayUtils.isEmpty(after.splitNames)) {
for (int i = 0; i < after.splitNames.length; i++) {
final String splitName = after.splitNames[i];
final int j = ArrayUtils.indexOf(before.splitNames, splitName);
if (j != -1) {
if (after.splitRevisionCodes[i] < before.splitRevisionCodes[j]) {
throw new PackageManagerException(INSTALL_FAILED_VERSION_DOWNGRADE,
"Update split " + splitName + " revision code "
+ after.splitRevisionCodes[i] + " is older than current "
+ before.splitRevisionCodes[j]);
}
}
}
}
}
}
private static class MoveCallbacks extends Handler {
private static final int MSG_CREATED = 1;
private static final int MSG_STATUS_CHANGED = 2;
private final RemoteCallbackList<IPackageMoveObserver>
mCallbacks = new RemoteCallbackList<>();
private final SparseIntArray mLastStatus = new SparseIntArray();
public MoveCallbacks(Looper looper) {
super(looper);
}
public void register(IPackageMoveObserver callback) {
mCallbacks.register(callback);
}
public void unregister(IPackageMoveObserver callback) {
mCallbacks.unregister(callback);
}
@Override
public void handleMessage(Message msg) {
final SomeArgs args = (SomeArgs) msg.obj;
final int n = mCallbacks.beginBroadcast();
for (int i = 0; i < n; i++) {
final IPackageMoveObserver callback = mCallbacks.getBroadcastItem(i);
try {
invokeCallback(callback, msg.what, args);
} catch (RemoteException ignored) {
}
}
mCallbacks.finishBroadcast();
args.recycle();
}
private void invokeCallback(IPackageMoveObserver callback, int what, SomeArgs args)
throws RemoteException {
switch (what) {
case MSG_CREATED: {
callback.onCreated(args.argi1, (Bundle) args.arg2);
break;
}
case MSG_STATUS_CHANGED: {
callback.onStatusChanged(args.argi1, args.argi2, (long) args.arg3);
break;
}
}
}
private void notifyCreated(int moveId, Bundle extras) {
Slog.v(TAG, "Move " + moveId + " created " + extras.toString());
final SomeArgs args = SomeArgs.obtain();
args.argi1 = moveId;
args.arg2 = extras;
obtainMessage(MSG_CREATED, args).sendToTarget();
}
private void notifyStatusChanged(int moveId, int status) {
notifyStatusChanged(moveId, status, -1);
}
private void notifyStatusChanged(int moveId, int status, long estMillis) {
Slog.v(TAG, "Move " + moveId + " status " + status);
final SomeArgs args = SomeArgs.obtain();
args.argi1 = moveId;
args.argi2 = status;
args.arg3 = estMillis;
obtainMessage(MSG_STATUS_CHANGED, args).sendToTarget();
synchronized (mLastStatus) {
mLastStatus.put(moveId, status);
}
}
}
private final static class OnPermissionChangeListeners extends Handler {
private static final int MSG_ON_PERMISSIONS_CHANGED = 1;
private final RemoteCallbackList<IOnPermissionsChangeListener> mPermissionListeners =
new RemoteCallbackList<>();
public OnPermissionChangeListeners(Looper looper) {
super(looper);
}
@Override
public void handleMessage(Message msg) {
switch (msg.what) {
case MSG_ON_PERMISSIONS_CHANGED: {
final int uid = msg.arg1;
handleOnPermissionsChanged(uid);
} break;
}
}
public void addListenerLocked(IOnPermissionsChangeListener listener) {
mPermissionListeners.register(listener);
}
public void removeListenerLocked(IOnPermissionsChangeListener listener) {
mPermissionListeners.unregister(listener);
}
public void onPermissionsChanged(int uid) {
if (mPermissionListeners.getRegisteredCallbackCount() > 0) {
obtainMessage(MSG_ON_PERMISSIONS_CHANGED, uid, 0).sendToTarget();
}
}
private void handleOnPermissionsChanged(int uid) {
final int count = mPermissionListeners.beginBroadcast();
try {
for (int i = 0; i < count; i++) {
IOnPermissionsChangeListener callback = mPermissionListeners
.getBroadcastItem(i);
try {
callback.onPermissionsChanged(uid);
} catch (RemoteException e) {
Log.e(TAG, "Permission listener is dead", e);
}
}
} finally {
mPermissionListeners.finishBroadcast();
}
}
}
private class PackageManagerNative extends IPackageManagerNative.Stub {
@Override
public String[] getNamesForUids(int[] uids) throws RemoteException {
final String[] results = PackageManagerService.this.getNamesForUids(uids);
// massage results so they can be parsed by the native binder
for (int i = results.length - 1; i >= 0; --i) {
if (results[i] == null) {
results[i] = "";
}
}
return results;
}
// NB: this differentiates between preloads and sideloads
@Override
public String getInstallerForPackage(String packageName) throws RemoteException {
final String installerName = getInstallerPackageName(packageName);
if (!TextUtils.isEmpty(installerName)) {
return installerName;
}
// differentiate between preload and sideload
int callingUser = UserHandle.getUserId(Binder.getCallingUid());
ApplicationInfo appInfo = getApplicationInfo(packageName,
/*flags*/ 0,
/*userId*/ callingUser);
if (appInfo != null && (appInfo.flags & ApplicationInfo.FLAG_SYSTEM) != 0) {
return "preload";
}
return "";
}
@Override
public long getVersionCodeForPackage(String packageName) throws RemoteException {
try {
int callingUser = UserHandle.getUserId(Binder.getCallingUid());
PackageInfo pInfo = getPackageInfo(packageName, 0, callingUser);
if (pInfo != null) {
return pInfo.getLongVersionCode();
}
} catch (Exception e) {
}
return 0;
}
}
private class PackageManagerInternalImpl extends PackageManagerInternal {
@Override
public void updatePermissionFlagsTEMP(String permName, String packageName, int flagMask,
int flagValues, int userId) {
PackageManagerService.this.updatePermissionFlags(
permName, packageName, flagMask, flagValues, userId);
}
@Override
public boolean isDataRestoreSafe(byte[] restoringFromSigHash, String packageName) {
SigningDetails sd = getSigningDetails(packageName);
if (sd == null) {
return false;
}
return sd.hasSha256Certificate(restoringFromSigHash,
SigningDetails.CertCapabilities.INSTALLED_DATA);
}
@Override
public boolean isDataRestoreSafe(Signature restoringFromSig, String packageName) {
SigningDetails sd = getSigningDetails(packageName);
if (sd == null) {
return false;
}
return sd.hasCertificate(restoringFromSig,
SigningDetails.CertCapabilities.INSTALLED_DATA);
}
@Override
public boolean hasSignatureCapability(int serverUid, int clientUid,
@SigningDetails.CertCapabilities int capability) {
SigningDetails serverSigningDetails = getSigningDetails(serverUid);
SigningDetails clientSigningDetails = getSigningDetails(clientUid);
return serverSigningDetails.checkCapability(clientSigningDetails, capability)
|| clientSigningDetails.hasAncestorOrSelf(serverSigningDetails);
}
private SigningDetails getSigningDetails(@NonNull String packageName) {
synchronized (mPackages) {
PackageParser.Package p = mPackages.get(packageName);
if (p == null) {
return null;
}
return p.mSigningDetails;
}
}
private SigningDetails getSigningDetails(int uid) {
synchronized (mPackages) {
final int appId = UserHandle.getAppId(uid);
final Object obj = mSettings.getUserIdLPr(appId);
if (obj != null) {
if (obj instanceof SharedUserSetting) {
return ((SharedUserSetting) obj).signatures.mSigningDetails;
} else if (obj instanceof PackageSetting) {
final PackageSetting ps = (PackageSetting) obj;
return ps.signatures.mSigningDetails;
}
}
return SigningDetails.UNKNOWN;
}
}
@Override
public int getPermissionFlagsTEMP(String permName, String packageName, int userId) {
return PackageManagerService.this.getPermissionFlags(permName, packageName, userId);
}
@Override
public boolean isInstantApp(String packageName, int userId) {
return PackageManagerService.this.isInstantApp(packageName, userId);
}
@Override
public String getInstantAppPackageName(int uid) {
return PackageManagerService.this.getInstantAppPackageName(uid);
}
@Override
public boolean filterAppAccess(PackageParser.Package pkg, int callingUid, int userId) {
synchronized (mPackages) {
return PackageManagerService.this.filterAppAccessLPr(
(PackageSetting) pkg.mExtras, callingUid, userId);
}
}
@Override
public PackageParser.Package getPackage(String packageName) {
synchronized (mPackages) {
packageName = resolveInternalPackageNameLPr(
packageName, PackageManager.VERSION_CODE_HIGHEST);
return mPackages.get(packageName);
}
}
@Override
public PackageList getPackageList(PackageListObserver observer) {
synchronized (mPackages) {
final int N = mPackages.size();
final ArrayList<String> list = new ArrayList<>(N);
for (int i = 0; i < N; i++) {
list.add(mPackages.keyAt(i));
}
final PackageList packageList = new PackageList(list, observer);
if (observer != null) {
mPackageListObservers.add(packageList);
}
return packageList;
}
}
@Override
public void removePackageListObserver(PackageListObserver observer) {
synchronized (mPackages) {
mPackageListObservers.remove(observer);
}
}
@Override
public PackageParser.Package getDisabledPackage(String packageName) {
synchronized (mPackages) {
final PackageSetting ps = mSettings.getDisabledSystemPkgLPr(packageName);
return (ps != null) ? ps.pkg : null;
}
}
@Override
public String getKnownPackageName(int knownPackage, int userId) {
switch(knownPackage) {
case PackageManagerInternal.PACKAGE_BROWSER:
return getDefaultBrowserPackageName(userId);
case PackageManagerInternal.PACKAGE_INSTALLER:
return mRequiredInstallerPackage;
case PackageManagerInternal.PACKAGE_SETUP_WIZARD:
return mSetupWizardPackage;
case PackageManagerInternal.PACKAGE_SYSTEM:
return "android";
case PackageManagerInternal.PACKAGE_VERIFIER:
return mRequiredVerifierPackage;
case PackageManagerInternal.PACKAGE_SYSTEM_TEXT_CLASSIFIER:
return mSystemTextClassifierPackage;
}
return null;
}
@Override
public boolean isResolveActivityComponent(ComponentInfo component) {
return mResolveActivity.packageName.equals(component.packageName)
&& mResolveActivity.name.equals(component.name);
}
@Override
public void setLocationPackagesProvider(PackagesProvider provider) {
mDefaultPermissionPolicy.setLocationPackagesProvider(provider);
}
@Override
public void setVoiceInteractionPackagesProvider(PackagesProvider provider) {
mDefaultPermissionPolicy.setVoiceInteractionPackagesProvider(provider);
}
@Override
public void setSmsAppPackagesProvider(PackagesProvider provider) {
mDefaultPermissionPolicy.setSmsAppPackagesProvider(provider);
}
@Override
public void setDialerAppPackagesProvider(PackagesProvider provider) {
mDefaultPermissionPolicy.setDialerAppPackagesProvider(provider);
}
@Override
public void setSimCallManagerPackagesProvider(PackagesProvider provider) {
mDefaultPermissionPolicy.setSimCallManagerPackagesProvider(provider);
}
@Override
public void setUseOpenWifiAppPackagesProvider(PackagesProvider provider) {
mDefaultPermissionPolicy.setUseOpenWifiAppPackagesProvider(provider);
}
@Override
public void setSyncAdapterPackagesprovider(SyncAdapterPackagesProvider provider) {
mDefaultPermissionPolicy.setSyncAdapterPackagesProvider(provider);
}
@Override
public void grantDefaultPermissionsToDefaultSmsApp(String packageName, int userId) {
mDefaultPermissionPolicy.grantDefaultPermissionsToDefaultSmsApp(packageName, userId);
}
@Override
public void grantDefaultPermissionsToDefaultDialerApp(String packageName, int userId) {
synchronized (mPackages) {
mSettings.setDefaultDialerPackageNameLPw(packageName, userId);
}
mDefaultPermissionPolicy.grantDefaultPermissionsToDefaultDialerApp(packageName, userId);
}
@Override
public void grantDefaultPermissionsToDefaultSimCallManager(String packageName, int userId) {
mDefaultPermissionPolicy.grantDefaultPermissionsToDefaultSimCallManager(
packageName, userId);
}
@Override
public void grantDefaultPermissionsToDefaultUseOpenWifiApp(String packageName, int userId) {
mDefaultPermissionPolicy.grantDefaultPermissionsToDefaultUseOpenWifiApp(
packageName, userId);
}
@Override
public void setKeepUninstalledPackages(final List<String> packageList) {
Preconditions.checkNotNull(packageList);
List<String> removedFromList = null;
synchronized (mPackages) {
if (mKeepUninstalledPackages != null) {
final int packagesCount = mKeepUninstalledPackages.size();
for (int i = 0; i < packagesCount; i++) {
String oldPackage = mKeepUninstalledPackages.get(i);
if (packageList != null && packageList.contains(oldPackage)) {
continue;
}
if (removedFromList == null) {
removedFromList = new ArrayList<>();
}
removedFromList.add(oldPackage);
}
}
mKeepUninstalledPackages = new ArrayList<>(packageList);
if (removedFromList != null) {
final int removedCount = removedFromList.size();
for (int i = 0; i < removedCount; i++) {
deletePackageIfUnusedLPr(removedFromList.get(i));
}
}
}
}
@Override
public boolean isPermissionsReviewRequired(String packageName, int userId) {
synchronized (mPackages) {
return mPermissionManager.isPermissionsReviewRequired(
mPackages.get(packageName), userId);
}
}
@Override
public PackageInfo getPackageInfo(
String packageName, int flags, int filterCallingUid, int userId) {
return PackageManagerService.this
.getPackageInfoInternal(packageName, PackageManager.VERSION_CODE_HIGHEST,
flags, filterCallingUid, userId);
}
@Override
public Bundle getSuspendedPackageLauncherExtras(String packageName, int userId) {
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
PersistableBundle launcherExtras = null;
if (ps != null) {
launcherExtras = ps.readUserState(userId).suspendedLauncherExtras;
}
return (launcherExtras != null) ? new Bundle(launcherExtras.deepCopy()) : null;
}
}
@Override
public boolean isPackageSuspended(String packageName, int userId) {
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
return (ps != null) ? ps.getSuspended(userId) : false;
}
}
@Override
public String getSuspendingPackage(String suspendedPackage, int userId) {
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(suspendedPackage);
return (ps != null) ? ps.readUserState(userId).suspendingPackage : null;
}
}
@Override
public String getSuspendedDialogMessage(String suspendedPackage, int userId) {
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(suspendedPackage);
return (ps != null) ? ps.readUserState(userId).dialogMessage : null;
}
}
@Override
public int getPackageUid(String packageName, int flags, int userId) {
return PackageManagerService.this
.getPackageUid(packageName, flags, userId);
}
@Override
public ApplicationInfo getApplicationInfo(
String packageName, int flags, int filterCallingUid, int userId) {
return PackageManagerService.this
.getApplicationInfoInternal(packageName, flags, filterCallingUid, userId);
}
@Override
public ActivityInfo getActivityInfo(
ComponentName component, int flags, int filterCallingUid, int userId) {
return PackageManagerService.this
.getActivityInfoInternal(component, flags, filterCallingUid, userId);
}
@Override
public List<ResolveInfo> queryIntentActivities(
Intent intent, int flags, int filterCallingUid, int userId) {
final String resolvedType = intent.resolveTypeIfNeeded(mContext.getContentResolver());
return PackageManagerService.this
.queryIntentActivitiesInternal(intent, resolvedType, flags, filterCallingUid,
userId, false /*resolveForStart*/, true /*allowDynamicSplits*/);
}
@Override
public List<ResolveInfo> queryIntentServices(
Intent intent, int flags, int callingUid, int userId) {
final String resolvedType = intent.resolveTypeIfNeeded(mContext.getContentResolver());
return PackageManagerService.this
.queryIntentServicesInternal(intent, resolvedType, flags, userId, callingUid,
false);
}
@Override
public ComponentName getHomeActivitiesAsUser(List<ResolveInfo> allHomeCandidates,
int userId) {
return PackageManagerService.this.getHomeActivitiesAsUser(allHomeCandidates, userId);
}
@Override
public ComponentName getDefaultHomeActivity(int userId) {
return PackageManagerService.this.getDefaultHomeActivity(userId);
}
@Override
public void setDeviceAndProfileOwnerPackages(
int deviceOwnerUserId, String deviceOwnerPackage,
SparseArray<String> profileOwnerPackages) {
mProtectedPackages.setDeviceAndProfileOwnerPackages(
deviceOwnerUserId, deviceOwnerPackage, profileOwnerPackages);
final ArraySet<Integer> usersWithPoOrDo = new ArraySet<>();
if (deviceOwnerPackage != null) {
usersWithPoOrDo.add(deviceOwnerUserId);
}
final int sz = profileOwnerPackages.size();
for (int i = 0; i < sz; i++) {
if (profileOwnerPackages.valueAt(i) != null) {
usersWithPoOrDo.add(profileOwnerPackages.keyAt(i));
}
}
unsuspendForNonSystemSuspendingPackages(usersWithPoOrDo);
}
@Override
public boolean isPackageDataProtected(int userId, String packageName) {
return mProtectedPackages.isPackageDataProtected(userId, packageName);
}
@Override
public boolean isPackageStateProtected(String packageName, int userId) {
return mProtectedPackages.isPackageStateProtected(userId, packageName);
}
@Override
public boolean isPackageEphemeral(int userId, String packageName) {
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
return ps != null ? ps.getInstantApp(userId) : false;
}
}
@Override
public boolean wasPackageEverLaunched(String packageName, int userId) {
synchronized (mPackages) {
return mSettings.wasPackageEverLaunchedLPr(packageName, userId);
}
}
@Override
public void grantRuntimePermission(String packageName, String permName, int userId,
boolean overridePolicy) {
PackageManagerService.this.mPermissionManager.grantRuntimePermission(
permName, packageName, overridePolicy, getCallingUid(), userId,
mPermissionCallback);
}
@Override
public void revokeRuntimePermission(String packageName, String permName, int userId,
boolean overridePolicy) {
mPermissionManager.revokeRuntimePermission(
permName, packageName, overridePolicy, getCallingUid(), userId,
mPermissionCallback);
}
@Override
public String getNameForUid(int uid) {
return PackageManagerService.this.getNameForUid(uid);
}
@Override
public void requestInstantAppResolutionPhaseTwo(AuxiliaryResolveInfo responseObj,
Intent origIntent, String resolvedType, String callingPackage,
Bundle verificationBundle, int userId) {
PackageManagerService.this.requestInstantAppResolutionPhaseTwo(
responseObj, origIntent, resolvedType, callingPackage, verificationBundle,
userId);
}
@Override
public void grantEphemeralAccess(int userId, Intent intent,
int targetAppId, int ephemeralAppId) {
synchronized (mPackages) {
mInstantAppRegistry.grantInstantAccessLPw(userId, intent,
targetAppId, ephemeralAppId);
}
}
@Override
public boolean isInstantAppInstallerComponent(ComponentName component) {
synchronized (mPackages) {
return mInstantAppInstallerActivity != null
&& mInstantAppInstallerActivity.getComponentName().equals(component);
}
}
@Override
public void pruneInstantApps() {
mInstantAppRegistry.pruneInstantApps();
}
@Override
public String getSetupWizardPackageName() {
return mSetupWizardPackage;
}
public void setExternalSourcesPolicy(ExternalSourcesPolicy policy) {
if (policy != null) {
mExternalSourcesPolicy = policy;
}
}
@Override
public boolean isPackagePersistent(String packageName) {
synchronized (mPackages) {
PackageParser.Package pkg = mPackages.get(packageName);
return pkg != null
? ((pkg.applicationInfo.flags&(ApplicationInfo.FLAG_SYSTEM
| ApplicationInfo.FLAG_PERSISTENT)) ==
(ApplicationInfo.FLAG_SYSTEM | ApplicationInfo.FLAG_PERSISTENT))
: false;
}
}
@Override
public boolean isLegacySystemApp(Package pkg) {
synchronized (mPackages) {
final PackageSetting ps = (PackageSetting) pkg.mExtras;
return mPromoteSystemApps
&& ps.isSystem()
&& mExistingSystemPackages.contains(ps.name);
}
}
@Override
public List<PackageInfo> getOverlayPackages(int userId) {
final ArrayList<PackageInfo> overlayPackages = new ArrayList<PackageInfo>();
synchronized (mPackages) {
for (PackageParser.Package p : mPackages.values()) {
if (p.mOverlayTarget != null) {
PackageInfo pkg = generatePackageInfo((PackageSetting)p.mExtras, 0, userId);
if (pkg != null) {
overlayPackages.add(pkg);
}
}
}
}
return overlayPackages;
}
@Override
public List<String> getTargetPackageNames(int userId) {
List<String> targetPackages = new ArrayList<>();
synchronized (mPackages) {
for (PackageParser.Package p : mPackages.values()) {
if (p.mOverlayTarget == null) {
targetPackages.add(p.packageName);
}
}
}
return targetPackages;
}
@Override
public boolean setEnabledOverlayPackages(int userId, @NonNull String targetPackageName,
@Nullable List<String> overlayPackageNames) {
synchronized (mPackages) {
if (targetPackageName == null || mPackages.get(targetPackageName) == null) {
Slog.e(TAG, "failed to find package " + targetPackageName);
return false;
}
ArrayList<String> overlayPaths = null;
if (overlayPackageNames != null && overlayPackageNames.size() > 0) {
final int N = overlayPackageNames.size();
overlayPaths = new ArrayList<>(N);
for (int i = 0; i < N; i++) {
final String packageName = overlayPackageNames.get(i);
final PackageParser.Package pkg = mPackages.get(packageName);
if (pkg == null) {
Slog.e(TAG, "failed to find package " + packageName);
return false;
}
overlayPaths.add(pkg.baseCodePath);
}
}
final PackageSetting ps = mSettings.mPackages.get(targetPackageName);
ps.setOverlayPaths(overlayPaths, userId);
return true;
}
}
@Override
public ResolveInfo resolveIntent(Intent intent, String resolvedType,
int flags, int userId, boolean resolveForStart, int filterCallingUid) {
return resolveIntentInternal(
intent, resolvedType, flags, userId, resolveForStart, filterCallingUid);
}
@Override
public ResolveInfo resolveService(Intent intent, String resolvedType,
int flags, int userId, int callingUid) {
return resolveServiceInternal(intent, resolvedType, flags, userId, callingUid);
}
@Override
public ProviderInfo resolveContentProvider(String name, int flags, int userId) {
return PackageManagerService.this.resolveContentProviderInternal(
name, flags, userId);
}
@Override
public void addIsolatedUid(int isolatedUid, int ownerUid) {
synchronized (mPackages) {
mIsolatedOwners.put(isolatedUid, ownerUid);
}
}
@Override
public void removeIsolatedUid(int isolatedUid) {
synchronized (mPackages) {
mIsolatedOwners.delete(isolatedUid);
}
}
@Override
public int getUidTargetSdkVersion(int uid) {
synchronized (mPackages) {
return getUidTargetSdkVersionLockedLPr(uid);
}
}
@Override
public int getPackageTargetSdkVersion(String packageName) {
synchronized (mPackages) {
return getPackageTargetSdkVersionLockedLPr(packageName);
}
}
@Override
public boolean canAccessInstantApps(int callingUid, int userId) {
return PackageManagerService.this.canViewInstantApps(callingUid, userId);
}
@Override
public boolean canAccessComponent(int callingUid, ComponentName component, int userId) {
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(component.getPackageName());
return !PackageManagerService.this.filterAppAccessLPr(
ps, callingUid, component, TYPE_UNKNOWN, userId);
}
}
@Override
public boolean hasInstantApplicationMetadata(String packageName, int userId) {
synchronized (mPackages) {
return mInstantAppRegistry.hasInstantApplicationMetadataLPr(packageName, userId);
}
}
@Override
public void notifyPackageUse(String packageName, int reason) {
synchronized (mPackages) {
PackageManagerService.this.notifyPackageUseLocked(packageName, reason);
}
}
}
@Override
public void grantDefaultPermissionsToEnabledCarrierApps(String[] packageNames, int userId) {
enforceSystemOrPhoneCaller("grantPermissionsToEnabledCarrierApps");
synchronized (mPackages) {
final long identity = Binder.clearCallingIdentity();
try {
mDefaultPermissionPolicy.grantDefaultPermissionsToEnabledCarrierApps(
packageNames, userId);
} finally {
Binder.restoreCallingIdentity(identity);
}
}
}
@Override
public void grantDefaultPermissionsToEnabledImsServices(String[] packageNames, int userId) {
enforceSystemOrPhoneCaller("grantDefaultPermissionsToEnabledImsServices");
synchronized (mPackages) {
final long identity = Binder.clearCallingIdentity();
try {
mDefaultPermissionPolicy.grantDefaultPermissionsToEnabledImsServices(
packageNames, userId);
} finally {
Binder.restoreCallingIdentity(identity);
}
}
}
@Override
public void grantDefaultPermissionsToEnabledTelephonyDataServices(
String[] packageNames, int userId) {
enforceSystemOrPhoneCaller("grantDefaultPermissionsToEnabledTelephonyDataServices");
synchronized (mPackages) {
Binder.withCleanCallingIdentity( () -> {
mDefaultPermissionPolicy.
grantDefaultPermissionsToEnabledTelephonyDataServices(
packageNames, userId);
});
}
}
@Override
public void revokeDefaultPermissionsFromDisabledTelephonyDataServices(
String[] packageNames, int userId) {
enforceSystemOrPhoneCaller("revokeDefaultPermissionsFromDisabledTelephonyDataServices");
synchronized (mPackages) {
Binder.withCleanCallingIdentity( () -> {
mDefaultPermissionPolicy.
revokeDefaultPermissionsFromDisabledTelephonyDataServices(
packageNames, userId);
});
}
}
@Override
public void grantDefaultPermissionsToActiveLuiApp(String packageName, int userId) {
enforceSystemOrPhoneCaller("grantDefaultPermissionsToActiveLuiApp");
synchronized (mPackages) {
final long identity = Binder.clearCallingIdentity();
try {
mDefaultPermissionPolicy.grantDefaultPermissionsToActiveLuiApp(
packageName, userId);
} finally {
Binder.restoreCallingIdentity(identity);
}
}
}
@Override
public void revokeDefaultPermissionsFromLuiApps(String[] packageNames, int userId) {
enforceSystemOrPhoneCaller("revokeDefaultPermissionsFromLuiApps");
synchronized (mPackages) {
final long identity = Binder.clearCallingIdentity();
try {
mDefaultPermissionPolicy.revokeDefaultPermissionsFromLuiApps(packageNames, userId);
} finally {
Binder.restoreCallingIdentity(identity);
}
}
}
private static void enforceSystemOrPhoneCaller(String tag) {
int callingUid = Binder.getCallingUid();
if (callingUid != Process.PHONE_UID && callingUid != Process.SYSTEM_UID) {
throw new SecurityException(
"Cannot call " + tag + " from UID " + callingUid);
}
}
boolean isHistoricalPackageUsageAvailable() {
return mPackageUsage.isHistoricalPackageUsageAvailable();
}
/**
* Return a <b>copy</b> of the collection of packages known to the package manager.
* @return A copy of the values of mPackages.
*/
Collection<PackageParser.Package> getPackages() {
synchronized (mPackages) {
return new ArrayList<>(mPackages.values());
}
}
/**
* Logs process start information (including base APK hash) to the security log.
* @hide
*/
@Override
public void logAppProcessStartIfNeeded(String processName, int uid, String seinfo,
String apkFile, int pid) {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return;
}
if (!SecurityLog.isLoggingEnabled()) {
return;
}
Bundle data = new Bundle();
data.putLong("startTimestamp", System.currentTimeMillis());
data.putString("processName", processName);
data.putInt("uid", uid);
data.putString("seinfo", seinfo);
data.putString("apkFile", apkFile);
data.putInt("pid", pid);
Message msg = mProcessLoggingHandler.obtainMessage(
ProcessLoggingHandler.LOG_APP_PROCESS_START_MSG);
msg.setData(data);
mProcessLoggingHandler.sendMessage(msg);
}
public CompilerStats.PackageStats getCompilerPackageStats(String pkgName) {
return mCompilerStats.getPackageStats(pkgName);
}
public CompilerStats.PackageStats getOrCreateCompilerPackageStats(PackageParser.Package pkg) {
return getOrCreateCompilerPackageStats(pkg.packageName);
}
public CompilerStats.PackageStats getOrCreateCompilerPackageStats(String pkgName) {
return mCompilerStats.getOrCreatePackageStats(pkgName);
}
public void deleteCompilerPackageStats(String pkgName) {
mCompilerStats.deletePackageStats(pkgName);
}
@Override
public int getInstallReason(String packageName, int userId) {
final int callingUid = Binder.getCallingUid();
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /* requireFullPermission */, false /* checkShell */,
"get install reason");
synchronized (mPackages) {
final PackageSetting ps = mSettings.mPackages.get(packageName);
if (filterAppAccessLPr(ps, callingUid, userId)) {
return PackageManager.INSTALL_REASON_UNKNOWN;
}
if (ps != null) {
return ps.getInstallReason(userId);
}
}
return PackageManager.INSTALL_REASON_UNKNOWN;
}
@Override
public boolean canRequestPackageInstalls(String packageName, int userId) {
return canRequestPackageInstallsInternal(packageName, 0, userId,
true /* throwIfPermNotDeclared*/);
}
private boolean canRequestPackageInstallsInternal(String packageName, int flags, int userId,
boolean throwIfPermNotDeclared) {
int callingUid = Binder.getCallingUid();
int uid = getPackageUid(packageName, 0, userId);
if (callingUid != uid && callingUid != Process.ROOT_UID
&& callingUid != Process.SYSTEM_UID) {
throw new SecurityException(
"Caller uid " + callingUid + " does not own package " + packageName);
}
ApplicationInfo info = getApplicationInfo(packageName, flags, userId);
if (info == null) {
return false;
}
if (info.targetSdkVersion < Build.VERSION_CODES.O) {
return false;
}
if (isInstantApp(packageName, userId)) {
return false;
}
String appOpPermission = Manifest.permission.REQUEST_INSTALL_PACKAGES;
String[] packagesDeclaringPermission = getAppOpPermissionPackages(appOpPermission);
if (!ArrayUtils.contains(packagesDeclaringPermission, packageName)) {
if (throwIfPermNotDeclared) {
throw new SecurityException("Need to declare " + appOpPermission
+ " to call this api");
} else {
Slog.e(TAG, "Need to declare " + appOpPermission + " to call this api");
return false;
}
}
if (sUserManager.hasUserRestriction(UserManager.DISALLOW_INSTALL_UNKNOWN_SOURCES, userId)) {
return false;
}
if (mExternalSourcesPolicy != null) {
int isTrusted = mExternalSourcesPolicy.getPackageTrustedToInstallApps(packageName, uid);
if (isTrusted != PackageManagerInternal.ExternalSourcesPolicy.USER_DEFAULT) {
return isTrusted == PackageManagerInternal.ExternalSourcesPolicy.USER_TRUSTED;
}
}
return checkUidPermission(appOpPermission, uid) == PERMISSION_GRANTED;
}
@Override
public ComponentName getInstantAppResolverSettingsComponent() {
return mInstantAppResolverSettingsComponent;
}
@Override
public ComponentName getInstantAppInstallerComponent() {
if (getInstantAppPackageName(Binder.getCallingUid()) != null) {
return null;
}
return mInstantAppInstallerActivity == null
? null : mInstantAppInstallerActivity.getComponentName();
}
@Override
public String getInstantAppAndroidId(String packageName, int userId) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.ACCESS_INSTANT_APPS,
"getInstantAppAndroidId");
mPermissionManager.enforceCrossUserPermission(Binder.getCallingUid(), userId,
true /* requireFullPermission */, false /* checkShell */,
"getInstantAppAndroidId");
// Make sure the target is an Instant App.
if (!isInstantApp(packageName, userId)) {
return null;
}
synchronized (mPackages) {
return mInstantAppRegistry.getInstantAppAndroidIdLPw(packageName, userId);
}
}
boolean canHaveOatDir(String packageName) {
synchronized (mPackages) {
PackageParser.Package p = mPackages.get(packageName);
if (p == null) {
return false;
}
return p.canHaveOatDir();
}
}
private String getOatDir(PackageParser.Package pkg) {
if (!pkg.canHaveOatDir()) {
return null;
}
File codePath = new File(pkg.codePath);
if (codePath.isDirectory()) {
return PackageDexOptimizer.getOatDir(codePath).getAbsolutePath();
}
return null;
}
void deleteOatArtifactsOfPackage(String packageName) {
final String[] instructionSets;
final List<String> codePaths;
final String oatDir;
final PackageParser.Package pkg;
synchronized (mPackages) {
pkg = mPackages.get(packageName);
}
instructionSets = getAppDexInstructionSets(pkg.applicationInfo);
codePaths = pkg.getAllCodePaths();
oatDir = getOatDir(pkg);
for (String codePath : codePaths) {
for (String isa : instructionSets) {
try {
mInstaller.deleteOdex(codePath, isa, oatDir);
} catch (InstallerException e) {
Log.e(TAG, "Failed deleting oat files for " + codePath, e);
}
}
}
}
Set<String> getUnusedPackages(long downgradeTimeThresholdMillis) {
Set<String> unusedPackages = new HashSet<>();
long currentTimeInMillis = System.currentTimeMillis();
synchronized (mPackages) {
for (PackageParser.Package pkg : mPackages.values()) {
PackageSetting ps = mSettings.mPackages.get(pkg.packageName);
if (ps == null) {
continue;
}
PackageDexUsage.PackageUseInfo packageUseInfo =
getDexManager().getPackageUseInfoOrDefault(pkg.packageName);
if (PackageManagerServiceUtils
.isUnusedSinceTimeInMillis(ps.firstInstallTime, currentTimeInMillis,
downgradeTimeThresholdMillis, packageUseInfo,
pkg.getLatestPackageUseTimeInMills(),
pkg.getLatestForegroundPackageUseTimeInMills())) {
unusedPackages.add(pkg.packageName);
}
}
}
return unusedPackages;
}
@Override
public void setHarmfulAppWarning(@NonNull String packageName, @Nullable CharSequence warning,
int userId) {
final int callingUid = Binder.getCallingUid();
final int callingAppId = UserHandle.getAppId(callingUid);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /*requireFullPermission*/, true /*checkShell*/, "setHarmfulAppInfo");
if (callingAppId != Process.SYSTEM_UID && callingAppId != Process.ROOT_UID &&
checkUidPermission(SET_HARMFUL_APP_WARNINGS, callingUid) != PERMISSION_GRANTED) {
throw new SecurityException("Caller must have the "
+ SET_HARMFUL_APP_WARNINGS + " permission.");
}
synchronized(mPackages) {
mSettings.setHarmfulAppWarningLPw(packageName, warning, userId);
scheduleWritePackageRestrictionsLocked(userId);
}
}
@Nullable
@Override
public CharSequence getHarmfulAppWarning(@NonNull String packageName, int userId) {
final int callingUid = Binder.getCallingUid();
final int callingAppId = UserHandle.getAppId(callingUid);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
true /*requireFullPermission*/, true /*checkShell*/, "getHarmfulAppInfo");
if (callingAppId != Process.SYSTEM_UID && callingAppId != Process.ROOT_UID &&
checkUidPermission(SET_HARMFUL_APP_WARNINGS, callingUid) != PERMISSION_GRANTED) {
throw new SecurityException("Caller must have the "
+ SET_HARMFUL_APP_WARNINGS + " permission.");
}
synchronized(mPackages) {
return mSettings.getHarmfulAppWarningLPr(packageName, userId);
}
}
@Override
public boolean isPackageStateProtected(@NonNull String packageName, @UserIdInt int userId) {
final int callingUid = Binder.getCallingUid();
final int callingAppId = UserHandle.getAppId(callingUid);
mPermissionManager.enforceCrossUserPermission(callingUid, userId,
false /*requireFullPermission*/, true /*checkShell*/, "isPackageStateProtected");
if (callingAppId != Process.SYSTEM_UID && callingAppId != Process.ROOT_UID
&& checkUidPermission(MANAGE_DEVICE_ADMINS, callingUid) != PERMISSION_GRANTED) {
throw new SecurityException("Caller must have the "
+ MANAGE_DEVICE_ADMINS + " permission.");
}
return mProtectedPackages.isPackageStateProtected(userId, packageName);
}
}
interface PackageSender {
/**
* @param userIds User IDs where the action occurred on a full application
* @param instantUserIds User IDs where the action occurred on an instant application
*/
void sendPackageBroadcast(final String action, final String pkg,
final Bundle extras, final int flags, final String targetPkg,
final IIntentReceiver finishedReceiver, final int[] userIds, int[] instantUserIds);
void sendPackageAddedForNewUsers(String packageName, boolean sendBootCompleted,
boolean includeStopped, int appId, int[] userIds, int[] instantUserIds);
void notifyPackageAdded(String packageName);
void notifyPackageRemoved(String packageName);
}