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script-astra/Android/Sdk/sources/android-35/android/content/pm/PackageParser.java
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2025-01-20 18:15:20 +03:00

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/*
* Copyright (C) 2022 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 android.content.pm;
import static android.content.pm.ActivityInfo.FLAG_ALWAYS_FOCUSABLE;
import static android.content.pm.ActivityInfo.FLAG_SUPPORTS_PICTURE_IN_PICTURE;
import static android.content.pm.ActivityInfo.RESIZE_MODE_FORCE_RESIZABLE_LANDSCAPE_ONLY;
import static android.content.pm.ActivityInfo.RESIZE_MODE_FORCE_RESIZABLE_PORTRAIT_ONLY;
import static android.content.pm.ActivityInfo.RESIZE_MODE_FORCE_RESIZABLE_PRESERVE_ORIENTATION;
import static android.content.pm.ActivityInfo.RESIZE_MODE_FORCE_RESIZEABLE;
import static android.content.pm.ActivityInfo.RESIZE_MODE_RESIZEABLE;
import static android.content.pm.ActivityInfo.RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION;
import static android.content.pm.ActivityInfo.RESIZE_MODE_UNRESIZEABLE;
import static android.content.pm.ActivityInfo.SCREEN_ORIENTATION_UNSPECIFIED;
import static android.content.pm.ApplicationInfo.FLAG_SUSPENDED;
import static android.content.pm.ApplicationInfo.PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_RESIZEABLE;
import static android.content.pm.ApplicationInfo.PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION;
import static android.content.pm.ApplicationInfo.PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_UNRESIZEABLE;
import static android.content.pm.PackageManager.INSTALL_FAILED_INVALID_APK;
import static android.content.pm.PackageManager.INSTALL_PARSE_FAILED_BAD_MANIFEST;
import static android.content.pm.PackageManager.INSTALL_PARSE_FAILED_BAD_PACKAGE_NAME;
import static android.content.pm.PackageManager.INSTALL_PARSE_FAILED_INCONSISTENT_CERTIFICATES;
import static android.content.pm.PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
import static android.content.pm.PackageManager.INSTALL_PARSE_FAILED_NOT_APK;
import static android.content.pm.PackageManager.INSTALL_PARSE_FAILED_UNEXPECTED_EXCEPTION;
import static android.content.pm.PackageManager.MATCH_DISABLED_COMPONENTS;
import static android.content.pm.PackageManager.MATCH_DISABLED_UNTIL_USED_COMPONENTS;
import static android.os.Build.VERSION_CODES.O;
import static android.os.Trace.TRACE_TAG_PACKAGE_MANAGER;
import static android.view.WindowManager.LayoutParams.ROTATION_ANIMATION_UNSPECIFIED;
import android.annotation.IntDef;
import android.annotation.IntRange;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.annotation.StringRes;
import android.apex.ApexInfo;
import android.app.ActivityTaskManager;
import android.app.ActivityThread;
import android.app.ResourcesManager;
import android.compat.annotation.UnsupportedAppUsage;
import android.content.ComponentName;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.pm.overlay.OverlayPaths;
import android.content.pm.parsing.result.ParseResult;
import android.content.pm.parsing.result.ParseTypeImpl;
import android.content.pm.permission.SplitPermissionInfoParcelable;
import android.content.pm.pkg.FrameworkPackageUserState;
import android.content.res.ApkAssets;
import android.content.res.AssetManager;
import android.content.res.Configuration;
import android.content.res.Resources;
import android.content.res.TypedArray;
import android.content.res.XmlResourceParser;
import android.os.Build;
import android.os.Bundle;
import android.os.Debug;
import android.os.FileUtils;
import android.os.Parcel;
import android.os.Parcelable;
import android.os.PatternMatcher;
import android.os.RemoteException;
import android.os.SystemProperties;
import android.os.Trace;
import android.os.UserHandle;
import android.os.storage.StorageManager;
import android.permission.PermissionManager;
import android.text.TextUtils;
import android.util.ArrayMap;
import android.util.ArraySet;
import android.util.AttributeSet;
import android.util.Base64;
import android.util.DebugUtils;
import android.util.DisplayMetrics;
import android.util.IntArray;
import android.util.Log;
import android.util.PackageUtils;
import android.util.Pair;
import android.util.Slog;
import android.util.SparseArray;
import android.util.TypedValue;
import android.util.apk.ApkSignatureVerifier;
import android.view.Gravity;
import com.android.internal.R;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.os.ClassLoaderFactory;
import com.android.internal.util.ArrayUtils;
import com.android.internal.util.XmlUtils;
import libcore.io.IoUtils;
import libcore.util.EmptyArray;
import libcore.util.HexEncoding;
import org.xmlpull.v1.XmlPullParser;
import org.xmlpull.v1.XmlPullParserException;
import java.io.File;
import java.io.FileDescriptor;
import java.io.IOException;
import java.io.PrintWriter;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.lang.reflect.Constructor;
import java.security.KeyFactory;
import java.security.NoSuchAlgorithmException;
import java.security.PublicKey;
import java.security.cert.CertificateException;
import java.security.spec.EncodedKeySpec;
import java.security.spec.InvalidKeySpecException;
import java.security.spec.X509EncodedKeySpec;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.BitSet;
import java.util.Collections;
import java.util.Comparator;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.UUID;
/**
* Parser for package files (APKs) on disk. This supports apps packaged either
* as a single "monolithic" APK, or apps packaged as a "cluster" of multiple
* APKs in a single directory.
* <p>
* Apps packaged as multiple APKs always consist of a single "base" APK (with a
* {@code null} split name) and zero or more "split" APKs (with unique split
* names). Any subset of those split APKs are a valid install, as long as the
* following constraints are met:
* <ul>
* <li>All APKs must have the exact same package name, version code, and signing
* certificates.
* <li>All APKs must have unique split names.
* <li>All installations must contain a single base APK.
* </ul>
*
* @deprecated This class is mostly unused and no new changes should be added to it. Use
* ParsingPackageUtils and related parsing v2 infrastructure in
* the core/services parsing subpackages. Or for a quick parse of a provided APK, use
* {@link PackageManager#getPackageArchiveInfo(String, int)}.
*
* @hide
*/
@Deprecated
public class PackageParser {
public static final boolean DEBUG_JAR = false;
public static final boolean DEBUG_PARSER = false;
public static final boolean DEBUG_BACKUP = false;
public static final boolean LOG_PARSE_TIMINGS = Build.IS_DEBUGGABLE;
public static final int LOG_PARSE_TIMINGS_THRESHOLD_MS = 100;
private static final String PROPERTY_CHILD_PACKAGES_ENABLED =
"persist.sys.child_packages_enabled";
public static final boolean MULTI_PACKAGE_APK_ENABLED = Build.IS_DEBUGGABLE &&
SystemProperties.getBoolean(PROPERTY_CHILD_PACKAGES_ENABLED, false);
public static final float DEFAULT_PRE_O_MAX_ASPECT_RATIO = 1.86f;
private static final int DEFAULT_MIN_SDK_VERSION = 1;
private static final int DEFAULT_TARGET_SDK_VERSION = 0;
// TODO: switch outError users to PackageParserException
// TODO: refactor "codePath" to "apkPath"
/** File name in an APK for the Android manifest. */
public static final String ANDROID_MANIFEST_FILENAME = "AndroidManifest.xml";
/** Path prefix for apps on expanded storage */
public static final String MNT_EXPAND = "/mnt/expand/";
public static final String TAG_ADOPT_PERMISSIONS = "adopt-permissions";
public static final String TAG_APPLICATION = "application";
public static final String TAG_COMPATIBLE_SCREENS = "compatible-screens";
public static final String TAG_EAT_COMMENT = "eat-comment";
public static final String TAG_FEATURE_GROUP = "feature-group";
public static final String TAG_INSTRUMENTATION = "instrumentation";
public static final String TAG_KEY_SETS = "key-sets";
public static final String TAG_MANIFEST = "manifest";
public static final String TAG_ORIGINAL_PACKAGE = "original-package";
public static final String TAG_OVERLAY = "overlay";
public static final String TAG_PACKAGE = "package";
public static final String TAG_PACKAGE_VERIFIER = "package-verifier";
public static final String TAG_ATTRIBUTION = "attribution";
public static final String TAG_PERMISSION = "permission";
public static final String TAG_PERMISSION_GROUP = "permission-group";
public static final String TAG_PERMISSION_TREE = "permission-tree";
public static final String TAG_PROTECTED_BROADCAST = "protected-broadcast";
public static final String TAG_QUERIES = "queries";
public static final String TAG_RESTRICT_UPDATE = "restrict-update";
public static final String TAG_SUPPORT_SCREENS = "supports-screens";
public static final String TAG_SUPPORTS_INPUT = "supports-input";
public static final String TAG_USES_CONFIGURATION = "uses-configuration";
public static final String TAG_USES_FEATURE = "uses-feature";
public static final String TAG_USES_GL_TEXTURE = "uses-gl-texture";
public static final String TAG_USES_PERMISSION = "uses-permission";
public static final String TAG_USES_PERMISSION_SDK_23 = "uses-permission-sdk-23";
public static final String TAG_USES_PERMISSION_SDK_M = "uses-permission-sdk-m";
public static final String TAG_USES_SDK = "uses-sdk";
public static final String TAG_USES_SPLIT = "uses-split";
public static final String TAG_PROFILEABLE = "profileable";
public static final String METADATA_MAX_ASPECT_RATIO = "android.max_aspect";
public static final String METADATA_SUPPORTS_SIZE_CHANGES = "android.supports_size_changes";
public static final String METADATA_ACTIVITY_WINDOW_LAYOUT_AFFINITY =
"android.activity_window_layout_affinity";
/**
* Bit mask of all the valid bits that can be set in recreateOnConfigChanges.
* @hide
*/
private static final int RECREATE_ON_CONFIG_CHANGES_MASK =
ActivityInfo.CONFIG_MCC | ActivityInfo.CONFIG_MNC;
// These are the tags supported by child packages
public static final Set<String> CHILD_PACKAGE_TAGS = new ArraySet<>();
static {
CHILD_PACKAGE_TAGS.add(TAG_APPLICATION);
CHILD_PACKAGE_TAGS.add(TAG_COMPATIBLE_SCREENS);
CHILD_PACKAGE_TAGS.add(TAG_EAT_COMMENT);
CHILD_PACKAGE_TAGS.add(TAG_FEATURE_GROUP);
CHILD_PACKAGE_TAGS.add(TAG_INSTRUMENTATION);
CHILD_PACKAGE_TAGS.add(TAG_SUPPORT_SCREENS);
CHILD_PACKAGE_TAGS.add(TAG_SUPPORTS_INPUT);
CHILD_PACKAGE_TAGS.add(TAG_USES_CONFIGURATION);
CHILD_PACKAGE_TAGS.add(TAG_USES_FEATURE);
CHILD_PACKAGE_TAGS.add(TAG_USES_GL_TEXTURE);
CHILD_PACKAGE_TAGS.add(TAG_USES_PERMISSION);
CHILD_PACKAGE_TAGS.add(TAG_USES_PERMISSION_SDK_23);
CHILD_PACKAGE_TAGS.add(TAG_USES_PERMISSION_SDK_M);
CHILD_PACKAGE_TAGS.add(TAG_USES_SDK);
}
public static final boolean LOG_UNSAFE_BROADCASTS = false;
// Set of broadcast actions that are safe for manifest receivers
public static final Set<String> SAFE_BROADCASTS = new ArraySet<>();
static {
SAFE_BROADCASTS.add(Intent.ACTION_BOOT_COMPLETED);
}
/** @hide */
public static final String APK_FILE_EXTENSION = ".apk";
/** @hide */
public static final String APEX_FILE_EXTENSION = ".apex";
/** @hide */
public static class NewPermissionInfo {
@UnsupportedAppUsage
public final String name;
@UnsupportedAppUsage
public final int sdkVersion;
public final int fileVersion;
public NewPermissionInfo(String name, int sdkVersion, int fileVersion) {
this.name = name;
this.sdkVersion = sdkVersion;
this.fileVersion = fileVersion;
}
}
/**
* List of new permissions that have been added since 1.0.
* NOTE: These must be declared in SDK version order, with permissions
* added to older SDKs appearing before those added to newer SDKs.
* If sdkVersion is 0, then this is not a permission that we want to
* automatically add to older apps, but we do want to allow it to be
* granted during a platform update.
* @hide
*/
@UnsupportedAppUsage
public static final PackageParser.NewPermissionInfo NEW_PERMISSIONS[] =
new PackageParser.NewPermissionInfo[] {
new PackageParser.NewPermissionInfo(android.Manifest.permission.WRITE_EXTERNAL_STORAGE,
android.os.Build.VERSION_CODES.DONUT, 0),
new PackageParser.NewPermissionInfo(android.Manifest.permission.READ_PHONE_STATE,
android.os.Build.VERSION_CODES.DONUT, 0)
};
/**
* @deprecated callers should move to explicitly passing around source path.
*/
@Deprecated
public String mArchiveSourcePath;
public String[] mSeparateProcesses;
private boolean mOnlyCoreApps;
private DisplayMetrics mMetrics;
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
public Callback mCallback;
private File mCacheDir;
public static final int SDK_VERSION = Build.VERSION.SDK_INT;
public static final String[] SDK_CODENAMES = Build.VERSION.ACTIVE_CODENAMES;
public int mParseError = PackageManager.INSTALL_SUCCEEDED;
public static boolean sCompatibilityModeEnabled = true;
public static boolean sUseRoundIcon = false;
public static final int PARSE_DEFAULT_INSTALL_LOCATION =
PackageInfo.INSTALL_LOCATION_UNSPECIFIED;
public static final int PARSE_DEFAULT_TARGET_SANDBOX = 1;
static class ParsePackageItemArgs {
final Package owner;
final String[] outError;
final int nameRes;
final int labelRes;
final int iconRes;
final int roundIconRes;
final int logoRes;
final int bannerRes;
String tag;
TypedArray sa;
ParsePackageItemArgs(Package _owner, String[] _outError,
int _nameRes, int _labelRes, int _iconRes, int _roundIconRes, int _logoRes,
int _bannerRes) {
owner = _owner;
outError = _outError;
nameRes = _nameRes;
labelRes = _labelRes;
iconRes = _iconRes;
logoRes = _logoRes;
bannerRes = _bannerRes;
roundIconRes = _roundIconRes;
}
}
/** @hide */
@VisibleForTesting
public static class ParseComponentArgs extends ParsePackageItemArgs {
final String[] sepProcesses;
final int processRes;
final int descriptionRes;
final int enabledRes;
int flags;
public ParseComponentArgs(Package _owner, String[] _outError,
int _nameRes, int _labelRes, int _iconRes, int _roundIconRes, int _logoRes,
int _bannerRes,
String[] _sepProcesses, int _processRes,
int _descriptionRes, int _enabledRes) {
super(_owner, _outError, _nameRes, _labelRes, _iconRes, _roundIconRes, _logoRes,
_bannerRes);
sepProcesses = _sepProcesses;
processRes = _processRes;
descriptionRes = _descriptionRes;
enabledRes = _enabledRes;
}
}
/**
* Lightweight parsed details about a single package.
*/
public static class PackageLite {
@UnsupportedAppUsage
public final String packageName;
public final int versionCode;
public final int versionCodeMajor;
@UnsupportedAppUsage
public final int installLocation;
public final VerifierInfo[] verifiers;
/** Names of any split APKs, ordered by parsed splitName */
public final String[] splitNames;
/** Names of any split APKs that are features. Ordered by splitName */
public final boolean[] isFeatureSplits;
/** Dependencies of any split APKs, ordered by parsed splitName */
public final String[] usesSplitNames;
public final String[] configForSplit;
/**
* Path where this package was found on disk. For monolithic packages
* this is path to single base APK file; for cluster packages this is
* path to the cluster directory.
*/
public final String codePath;
/** Path of base APK */
public final String baseCodePath;
/** Paths of any split APKs, ordered by parsed splitName */
public final String[] splitCodePaths;
/** Revision code of base APK */
public final int baseRevisionCode;
/** Revision codes of any split APKs, ordered by parsed splitName */
public final int[] splitRevisionCodes;
public final boolean coreApp;
public final boolean debuggable;
public final boolean multiArch;
public final boolean use32bitAbi;
public final boolean extractNativeLibs;
public final boolean isolatedSplits;
// This does not represent the actual manifest structure since the 'profilable' tag
// could be used with attributes other than 'shell'. Extend if necessary.
public final boolean profilableByShell;
public final boolean isSplitRequired;
public final boolean useEmbeddedDex;
public PackageLite(String codePath, String baseCodePath, ApkLite baseApk,
String[] splitNames, boolean[] isFeatureSplits, String[] usesSplitNames,
String[] configForSplit, String[] splitCodePaths, int[] splitRevisionCodes) {
this.packageName = baseApk.packageName;
this.versionCode = baseApk.versionCode;
this.versionCodeMajor = baseApk.versionCodeMajor;
this.installLocation = baseApk.installLocation;
this.verifiers = baseApk.verifiers;
this.splitNames = splitNames;
this.isFeatureSplits = isFeatureSplits;
this.usesSplitNames = usesSplitNames;
this.configForSplit = configForSplit;
// The following paths may be different from the path in ApkLite because we
// move or rename the APK files. Use parameters to indicate the correct paths.
this.codePath = codePath;
this.baseCodePath = baseCodePath;
this.splitCodePaths = splitCodePaths;
this.baseRevisionCode = baseApk.revisionCode;
this.splitRevisionCodes = splitRevisionCodes;
this.coreApp = baseApk.coreApp;
this.debuggable = baseApk.debuggable;
this.multiArch = baseApk.multiArch;
this.use32bitAbi = baseApk.use32bitAbi;
this.extractNativeLibs = baseApk.extractNativeLibs;
this.isolatedSplits = baseApk.isolatedSplits;
this.useEmbeddedDex = baseApk.useEmbeddedDex;
this.isSplitRequired = baseApk.isSplitRequired;
this.profilableByShell = baseApk.profilableByShell;
}
public List<String> getAllCodePaths() {
ArrayList<String> paths = new ArrayList<>();
paths.add(baseCodePath);
if (!ArrayUtils.isEmpty(splitCodePaths)) {
Collections.addAll(paths, splitCodePaths);
}
return paths;
}
public long getLongVersionCode() {
return PackageInfo.composeLongVersionCode(versionCodeMajor, versionCode);
}
}
/**
* Lightweight parsed details about a single APK file.
*/
public static class ApkLite {
public final String codePath;
public final String packageName;
public final String splitName;
public boolean isFeatureSplit;
public final String configForSplit;
public final String usesSplitName;
public final int versionCode;
public final int versionCodeMajor;
public final int revisionCode;
public final int installLocation;
public final int minSdkVersion;
public final int targetSdkVersion;
public final VerifierInfo[] verifiers;
public final SigningDetails signingDetails;
public final boolean coreApp;
public final boolean debuggable;
// This does not represent the actual manifest structure since the 'profilable' tag
// could be used with attributes other than 'shell'. Extend if necessary.
public final boolean profilableByShell;
public final boolean multiArch;
public final boolean use32bitAbi;
public final boolean extractNativeLibs;
public final boolean isolatedSplits;
public final boolean isSplitRequired;
public final boolean useEmbeddedDex;
public final String targetPackageName;
public final boolean overlayIsStatic;
public final int overlayPriority;
public final int rollbackDataPolicy;
public ApkLite(String codePath, String packageName, String splitName,
boolean isFeatureSplit,
String configForSplit, String usesSplitName, boolean isSplitRequired,
int versionCode, int versionCodeMajor,
int revisionCode, int installLocation, List<VerifierInfo> verifiers,
SigningDetails signingDetails, boolean coreApp,
boolean debuggable, boolean profilableByShell, boolean multiArch,
boolean use32bitAbi, boolean useEmbeddedDex, boolean extractNativeLibs,
boolean isolatedSplits, String targetPackageName, boolean overlayIsStatic,
int overlayPriority, int minSdkVersion, int targetSdkVersion,
int rollbackDataPolicy) {
this.codePath = codePath;
this.packageName = packageName;
this.splitName = splitName;
this.isFeatureSplit = isFeatureSplit;
this.configForSplit = configForSplit;
this.usesSplitName = usesSplitName;
this.versionCode = versionCode;
this.versionCodeMajor = versionCodeMajor;
this.revisionCode = revisionCode;
this.installLocation = installLocation;
this.signingDetails = signingDetails;
this.verifiers = verifiers.toArray(new VerifierInfo[verifiers.size()]);
this.coreApp = coreApp;
this.debuggable = debuggable;
this.profilableByShell = profilableByShell;
this.multiArch = multiArch;
this.use32bitAbi = use32bitAbi;
this.useEmbeddedDex = useEmbeddedDex;
this.extractNativeLibs = extractNativeLibs;
this.isolatedSplits = isolatedSplits;
this.isSplitRequired = isSplitRequired;
this.targetPackageName = targetPackageName;
this.overlayIsStatic = overlayIsStatic;
this.overlayPriority = overlayPriority;
this.minSdkVersion = minSdkVersion;
this.targetSdkVersion = targetSdkVersion;
this.rollbackDataPolicy = rollbackDataPolicy;
}
public long getLongVersionCode() {
return PackageInfo.composeLongVersionCode(versionCodeMajor, versionCode);
}
}
/**
* Cached parse state for new components.
*
* Allows reuse of the same parse argument records to avoid GC pressure. Lifetime is carefully
* scoped to the parsing of a single application element.
*/
private static class CachedComponentArgs {
ParseComponentArgs mActivityArgs;
ParseComponentArgs mActivityAliasArgs;
ParseComponentArgs mServiceArgs;
ParseComponentArgs mProviderArgs;
}
/**
* Cached state for parsing instrumentation to avoid GC pressure.
*
* Must be manually reset to null for each new manifest.
*/
private ParsePackageItemArgs mParseInstrumentationArgs;
/** If set to true, we will only allow package files that exactly match
* the DTD. Otherwise, we try to get as much from the package as we
* can without failing. This should normally be set to false, to
* support extensions to the DTD in future versions. */
public static final boolean RIGID_PARSER = false;
private static final String TAG = "PackageParser";
@UnsupportedAppUsage
public PackageParser() {
mMetrics = new DisplayMetrics();
mMetrics.setToDefaults();
}
@UnsupportedAppUsage
public void setSeparateProcesses(String[] procs) {
mSeparateProcesses = procs;
}
/**
* Flag indicating this parser should only consider apps with
* {@code coreApp} manifest attribute to be valid apps. This is useful when
* creating a minimalist boot environment.
*/
public void setOnlyCoreApps(boolean onlyCoreApps) {
mOnlyCoreApps = onlyCoreApps;
}
public void setDisplayMetrics(DisplayMetrics metrics) {
mMetrics = metrics;
}
/**
* Sets the cache directory for this package parser.
*/
public void setCacheDir(File cacheDir) {
mCacheDir = cacheDir;
}
/**
* Callback interface for retrieving information that may be needed while parsing
* a package.
*/
public interface Callback {
boolean hasFeature(String feature);
}
/**
* Standard implementation of {@link Callback} on top of the public {@link PackageManager}
* class.
*/
public static final class CallbackImpl implements Callback {
private final PackageManager mPm;
public CallbackImpl(PackageManager pm) {
mPm = pm;
}
@Override public boolean hasFeature(String feature) {
return mPm.hasSystemFeature(feature);
}
}
/**
* Set the {@link Callback} that can be used while parsing.
*/
public void setCallback(Callback cb) {
mCallback = cb;
}
public static final boolean isApkFile(File file) {
return isApkPath(file.getName());
}
public static boolean isApkPath(String path) {
return path.endsWith(APK_FILE_EXTENSION);
}
/**
* Returns true if the package is installed and not hidden, or if the caller
* explicitly wanted all uninstalled and hidden packages as well.
* @param appInfo The applicationInfo of the app being checked.
*/
private static boolean checkUseInstalledOrHidden(int flags, FrameworkPackageUserState state,
ApplicationInfo appInfo) {
// Returns false if the package is hidden system app until installed.
if ((flags & PackageManager.MATCH_HIDDEN_UNTIL_INSTALLED_COMPONENTS) == 0
&& !state.isInstalled()
&& appInfo != null && appInfo.hiddenUntilInstalled) {
return false;
}
// If available for the target user, or trying to match uninstalled packages and it's
// a system app.
return isAvailable(state, flags)
|| (appInfo != null && appInfo.isSystemApp()
&& ((flags & PackageManager.MATCH_KNOWN_PACKAGES) != 0
|| (flags & PackageManager.MATCH_HIDDEN_UNTIL_INSTALLED_COMPONENTS) != 0));
}
public static boolean isAvailable(FrameworkPackageUserState state) {
return checkUseInstalledOrHidden(0, state, null);
}
/**
* Generate and return the {@link PackageInfo} for a parsed package.
*
* @param p the parsed package.
* @param flags indicating which optional information is included.
*/
@UnsupportedAppUsage
public static PackageInfo generatePackageInfo(PackageParser.Package p,
int[] gids, int flags, long firstInstallTime, long lastUpdateTime,
Set<String> grantedPermissions, FrameworkPackageUserState state) {
return generatePackageInfo(p, gids, flags, firstInstallTime, lastUpdateTime,
grantedPermissions, state, UserHandle.getCallingUserId());
}
@UnsupportedAppUsage
public static PackageInfo generatePackageInfo(PackageParser.Package p,
int[] gids, int flags, long firstInstallTime, long lastUpdateTime,
Set<String> grantedPermissions, FrameworkPackageUserState state, int userId) {
return generatePackageInfo(p, null, gids, flags, firstInstallTime, lastUpdateTime,
grantedPermissions, state, userId);
}
/**
* PackageInfo generator specifically for apex files.
*
* @param pkg Package to generate info from. Should be derived from an apex.
* @param apexInfo Apex info relating to the package.
* @return PackageInfo
* @throws PackageParserException
*/
public static PackageInfo generatePackageInfo(
PackageParser.Package pkg, ApexInfo apexInfo, int flags) {
return generatePackageInfo(pkg, apexInfo, EmptyArray.INT, flags, 0, 0,
Collections.emptySet(), FrameworkPackageUserState.DEFAULT, UserHandle.getCallingUserId());
}
private static PackageInfo generatePackageInfo(PackageParser.Package p, ApexInfo apexInfo,
int gids[], int flags, long firstInstallTime, long lastUpdateTime,
Set<String> grantedPermissions, FrameworkPackageUserState state, int userId) {
if (!checkUseInstalledOrHidden(flags, state, p.applicationInfo) || !p.isMatch(flags)) {
return null;
}
final ApplicationInfo applicationInfo;
if ((flags & (PackageManager.GET_ACTIVITIES | PackageManager.GET_RECEIVERS
| PackageManager.GET_SERVICES | PackageManager.GET_PROVIDERS)) != 0) {
applicationInfo = generateApplicationInfo(p, flags, state, userId);
} else {
applicationInfo = null;
}
PackageInfo pi = new PackageInfo();
pi.packageName = p.packageName;
pi.splitNames = p.splitNames;
pi.versionCode = p.mVersionCode;
pi.versionCodeMajor = p.mVersionCodeMajor;
pi.baseRevisionCode = p.baseRevisionCode;
pi.splitRevisionCodes = p.splitRevisionCodes;
pi.versionName = p.mVersionName;
pi.sharedUserId = p.mSharedUserId;
pi.sharedUserLabel = p.mSharedUserLabel;
pi.applicationInfo = generateApplicationInfo(p, flags, state, userId);
pi.installLocation = p.installLocation;
pi.isStub = p.isStub;
pi.coreApp = p.coreApp;
if ((pi.applicationInfo.flags&ApplicationInfo.FLAG_SYSTEM) != 0
|| (pi.applicationInfo.flags&ApplicationInfo.FLAG_UPDATED_SYSTEM_APP) != 0) {
pi.requiredForAllUsers = p.mRequiredForAllUsers;
}
pi.restrictedAccountType = p.mRestrictedAccountType;
pi.requiredAccountType = p.mRequiredAccountType;
pi.overlayTarget = p.mOverlayTarget;
pi.targetOverlayableName = p.mOverlayTargetName;
pi.overlayCategory = p.mOverlayCategory;
pi.overlayPriority = p.mOverlayPriority;
pi.mOverlayIsStatic = p.mOverlayIsStatic;
pi.compileSdkVersion = p.mCompileSdkVersion;
pi.compileSdkVersionCodename = p.mCompileSdkVersionCodename;
pi.firstInstallTime = firstInstallTime;
pi.lastUpdateTime = lastUpdateTime;
if ((flags&PackageManager.GET_GIDS) != 0) {
pi.gids = gids;
}
if ((flags&PackageManager.GET_CONFIGURATIONS) != 0) {
int N = p.configPreferences != null ? p.configPreferences.size() : 0;
if (N > 0) {
pi.configPreferences = new ConfigurationInfo[N];
p.configPreferences.toArray(pi.configPreferences);
}
N = p.reqFeatures != null ? p.reqFeatures.size() : 0;
if (N > 0) {
pi.reqFeatures = new FeatureInfo[N];
p.reqFeatures.toArray(pi.reqFeatures);
}
N = p.featureGroups != null ? p.featureGroups.size() : 0;
if (N > 0) {
pi.featureGroups = new FeatureGroupInfo[N];
p.featureGroups.toArray(pi.featureGroups);
}
}
if ((flags & PackageManager.GET_ACTIVITIES) != 0) {
final int N = p.activities.size();
if (N > 0) {
int num = 0;
final ActivityInfo[] res = new ActivityInfo[N];
for (int i = 0; i < N; i++) {
final Activity a = p.activities.get(i);
if (isMatch(state, a.info, flags)) {
if (PackageManager.APP_DETAILS_ACTIVITY_CLASS_NAME.equals(a.className)) {
continue;
}
res[num++] = generateActivityInfo(a, flags, state, userId, applicationInfo);
}
}
pi.activities = ArrayUtils.trimToSize(res, num);
}
}
if ((flags & PackageManager.GET_RECEIVERS) != 0) {
final int N = p.receivers.size();
if (N > 0) {
int num = 0;
final ActivityInfo[] res = new ActivityInfo[N];
for (int i = 0; i < N; i++) {
final Activity a = p.receivers.get(i);
if (isMatch(state, a.info, flags)) {
res[num++] = generateActivityInfo(a, flags, state, userId, applicationInfo);
}
}
pi.receivers = ArrayUtils.trimToSize(res, num);
}
}
if ((flags & PackageManager.GET_SERVICES) != 0) {
final int N = p.services.size();
if (N > 0) {
int num = 0;
final ServiceInfo[] res = new ServiceInfo[N];
for (int i = 0; i < N; i++) {
final Service s = p.services.get(i);
if (isMatch(state, s.info, flags)) {
res[num++] = generateServiceInfo(s, flags, state, userId, applicationInfo);
}
}
pi.services = ArrayUtils.trimToSize(res, num);
}
}
if ((flags & PackageManager.GET_PROVIDERS) != 0) {
final int N = p.providers.size();
if (N > 0) {
int num = 0;
final ProviderInfo[] res = new ProviderInfo[N];
for (int i = 0; i < N; i++) {
final Provider pr = p.providers.get(i);
if (isMatch(state, pr.info, flags)) {
res[num++] = generateProviderInfo(pr, flags, state, userId,
applicationInfo);
}
}
pi.providers = ArrayUtils.trimToSize(res, num);
}
}
if ((flags&PackageManager.GET_INSTRUMENTATION) != 0) {
int N = p.instrumentation.size();
if (N > 0) {
pi.instrumentation = new InstrumentationInfo[N];
for (int i=0; i<N; i++) {
pi.instrumentation[i] = generateInstrumentationInfo(
p.instrumentation.get(i), flags);
}
}
}
if ((flags&PackageManager.GET_PERMISSIONS) != 0) {
int N = p.permissions.size();
if (N > 0) {
pi.permissions = new PermissionInfo[N];
for (int i=0; i<N; i++) {
pi.permissions[i] = generatePermissionInfo(p.permissions.get(i), flags);
}
}
N = p.requestedPermissions.size();
if (N > 0) {
pi.requestedPermissions = new String[N];
pi.requestedPermissionsFlags = new int[N];
for (int i=0; i<N; i++) {
final String perm = p.requestedPermissions.get(i);
pi.requestedPermissions[i] = perm;
// The notion of required permissions is deprecated but for compatibility.
pi.requestedPermissionsFlags[i] |= PackageInfo.REQUESTED_PERMISSION_REQUIRED;
if (grantedPermissions != null && grantedPermissions.contains(perm)) {
pi.requestedPermissionsFlags[i] |= PackageInfo.REQUESTED_PERMISSION_GRANTED;
}
}
}
}
if (apexInfo != null) {
File apexFile = new File(apexInfo.modulePath);
pi.applicationInfo.sourceDir = apexFile.getPath();
pi.applicationInfo.publicSourceDir = apexFile.getPath();
if (apexInfo.isFactory) {
pi.applicationInfo.flags |= ApplicationInfo.FLAG_SYSTEM;
} else {
pi.applicationInfo.flags &= ~ApplicationInfo.FLAG_SYSTEM;
}
if (apexInfo.isActive) {
pi.applicationInfo.flags |= ApplicationInfo.FLAG_INSTALLED;
} else {
pi.applicationInfo.flags &= ~ApplicationInfo.FLAG_INSTALLED;
}
pi.isApex = true;
}
// deprecated method of getting signing certificates
if ((flags & PackageManager.GET_SIGNATURES) != 0) {
if (p.mSigningDetails.hasPastSigningCertificates()) {
// Package has included signing certificate rotation information. Return the oldest
// cert so that programmatic checks keep working even if unaware of key rotation.
pi.signatures = new Signature[1];
pi.signatures[0] = p.mSigningDetails.pastSigningCertificates[0];
} else if (p.mSigningDetails.hasSignatures()) {
// otherwise keep old behavior
int numberOfSigs = p.mSigningDetails.signatures.length;
pi.signatures = new Signature[numberOfSigs];
System.arraycopy(p.mSigningDetails.signatures, 0, pi.signatures, 0, numberOfSigs);
}
}
// replacement for GET_SIGNATURES
if ((flags & PackageManager.GET_SIGNING_CERTIFICATES) != 0) {
if (p.mSigningDetails != SigningDetails.UNKNOWN) {
// only return a valid SigningInfo if there is signing information to report
pi.signingInfo = new SigningInfo(
new android.content.pm.SigningDetails(p.mSigningDetails.signatures,
p.mSigningDetails.signatureSchemeVersion,
p.mSigningDetails.publicKeys,
p.mSigningDetails.pastSigningCertificates));
} else {
pi.signingInfo = null;
}
}
return pi;
}
public static final int PARSE_MUST_BE_APK = 1 << 0;
public static final int PARSE_IGNORE_PROCESSES = 1 << 1;
public static final int PARSE_EXTERNAL_STORAGE = 1 << 3;
public static final int PARSE_IS_SYSTEM_DIR = 1 << 4;
public static final int PARSE_COLLECT_CERTIFICATES = 1 << 5;
public static final int PARSE_ENFORCE_CODE = 1 << 6;
public static final int PARSE_CHATTY = 1 << 31;
@IntDef(flag = true, prefix = { "PARSE_" }, value = {
PARSE_CHATTY,
PARSE_COLLECT_CERTIFICATES,
PARSE_ENFORCE_CODE,
PARSE_EXTERNAL_STORAGE,
PARSE_IGNORE_PROCESSES,
PARSE_IS_SYSTEM_DIR,
PARSE_MUST_BE_APK,
})
@Retention(RetentionPolicy.SOURCE)
public @interface ParseFlags {}
public static final Comparator<String> sSplitNameComparator = new SplitNameComparator();
/**
* Used to sort a set of APKs based on their split names, always placing the
* base APK (with {@code null} split name) first.
*/
private static class SplitNameComparator implements Comparator<String> {
@Override
public int compare(String lhs, String rhs) {
if (lhs == null) {
return -1;
} else if (rhs == null) {
return 1;
} else {
return lhs.compareTo(rhs);
}
}
}
/**
* Parse only lightweight details about the package at the given location.
* Automatically detects if the package is a monolithic style (single APK
* file) or cluster style (directory of APKs).
* <p>
* This performs checking on cluster style packages, such as
* requiring identical package name and version codes, a single base APK,
* and unique split names.
*
* @see PackageParser#parsePackage(File, int)
*/
@UnsupportedAppUsage
public static PackageLite parsePackageLite(File packageFile, int flags)
throws PackageParserException {
if (packageFile.isDirectory()) {
return parseClusterPackageLite(packageFile, flags);
} else {
return parseMonolithicPackageLite(packageFile, flags);
}
}
private static PackageLite parseMonolithicPackageLite(File packageFile, int flags)
throws PackageParserException {
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "parseApkLite");
final ApkLite baseApk = parseApkLite(packageFile, flags);
final String packagePath = packageFile.getAbsolutePath();
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
return new PackageLite(packagePath, baseApk.codePath, baseApk, null, null, null, null, null,
null);
}
static PackageLite parseClusterPackageLite(File packageDir, int flags)
throws PackageParserException {
final File[] files = packageDir.listFiles();
if (ArrayUtils.isEmpty(files)) {
throw new PackageParserException(INSTALL_PARSE_FAILED_NOT_APK,
"No packages found in split");
}
// Apk directory is directly nested under the current directory
if (files.length == 1 && files[0].isDirectory()) {
return parseClusterPackageLite(files[0], flags);
}
String packageName = null;
int versionCode = 0;
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "parseApkLite");
final ArrayMap<String, ApkLite> apks = new ArrayMap<>();
for (File file : files) {
if (isApkFile(file)) {
final ApkLite lite = parseApkLite(file, flags);
// Assert that all package names and version codes are
// consistent with the first one we encounter.
if (packageName == null) {
packageName = lite.packageName;
versionCode = lite.versionCode;
} else {
if (!packageName.equals(lite.packageName)) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_MANIFEST,
"Inconsistent package " + lite.packageName + " in " + file
+ "; expected " + packageName);
}
if (versionCode != lite.versionCode) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_MANIFEST,
"Inconsistent version " + lite.versionCode + " in " + file
+ "; expected " + versionCode);
}
}
// Assert that each split is defined only once
if (apks.put(lite.splitName, lite) != null) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_MANIFEST,
"Split name " + lite.splitName
+ " defined more than once; most recent was " + file);
}
}
}
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
final ApkLite baseApk = apks.remove(null);
if (baseApk == null) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_MANIFEST,
"Missing base APK in " + packageDir);
}
// Always apply deterministic ordering based on splitName
final int size = apks.size();
String[] splitNames = null;
boolean[] isFeatureSplits = null;
String[] usesSplitNames = null;
String[] configForSplits = null;
String[] splitCodePaths = null;
int[] splitRevisionCodes = null;
String[] splitClassLoaderNames = null;
if (size > 0) {
splitNames = new String[size];
isFeatureSplits = new boolean[size];
usesSplitNames = new String[size];
configForSplits = new String[size];
splitCodePaths = new String[size];
splitRevisionCodes = new int[size];
splitNames = apks.keySet().toArray(splitNames);
Arrays.sort(splitNames, sSplitNameComparator);
for (int i = 0; i < size; i++) {
final ApkLite apk = apks.get(splitNames[i]);
usesSplitNames[i] = apk.usesSplitName;
isFeatureSplits[i] = apk.isFeatureSplit;
configForSplits[i] = apk.configForSplit;
splitCodePaths[i] = apk.codePath;
splitRevisionCodes[i] = apk.revisionCode;
}
}
final String codePath = packageDir.getAbsolutePath();
return new PackageLite(codePath, baseApk.codePath, baseApk, splitNames, isFeatureSplits,
usesSplitNames, configForSplits, splitCodePaths, splitRevisionCodes);
}
/**
* Parse the package at the given location. Automatically detects if the
* package is a monolithic style (single APK file) or cluster style
* (directory of APKs).
* <p>
* This performs checking on cluster style packages, such as
* requiring identical package name and version codes, a single base APK,
* and unique split names.
* <p>
* Note that this <em>does not</em> perform signature verification; that
* must be done separately in {@link #collectCertificates(Package, boolean)}.
*
* If {@code useCaches} is true, the package parser might return a cached
* result from a previous parse of the same {@code packageFile} with the same
* {@code flags}. Note that this method does not check whether {@code packageFile}
* has changed since the last parse, it's up to callers to do so.
*
* @see #parsePackageLite(File, int)
*/
@UnsupportedAppUsage
public Package parsePackage(File packageFile, int flags, boolean useCaches)
throws PackageParserException {
if (packageFile.isDirectory()) {
return parseClusterPackage(packageFile, flags);
} else {
return parseMonolithicPackage(packageFile, flags);
}
}
/**
* Equivalent to {@link #parsePackage(File, int, boolean)} with {@code useCaches == false}.
*/
@UnsupportedAppUsage
public Package parsePackage(File packageFile, int flags) throws PackageParserException {
return parsePackage(packageFile, flags, false /* useCaches */);
}
/**
* Parse all APKs contained in the given directory, treating them as a
* single package. This also performs checking, such as requiring
* identical package name and version codes, a single base APK, and unique
* split names.
* <p>
* Note that this <em>does not</em> perform signature verification; that
* must be done separately in
* {@link #collectCertificates(Package, boolean)} .
*/
private Package parseClusterPackage(File packageDir, int flags) throws PackageParserException {
final PackageLite lite = parseClusterPackageLite(packageDir, 0);
if (mOnlyCoreApps && !lite.coreApp) {
throw new PackageParserException(INSTALL_PARSE_FAILED_MANIFEST_MALFORMED,
"Not a coreApp: " + packageDir);
}
// Build the split dependency tree.
SparseArray<int[]> splitDependencies = null;
final SplitAssetLoader assetLoader;
if (lite.isolatedSplits && !ArrayUtils.isEmpty(lite.splitNames)) {
try {
splitDependencies = SplitAssetDependencyLoader.createDependenciesFromPackage(lite);
assetLoader = new SplitAssetDependencyLoader(lite, splitDependencies, flags);
} catch (SplitAssetDependencyLoader.IllegalDependencyException e) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_MANIFEST, e.getMessage());
}
} else {
assetLoader = new DefaultSplitAssetLoader(lite, flags);
}
try {
final AssetManager assets = assetLoader.getBaseAssetManager();
final File baseApk = new File(lite.baseCodePath);
final Package pkg = parseBaseApk(baseApk, assets, flags);
if (pkg == null) {
throw new PackageParserException(INSTALL_PARSE_FAILED_NOT_APK,
"Failed to parse base APK: " + baseApk);
}
if (!ArrayUtils.isEmpty(lite.splitNames)) {
final int num = lite.splitNames.length;
pkg.splitNames = lite.splitNames;
pkg.splitCodePaths = lite.splitCodePaths;
pkg.splitRevisionCodes = lite.splitRevisionCodes;
pkg.splitFlags = new int[num];
pkg.splitPrivateFlags = new int[num];
pkg.applicationInfo.splitNames = pkg.splitNames;
pkg.applicationInfo.splitDependencies = splitDependencies;
pkg.applicationInfo.splitClassLoaderNames = new String[num];
for (int i = 0; i < num; i++) {
final AssetManager splitAssets = assetLoader.getSplitAssetManager(i);
parseSplitApk(pkg, i, splitAssets, flags);
}
}
pkg.setCodePath(lite.codePath);
pkg.setUse32bitAbi(lite.use32bitAbi);
return pkg;
} finally {
IoUtils.closeQuietly(assetLoader);
}
}
/**
* Parse the given APK file, treating it as as a single monolithic package.
* <p>
* Note that this <em>does not</em> perform signature verification; that
* must be done separately in
* {@link #collectCertificates(Package, boolean)}.
*/
@UnsupportedAppUsage
public Package parseMonolithicPackage(File apkFile, int flags) throws PackageParserException {
final PackageLite lite = parseMonolithicPackageLite(apkFile, flags);
if (mOnlyCoreApps) {
if (!lite.coreApp) {
throw new PackageParserException(INSTALL_PARSE_FAILED_MANIFEST_MALFORMED,
"Not a coreApp: " + apkFile);
}
}
final SplitAssetLoader assetLoader = new DefaultSplitAssetLoader(lite, flags);
try {
final Package pkg = parseBaseApk(apkFile, assetLoader.getBaseAssetManager(), flags);
pkg.setCodePath(apkFile.getCanonicalPath());
pkg.setUse32bitAbi(lite.use32bitAbi);
return pkg;
} catch (IOException e) {
throw new PackageParserException(INSTALL_PARSE_FAILED_UNEXPECTED_EXCEPTION,
"Failed to get path: " + apkFile, e);
} finally {
IoUtils.closeQuietly(assetLoader);
}
}
private Package parseBaseApk(File apkFile, AssetManager assets, int flags)
throws PackageParserException {
final String apkPath = apkFile.getAbsolutePath();
String volumeUuid = null;
if (apkPath.startsWith(MNT_EXPAND)) {
final int end = apkPath.indexOf('/', MNT_EXPAND.length());
volumeUuid = apkPath.substring(MNT_EXPAND.length(), end);
}
mParseError = PackageManager.INSTALL_SUCCEEDED;
mArchiveSourcePath = apkFile.getAbsolutePath();
if (DEBUG_JAR) Slog.d(TAG, "Scanning base APK: " + apkPath);
XmlResourceParser parser = null;
try {
final int cookie = assets.findCookieForPath(apkPath);
if (cookie == 0) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_MANIFEST,
"Failed adding asset path: " + apkPath);
}
parser = assets.openXmlResourceParser(cookie, ANDROID_MANIFEST_FILENAME);
final Resources res = new Resources(assets, mMetrics, null);
final String[] outError = new String[1];
final Package pkg = parseBaseApk(apkPath, res, parser, flags, outError);
if (pkg == null) {
throw new PackageParserException(mParseError,
apkPath + " (at " + parser.getPositionDescription() + "): " + outError[0]);
}
pkg.setVolumeUuid(volumeUuid);
pkg.setApplicationVolumeUuid(volumeUuid);
pkg.setBaseCodePath(apkPath);
pkg.setSigningDetails(SigningDetails.UNKNOWN);
return pkg;
} catch (PackageParserException e) {
throw e;
} catch (Exception e) {
throw new PackageParserException(INSTALL_PARSE_FAILED_UNEXPECTED_EXCEPTION,
"Failed to read manifest from " + apkPath, e);
} finally {
IoUtils.closeQuietly(parser);
}
}
private void parseSplitApk(Package pkg, int splitIndex, AssetManager assets, int flags)
throws PackageParserException {
final String apkPath = pkg.splitCodePaths[splitIndex];
mParseError = PackageManager.INSTALL_SUCCEEDED;
mArchiveSourcePath = apkPath;
if (DEBUG_JAR) Slog.d(TAG, "Scanning split APK: " + apkPath);
final Resources res;
XmlResourceParser parser = null;
try {
// This must always succeed, as the path has been added to the AssetManager before.
final int cookie = assets.findCookieForPath(apkPath);
if (cookie == 0) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_MANIFEST,
"Failed adding asset path: " + apkPath);
}
parser = assets.openXmlResourceParser(cookie, ANDROID_MANIFEST_FILENAME);
res = new Resources(assets, mMetrics, null);
final String[] outError = new String[1];
pkg = parseSplitApk(pkg, res, parser, flags, splitIndex, outError);
if (pkg == null) {
throw new PackageParserException(mParseError,
apkPath + " (at " + parser.getPositionDescription() + "): " + outError[0]);
}
} catch (PackageParserException e) {
throw e;
} catch (Exception e) {
throw new PackageParserException(INSTALL_PARSE_FAILED_UNEXPECTED_EXCEPTION,
"Failed to read manifest from " + apkPath, e);
} finally {
IoUtils.closeQuietly(parser);
}
}
/**
* Parse the manifest of a <em>split APK</em>.
* <p>
* Note that split APKs have many more restrictions on what they're capable
* of doing, so many valid features of a base APK have been carefully
* omitted here.
*/
private Package parseSplitApk(Package pkg, Resources res, XmlResourceParser parser, int flags,
int splitIndex, String[] outError) throws XmlPullParserException, IOException,
PackageParserException {
AttributeSet attrs = parser;
// We parsed manifest tag earlier; just skip past it
parsePackageSplitNames(parser, attrs);
mParseInstrumentationArgs = null;
int type;
boolean foundApp = false;
int outerDepth = parser.getDepth();
while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
&& (type != XmlPullParser.END_TAG || parser.getDepth() > outerDepth)) {
if (type == XmlPullParser.END_TAG || type == XmlPullParser.TEXT) {
continue;
}
String tagName = parser.getName();
if (tagName.equals(TAG_APPLICATION)) {
if (foundApp) {
if (RIGID_PARSER) {
outError[0] = "<manifest> has more than one <application>";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
} else {
Slog.w(TAG, "<manifest> has more than one <application>");
XmlUtils.skipCurrentTag(parser);
continue;
}
}
foundApp = true;
if (!parseSplitApplication(pkg, res, parser, flags, splitIndex, outError)) {
return null;
}
} else if (RIGID_PARSER) {
outError[0] = "Bad element under <manifest>: "
+ parser.getName();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
} else {
Slog.w(TAG, "Unknown element under <manifest>: " + parser.getName()
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
}
}
if (!foundApp) {
outError[0] = "<manifest> does not contain an <application>";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_EMPTY;
}
return pkg;
}
/** Parses the public keys from the set of signatures. */
public static ArraySet<PublicKey> toSigningKeys(Signature[] signatures)
throws CertificateException {
ArraySet<PublicKey> keys = new ArraySet<>(signatures.length);
for (int i = 0; i < signatures.length; i++) {
keys.add(signatures[i].getPublicKey());
}
return keys;
}
/**
* Collect certificates from all the APKs described in the given package,
* populating {@link Package#mSigningDetails}. Also asserts that all APK
* contents are signed correctly and consistently.
*/
@UnsupportedAppUsage
public static void collectCertificates(Package pkg, boolean skipVerify)
throws PackageParserException {
collectCertificatesInternal(pkg, skipVerify);
final int childCount = (pkg.childPackages != null) ? pkg.childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
Package childPkg = pkg.childPackages.get(i);
childPkg.mSigningDetails = pkg.mSigningDetails;
}
}
private static void collectCertificatesInternal(Package pkg, boolean skipVerify)
throws PackageParserException {
pkg.mSigningDetails = SigningDetails.UNKNOWN;
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "collectCertificates");
try {
collectCertificates(pkg, new File(pkg.baseCodePath), skipVerify);
if (!ArrayUtils.isEmpty(pkg.splitCodePaths)) {
for (int i = 0; i < pkg.splitCodePaths.length; i++) {
collectCertificates(pkg, new File(pkg.splitCodePaths[i]), skipVerify);
}
}
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
}
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
private static void collectCertificates(Package pkg, File apkFile, boolean skipVerify)
throws PackageParserException {
final String apkPath = apkFile.getAbsolutePath();
int minSignatureScheme = ApkSignatureVerifier.getMinimumSignatureSchemeVersionForTargetSdk(
pkg.applicationInfo.targetSdkVersion);
if (pkg.applicationInfo.isStaticSharedLibrary()) {
// must use v2 signing scheme
minSignatureScheme = SigningDetails.SignatureSchemeVersion.SIGNING_BLOCK_V2;
}
final ParseTypeImpl input = ParseTypeImpl.forDefaultParsing();
final ParseResult<android.content.pm.SigningDetails> result;
if (skipVerify) {
// systemDir APKs are already trusted, save time by not verifying
result = ApkSignatureVerifier.unsafeGetCertsWithoutVerification(
input, apkPath, minSignatureScheme);
} else {
result = ApkSignatureVerifier.verify(input, apkPath, minSignatureScheme);
}
if (result.isError()) {
throw new PackageParserException(result.getErrorCode(), result.getErrorMessage(),
result.getException());
}
// Verify that entries are signed consistently with the first pkg
// we encountered. Note that for splits, certificates may have
// already been populated during an earlier parse of a base APK.
final android.content.pm.SigningDetails verified = result.getResult();
if (pkg.mSigningDetails == SigningDetails.UNKNOWN) {
pkg.mSigningDetails = new SigningDetails(verified.getSignatures(),
verified.getSignatureSchemeVersion(),
verified.getPublicKeys(),
verified.getPastSigningCertificates());
} else {
if (!Signature.areExactArraysMatch(pkg.mSigningDetails.signatures,
verified.getSignatures())) {
throw new PackageParserException(
INSTALL_PARSE_FAILED_INCONSISTENT_CERTIFICATES,
apkPath + " has mismatched certificates");
}
}
}
private static AssetManager newConfiguredAssetManager() {
AssetManager assetManager = new AssetManager();
assetManager.setConfiguration(0, 0, null, null, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, Build.VERSION.RESOURCES_SDK_INT);
return assetManager;
}
/**
* Utility method that retrieves lightweight details about a single APK
* file, including package name, split name, and install location.
*
* @param apkFile path to a single APK
* @param flags optional parse flags, such as
* {@link #PARSE_COLLECT_CERTIFICATES}
*/
public static ApkLite parseApkLite(File apkFile, int flags)
throws PackageParserException {
return parseApkLiteInner(apkFile, null, null, flags);
}
/**
* Utility method that retrieves lightweight details about a single APK
* file, including package name, split name, and install location.
*
* @param fd already open file descriptor of an apk file
* @param debugPathName arbitrary text name for this file, for debug output
* @param flags optional parse flags, such as
* {@link #PARSE_COLLECT_CERTIFICATES}
*/
public static ApkLite parseApkLite(FileDescriptor fd, String debugPathName, int flags)
throws PackageParserException {
return parseApkLiteInner(null, fd, debugPathName, flags);
}
private static ApkLite parseApkLiteInner(File apkFile, FileDescriptor fd, String debugPathName,
int flags) throws PackageParserException {
final String apkPath = fd != null ? debugPathName : apkFile.getAbsolutePath();
XmlResourceParser parser = null;
ApkAssets apkAssets = null;
try {
try {
apkAssets = fd != null
? ApkAssets.loadFromFd(fd, debugPathName, 0 /* flags */, null /* assets */)
: ApkAssets.loadFromPath(apkPath);
} catch (IOException e) {
throw new PackageParserException(INSTALL_PARSE_FAILED_NOT_APK,
"Failed to parse " + apkPath);
}
parser = apkAssets.openXml(ANDROID_MANIFEST_FILENAME);
final SigningDetails signingDetails;
if ((flags & PARSE_COLLECT_CERTIFICATES) != 0) {
// TODO: factor signature related items out of Package object
final Package tempPkg = new Package((String) null);
final boolean skipVerify = (flags & PARSE_IS_SYSTEM_DIR) != 0;
Trace.traceBegin(TRACE_TAG_PACKAGE_MANAGER, "collectCertificates");
try {
collectCertificates(tempPkg, apkFile, skipVerify);
} finally {
Trace.traceEnd(TRACE_TAG_PACKAGE_MANAGER);
}
signingDetails = tempPkg.mSigningDetails;
} else {
signingDetails = SigningDetails.UNKNOWN;
}
final AttributeSet attrs = parser;
return parseApkLite(apkPath, parser, attrs, signingDetails);
} catch (XmlPullParserException | IOException | RuntimeException e) {
Slog.w(TAG, "Failed to parse " + apkPath, e);
throw new PackageParserException(INSTALL_PARSE_FAILED_UNEXPECTED_EXCEPTION,
"Failed to parse " + apkPath, e);
} finally {
IoUtils.closeQuietly(parser);
if (apkAssets != null) {
try {
apkAssets.close();
} catch (Throwable ignored) {
}
}
// TODO(b/72056911): Implement AutoCloseable on ApkAssets.
}
}
public static String validateName(String name, boolean requireSeparator,
boolean requireFilename) {
final int N = name.length();
boolean hasSep = false;
boolean front = true;
for (int i=0; i<N; i++) {
final char c = name.charAt(i);
if ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z')) {
front = false;
continue;
}
if (!front) {
if ((c >= '0' && c <= '9') || c == '_') {
continue;
}
}
if (c == '.') {
hasSep = true;
front = true;
continue;
}
return "bad character '" + c + "'";
}
if (requireFilename && !FileUtils.isValidExtFilename(name)) {
return "Invalid filename";
}
return hasSep || !requireSeparator
? null : "must have at least one '.' separator";
}
/**
* @deprecated Use {@link android.content.pm.parsing.ApkLiteParseUtils#parsePackageSplitNames}
*/
@Deprecated
public static Pair<String, String> parsePackageSplitNames(XmlPullParser parser,
AttributeSet attrs) throws IOException, XmlPullParserException,
PackageParserException {
int type;
while ((type = parser.next()) != XmlPullParser.START_TAG
&& type != XmlPullParser.END_DOCUMENT) {
}
if (type != XmlPullParser.START_TAG) {
throw new PackageParserException(INSTALL_PARSE_FAILED_MANIFEST_MALFORMED,
"No start tag found");
}
if (!parser.getName().equals(TAG_MANIFEST)) {
throw new PackageParserException(INSTALL_PARSE_FAILED_MANIFEST_MALFORMED,
"No <manifest> tag");
}
final String packageName = attrs.getAttributeValue(null, "package");
if (!"android".equals(packageName)) {
final String error = validateName(packageName, true, true);
if (error != null) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_PACKAGE_NAME,
"Invalid manifest package: " + error);
}
}
String splitName = attrs.getAttributeValue(null, "split");
if (splitName != null) {
if (splitName.length() == 0) {
splitName = null;
} else {
final String error = validateName(splitName, false, false);
if (error != null) {
throw new PackageParserException(INSTALL_PARSE_FAILED_BAD_PACKAGE_NAME,
"Invalid manifest split: " + error);
}
}
}
return Pair.create(packageName.intern(),
(splitName != null) ? splitName.intern() : splitName);
}
private static ApkLite parseApkLite(String codePath, XmlPullParser parser, AttributeSet attrs,
SigningDetails signingDetails)
throws IOException, XmlPullParserException, PackageParserException {
final Pair<String, String> packageSplit = parsePackageSplitNames(parser, attrs);
int installLocation = PARSE_DEFAULT_INSTALL_LOCATION;
int versionCode = 0;
int versionCodeMajor = 0;
int targetSdkVersion = DEFAULT_TARGET_SDK_VERSION;
int minSdkVersion = DEFAULT_MIN_SDK_VERSION;
int revisionCode = 0;
boolean coreApp = false;
boolean debuggable = false;
boolean profilableByShell = false;
boolean multiArch = false;
boolean use32bitAbi = false;
boolean extractNativeLibs = true;
boolean isolatedSplits = false;
boolean isFeatureSplit = false;
boolean isSplitRequired = false;
boolean useEmbeddedDex = false;
String configForSplit = null;
String usesSplitName = null;
String targetPackage = null;
boolean overlayIsStatic = false;
int overlayPriority = 0;
int rollbackDataPolicy = 0;
String requiredSystemPropertyName = null;
String requiredSystemPropertyValue = null;
for (int i = 0; i < attrs.getAttributeCount(); i++) {
final String attr = attrs.getAttributeName(i);
if (attr.equals("installLocation")) {
installLocation = attrs.getAttributeIntValue(i,
PARSE_DEFAULT_INSTALL_LOCATION);
} else if (attr.equals("versionCode")) {
versionCode = attrs.getAttributeIntValue(i, 0);
} else if (attr.equals("versionCodeMajor")) {
versionCodeMajor = attrs.getAttributeIntValue(i, 0);
} else if (attr.equals("revisionCode")) {
revisionCode = attrs.getAttributeIntValue(i, 0);
} else if (attr.equals("coreApp")) {
coreApp = attrs.getAttributeBooleanValue(i, false);
} else if (attr.equals("isolatedSplits")) {
isolatedSplits = attrs.getAttributeBooleanValue(i, false);
} else if (attr.equals("configForSplit")) {
configForSplit = attrs.getAttributeValue(i);
} else if (attr.equals("isFeatureSplit")) {
isFeatureSplit = attrs.getAttributeBooleanValue(i, false);
} else if (attr.equals("isSplitRequired")) {
isSplitRequired = attrs.getAttributeBooleanValue(i, false);
}
}
// Only search the tree when the tag is the direct child of <manifest> tag
int type;
final int searchDepth = parser.getDepth() + 1;
final List<VerifierInfo> verifiers = new ArrayList<VerifierInfo>();
while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
&& (type != XmlPullParser.END_TAG || parser.getDepth() >= searchDepth)) {
if (type == XmlPullParser.END_TAG || type == XmlPullParser.TEXT) {
continue;
}
if (parser.getDepth() != searchDepth) {
continue;
}
if (TAG_PACKAGE_VERIFIER.equals(parser.getName())) {
final VerifierInfo verifier = parseVerifier(attrs);
if (verifier != null) {
verifiers.add(verifier);
}
} else if (TAG_APPLICATION.equals(parser.getName())) {
for (int i = 0; i < attrs.getAttributeCount(); ++i) {
final String attr = attrs.getAttributeName(i);
if ("debuggable".equals(attr)) {
debuggable = attrs.getAttributeBooleanValue(i, false);
}
if ("multiArch".equals(attr)) {
multiArch = attrs.getAttributeBooleanValue(i, false);
}
if ("use32bitAbi".equals(attr)) {
use32bitAbi = attrs.getAttributeBooleanValue(i, false);
}
if ("extractNativeLibs".equals(attr)) {
extractNativeLibs = attrs.getAttributeBooleanValue(i, true);
}
if ("useEmbeddedDex".equals(attr)) {
useEmbeddedDex = attrs.getAttributeBooleanValue(i, false);
}
if (attr.equals("rollbackDataPolicy")) {
rollbackDataPolicy = attrs.getAttributeIntValue(i, 0);
}
}
} else if (PackageParser.TAG_OVERLAY.equals(parser.getName())) {
for (int i = 0; i < attrs.getAttributeCount(); ++i) {
final String attr = attrs.getAttributeName(i);
if ("requiredSystemPropertyName".equals(attr)) {
requiredSystemPropertyName = attrs.getAttributeValue(i);
} else if ("requiredSystemPropertyValue".equals(attr)) {
requiredSystemPropertyValue = attrs.getAttributeValue(i);
} else if ("targetPackage".equals(attr)) {
targetPackage = attrs.getAttributeValue(i);;
} else if ("isStatic".equals(attr)) {
overlayIsStatic = attrs.getAttributeBooleanValue(i, false);
} else if ("priority".equals(attr)) {
overlayPriority = attrs.getAttributeIntValue(i, 0);
}
}
} else if (TAG_USES_SPLIT.equals(parser.getName())) {
if (usesSplitName != null) {
Slog.w(TAG, "Only one <uses-split> permitted. Ignoring others.");
continue;
}
usesSplitName = attrs.getAttributeValue(ANDROID_RESOURCES, "name");
if (usesSplitName == null) {
throw new PackageParserException(
PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED,
"<uses-split> tag requires 'android:name' attribute");
}
} else if (TAG_USES_SDK.equals(parser.getName())) {
for (int i = 0; i < attrs.getAttributeCount(); ++i) {
final String attr = attrs.getAttributeName(i);
if ("targetSdkVersion".equals(attr)) {
targetSdkVersion = attrs.getAttributeIntValue(i,
DEFAULT_TARGET_SDK_VERSION);
}
if ("minSdkVersion".equals(attr)) {
minSdkVersion = attrs.getAttributeIntValue(i, DEFAULT_MIN_SDK_VERSION);
}
}
}
}
// Check to see if overlay should be excluded based on system property condition
if (!checkRequiredSystemProperties(requiredSystemPropertyName,
requiredSystemPropertyValue)) {
Slog.i(TAG, "Skipping target and overlay pair " + targetPackage + " and "
+ codePath + ": overlay ignored due to required system property: "
+ requiredSystemPropertyName + " with value: " + requiredSystemPropertyValue);
targetPackage = null;
overlayIsStatic = false;
overlayPriority = 0;
}
return new ApkLite(codePath, packageSplit.first, packageSplit.second, isFeatureSplit,
configForSplit, usesSplitName, isSplitRequired, versionCode, versionCodeMajor,
revisionCode, installLocation, verifiers, signingDetails, coreApp, debuggable,
profilableByShell, multiArch, use32bitAbi, useEmbeddedDex, extractNativeLibs,
isolatedSplits, targetPackage, overlayIsStatic, overlayPriority, minSdkVersion,
targetSdkVersion, rollbackDataPolicy);
}
/**
* Parses a child package and adds it to the parent if successful. If you add
* new tags that need to be supported by child packages make sure to add them
* to {@link #CHILD_PACKAGE_TAGS}.
*
* @param parentPkg The parent that contains the child
* @param res Resources against which to resolve values
* @param parser Parser of the manifest
* @param flags Flags about how to parse
* @param outError Human readable error if parsing fails
* @return True of parsing succeeded.
*
* @throws XmlPullParserException
* @throws IOException
*/
private boolean parseBaseApkChild(Package parentPkg, Resources res, XmlResourceParser parser,
int flags, String[] outError) throws XmlPullParserException, IOException {
// Make sure we have a valid child package name
String childPackageName = parser.getAttributeValue(null, "package");
if (validateName(childPackageName, true, false) != null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_BAD_PACKAGE_NAME;
return false;
}
// Child packages must be unique
if (childPackageName.equals(parentPkg.packageName)) {
String message = "Child package name cannot be equal to parent package name: "
+ parentPkg.packageName;
Slog.w(TAG, message);
outError[0] = message;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
// Child packages must be unique
if (parentPkg.hasChildPackage(childPackageName)) {
String message = "Duplicate child package:" + childPackageName;
Slog.w(TAG, message);
outError[0] = message;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
// Go ahead and parse the child
Package childPkg = new Package(childPackageName);
// Child package inherits parent version code/name/target SDK
childPkg.mVersionCode = parentPkg.mVersionCode;
childPkg.baseRevisionCode = parentPkg.baseRevisionCode;
childPkg.mVersionName = parentPkg.mVersionName;
childPkg.applicationInfo.targetSdkVersion = parentPkg.applicationInfo.targetSdkVersion;
childPkg.applicationInfo.minSdkVersion = parentPkg.applicationInfo.minSdkVersion;
childPkg = parseBaseApkCommon(childPkg, CHILD_PACKAGE_TAGS, res, parser, flags, outError);
if (childPkg == null) {
// If we got null then error was set during child parsing
return false;
}
// Set the parent-child relation
if (parentPkg.childPackages == null) {
parentPkg.childPackages = new ArrayList<>();
}
parentPkg.childPackages.add(childPkg);
childPkg.parentPackage = parentPkg;
return true;
}
/**
* Parse the manifest of a <em>base APK</em>. When adding new features you
* need to consider whether they should be supported by split APKs and child
* packages.
*
* @param apkPath The package apk file path
* @param res The resources from which to resolve values
* @param parser The manifest parser
* @param flags Flags how to parse
* @param outError Human readable error message
* @return Parsed package or null on error.
*
* @throws XmlPullParserException
* @throws IOException
*/
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023)
private Package parseBaseApk(String apkPath, Resources res, XmlResourceParser parser, int flags,
String[] outError) throws XmlPullParserException, IOException {
final String splitName;
final String pkgName;
try {
Pair<String, String> packageSplit = parsePackageSplitNames(parser, parser);
pkgName = packageSplit.first;
splitName = packageSplit.second;
if (!TextUtils.isEmpty(splitName)) {
outError[0] = "Expected base APK, but found split " + splitName;
mParseError = PackageManager.INSTALL_PARSE_FAILED_BAD_PACKAGE_NAME;
return null;
}
} catch (PackageParserException e) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_BAD_PACKAGE_NAME;
return null;
}
final Package pkg = new Package(pkgName);
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifest);
pkg.mVersionCode = sa.getInteger(
com.android.internal.R.styleable.AndroidManifest_versionCode, 0);
pkg.mVersionCodeMajor = sa.getInteger(
com.android.internal.R.styleable.AndroidManifest_versionCodeMajor, 0);
pkg.applicationInfo.setVersionCode(pkg.getLongVersionCode());
pkg.baseRevisionCode = sa.getInteger(
com.android.internal.R.styleable.AndroidManifest_revisionCode, 0);
pkg.mVersionName = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifest_versionName, 0);
if (pkg.mVersionName != null) {
pkg.mVersionName = pkg.mVersionName.intern();
}
pkg.coreApp = parser.getAttributeBooleanValue(null, "coreApp", false);
final boolean isolatedSplits = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifest_isolatedSplits, false);
if (isolatedSplits) {
pkg.applicationInfo.privateFlags |= ApplicationInfo.PRIVATE_FLAG_ISOLATED_SPLIT_LOADING;
}
pkg.mCompileSdkVersion = sa.getInteger(
com.android.internal.R.styleable.AndroidManifest_compileSdkVersion, 0);
pkg.applicationInfo.compileSdkVersion = pkg.mCompileSdkVersion;
pkg.mCompileSdkVersionCodename = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifest_compileSdkVersionCodename, 0);
if (pkg.mCompileSdkVersionCodename != null) {
pkg.mCompileSdkVersionCodename = pkg.mCompileSdkVersionCodename.intern();
}
pkg.applicationInfo.compileSdkVersionCodename = pkg.mCompileSdkVersionCodename;
sa.recycle();
return parseBaseApkCommon(pkg, null, res, parser, flags, outError);
}
/**
* This is the common parsing routing for handling parent and child
* packages in a base APK. The difference between parent and child
* parsing is that some tags are not supported by child packages as
* well as some manifest attributes are ignored. The implementation
* assumes the calling code has already handled the manifest tag if needed
* (this applies to the parent only).
*
* @param pkg The package which to populate
* @param acceptedTags Which tags to handle, null to handle all
* @param res Resources against which to resolve values
* @param parser Parser of the manifest
* @param flags Flags about how to parse
* @param outError Human readable error if parsing fails
* @return The package if parsing succeeded or null.
*
* @throws XmlPullParserException
* @throws IOException
*/
private Package parseBaseApkCommon(Package pkg, Set<String> acceptedTags, Resources res,
XmlResourceParser parser, int flags, String[] outError) throws XmlPullParserException,
IOException {
mParseInstrumentationArgs = null;
int type;
boolean foundApp = false;
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifest);
int maxSdkVersion = 0;
if (PackageManager.ENABLE_SHARED_UID_MIGRATION) {
maxSdkVersion = sa.getInteger(
com.android.internal.R.styleable.AndroidManifest_sharedUserMaxSdkVersion, 0);
}
if (maxSdkVersion == 0 || maxSdkVersion >= Build.VERSION.RESOURCES_SDK_INT) {
String str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifest_sharedUserId, 0);
if (str != null && str.length() > 0) {
String nameError = validateName(str, true, true);
if (nameError != null && !"android".equals(pkg.packageName)) {
outError[0] = "<manifest> specifies bad sharedUserId name \""
+ str + "\": " + nameError;
mParseError = PackageManager.INSTALL_PARSE_FAILED_BAD_SHARED_USER_ID;
return null;
}
pkg.mSharedUserId = str.intern();
pkg.mSharedUserLabel = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifest_sharedUserLabel, 0);
}
}
pkg.installLocation = sa.getInteger(
com.android.internal.R.styleable.AndroidManifest_installLocation,
PARSE_DEFAULT_INSTALL_LOCATION);
pkg.applicationInfo.installLocation = pkg.installLocation;
final int targetSandboxVersion = sa.getInteger(
com.android.internal.R.styleable.AndroidManifest_targetSandboxVersion,
PARSE_DEFAULT_TARGET_SANDBOX);
pkg.applicationInfo.targetSandboxVersion = targetSandboxVersion;
/* Set the global "on SD card" flag */
if ((flags & PARSE_EXTERNAL_STORAGE) != 0) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_EXTERNAL_STORAGE;
}
// Resource boolean are -1, so 1 means we don't know the value.
int supportsSmallScreens = 1;
int supportsNormalScreens = 1;
int supportsLargeScreens = 1;
int supportsXLargeScreens = 1;
int resizeable = 1;
int anyDensity = 1;
int outerDepth = parser.getDepth();
while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
&& (type != XmlPullParser.END_TAG || parser.getDepth() > outerDepth)) {
if (type == XmlPullParser.END_TAG || type == XmlPullParser.TEXT) {
continue;
}
String tagName = parser.getName();
if (acceptedTags != null && !acceptedTags.contains(tagName)) {
Slog.w(TAG, "Skipping unsupported element under <manifest>: "
+ tagName + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
}
if (tagName.equals(TAG_APPLICATION)) {
if (foundApp) {
if (RIGID_PARSER) {
outError[0] = "<manifest> has more than one <application>";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
} else {
Slog.w(TAG, "<manifest> has more than one <application>");
XmlUtils.skipCurrentTag(parser);
continue;
}
}
foundApp = true;
if (!parseBaseApplication(pkg, res, parser, flags, outError)) {
return null;
}
} else if (tagName.equals(TAG_OVERLAY)) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestResourceOverlay);
pkg.mOverlayTarget = sa.getString(
com.android.internal.R.styleable.AndroidManifestResourceOverlay_targetPackage);
pkg.mOverlayTargetName = sa.getString(
com.android.internal.R.styleable.AndroidManifestResourceOverlay_targetName);
pkg.mOverlayCategory = sa.getString(
com.android.internal.R.styleable.AndroidManifestResourceOverlay_category);
pkg.mOverlayPriority = sa.getInt(
com.android.internal.R.styleable.AndroidManifestResourceOverlay_priority,
0);
pkg.mOverlayIsStatic = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestResourceOverlay_isStatic,
false);
final String propName = sa.getString(
com.android.internal.R.styleable
.AndroidManifestResourceOverlay_requiredSystemPropertyName);
final String propValue = sa.getString(
com.android.internal.R.styleable
.AndroidManifestResourceOverlay_requiredSystemPropertyValue);
sa.recycle();
if (pkg.mOverlayTarget == null) {
outError[0] = "<overlay> does not specify a target package";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
}
if (pkg.mOverlayPriority < 0 || pkg.mOverlayPriority > 9999) {
outError[0] = "<overlay> priority must be between 0 and 9999";
mParseError =
PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
}
// check to see if overlay should be excluded based on system property condition
if (!checkRequiredSystemProperties(propName, propValue)) {
Slog.i(TAG, "Skipping target and overlay pair " + pkg.mOverlayTarget + " and "
+ pkg.baseCodePath+ ": overlay ignored due to required system property: "
+ propName + " with value: " + propValue);
mParseError = PackageManager.INSTALL_PARSE_FAILED_SKIPPED;
return null;
}
pkg.applicationInfo.privateFlags |=
ApplicationInfo.PRIVATE_FLAG_IS_RESOURCE_OVERLAY;
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals(TAG_KEY_SETS)) {
if (!parseKeySets(pkg, res, parser, outError)) {
return null;
}
} else if (tagName.equals(TAG_PERMISSION_GROUP)) {
if (!parsePermissionGroup(pkg, flags, res, parser, outError)) {
return null;
}
} else if (tagName.equals(TAG_PERMISSION)) {
if (!parsePermission(pkg, res, parser, outError)) {
return null;
}
} else if (tagName.equals(TAG_PERMISSION_TREE)) {
if (!parsePermissionTree(pkg, res, parser, outError)) {
return null;
}
} else if (tagName.equals(TAG_USES_PERMISSION)) {
if (!parseUsesPermission(pkg, res, parser)) {
return null;
}
} else if (tagName.equals(TAG_USES_PERMISSION_SDK_M)
|| tagName.equals(TAG_USES_PERMISSION_SDK_23)) {
if (!parseUsesPermission(pkg, res, parser)) {
return null;
}
} else if (tagName.equals(TAG_USES_CONFIGURATION)) {
ConfigurationInfo cPref = new ConfigurationInfo();
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestUsesConfiguration);
cPref.reqTouchScreen = sa.getInt(
com.android.internal.R.styleable.AndroidManifestUsesConfiguration_reqTouchScreen,
Configuration.TOUCHSCREEN_UNDEFINED);
cPref.reqKeyboardType = sa.getInt(
com.android.internal.R.styleable.AndroidManifestUsesConfiguration_reqKeyboardType,
Configuration.KEYBOARD_UNDEFINED);
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestUsesConfiguration_reqHardKeyboard,
false)) {
cPref.reqInputFeatures |= ConfigurationInfo.INPUT_FEATURE_HARD_KEYBOARD;
}
cPref.reqNavigation = sa.getInt(
com.android.internal.R.styleable.AndroidManifestUsesConfiguration_reqNavigation,
Configuration.NAVIGATION_UNDEFINED);
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestUsesConfiguration_reqFiveWayNav,
false)) {
cPref.reqInputFeatures |= ConfigurationInfo.INPUT_FEATURE_FIVE_WAY_NAV;
}
sa.recycle();
pkg.configPreferences = ArrayUtils.add(pkg.configPreferences, cPref);
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals(TAG_USES_FEATURE)) {
FeatureInfo fi = parseUsesFeature(res, parser);
pkg.reqFeatures = ArrayUtils.add(pkg.reqFeatures, fi);
if (fi.name == null) {
ConfigurationInfo cPref = new ConfigurationInfo();
cPref.reqGlEsVersion = fi.reqGlEsVersion;
pkg.configPreferences = ArrayUtils.add(pkg.configPreferences, cPref);
}
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals(TAG_FEATURE_GROUP)) {
FeatureGroupInfo group = new FeatureGroupInfo();
ArrayList<FeatureInfo> features = null;
final int innerDepth = parser.getDepth();
while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
&& (type != XmlPullParser.END_TAG || parser.getDepth() > innerDepth)) {
if (type == XmlPullParser.END_TAG || type == XmlPullParser.TEXT) {
continue;
}
final String innerTagName = parser.getName();
if (innerTagName.equals("uses-feature")) {
FeatureInfo featureInfo = parseUsesFeature(res, parser);
// FeatureGroups are stricter and mandate that
// any <uses-feature> declared are mandatory.
featureInfo.flags |= FeatureInfo.FLAG_REQUIRED;
features = ArrayUtils.add(features, featureInfo);
} else {
Slog.w(TAG, "Unknown element under <feature-group>: " + innerTagName +
" at " + mArchiveSourcePath + " " +
parser.getPositionDescription());
}
XmlUtils.skipCurrentTag(parser);
}
if (features != null) {
group.features = new FeatureInfo[features.size()];
group.features = features.toArray(group.features);
}
pkg.featureGroups = ArrayUtils.add(pkg.featureGroups, group);
} else if (tagName.equals(TAG_USES_SDK)) {
if (SDK_VERSION > 0) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestUsesSdk);
int minVers = 1;
String minCode = null;
int targetVers = 0;
String targetCode = null;
TypedValue val = sa.peekValue(
com.android.internal.R.styleable.AndroidManifestUsesSdk_minSdkVersion);
if (val != null) {
if (val.type == TypedValue.TYPE_STRING && val.string != null) {
minCode = val.string.toString();
} else {
// If it's not a string, it's an integer.
minVers = val.data;
}
}
val = sa.peekValue(
com.android.internal.R.styleable.AndroidManifestUsesSdk_targetSdkVersion);
if (val != null) {
if (val.type == TypedValue.TYPE_STRING && val.string != null) {
targetCode = val.string.toString();
if (minCode == null) {
minCode = targetCode;
}
} else {
// If it's not a string, it's an integer.
targetVers = val.data;
}
} else {
targetVers = minVers;
targetCode = minCode;
}
sa.recycle();
final int minSdkVersion = PackageParser.computeMinSdkVersion(minVers, minCode,
SDK_VERSION, SDK_CODENAMES, outError);
if (minSdkVersion < 0) {
mParseError = PackageManager.INSTALL_FAILED_OLDER_SDK;
return null;
}
final int targetSdkVersion = PackageParser.computeTargetSdkVersion(targetVers,
targetCode, SDK_CODENAMES, outError);
if (targetSdkVersion < 0) {
mParseError = PackageManager.INSTALL_FAILED_OLDER_SDK;
return null;
}
pkg.applicationInfo.minSdkVersion = minSdkVersion;
pkg.applicationInfo.targetSdkVersion = targetSdkVersion;
}
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals(TAG_SUPPORT_SCREENS)) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestSupportsScreens);
pkg.applicationInfo.requiresSmallestWidthDp = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_requiresSmallestWidthDp,
0);
pkg.applicationInfo.compatibleWidthLimitDp = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_compatibleWidthLimitDp,
0);
pkg.applicationInfo.largestWidthLimitDp = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_largestWidthLimitDp,
0);
// This is a trick to get a boolean and still able to detect
// if a value was actually set.
supportsSmallScreens = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_smallScreens,
supportsSmallScreens);
supportsNormalScreens = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_normalScreens,
supportsNormalScreens);
supportsLargeScreens = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_largeScreens,
supportsLargeScreens);
supportsXLargeScreens = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_xlargeScreens,
supportsXLargeScreens);
resizeable = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_resizeable,
resizeable);
anyDensity = sa.getInteger(
com.android.internal.R.styleable.AndroidManifestSupportsScreens_anyDensity,
anyDensity);
sa.recycle();
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals(TAG_PROTECTED_BROADCAST)) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestProtectedBroadcast);
// Note: don't allow this value to be a reference to a resource
// that may change.
String name = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestProtectedBroadcast_name);
sa.recycle();
if (name != null) {
if (pkg.protectedBroadcasts == null) {
pkg.protectedBroadcasts = new ArrayList<String>();
}
if (!pkg.protectedBroadcasts.contains(name)) {
pkg.protectedBroadcasts.add(name.intern());
}
}
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals(TAG_INSTRUMENTATION)) {
if (parseInstrumentation(pkg, res, parser, outError) == null) {
return null;
}
} else if (tagName.equals(TAG_ORIGINAL_PACKAGE)) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestOriginalPackage);
String orig =sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestOriginalPackage_name, 0);
if (!pkg.packageName.equals(orig)) {
if (pkg.mOriginalPackages == null) {
pkg.mOriginalPackages = new ArrayList<String>();
pkg.mRealPackage = pkg.packageName;
}
pkg.mOriginalPackages.add(orig);
}
sa.recycle();
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals(TAG_ADOPT_PERMISSIONS)) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestOriginalPackage);
String name = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestOriginalPackage_name, 0);
sa.recycle();
if (name != null) {
if (pkg.mAdoptPermissions == null) {
pkg.mAdoptPermissions = new ArrayList<String>();
}
pkg.mAdoptPermissions.add(name);
}
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals(TAG_USES_GL_TEXTURE)) {
// Just skip this tag
XmlUtils.skipCurrentTag(parser);
continue;
} else if (tagName.equals(TAG_COMPATIBLE_SCREENS)) {
// Just skip this tag
XmlUtils.skipCurrentTag(parser);
continue;
} else if (tagName.equals(TAG_SUPPORTS_INPUT)) {//
XmlUtils.skipCurrentTag(parser);
continue;
} else if (tagName.equals(TAG_EAT_COMMENT)) {
// Just skip this tag
XmlUtils.skipCurrentTag(parser);
continue;
} else if (tagName.equals(TAG_PACKAGE)) {
if (!MULTI_PACKAGE_APK_ENABLED) {
XmlUtils.skipCurrentTag(parser);
continue;
}
if (!parseBaseApkChild(pkg, res, parser, flags, outError)) {
// If parsing a child failed the error is already set
return null;
}
} else if (tagName.equals(TAG_RESTRICT_UPDATE)) {
if ((flags & PARSE_IS_SYSTEM_DIR) != 0) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestRestrictUpdate);
final String hash = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestRestrictUpdate_hash, 0);
sa.recycle();
pkg.restrictUpdateHash = null;
if (hash != null) {
final int hashLength = hash.length();
final byte[] hashBytes = new byte[hashLength / 2];
for (int i = 0; i < hashLength; i += 2){
hashBytes[i/2] = (byte) ((Character.digit(hash.charAt(i), 16) << 4)
+ Character.digit(hash.charAt(i + 1), 16));
}
pkg.restrictUpdateHash = hashBytes;
}
}
XmlUtils.skipCurrentTag(parser);
} else if (RIGID_PARSER) {
outError[0] = "Bad element under <manifest>: "
+ parser.getName();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
} else {
Slog.w(TAG, "Unknown element under <manifest>: " + parser.getName()
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
}
}
if (!foundApp && pkg.instrumentation.size() == 0) {
outError[0] = "<manifest> does not contain an <application> or <instrumentation>";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_EMPTY;
}
final int NP = PackageParser.NEW_PERMISSIONS.length;
StringBuilder newPermsMsg = null;
for (int ip=0; ip<NP; ip++) {
final PackageParser.NewPermissionInfo npi
= PackageParser.NEW_PERMISSIONS[ip];
if (pkg.applicationInfo.targetSdkVersion >= npi.sdkVersion) {
break;
}
if (!pkg.requestedPermissions.contains(npi.name)) {
if (newPermsMsg == null) {
newPermsMsg = new StringBuilder(128);
newPermsMsg.append(pkg.packageName);
newPermsMsg.append(": compat added ");
} else {
newPermsMsg.append(' ');
}
newPermsMsg.append(npi.name);
pkg.requestedPermissions.add(npi.name);
pkg.implicitPermissions.add(npi.name);
}
}
if (newPermsMsg != null) {
Slog.i(TAG, newPermsMsg.toString());
}
// Must build permission info manually for legacy code, which can be called before
// Appication is available through the app process, so the normal API doesn't work.
List<SplitPermissionInfoParcelable> splitPermissionParcelables;
try {
splitPermissionParcelables = ActivityThread.getPermissionManager()
.getSplitPermissions();
} catch (RemoteException e) {
splitPermissionParcelables = Collections.emptyList();
}
int splitPermissionsSize = splitPermissionParcelables.size();
List<PermissionManager.SplitPermissionInfo> splitPermissions =
new ArrayList<>(splitPermissionsSize);
for (int index = 0; index < splitPermissionsSize; index++) {
SplitPermissionInfoParcelable splitPermissionParcelable =
splitPermissionParcelables.get(index);
splitPermissions.add(new PermissionManager.SplitPermissionInfo(
splitPermissionParcelable.getSplitPermission(),
splitPermissionParcelable.getNewPermissions(),
splitPermissionParcelable.getTargetSdk()
));
}
final int listSize = splitPermissions.size();
for (int is = 0; is < listSize; is++) {
final PermissionManager.SplitPermissionInfo spi = splitPermissions.get(is);
if (pkg.applicationInfo.targetSdkVersion >= spi.getTargetSdk()
|| !pkg.requestedPermissions.contains(spi.getSplitPermission())) {
continue;
}
final List<String> newPerms = spi.getNewPermissions();
for (int in = 0; in < newPerms.size(); in++) {
final String perm = newPerms.get(in);
if (!pkg.requestedPermissions.contains(perm)) {
pkg.requestedPermissions.add(perm);
pkg.implicitPermissions.add(perm);
}
}
}
if (supportsSmallScreens < 0 || (supportsSmallScreens > 0
&& pkg.applicationInfo.targetSdkVersion
>= android.os.Build.VERSION_CODES.DONUT)) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_SUPPORTS_SMALL_SCREENS;
}
if (supportsNormalScreens != 0) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_SUPPORTS_NORMAL_SCREENS;
}
if (supportsLargeScreens < 0 || (supportsLargeScreens > 0
&& pkg.applicationInfo.targetSdkVersion
>= android.os.Build.VERSION_CODES.DONUT)) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_SUPPORTS_LARGE_SCREENS;
}
if (supportsXLargeScreens < 0 || (supportsXLargeScreens > 0
&& pkg.applicationInfo.targetSdkVersion
>= android.os.Build.VERSION_CODES.GINGERBREAD)) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_SUPPORTS_XLARGE_SCREENS;
}
if (resizeable < 0 || (resizeable > 0
&& pkg.applicationInfo.targetSdkVersion
>= android.os.Build.VERSION_CODES.DONUT)) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_RESIZEABLE_FOR_SCREENS;
}
if (anyDensity < 0 || (anyDensity > 0
&& pkg.applicationInfo.targetSdkVersion
>= android.os.Build.VERSION_CODES.DONUT)) {
pkg.applicationInfo.flags |= ApplicationInfo.FLAG_SUPPORTS_SCREEN_DENSITIES;
}
// At this point we can check if an application is not supporting densities and hence
// cannot be windowed / resized. Note that an SDK version of 0 is common for
// pre-Doughnut applications.
if (pkg.applicationInfo.usesCompatibilityMode()) {
adjustPackageToBeUnresizeableAndUnpipable(pkg);
}
return pkg;
}
/**
* Returns {@code true} if both the property name and value are empty or if the given system
* property is set to the specified value. Properties can be one or more, and if properties are
* more than one, they must be separated by comma, and count of names and values must be equal,
* and also every given system property must be set to the corresponding value.
* In all other cases, returns {@code false}
*/
public static boolean checkRequiredSystemProperties(@Nullable String rawPropNames,
@Nullable String rawPropValues) {
if (TextUtils.isEmpty(rawPropNames) || TextUtils.isEmpty(rawPropValues)) {
if (!TextUtils.isEmpty(rawPropNames) || !TextUtils.isEmpty(rawPropValues)) {
// malformed condition - incomplete
Slog.w(TAG, "Disabling overlay - incomplete property :'" + rawPropNames
+ "=" + rawPropValues + "' - require both requiredSystemPropertyName"
+ " AND requiredSystemPropertyValue to be specified.");
return false;
}
// no valid condition set - so no exclusion criteria, overlay will be included.
return true;
}
final String[] propNames = rawPropNames.split(",");
final String[] propValues = rawPropValues.split(",");
if (propNames.length != propValues.length) {
Slog.w(TAG, "Disabling overlay - property :'" + rawPropNames
+ "=" + rawPropValues + "' - require both requiredSystemPropertyName"
+ " AND requiredSystemPropertyValue lists to have the same size.");
return false;
}
for (int i = 0; i < propNames.length; i++) {
// Check property value: make sure it is both set and equal to expected value
final String currValue = SystemProperties.get(propNames[i]);
if (!TextUtils.equals(currValue, propValues[i])) {
return false;
}
}
return true;
}
/**
* This is a pre-density application which will get scaled - instead of being pixel perfect.
* This type of application is not resizable.
*
* @param pkg The package which needs to be marked as unresizable.
*/
private void adjustPackageToBeUnresizeableAndUnpipable(Package pkg) {
for (Activity a : pkg.activities) {
a.info.resizeMode = RESIZE_MODE_UNRESIZEABLE;
a.info.flags &= ~FLAG_SUPPORTS_PICTURE_IN_PICTURE;
}
}
/**
/**
* Matches a given {@code targetCode} against a set of release codeNames. Target codes can
* either be of the form {@code [codename]}" (e.g {@code "Q"}) or of the form
* {@code [codename].[fingerprint]} (e.g {@code "Q.cafebc561"}).
*/
private static boolean matchTargetCode(@NonNull String[] codeNames,
@NonNull String targetCode) {
final String targetCodeName;
final int targetCodeIdx = targetCode.indexOf('.');
if (targetCodeIdx == -1) {
targetCodeName = targetCode;
} else {
targetCodeName = targetCode.substring(0, targetCodeIdx);
}
return ArrayUtils.contains(codeNames, targetCodeName);
}
/**
* Computes the targetSdkVersion to use at runtime. If the package is not
* compatible with this platform, populates {@code outError[0]} with an
* error message.
* <p>
* If {@code targetCode} is not specified, e.g. the value is {@code null},
* then the {@code targetVers} will be returned unmodified.
* <p>
* Otherwise, the behavior varies based on whether the current platform
* is a pre-release version, e.g. the {@code platformSdkCodenames} array
* has length > 0:
* <ul>
* <li>If this is a pre-release platform and the value specified by
* {@code targetCode} is contained within the array of allowed pre-release
* codenames, this method will return {@link Build.VERSION_CODES#CUR_DEVELOPMENT}.
* <li>If this is a released platform, this method will return -1 to
* indicate that the package is not compatible with this platform.
* </ul>
*
* @param targetVers targetSdkVersion number, if specified in the
* application manifest, or 0 otherwise
* @param targetCode targetSdkVersion code, if specified in the application
* manifest, or {@code null} otherwise
* @param platformSdkCodenames array of allowed pre-release SDK codenames
* for this platform
* @param outError output array to populate with error, if applicable
* @return the targetSdkVersion to use at runtime, or -1 if the package is
* not compatible with this platform
* @hide Exposed for unit testing only.
*/
public static int computeTargetSdkVersion(@IntRange(from = 0) int targetVers,
@Nullable String targetCode, @NonNull String[] platformSdkCodenames,
@NonNull String[] outError) {
// If it's a release SDK, return the version number unmodified.
if (targetCode == null) {
return targetVers;
}
// If it's a pre-release SDK and the codename matches this platform, it
// definitely targets this SDK.
if (matchTargetCode(platformSdkCodenames, targetCode)) {
return Build.VERSION_CODES.CUR_DEVELOPMENT;
}
// STOPSHIP: hack for the pre-release SDK
if (platformSdkCodenames.length == 0
&& Build.VERSION.KNOWN_CODENAMES.stream().max(String::compareTo).orElse("").equals(
targetCode)) {
Slog.w(TAG, "Package requires development platform " + targetCode
+ ", returning current version " + Build.VERSION.SDK_INT);
return Build.VERSION.SDK_INT;
}
// Otherwise, we're looking at an incompatible pre-release SDK.
if (platformSdkCodenames.length > 0) {
outError[0] = "Requires development platform " + targetCode
+ " (current platform is any of "
+ Arrays.toString(platformSdkCodenames) + ")";
} else {
outError[0] = "Requires development platform " + targetCode
+ " but this is a release platform.";
}
return -1;
}
/**
* Computes the minSdkVersion to use at runtime. If the package is not
* compatible with this platform, populates {@code outError[0]} with an
* error message.
* <p>
* If {@code minCode} is not specified, e.g. the value is {@code null},
* then behavior varies based on the {@code platformSdkVersion}:
* <ul>
* <li>If the platform SDK version is greater than or equal to the
* {@code minVers}, returns the {@code mniVers} unmodified.
* <li>Otherwise, returns -1 to indicate that the package is not
* compatible with this platform.
* </ul>
* <p>
* Otherwise, the behavior varies based on whether the current platform
* is a pre-release version, e.g. the {@code platformSdkCodenames} array
* has length > 0:
* <ul>
* <li>If this is a pre-release platform and the value specified by
* {@code targetCode} is contained within the array of allowed pre-release
* codenames, this method will return {@link Build.VERSION_CODES#CUR_DEVELOPMENT}.
* <li>If this is a released platform, this method will return -1 to
* indicate that the package is not compatible with this platform.
* </ul>
*
* @param minVers minSdkVersion number, if specified in the application
* manifest, or 1 otherwise
* @param minCode minSdkVersion code, if specified in the application
* manifest, or {@code null} otherwise
* @param platformSdkVersion platform SDK version number, typically
* Build.VERSION.SDK_INT
* @param platformSdkCodenames array of allowed prerelease SDK codenames
* for this platform
* @param outError output array to populate with error, if applicable
* @return the minSdkVersion to use at runtime, or -1 if the package is not
* compatible with this platform
* @hide Exposed for unit testing only.
*/
public static int computeMinSdkVersion(@IntRange(from = 1) int minVers,
@Nullable String minCode, @IntRange(from = 1) int platformSdkVersion,
@NonNull String[] platformSdkCodenames, @NonNull String[] outError) {
// If it's a release SDK, make sure we meet the minimum SDK requirement.
if (minCode == null) {
if (minVers <= platformSdkVersion) {
return minVers;
}
// We don't meet the minimum SDK requirement.
outError[0] = "Requires newer sdk version #" + minVers
+ " (current version is #" + platformSdkVersion + ")";
return -1;
}
// If it's a pre-release SDK and the codename matches this platform, we
// definitely meet the minimum SDK requirement.
if (matchTargetCode(platformSdkCodenames, minCode)) {
return Build.VERSION_CODES.CUR_DEVELOPMENT;
}
// STOPSHIP: hack for the pre-release SDK
if (platformSdkCodenames.length == 0
&& Build.VERSION.KNOWN_CODENAMES.stream().max(String::compareTo).orElse("").equals(
minCode)) {
Slog.w(TAG, "Package requires min development platform " + minCode
+ ", returning current version " + Build.VERSION.SDK_INT);
return Build.VERSION.SDK_INT;
}
// Otherwise, we're looking at an incompatible pre-release SDK.
if (platformSdkCodenames.length > 0) {
outError[0] = "Requires development platform " + minCode
+ " (current platform is any of "
+ Arrays.toString(platformSdkCodenames) + ")";
} else {
outError[0] = "Requires development platform " + minCode
+ " but this is a release platform.";
}
return -1;
}
private FeatureInfo parseUsesFeature(Resources res, AttributeSet attrs) {
FeatureInfo fi = new FeatureInfo();
TypedArray sa = res.obtainAttributes(attrs,
com.android.internal.R.styleable.AndroidManifestUsesFeature);
// Note: don't allow this value to be a reference to a resource
// that may change.
fi.name = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestUsesFeature_name);
fi.version = sa.getInt(
com.android.internal.R.styleable.AndroidManifestUsesFeature_version, 0);
if (fi.name == null) {
fi.reqGlEsVersion = sa.getInt(
com.android.internal.R.styleable.AndroidManifestUsesFeature_glEsVersion,
FeatureInfo.GL_ES_VERSION_UNDEFINED);
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestUsesFeature_required, true)) {
fi.flags |= FeatureInfo.FLAG_REQUIRED;
}
sa.recycle();
return fi;
}
private boolean parseUsesStaticLibrary(Package pkg, Resources res, XmlResourceParser parser,
String[] outError) throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestUsesStaticLibrary);
// Note: don't allow this value to be a reference to a resource that may change.
String lname = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestUsesLibrary_name);
final int version = sa.getInt(
com.android.internal.R.styleable.AndroidManifestUsesStaticLibrary_version, -1);
String certSha256Digest = sa.getNonResourceString(com.android.internal.R.styleable
.AndroidManifestUsesStaticLibrary_certDigest);
sa.recycle();
// Since an APK providing a static shared lib can only provide the lib - fail if malformed
if (lname == null || version < 0 || certSha256Digest == null) {
outError[0] = "Bad uses-static-library declaration name: " + lname + " version: "
+ version + " certDigest" + certSha256Digest;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
XmlUtils.skipCurrentTag(parser);
return false;
}
// Can depend only on one version of the same library
if (pkg.usesStaticLibraries != null && pkg.usesStaticLibraries.contains(lname)) {
outError[0] = "Depending on multiple versions of static library " + lname;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
XmlUtils.skipCurrentTag(parser);
return false;
}
lname = lname.intern();
// We allow ":" delimiters in the SHA declaration as this is the format
// emitted by the certtool making it easy for developers to copy/paste.
certSha256Digest = certSha256Digest.replace(":", "").toLowerCase();
// Fot apps targeting O-MR1 we require explicit enumeration of all certs.
String[] additionalCertSha256Digests = EmptyArray.STRING;
if (pkg.applicationInfo.targetSdkVersion >= Build.VERSION_CODES.O_MR1) {
additionalCertSha256Digests = parseAdditionalCertificates(res, parser, outError);
if (additionalCertSha256Digests == null) {
return false;
}
} else {
XmlUtils.skipCurrentTag(parser);
}
final String[] certSha256Digests = new String[additionalCertSha256Digests.length + 1];
certSha256Digests[0] = certSha256Digest;
System.arraycopy(additionalCertSha256Digests, 0, certSha256Digests,
1, additionalCertSha256Digests.length);
pkg.usesStaticLibraries = ArrayUtils.add(pkg.usesStaticLibraries, lname);
pkg.usesStaticLibrariesVersions = ArrayUtils.appendLong(
pkg.usesStaticLibrariesVersions, version, true);
pkg.usesStaticLibrariesCertDigests = ArrayUtils.appendElement(String[].class,
pkg.usesStaticLibrariesCertDigests, certSha256Digests, true);
return true;
}
private String[] parseAdditionalCertificates(Resources resources, XmlResourceParser parser,
String[] outError) throws XmlPullParserException, IOException {
String[] certSha256Digests = EmptyArray.STRING;
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 nodeName = parser.getName();
if (nodeName.equals("additional-certificate")) {
final TypedArray sa = resources.obtainAttributes(parser, com.android.internal.
R.styleable.AndroidManifestAdditionalCertificate);
String certSha256Digest = sa.getNonResourceString(com.android.internal.
R.styleable.AndroidManifestAdditionalCertificate_certDigest);
sa.recycle();
if (TextUtils.isEmpty(certSha256Digest)) {
outError[0] = "Bad additional-certificate declaration with empty"
+ " certDigest:" + certSha256Digest;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
XmlUtils.skipCurrentTag(parser);
sa.recycle();
return null;
}
// We allow ":" delimiters in the SHA declaration as this is the format
// emitted by the certtool making it easy for developers to copy/paste.
certSha256Digest = certSha256Digest.replace(":", "").toLowerCase();
certSha256Digests = ArrayUtils.appendElement(String.class,
certSha256Digests, certSha256Digest);
} else {
XmlUtils.skipCurrentTag(parser);
}
}
return certSha256Digests;
}
private boolean parseUsesPermission(Package pkg, Resources res, XmlResourceParser parser)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestUsesPermission);
// Note: don't allow this value to be a reference to a resource
// that may change.
String name = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestUsesPermission_name);
int maxSdkVersion = 0;
TypedValue val = sa.peekValue(
com.android.internal.R.styleable.AndroidManifestUsesPermission_maxSdkVersion);
if (val != null) {
if (val.type >= TypedValue.TYPE_FIRST_INT && val.type <= TypedValue.TYPE_LAST_INT) {
maxSdkVersion = val.data;
}
}
final String requiredFeature = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestUsesPermission_requiredFeature, 0);
final String requiredNotfeature = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestUsesPermission_requiredNotFeature, 0);
sa.recycle();
XmlUtils.skipCurrentTag(parser);
if (name == null) {
return true;
}
if ((maxSdkVersion != 0) && (maxSdkVersion < Build.VERSION.RESOURCES_SDK_INT)) {
return true;
}
// Only allow requesting this permission if the platform supports the given feature.
if (requiredFeature != null && mCallback != null && !mCallback.hasFeature(requiredFeature)) {
return true;
}
// Only allow requesting this permission if the platform doesn't support the given feature.
if (requiredNotfeature != null && mCallback != null
&& mCallback.hasFeature(requiredNotfeature)) {
return true;
}
int index = pkg.requestedPermissions.indexOf(name);
if (index == -1) {
pkg.requestedPermissions.add(name.intern());
} else {
Slog.w(TAG, "Ignoring duplicate uses-permissions/uses-permissions-sdk-m: "
+ name + " in package: " + pkg.packageName + " at: "
+ parser.getPositionDescription());
}
return true;
}
public static String buildClassName(String pkg, CharSequence clsSeq,
String[] outError) {
if (clsSeq == null || clsSeq.length() <= 0) {
outError[0] = "Empty class name in package " + pkg;
return null;
}
String cls = clsSeq.toString();
char c = cls.charAt(0);
if (c == '.') {
return pkg + cls;
}
if (cls.indexOf('.') < 0) {
StringBuilder b = new StringBuilder(pkg);
b.append('.');
b.append(cls);
return b.toString();
}
return cls;
}
private static String buildCompoundName(String pkg,
CharSequence procSeq, String type, String[] outError) {
String proc = procSeq.toString();
char c = proc.charAt(0);
if (pkg != null && c == ':') {
if (proc.length() < 2) {
outError[0] = "Bad " + type + " name " + proc + " in package " + pkg
+ ": must be at least two characters";
return null;
}
String subName = proc.substring(1);
String nameError = validateName(subName, false, false);
if (nameError != null) {
outError[0] = "Invalid " + type + " name " + proc + " in package "
+ pkg + ": " + nameError;
return null;
}
return pkg + proc;
}
String nameError = validateName(proc, true, false);
if (nameError != null && !"system".equals(proc)) {
outError[0] = "Invalid " + type + " name " + proc + " in package "
+ pkg + ": " + nameError;
return null;
}
return proc;
}
public static String buildProcessName(String pkg, String defProc,
CharSequence procSeq, int flags, String[] separateProcesses,
String[] outError) {
if ((flags&PARSE_IGNORE_PROCESSES) != 0 && !"system".equals(procSeq)) {
return defProc != null ? defProc : pkg;
}
if (separateProcesses != null) {
for (int i=separateProcesses.length-1; i>=0; i--) {
String sp = separateProcesses[i];
if (sp.equals(pkg) || sp.equals(defProc) || sp.equals(procSeq)) {
return pkg;
}
}
}
if (procSeq == null || procSeq.length() <= 0) {
return defProc;
}
return TextUtils.safeIntern(buildCompoundName(pkg, procSeq, "process", outError));
}
public static String buildTaskAffinityName(String pkg, String defProc,
CharSequence procSeq, String[] outError) {
if (procSeq == null) {
return defProc;
}
if (procSeq.length() <= 0) {
return null;
}
return buildCompoundName(pkg, procSeq, "taskAffinity", outError);
}
private boolean parseKeySets(Package owner, Resources res,
XmlResourceParser parser, String[] outError)
throws XmlPullParserException, IOException {
// we've encountered the 'key-sets' tag
// all the keys and keysets that we want must be defined here
// so we're going to iterate over the parser and pull out the things we want
int outerDepth = parser.getDepth();
int currentKeySetDepth = -1;
int type;
String currentKeySet = null;
ArrayMap<String, PublicKey> publicKeys = new ArrayMap<String, PublicKey>();
ArraySet<String> upgradeKeySets = new ArraySet<String>();
ArrayMap<String, ArraySet<String>> definedKeySets = new ArrayMap<String, ArraySet<String>>();
ArraySet<String> improperKeySets = new ArraySet<String>();
while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
&& (type != XmlPullParser.END_TAG || parser.getDepth() > outerDepth)) {
if (type == XmlPullParser.END_TAG) {
if (parser.getDepth() == currentKeySetDepth) {
currentKeySet = null;
currentKeySetDepth = -1;
}
continue;
}
String tagName = parser.getName();
if (tagName.equals("key-set")) {
if (currentKeySet != null) {
outError[0] = "Improperly nested 'key-set' tag at "
+ parser.getPositionDescription();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
final TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestKeySet);
final String keysetName = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestKeySet_name);
definedKeySets.put(keysetName, new ArraySet<String>());
currentKeySet = keysetName;
currentKeySetDepth = parser.getDepth();
sa.recycle();
} else if (tagName.equals("public-key")) {
if (currentKeySet == null) {
outError[0] = "Improperly nested 'key-set' tag at "
+ parser.getPositionDescription();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
final TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestPublicKey);
final String publicKeyName = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestPublicKey_name);
final String encodedKey = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestPublicKey_value);
if (encodedKey == null && publicKeys.get(publicKeyName) == null) {
outError[0] = "'public-key' " + publicKeyName + " must define a public-key value"
+ " on first use at " + parser.getPositionDescription();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
sa.recycle();
return false;
} else if (encodedKey != null) {
PublicKey currentKey = parsePublicKey(encodedKey);
if (currentKey == null) {
Slog.w(TAG, "No recognized valid key in 'public-key' tag at "
+ parser.getPositionDescription() + " key-set " + currentKeySet
+ " will not be added to the package's defined key-sets.");
sa.recycle();
improperKeySets.add(currentKeySet);
XmlUtils.skipCurrentTag(parser);
continue;
}
if (publicKeys.get(publicKeyName) == null
|| publicKeys.get(publicKeyName).equals(currentKey)) {
/* public-key first definition, or matches old definition */
publicKeys.put(publicKeyName, currentKey);
} else {
outError[0] = "Value of 'public-key' " + publicKeyName
+ " conflicts with previously defined value at "
+ parser.getPositionDescription();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
sa.recycle();
return false;
}
}
definedKeySets.get(currentKeySet).add(publicKeyName);
sa.recycle();
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals("upgrade-key-set")) {
final TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestUpgradeKeySet);
String name = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestUpgradeKeySet_name);
upgradeKeySets.add(name);
sa.recycle();
XmlUtils.skipCurrentTag(parser);
} else if (RIGID_PARSER) {
outError[0] = "Bad element under <key-sets>: " + parser.getName()
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
} else {
Slog.w(TAG, "Unknown element under <key-sets>: " + parser.getName()
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
}
}
Set<String> publicKeyNames = publicKeys.keySet();
if (publicKeyNames.removeAll(definedKeySets.keySet())) {
outError[0] = "Package" + owner.packageName + " AndroidManifext.xml "
+ "'key-set' and 'public-key' names must be distinct.";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.mKeySetMapping = new ArrayMap<String, ArraySet<PublicKey>>();
for (ArrayMap.Entry<String, ArraySet<String>> e: definedKeySets.entrySet()) {
final String keySetName = e.getKey();
if (e.getValue().size() == 0) {
Slog.w(TAG, "Package" + owner.packageName + " AndroidManifext.xml "
+ "'key-set' " + keySetName + " has no valid associated 'public-key'."
+ " Not including in package's defined key-sets.");
continue;
} else if (improperKeySets.contains(keySetName)) {
Slog.w(TAG, "Package" + owner.packageName + " AndroidManifext.xml "
+ "'key-set' " + keySetName + " contained improper 'public-key'"
+ " tags. Not including in package's defined key-sets.");
continue;
}
owner.mKeySetMapping.put(keySetName, new ArraySet<PublicKey>());
for (String s : e.getValue()) {
owner.mKeySetMapping.get(keySetName).add(publicKeys.get(s));
}
}
if (owner.mKeySetMapping.keySet().containsAll(upgradeKeySets)) {
owner.mUpgradeKeySets = upgradeKeySets;
} else {
outError[0] ="Package" + owner.packageName + " AndroidManifext.xml "
+ "does not define all 'upgrade-key-set's .";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
return true;
}
private boolean parsePermissionGroup(Package owner, int flags, Resources res,
XmlResourceParser parser, String[] outError)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestPermissionGroup);
int requestDetailResourceId = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestPermissionGroup_requestDetail, 0);
int backgroundRequestResourceId = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestPermissionGroup_backgroundRequest,
0);
int backgroundRequestDetailResourceId = sa.getResourceId(
com.android.internal.R.styleable
.AndroidManifestPermissionGroup_backgroundRequestDetail, 0);
PermissionGroup perm = new PermissionGroup(owner, requestDetailResourceId,
backgroundRequestResourceId, backgroundRequestDetailResourceId);
if (!parsePackageItemInfo(owner, perm.info, outError,
"<permission-group>", sa, true /*nameRequired*/,
com.android.internal.R.styleable.AndroidManifestPermissionGroup_name,
com.android.internal.R.styleable.AndroidManifestPermissionGroup_label,
com.android.internal.R.styleable.AndroidManifestPermissionGroup_icon,
com.android.internal.R.styleable.AndroidManifestPermissionGroup_roundIcon,
com.android.internal.R.styleable.AndroidManifestPermissionGroup_logo,
com.android.internal.R.styleable.AndroidManifestPermissionGroup_banner)) {
sa.recycle();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
perm.info.descriptionRes = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestPermissionGroup_description,
0);
perm.info.requestRes = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestPermissionGroup_request, 0);
perm.info.flags = sa.getInt(
com.android.internal.R.styleable.AndroidManifestPermissionGroup_permissionGroupFlags, 0);
perm.info.priority = sa.getInt(
com.android.internal.R.styleable.AndroidManifestPermissionGroup_priority, 0);
sa.recycle();
if (!parseAllMetaData(res, parser, "<permission-group>", perm,
outError)) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.permissionGroups.add(perm);
return true;
}
private boolean parsePermission(Package owner, Resources res,
XmlResourceParser parser, String[] outError)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestPermission);
String backgroundPermission = null;
if (sa.hasValue(
com.android.internal.R.styleable.AndroidManifestPermission_backgroundPermission)) {
if ("android".equals(owner.packageName)) {
backgroundPermission = sa.getNonResourceString(
com.android.internal.R.styleable
.AndroidManifestPermission_backgroundPermission);
} else {
Slog.w(TAG, owner.packageName + " defines a background permission. Only the "
+ "'android' package can do that.");
}
}
Permission perm = new Permission(owner, backgroundPermission);
if (!parsePackageItemInfo(owner, perm.info, outError,
"<permission>", sa, true /*nameRequired*/,
com.android.internal.R.styleable.AndroidManifestPermission_name,
com.android.internal.R.styleable.AndroidManifestPermission_label,
com.android.internal.R.styleable.AndroidManifestPermission_icon,
com.android.internal.R.styleable.AndroidManifestPermission_roundIcon,
com.android.internal.R.styleable.AndroidManifestPermission_logo,
com.android.internal.R.styleable.AndroidManifestPermission_banner)) {
sa.recycle();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
// Note: don't allow this value to be a reference to a resource
// that may change.
perm.info.group = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestPermission_permissionGroup);
if (perm.info.group != null) {
perm.info.group = perm.info.group.intern();
}
perm.info.descriptionRes = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestPermission_description,
0);
perm.info.requestRes = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestPermission_request, 0);
perm.info.protectionLevel = sa.getInt(
com.android.internal.R.styleable.AndroidManifestPermission_protectionLevel,
PermissionInfo.PROTECTION_NORMAL);
perm.info.flags = sa.getInt(
com.android.internal.R.styleable.AndroidManifestPermission_permissionFlags, 0);
// For now only platform runtime permissions can be restricted
if (!perm.info.isRuntime() || !"android".equals(perm.info.packageName)) {
perm.info.flags &= ~PermissionInfo.FLAG_HARD_RESTRICTED;
perm.info.flags &= ~PermissionInfo.FLAG_SOFT_RESTRICTED;
} else {
// The platform does not get to specify conflicting permissions
if ((perm.info.flags & PermissionInfo.FLAG_HARD_RESTRICTED) != 0
&& (perm.info.flags & PermissionInfo.FLAG_SOFT_RESTRICTED) != 0) {
throw new IllegalStateException("Permission cannot be both soft and hard"
+ " restricted: " + perm.info.name);
}
}
sa.recycle();
if (perm.info.protectionLevel == -1) {
outError[0] = "<permission> does not specify protectionLevel";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
perm.info.protectionLevel = PermissionInfo.fixProtectionLevel(perm.info.protectionLevel);
if (perm.info.getProtectionFlags() != 0) {
if ( (perm.info.protectionLevel&PermissionInfo.PROTECTION_FLAG_INSTANT) == 0
&& (perm.info.protectionLevel&PermissionInfo.PROTECTION_FLAG_RUNTIME_ONLY) == 0
&& (perm.info.protectionLevel&PermissionInfo.PROTECTION_MASK_BASE) !=
PermissionInfo.PROTECTION_SIGNATURE) {
outError[0] = "<permission> protectionLevel specifies a non-instant flag but is "
+ "not based on signature type";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
}
if (!parseAllMetaData(res, parser, "<permission>", perm, outError)) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.permissions.add(perm);
return true;
}
private boolean parsePermissionTree(Package owner, Resources res,
XmlResourceParser parser, String[] outError)
throws XmlPullParserException, IOException {
Permission perm = new Permission(owner, (String) null);
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestPermissionTree);
if (!parsePackageItemInfo(owner, perm.info, outError,
"<permission-tree>", sa, true /*nameRequired*/,
com.android.internal.R.styleable.AndroidManifestPermissionTree_name,
com.android.internal.R.styleable.AndroidManifestPermissionTree_label,
com.android.internal.R.styleable.AndroidManifestPermissionTree_icon,
com.android.internal.R.styleable.AndroidManifestPermissionTree_roundIcon,
com.android.internal.R.styleable.AndroidManifestPermissionTree_logo,
com.android.internal.R.styleable.AndroidManifestPermissionTree_banner)) {
sa.recycle();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
sa.recycle();
int index = perm.info.name.indexOf('.');
if (index > 0) {
index = perm.info.name.indexOf('.', index+1);
}
if (index < 0) {
outError[0] = "<permission-tree> name has less than three segments: "
+ perm.info.name;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
perm.info.descriptionRes = 0;
perm.info.requestRes = 0;
perm.info.protectionLevel = PermissionInfo.PROTECTION_NORMAL;
perm.tree = true;
if (!parseAllMetaData(res, parser, "<permission-tree>", perm,
outError)) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.permissions.add(perm);
return true;
}
private Instrumentation parseInstrumentation(Package owner, Resources res,
XmlResourceParser parser, String[] outError)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestInstrumentation);
if (mParseInstrumentationArgs == null) {
mParseInstrumentationArgs = new ParsePackageItemArgs(owner, outError,
com.android.internal.R.styleable.AndroidManifestInstrumentation_name,
com.android.internal.R.styleable.AndroidManifestInstrumentation_label,
com.android.internal.R.styleable.AndroidManifestInstrumentation_icon,
com.android.internal.R.styleable.AndroidManifestInstrumentation_roundIcon,
com.android.internal.R.styleable.AndroidManifestInstrumentation_logo,
com.android.internal.R.styleable.AndroidManifestInstrumentation_banner);
mParseInstrumentationArgs.tag = "<instrumentation>";
}
mParseInstrumentationArgs.sa = sa;
Instrumentation a = new Instrumentation(mParseInstrumentationArgs,
new InstrumentationInfo());
if (outError[0] != null) {
sa.recycle();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
}
String str;
// Note: don't allow this value to be a reference to a resource
// that may change.
str = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestInstrumentation_targetPackage);
a.info.targetPackage = str != null ? str.intern() : null;
str = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestInstrumentation_targetProcesses);
a.info.targetProcesses = str != null ? str.intern() : null;
a.info.handleProfiling = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestInstrumentation_handleProfiling,
false);
a.info.functionalTest = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestInstrumentation_functionalTest,
false);
sa.recycle();
if (a.info.targetPackage == null) {
outError[0] = "<instrumentation> does not specify targetPackage";
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
}
if (!parseAllMetaData(res, parser, "<instrumentation>", a,
outError)) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return null;
}
owner.instrumentation.add(a);
return a;
}
/**
* Parse the {@code application} XML tree at the current parse location in a
* <em>base APK</em> manifest.
* <p>
* When adding new features, carefully consider if they should also be
* supported by split APKs.
*/
@UnsupportedAppUsage
private boolean parseBaseApplication(Package owner, Resources res,
XmlResourceParser parser, int flags, String[] outError)
throws XmlPullParserException, IOException {
final ApplicationInfo ai = owner.applicationInfo;
final String pkgName = owner.applicationInfo.packageName;
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestApplication);
ai.iconRes = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestApplication_icon, 0);
ai.roundIconRes = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestApplication_roundIcon, 0);
if (!parsePackageItemInfo(owner, ai, outError,
"<application>", sa, false /*nameRequired*/,
com.android.internal.R.styleable.AndroidManifestApplication_name,
com.android.internal.R.styleable.AndroidManifestApplication_label,
com.android.internal.R.styleable.AndroidManifestApplication_icon,
com.android.internal.R.styleable.AndroidManifestApplication_roundIcon,
com.android.internal.R.styleable.AndroidManifestApplication_logo,
com.android.internal.R.styleable.AndroidManifestApplication_banner)) {
sa.recycle();
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
if (ai.name != null) {
ai.className = ai.name;
}
String manageSpaceActivity = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestApplication_manageSpaceActivity,
Configuration.NATIVE_CONFIG_VERSION);
if (manageSpaceActivity != null) {
ai.manageSpaceActivityName = buildClassName(pkgName, manageSpaceActivity,
outError);
}
boolean allowBackup = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_allowBackup, true);
if (allowBackup) {
ai.flags |= ApplicationInfo.FLAG_ALLOW_BACKUP;
// backupAgent, killAfterRestore, fullBackupContent, backupInForeground,
// and restoreAnyVersion are only relevant if backup is possible for the
// given application.
String backupAgent = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestApplication_backupAgent,
Configuration.NATIVE_CONFIG_VERSION);
if (backupAgent != null) {
ai.backupAgentName = buildClassName(pkgName, backupAgent, outError);
if (DEBUG_BACKUP) {
Slog.v(TAG, "android:backupAgent = " + ai.backupAgentName
+ " from " + pkgName + "+" + backupAgent);
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_killAfterRestore,
true)) {
ai.flags |= ApplicationInfo.FLAG_KILL_AFTER_RESTORE;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_restoreAnyVersion,
false)) {
ai.flags |= ApplicationInfo.FLAG_RESTORE_ANY_VERSION;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_fullBackupOnly,
false)) {
ai.flags |= ApplicationInfo.FLAG_FULL_BACKUP_ONLY;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_backupInForeground,
false)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_BACKUP_IN_FOREGROUND;
}
}
TypedValue v = sa.peekValue(
com.android.internal.R.styleable.AndroidManifestApplication_fullBackupContent);
if (v != null && (ai.fullBackupContent = v.resourceId) == 0) {
if (DEBUG_BACKUP) {
Slog.v(TAG, "fullBackupContent specified as boolean=" +
(v.data == 0 ? "false" : "true"));
}
// "false" => -1, "true" => 0
ai.fullBackupContent = (v.data == 0 ? -1 : 0);
}
if (DEBUG_BACKUP) {
Slog.v(TAG, "fullBackupContent=" + ai.fullBackupContent + " for " + pkgName);
}
}
ai.theme = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestApplication_theme, 0);
ai.descriptionRes = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestApplication_description, 0);
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_persistent,
false)) {
// Check if persistence is based on a feature being present
final String requiredFeature = sa.getNonResourceString(com.android.internal.R.styleable
.AndroidManifestApplication_persistentWhenFeatureAvailable);
if (requiredFeature == null || mCallback.hasFeature(requiredFeature)) {
ai.flags |= ApplicationInfo.FLAG_PERSISTENT;
}
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_requiredForAllUsers,
false)) {
owner.mRequiredForAllUsers = true;
}
String restrictedAccountType = sa.getString(com.android.internal.R.styleable
.AndroidManifestApplication_restrictedAccountType);
if (restrictedAccountType != null && restrictedAccountType.length() > 0) {
owner.mRestrictedAccountType = restrictedAccountType;
}
String requiredAccountType = sa.getString(com.android.internal.R.styleable
.AndroidManifestApplication_requiredAccountType);
if (requiredAccountType != null && requiredAccountType.length() > 0) {
owner.mRequiredAccountType = requiredAccountType;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_debuggable,
false)) {
ai.flags |= ApplicationInfo.FLAG_DEBUGGABLE;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_vmSafeMode,
false)) {
ai.flags |= ApplicationInfo.FLAG_VM_SAFE_MODE;
}
owner.baseHardwareAccelerated = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_hardwareAccelerated,
owner.applicationInfo.targetSdkVersion >= Build.VERSION_CODES.ICE_CREAM_SANDWICH);
if (owner.baseHardwareAccelerated) {
ai.flags |= ApplicationInfo.FLAG_HARDWARE_ACCELERATED;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_hasCode,
true)) {
ai.flags |= ApplicationInfo.FLAG_HAS_CODE;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_allowTaskReparenting,
false)) {
ai.flags |= ApplicationInfo.FLAG_ALLOW_TASK_REPARENTING;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_allowClearUserData,
true)) {
ai.flags |= ApplicationInfo.FLAG_ALLOW_CLEAR_USER_DATA;
}
// The parent package controls installation, hence specify test only installs.
if (owner.parentPackage == null) {
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_testOnly,
false)) {
ai.flags |= ApplicationInfo.FLAG_TEST_ONLY;
}
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_largeHeap,
false)) {
ai.flags |= ApplicationInfo.FLAG_LARGE_HEAP;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_usesCleartextTraffic,
owner.applicationInfo.targetSdkVersion < Build.VERSION_CODES.P)) {
ai.flags |= ApplicationInfo.FLAG_USES_CLEARTEXT_TRAFFIC;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_supportsRtl,
false /* default is no RTL support*/)) {
ai.flags |= ApplicationInfo.FLAG_SUPPORTS_RTL;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_multiArch,
false)) {
ai.flags |= ApplicationInfo.FLAG_MULTIARCH;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_extractNativeLibs,
true)) {
ai.flags |= ApplicationInfo.FLAG_EXTRACT_NATIVE_LIBS;
}
if (sa.getBoolean(
R.styleable.AndroidManifestApplication_useEmbeddedDex,
false)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_USE_EMBEDDED_DEX;
}
if (sa.getBoolean(
R.styleable.AndroidManifestApplication_defaultToDeviceProtectedStorage,
false)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_DEFAULT_TO_DEVICE_PROTECTED_STORAGE;
}
if (sa.getBoolean(
R.styleable.AndroidManifestApplication_directBootAware,
false)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_DIRECT_BOOT_AWARE;
}
if (sa.hasValueOrEmpty(R.styleable.AndroidManifestApplication_resizeableActivity)) {
if (sa.getBoolean(R.styleable.AndroidManifestApplication_resizeableActivity, true)) {
ai.privateFlags |= PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_RESIZEABLE;
} else {
ai.privateFlags |= PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_UNRESIZEABLE;
}
} else if (owner.applicationInfo.targetSdkVersion >= Build.VERSION_CODES.N) {
ai.privateFlags |= PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION;
}
if (sa.getBoolean(
com.android.internal.R.styleable
.AndroidManifestApplication_allowClearUserDataOnFailedRestore,
true)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_ALLOW_CLEAR_USER_DATA_ON_FAILED_RESTORE;
}
if (sa.getBoolean(
R.styleable.AndroidManifestApplication_allowAudioPlaybackCapture,
owner.applicationInfo.targetSdkVersion >= Build.VERSION_CODES.Q)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_ALLOW_AUDIO_PLAYBACK_CAPTURE;
}
if (sa.getBoolean(
R.styleable.AndroidManifestApplication_requestLegacyExternalStorage,
owner.applicationInfo.targetSdkVersion < Build.VERSION_CODES.Q)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_REQUEST_LEGACY_EXTERNAL_STORAGE;
}
if (sa.getBoolean(
R.styleable.AndroidManifestApplication_allowNativeHeapPointerTagging, true)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_ALLOW_NATIVE_HEAP_POINTER_TAGGING;
}
ai.maxAspectRatio = sa.getFloat(R.styleable.AndroidManifestApplication_maxAspectRatio, 0);
ai.minAspectRatio = sa.getFloat(R.styleable.AndroidManifestApplication_minAspectRatio, 0);
ai.networkSecurityConfigRes = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestApplication_networkSecurityConfig,
0);
ai.category = sa.getInt(
com.android.internal.R.styleable.AndroidManifestApplication_appCategory,
ApplicationInfo.CATEGORY_UNDEFINED);
String str;
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestApplication_permission, 0);
ai.permission = (str != null && str.length() > 0) ? str.intern() : null;
if (owner.applicationInfo.targetSdkVersion >= Build.VERSION_CODES.FROYO) {
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestApplication_taskAffinity,
Configuration.NATIVE_CONFIG_VERSION);
} else {
// Some older apps have been seen to use a resource reference
// here that on older builds was ignored (with a warning). We
// need to continue to do this for them so they don't break.
str = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestApplication_taskAffinity);
}
ai.taskAffinity = buildTaskAffinityName(ai.packageName, ai.packageName,
str, outError);
String factory = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestApplication_appComponentFactory);
if (factory != null) {
ai.appComponentFactory = buildClassName(ai.packageName, factory, outError);
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_usesNonSdkApi, false)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_USES_NON_SDK_API;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_hasFragileUserData,
false)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_HAS_FRAGILE_USER_DATA;
}
if (outError[0] == null) {
CharSequence pname;
if (owner.applicationInfo.targetSdkVersion >= Build.VERSION_CODES.FROYO) {
pname = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestApplication_process,
Configuration.NATIVE_CONFIG_VERSION);
} else {
// Some older apps have been seen to use a resource reference
// here that on older builds was ignored (with a warning). We
// need to continue to do this for them so they don't break.
pname = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestApplication_process);
}
ai.processName = buildProcessName(ai.packageName, null, pname,
flags, mSeparateProcesses, outError);
ai.enabled = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_enabled, true);
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_isGame, false)) {
ai.flags |= ApplicationInfo.FLAG_IS_GAME;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_cantSaveState,
false)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_CANT_SAVE_STATE;
// A heavy-weight application can not be in a custom process.
// We can do direct compare because we intern all strings.
if (ai.processName != null && !ai.processName.equals(ai.packageName)) {
outError[0] = "cantSaveState applications can not use custom processes";
}
}
}
ai.uiOptions = sa.getInt(
com.android.internal.R.styleable.AndroidManifestApplication_uiOptions, 0);
ai.classLoaderName = sa.getString(
com.android.internal.R.styleable.AndroidManifestApplication_classLoader);
if (ai.classLoaderName != null
&& !ClassLoaderFactory.isValidClassLoaderName(ai.classLoaderName)) {
outError[0] = "Invalid class loader name: " + ai.classLoaderName;
}
ai.zygotePreloadName = sa.getString(
com.android.internal.R.styleable.AndroidManifestApplication_zygotePreloadName);
sa.recycle();
if (outError[0] != null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
final int innerDepth = parser.getDepth();
// IMPORTANT: These must only be cached for a single <application> to avoid components
// getting added to the wrong package.
final CachedComponentArgs cachedArgs = new CachedComponentArgs();
int type;
boolean hasActivityOrder = false;
boolean hasReceiverOrder = false;
boolean hasServiceOrder = false;
while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
&& (type != XmlPullParser.END_TAG || parser.getDepth() > innerDepth)) {
if (type == XmlPullParser.END_TAG || type == XmlPullParser.TEXT) {
continue;
}
String tagName = parser.getName();
if (tagName.equals("activity")) {
Activity a = parseActivity(owner, res, parser, flags, outError, cachedArgs, false,
owner.baseHardwareAccelerated);
if (a == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
hasActivityOrder |= (a.order != 0);
owner.activities.add(a);
} else if (tagName.equals("receiver")) {
Activity a = parseActivity(owner, res, parser, flags, outError, cachedArgs,
true, false);
if (a == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
hasReceiverOrder |= (a.order != 0);
owner.receivers.add(a);
} else if (tagName.equals("service")) {
Service s = parseService(owner, res, parser, flags, outError, cachedArgs);
if (s == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
hasServiceOrder |= (s.order != 0);
owner.services.add(s);
} else if (tagName.equals("provider")) {
Provider p = parseProvider(owner, res, parser, flags, outError, cachedArgs);
if (p == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.providers.add(p);
} else if (tagName.equals("activity-alias")) {
Activity a = parseActivityAlias(owner, res, parser, flags, outError, cachedArgs);
if (a == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
hasActivityOrder |= (a.order != 0);
owner.activities.add(a);
} else if (parser.getName().equals("meta-data")) {
// note: application meta-data is stored off to the side, so it can
// remain null in the primary copy (we like to avoid extra copies because
// it can be large)
if ((owner.mAppMetaData = parseMetaData(res, parser, owner.mAppMetaData,
outError)) == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
} else if (tagName.equals("static-library")) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestStaticLibrary);
// Note: don't allow this value to be a reference to a resource
// that may change.
final String lname = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestStaticLibrary_name);
final int version = sa.getInt(
com.android.internal.R.styleable.AndroidManifestStaticLibrary_version, -1);
final int versionMajor = sa.getInt(
com.android.internal.R.styleable.AndroidManifestStaticLibrary_versionMajor,
0);
sa.recycle();
// Since the app canot run without a static lib - fail if malformed
if (lname == null || version < 0) {
outError[0] = "Bad static-library declaration name: " + lname
+ " version: " + version;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
XmlUtils.skipCurrentTag(parser);
return false;
}
if (owner.mSharedUserId != null) {
outError[0] = "sharedUserId not allowed in static shared library";
mParseError = PackageManager.INSTALL_PARSE_FAILED_BAD_SHARED_USER_ID;
XmlUtils.skipCurrentTag(parser);
return false;
}
if (owner.staticSharedLibName != null) {
outError[0] = "Multiple static-shared libs for package " + pkgName;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
XmlUtils.skipCurrentTag(parser);
return false;
}
owner.staticSharedLibName = lname.intern();
if (version >= 0) {
owner.staticSharedLibVersion =
PackageInfo.composeLongVersionCode(versionMajor, version);
} else {
owner.staticSharedLibVersion = version;
}
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_STATIC_SHARED_LIBRARY;
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals("library")) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestLibrary);
// Note: don't allow this value to be a reference to a resource
// that may change.
String lname = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestLibrary_name);
sa.recycle();
if (lname != null) {
lname = lname.intern();
if (!ArrayUtils.contains(owner.libraryNames, lname)) {
owner.libraryNames = ArrayUtils.add(
owner.libraryNames, lname);
}
}
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals("uses-static-library")) {
if (!parseUsesStaticLibrary(owner, res, parser, outError)) {
return false;
}
} else if (tagName.equals("uses-library")) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestUsesLibrary);
// Note: don't allow this value to be a reference to a resource
// that may change.
String lname = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestUsesLibrary_name);
boolean req = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestUsesLibrary_required,
true);
sa.recycle();
if (lname != null) {
lname = lname.intern();
if (req) {
owner.usesLibraries = ArrayUtils.add(owner.usesLibraries, lname);
} else {
owner.usesOptionalLibraries = ArrayUtils.add(
owner.usesOptionalLibraries, lname);
}
}
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals("uses-package")) {
// Dependencies for app installers; we don't currently try to
// enforce this.
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals("profileable")) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestProfileable);
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestProfileable_shell, false)) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_PROFILEABLE_BY_SHELL;
}
XmlUtils.skipCurrentTag(parser);
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "Unknown element under <application>: " + tagName
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
} else {
outError[0] = "Bad element under <application>: " + tagName;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
}
}
if (TextUtils.isEmpty(owner.staticSharedLibName)) {
// Add a hidden app detail activity to normal apps which forwards user to App Details
// page.
Activity a = generateAppDetailsHiddenActivity(owner, flags, outError,
owner.baseHardwareAccelerated);
owner.activities.add(a);
}
if (hasActivityOrder) {
Collections.sort(owner.activities, (a1, a2) -> Integer.compare(a2.order, a1.order));
}
if (hasReceiverOrder) {
Collections.sort(owner.receivers, (r1, r2) -> Integer.compare(r2.order, r1.order));
}
if (hasServiceOrder) {
Collections.sort(owner.services, (s1, s2) -> Integer.compare(s2.order, s1.order));
}
// Must be ran after the entire {@link ApplicationInfo} has been fully processed and after
// every activity info has had a chance to set it from its attributes.
setMaxAspectRatio(owner);
setMinAspectRatio(owner);
setSupportsSizeChanges(owner);
if (hasDomainURLs(owner)) {
owner.applicationInfo.privateFlags |= ApplicationInfo.PRIVATE_FLAG_HAS_DOMAIN_URLS;
} else {
owner.applicationInfo.privateFlags &= ~ApplicationInfo.PRIVATE_FLAG_HAS_DOMAIN_URLS;
}
return true;
}
/**
* Check if one of the IntentFilter as both actions DEFAULT / VIEW and a HTTP/HTTPS data URI
*/
private static boolean hasDomainURLs(Package pkg) {
if (pkg == null || pkg.activities == null) return false;
final ArrayList<Activity> activities = pkg.activities;
final int countActivities = activities.size();
for (int n=0; n<countActivities; n++) {
Activity activity = activities.get(n);
ArrayList<ActivityIntentInfo> filters = activity.intents;
if (filters == null) continue;
final int countFilters = filters.size();
for (int m=0; m<countFilters; m++) {
ActivityIntentInfo aii = filters.get(m);
if (!aii.hasAction(Intent.ACTION_VIEW)) continue;
if (!aii.hasAction(Intent.ACTION_DEFAULT)) continue;
if (aii.hasDataScheme(IntentFilter.SCHEME_HTTP) ||
aii.hasDataScheme(IntentFilter.SCHEME_HTTPS)) {
return true;
}
}
}
return false;
}
/**
* Parse the {@code application} XML tree at the current parse location in a
* <em>split APK</em> manifest.
* <p>
* Note that split APKs have many more restrictions on what they're capable
* of doing, so many valid features of a base APK have been carefully
* omitted here.
*/
private boolean parseSplitApplication(Package owner, Resources res, XmlResourceParser parser,
int flags, int splitIndex, String[] outError)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestApplication);
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestApplication_hasCode, true)) {
owner.splitFlags[splitIndex] |= ApplicationInfo.FLAG_HAS_CODE;
}
final String classLoaderName = sa.getString(
com.android.internal.R.styleable.AndroidManifestApplication_classLoader);
if (classLoaderName == null || ClassLoaderFactory.isValidClassLoaderName(classLoaderName)) {
owner.applicationInfo.splitClassLoaderNames[splitIndex] = classLoaderName;
} else {
outError[0] = "Invalid class loader name: " + classLoaderName;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
final int innerDepth = parser.getDepth();
int type;
while ((type = parser.next()) != XmlPullParser.END_DOCUMENT
&& (type != XmlPullParser.END_TAG || parser.getDepth() > innerDepth)) {
if (type == XmlPullParser.END_TAG || type == XmlPullParser.TEXT) {
continue;
}
ComponentInfo parsedComponent = null;
// IMPORTANT: These must only be cached for a single <application> to avoid components
// getting added to the wrong package.
final CachedComponentArgs cachedArgs = new CachedComponentArgs();
String tagName = parser.getName();
if (tagName.equals("activity")) {
Activity a = parseActivity(owner, res, parser, flags, outError, cachedArgs, false,
owner.baseHardwareAccelerated);
if (a == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.activities.add(a);
parsedComponent = a.info;
} else if (tagName.equals("receiver")) {
Activity a = parseActivity(owner, res, parser, flags, outError, cachedArgs,
true, false);
if (a == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.receivers.add(a);
parsedComponent = a.info;
} else if (tagName.equals("service")) {
Service s = parseService(owner, res, parser, flags, outError, cachedArgs);
if (s == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.services.add(s);
parsedComponent = s.info;
} else if (tagName.equals("provider")) {
Provider p = parseProvider(owner, res, parser, flags, outError, cachedArgs);
if (p == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.providers.add(p);
parsedComponent = p.info;
} else if (tagName.equals("activity-alias")) {
Activity a = parseActivityAlias(owner, res, parser, flags, outError, cachedArgs);
if (a == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
owner.activities.add(a);
parsedComponent = a.info;
} else if (parser.getName().equals("meta-data")) {
// note: application meta-data is stored off to the side, so it can
// remain null in the primary copy (we like to avoid extra copies because
// it can be large)
if ((owner.mAppMetaData = parseMetaData(res, parser, owner.mAppMetaData,
outError)) == null) {
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
} else if (tagName.equals("uses-static-library")) {
if (!parseUsesStaticLibrary(owner, res, parser, outError)) {
return false;
}
} else if (tagName.equals("uses-library")) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestUsesLibrary);
// Note: don't allow this value to be a reference to a resource
// that may change.
String lname = sa.getNonResourceString(
com.android.internal.R.styleable.AndroidManifestUsesLibrary_name);
boolean req = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestUsesLibrary_required,
true);
sa.recycle();
if (lname != null) {
lname = lname.intern();
if (req) {
// Upgrade to treat as stronger constraint
owner.usesLibraries = ArrayUtils.add(owner.usesLibraries, lname);
owner.usesOptionalLibraries = ArrayUtils.remove(
owner.usesOptionalLibraries, lname);
} else {
// Ignore if someone already defined as required
if (!ArrayUtils.contains(owner.usesLibraries, lname)) {
owner.usesOptionalLibraries = ArrayUtils.add(
owner.usesOptionalLibraries, lname);
}
}
}
XmlUtils.skipCurrentTag(parser);
} else if (tagName.equals("uses-package")) {
// Dependencies for app installers; we don't currently try to
// enforce this.
XmlUtils.skipCurrentTag(parser);
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "Unknown element under <application>: " + tagName
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
} else {
outError[0] = "Bad element under <application>: " + tagName;
mParseError = PackageManager.INSTALL_PARSE_FAILED_MANIFEST_MALFORMED;
return false;
}
}
if (parsedComponent != null && parsedComponent.splitName == null) {
// If the loaded component did not specify a split, inherit the split name
// based on the split it is defined in.
// This is used to later load the correct split when starting this
// component.
parsedComponent.splitName = owner.splitNames[splitIndex];
}
}
return true;
}
private static boolean parsePackageItemInfo(Package owner, PackageItemInfo outInfo,
String[] outError, String tag, TypedArray sa, boolean nameRequired,
int nameRes, int labelRes, int iconRes, int roundIconRes, int logoRes, int bannerRes) {
// This case can only happen in unit tests where we sometimes need to create fakes
// of various package parser data structures.
if (sa == null) {
outError[0] = tag + " does not contain any attributes";
return false;
}
String name = sa.getNonConfigurationString(nameRes, 0);
if (name == null) {
if (nameRequired) {
outError[0] = tag + " does not specify android:name";
return false;
}
} else {
String outInfoName
= buildClassName(owner.applicationInfo.packageName, name, outError);
if (PackageManager.APP_DETAILS_ACTIVITY_CLASS_NAME.equals(outInfoName)) {
outError[0] = tag + " invalid android:name";
return false;
}
outInfo.name = outInfoName;
if (outInfoName == null) {
return false;
}
}
int roundIconVal = sUseRoundIcon ? sa.getResourceId(roundIconRes, 0) : 0;
if (roundIconVal != 0) {
outInfo.icon = roundIconVal;
outInfo.nonLocalizedLabel = null;
} else {
int iconVal = sa.getResourceId(iconRes, 0);
if (iconVal != 0) {
outInfo.icon = iconVal;
outInfo.nonLocalizedLabel = null;
}
}
int logoVal = sa.getResourceId(logoRes, 0);
if (logoVal != 0) {
outInfo.logo = logoVal;
}
int bannerVal = sa.getResourceId(bannerRes, 0);
if (bannerVal != 0) {
outInfo.banner = bannerVal;
}
TypedValue v = sa.peekValue(labelRes);
if (v != null && (outInfo.labelRes=v.resourceId) == 0) {
outInfo.nonLocalizedLabel = v.coerceToString();
}
outInfo.packageName = owner.packageName;
return true;
}
/**
* Generate activity object that forwards user to App Details page automatically.
* This activity should be invisible to user and user should not know or see it.
*/
private @NonNull PackageParser.Activity generateAppDetailsHiddenActivity(
PackageParser.Package owner, int flags, String[] outError,
boolean hardwareAccelerated) {
// Build custom App Details activity info instead of parsing it from xml
Activity a = new Activity(owner, PackageManager.APP_DETAILS_ACTIVITY_CLASS_NAME,
new ActivityInfo());
a.owner = owner;
a.setPackageName(owner.packageName);
a.info.theme = android.R.style.Theme_NoDisplay;
a.info.exported = true;
a.info.name = PackageManager.APP_DETAILS_ACTIVITY_CLASS_NAME;
a.info.processName = owner.applicationInfo.processName;
a.info.uiOptions = a.info.applicationInfo.uiOptions;
a.info.taskAffinity = buildTaskAffinityName(owner.packageName, owner.packageName,
":app_details", outError);
a.info.enabled = true;
a.info.launchMode = ActivityInfo.LAUNCH_MULTIPLE;
a.info.documentLaunchMode = ActivityInfo.DOCUMENT_LAUNCH_NONE;
a.info.maxRecents = ActivityTaskManager.getDefaultAppRecentsLimitStatic();
a.info.configChanges = getActivityConfigChanges(0, 0);
a.info.softInputMode = 0;
a.info.persistableMode = ActivityInfo.PERSIST_NEVER;
a.info.screenOrientation = SCREEN_ORIENTATION_UNSPECIFIED;
a.info.resizeMode = RESIZE_MODE_FORCE_RESIZEABLE;
a.info.lockTaskLaunchMode = 0;
a.info.directBootAware = false;
a.info.rotationAnimation = ROTATION_ANIMATION_UNSPECIFIED;
a.info.colorMode = ActivityInfo.COLOR_MODE_DEFAULT;
if (hardwareAccelerated) {
a.info.flags |= ActivityInfo.FLAG_HARDWARE_ACCELERATED;
}
return a;
}
private Activity parseActivity(Package owner, Resources res,
XmlResourceParser parser, int flags, String[] outError, CachedComponentArgs cachedArgs,
boolean receiver, boolean hardwareAccelerated)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser, R.styleable.AndroidManifestActivity);
if (cachedArgs.mActivityArgs == null) {
cachedArgs.mActivityArgs = new ParseComponentArgs(owner, outError,
R.styleable.AndroidManifestActivity_name,
R.styleable.AndroidManifestActivity_label,
R.styleable.AndroidManifestActivity_icon,
R.styleable.AndroidManifestActivity_roundIcon,
R.styleable.AndroidManifestActivity_logo,
R.styleable.AndroidManifestActivity_banner,
mSeparateProcesses,
R.styleable.AndroidManifestActivity_process,
R.styleable.AndroidManifestActivity_description,
R.styleable.AndroidManifestActivity_enabled);
}
cachedArgs.mActivityArgs.tag = receiver ? "<receiver>" : "<activity>";
cachedArgs.mActivityArgs.sa = sa;
cachedArgs.mActivityArgs.flags = flags;
Activity a = new Activity(cachedArgs.mActivityArgs, new ActivityInfo());
if (outError[0] != null) {
sa.recycle();
return null;
}
boolean setExported = sa.hasValue(R.styleable.AndroidManifestActivity_exported);
if (setExported) {
a.info.exported = sa.getBoolean(R.styleable.AndroidManifestActivity_exported, false);
}
a.info.theme = sa.getResourceId(R.styleable.AndroidManifestActivity_theme, 0);
a.info.uiOptions = sa.getInt(R.styleable.AndroidManifestActivity_uiOptions,
a.info.applicationInfo.uiOptions);
String parentName = sa.getNonConfigurationString(
R.styleable.AndroidManifestActivity_parentActivityName,
Configuration.NATIVE_CONFIG_VERSION);
if (parentName != null) {
String parentClassName = buildClassName(a.info.packageName, parentName, outError);
if (outError[0] == null) {
a.info.parentActivityName = parentClassName;
} else {
Log.e(TAG, "Activity " + a.info.name + " specified invalid parentActivityName " +
parentName);
outError[0] = null;
}
}
String str;
str = sa.getNonConfigurationString(R.styleable.AndroidManifestActivity_permission, 0);
if (str == null) {
a.info.permission = owner.applicationInfo.permission;
} else {
a.info.permission = str.length() > 0 ? str.toString().intern() : null;
}
str = sa.getNonConfigurationString(
R.styleable.AndroidManifestActivity_taskAffinity,
Configuration.NATIVE_CONFIG_VERSION);
a.info.taskAffinity = buildTaskAffinityName(owner.applicationInfo.packageName,
owner.applicationInfo.taskAffinity, str, outError);
a.info.splitName =
sa.getNonConfigurationString(R.styleable.AndroidManifestActivity_splitName, 0);
a.info.flags = 0;
if (sa.getBoolean(
R.styleable.AndroidManifestActivity_multiprocess, false)) {
a.info.flags |= ActivityInfo.FLAG_MULTIPROCESS;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_finishOnTaskLaunch, false)) {
a.info.flags |= ActivityInfo.FLAG_FINISH_ON_TASK_LAUNCH;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_clearTaskOnLaunch, false)) {
a.info.flags |= ActivityInfo.FLAG_CLEAR_TASK_ON_LAUNCH;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_noHistory, false)) {
a.info.flags |= ActivityInfo.FLAG_NO_HISTORY;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_alwaysRetainTaskState, false)) {
a.info.flags |= ActivityInfo.FLAG_ALWAYS_RETAIN_TASK_STATE;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_stateNotNeeded, false)) {
a.info.flags |= ActivityInfo.FLAG_STATE_NOT_NEEDED;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_excludeFromRecents, false)) {
a.info.flags |= ActivityInfo.FLAG_EXCLUDE_FROM_RECENTS;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_allowTaskReparenting,
(owner.applicationInfo.flags&ApplicationInfo.FLAG_ALLOW_TASK_REPARENTING) != 0)) {
a.info.flags |= ActivityInfo.FLAG_ALLOW_TASK_REPARENTING;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_finishOnCloseSystemDialogs, false)) {
a.info.flags |= ActivityInfo.FLAG_FINISH_ON_CLOSE_SYSTEM_DIALOGS;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_showOnLockScreen, false)
|| sa.getBoolean(R.styleable.AndroidManifestActivity_showForAllUsers, false)) {
a.info.flags |= ActivityInfo.FLAG_SHOW_FOR_ALL_USERS;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_immersive, false)) {
a.info.flags |= ActivityInfo.FLAG_IMMERSIVE;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_systemUserOnly, false)) {
a.info.flags |= ActivityInfo.FLAG_SYSTEM_USER_ONLY;
}
if (!receiver) {
if (sa.getBoolean(R.styleable.AndroidManifestActivity_hardwareAccelerated,
hardwareAccelerated)) {
a.info.flags |= ActivityInfo.FLAG_HARDWARE_ACCELERATED;
}
a.info.launchMode = sa.getInt(
R.styleable.AndroidManifestActivity_launchMode, ActivityInfo.LAUNCH_MULTIPLE);
a.info.documentLaunchMode = sa.getInt(
R.styleable.AndroidManifestActivity_documentLaunchMode,
ActivityInfo.DOCUMENT_LAUNCH_NONE);
a.info.maxRecents = sa.getInt(
R.styleable.AndroidManifestActivity_maxRecents,
ActivityTaskManager.getDefaultAppRecentsLimitStatic());
a.info.configChanges = getActivityConfigChanges(
sa.getInt(R.styleable.AndroidManifestActivity_configChanges, 0),
sa.getInt(R.styleable.AndroidManifestActivity_recreateOnConfigChanges, 0));
a.info.softInputMode = sa.getInt(
R.styleable.AndroidManifestActivity_windowSoftInputMode, 0);
a.info.persistableMode = sa.getInteger(
R.styleable.AndroidManifestActivity_persistableMode,
ActivityInfo.PERSIST_ROOT_ONLY);
if (sa.getBoolean(R.styleable.AndroidManifestActivity_allowEmbedded, false)) {
a.info.flags |= ActivityInfo.FLAG_ALLOW_EMBEDDED;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_autoRemoveFromRecents, false)) {
a.info.flags |= ActivityInfo.FLAG_AUTO_REMOVE_FROM_RECENTS;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_relinquishTaskIdentity, false)) {
a.info.flags |= ActivityInfo.FLAG_RELINQUISH_TASK_IDENTITY;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_resumeWhilePausing, false)) {
a.info.flags |= ActivityInfo.FLAG_RESUME_WHILE_PAUSING;
}
a.info.screenOrientation = sa.getInt(
R.styleable.AndroidManifestActivity_screenOrientation,
SCREEN_ORIENTATION_UNSPECIFIED);
setActivityResizeMode(a.info, sa, owner);
if (sa.getBoolean(R.styleable.AndroidManifestActivity_supportsPictureInPicture,
false)) {
a.info.flags |= FLAG_SUPPORTS_PICTURE_IN_PICTURE;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_alwaysFocusable, false)) {
a.info.flags |= FLAG_ALWAYS_FOCUSABLE;
}
if (sa.hasValue(R.styleable.AndroidManifestActivity_maxAspectRatio)
&& sa.getType(R.styleable.AndroidManifestActivity_maxAspectRatio)
== TypedValue.TYPE_FLOAT) {
a.setMaxAspectRatio(sa.getFloat(R.styleable.AndroidManifestActivity_maxAspectRatio,
0 /*default*/));
}
if (sa.hasValue(R.styleable.AndroidManifestActivity_minAspectRatio)
&& sa.getType(R.styleable.AndroidManifestActivity_minAspectRatio)
== TypedValue.TYPE_FLOAT) {
a.setMinAspectRatio(sa.getFloat(R.styleable.AndroidManifestActivity_minAspectRatio,
0 /*default*/));
}
a.info.lockTaskLaunchMode =
sa.getInt(R.styleable.AndroidManifestActivity_lockTaskMode, 0);
a.info.directBootAware = sa.getBoolean(
R.styleable.AndroidManifestActivity_directBootAware,
false);
a.info.requestedVrComponent =
sa.getString(R.styleable.AndroidManifestActivity_enableVrMode);
a.info.rotationAnimation =
sa.getInt(R.styleable.AndroidManifestActivity_rotationAnimation, ROTATION_ANIMATION_UNSPECIFIED);
a.info.colorMode = sa.getInt(R.styleable.AndroidManifestActivity_colorMode,
ActivityInfo.COLOR_MODE_DEFAULT);
if (sa.getBoolean(
R.styleable.AndroidManifestActivity_preferMinimalPostProcessing, false)) {
a.info.flags |= ActivityInfo.FLAG_PREFER_MINIMAL_POST_PROCESSING;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_showWhenLocked, false)) {
a.info.flags |= ActivityInfo.FLAG_SHOW_WHEN_LOCKED;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_turnScreenOn, false)) {
a.info.flags |= ActivityInfo.FLAG_TURN_SCREEN_ON;
}
if (sa.getBoolean(R.styleable.AndroidManifestActivity_inheritShowWhenLocked, false)) {
a.info.privateFlags |= ActivityInfo.FLAG_INHERIT_SHOW_WHEN_LOCKED;
}
} else {
a.info.launchMode = ActivityInfo.LAUNCH_MULTIPLE;
a.info.configChanges = 0;
if (sa.getBoolean(R.styleable.AndroidManifestActivity_singleUser, false)) {
a.info.flags |= ActivityInfo.FLAG_SINGLE_USER;
}
a.info.directBootAware = sa.getBoolean(
R.styleable.AndroidManifestActivity_directBootAware,
false);
}
if (a.info.directBootAware) {
owner.applicationInfo.privateFlags |=
ApplicationInfo.PRIVATE_FLAG_PARTIALLY_DIRECT_BOOT_AWARE;
}
// can't make this final; we may set it later via meta-data
boolean visibleToEphemeral =
sa.getBoolean(R.styleable.AndroidManifestActivity_visibleToInstantApps, false);
if (visibleToEphemeral) {
a.info.flags |= ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP;
owner.visibleToInstantApps = true;
}
sa.recycle();
if (receiver && (owner.applicationInfo.privateFlags
&ApplicationInfo.PRIVATE_FLAG_CANT_SAVE_STATE) != 0) {
// A heavy-weight application can not have receives in its main process
// We can do direct compare because we intern all strings.
if (a.info.processName == owner.packageName) {
outError[0] = "Heavy-weight applications can not have receivers in main process";
}
}
if (outError[0] != null) {
return 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;
}
if (parser.getName().equals("intent-filter")) {
ActivityIntentInfo intent = new ActivityIntentInfo(a);
if (!parseIntent(res, parser, true /*allowGlobs*/, true /*allowAutoVerify*/,
intent, outError)) {
return null;
}
if (intent.countActions() == 0) {
Slog.w(TAG, "No actions in intent filter at "
+ mArchiveSourcePath + " "
+ parser.getPositionDescription());
} else {
a.order = Math.max(intent.getOrder(), a.order);
a.intents.add(intent);
}
// adjust activity flags when we implicitly expose it via a browsable filter
final int visibility = visibleToEphemeral
? IntentFilter.VISIBILITY_EXPLICIT
: !receiver && isImplicitlyExposedIntent(intent)
? IntentFilter.VISIBILITY_IMPLICIT
: IntentFilter.VISIBILITY_NONE;
intent.setVisibilityToInstantApp(visibility);
if (intent.isVisibleToInstantApp()) {
a.info.flags |= ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP;
}
if (intent.isImplicitlyVisibleToInstantApp()) {
a.info.flags |= ActivityInfo.FLAG_IMPLICITLY_VISIBLE_TO_INSTANT_APP;
}
if (LOG_UNSAFE_BROADCASTS && receiver
&& (owner.applicationInfo.targetSdkVersion >= Build.VERSION_CODES.O)) {
for (int i = 0; i < intent.countActions(); i++) {
final String action = intent.getAction(i);
if (action == null || !action.startsWith("android.")) continue;
if (!SAFE_BROADCASTS.contains(action)) {
Slog.w(TAG, "Broadcast " + action + " may never be delivered to "
+ owner.packageName + " as requested at: "
+ parser.getPositionDescription());
}
}
}
} else if (!receiver && parser.getName().equals("preferred")) {
ActivityIntentInfo intent = new ActivityIntentInfo(a);
if (!parseIntent(res, parser, false /*allowGlobs*/, false /*allowAutoVerify*/,
intent, outError)) {
return null;
}
if (intent.countActions() == 0) {
Slog.w(TAG, "No actions in preferred at "
+ mArchiveSourcePath + " "
+ parser.getPositionDescription());
} else {
if (owner.preferredActivityFilters == null) {
owner.preferredActivityFilters = new ArrayList<ActivityIntentInfo>();
}
owner.preferredActivityFilters.add(intent);
}
// adjust activity flags when we implicitly expose it via a browsable filter
final int visibility = visibleToEphemeral
? IntentFilter.VISIBILITY_EXPLICIT
: !receiver && isImplicitlyExposedIntent(intent)
? IntentFilter.VISIBILITY_IMPLICIT
: IntentFilter.VISIBILITY_NONE;
intent.setVisibilityToInstantApp(visibility);
if (intent.isVisibleToInstantApp()) {
a.info.flags |= ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP;
}
if (intent.isImplicitlyVisibleToInstantApp()) {
a.info.flags |= ActivityInfo.FLAG_IMPLICITLY_VISIBLE_TO_INSTANT_APP;
}
} else if (parser.getName().equals("meta-data")) {
if ((a.metaData = parseMetaData(res, parser, a.metaData,
outError)) == null) {
return null;
}
} else if (!receiver && parser.getName().equals("layout")) {
parseLayout(res, parser, a);
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "Problem in package " + mArchiveSourcePath + ":");
if (receiver) {
Slog.w(TAG, "Unknown element under <receiver>: " + parser.getName()
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
} else {
Slog.w(TAG, "Unknown element under <activity>: " + parser.getName()
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
}
XmlUtils.skipCurrentTag(parser);
continue;
} else {
if (receiver) {
outError[0] = "Bad element under <receiver>: " + parser.getName();
} else {
outError[0] = "Bad element under <activity>: " + parser.getName();
}
return null;
}
}
}
resolveWindowLayout(a);
if (!setExported) {
a.info.exported = a.intents.size() > 0;
}
return a;
}
private void setActivityResizeMode(ActivityInfo aInfo, TypedArray sa, Package owner) {
final boolean appExplicitDefault = (owner.applicationInfo.privateFlags
& (PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_RESIZEABLE
| PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_UNRESIZEABLE)) != 0;
if (sa.hasValue(R.styleable.AndroidManifestActivity_resizeableActivity)
|| appExplicitDefault) {
// Activity or app explicitly set if it is resizeable or not;
final boolean appResizeable = (owner.applicationInfo.privateFlags
& PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_RESIZEABLE) != 0;
if (sa.getBoolean(R.styleable.AndroidManifestActivity_resizeableActivity,
appResizeable)) {
aInfo.resizeMode = RESIZE_MODE_RESIZEABLE;
} else {
aInfo.resizeMode = RESIZE_MODE_UNRESIZEABLE;
}
return;
}
if ((owner.applicationInfo.privateFlags
& PRIVATE_FLAG_ACTIVITIES_RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION) != 0) {
// The activity or app didn't explicitly set the resizing option, however we want to
// make it resize due to the sdk version it is targeting.
aInfo.resizeMode = RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION;
return;
}
// resize preference isn't set and target sdk version doesn't support resizing apps by
// default. For the app to be resizeable if it isn't fixed orientation or immersive.
if (aInfo.isFixedOrientationPortrait()) {
aInfo.resizeMode = RESIZE_MODE_FORCE_RESIZABLE_PORTRAIT_ONLY;
} else if (aInfo.isFixedOrientationLandscape()) {
aInfo.resizeMode = RESIZE_MODE_FORCE_RESIZABLE_LANDSCAPE_ONLY;
} else if (aInfo.isFixedOrientation()) {
aInfo.resizeMode = RESIZE_MODE_FORCE_RESIZABLE_PRESERVE_ORIENTATION;
} else {
aInfo.resizeMode = RESIZE_MODE_FORCE_RESIZEABLE;
}
}
/**
* Sets every the max aspect ratio of every child activity that doesn't already have an aspect
* ratio set.
*/
private void setMaxAspectRatio(Package owner) {
// Default to (1.86) 16.7:9 aspect ratio for pre-O apps and unset for O and greater.
// NOTE: 16.7:9 was the max aspect ratio Android devices can support pre-O per the CDD.
float maxAspectRatio = owner.applicationInfo.targetSdkVersion < O
? DEFAULT_PRE_O_MAX_ASPECT_RATIO : 0;
if (owner.applicationInfo.maxAspectRatio != 0) {
// Use the application max aspect ration as default if set.
maxAspectRatio = owner.applicationInfo.maxAspectRatio;
} else if (owner.mAppMetaData != null
&& owner.mAppMetaData.containsKey(METADATA_MAX_ASPECT_RATIO)) {
maxAspectRatio = owner.mAppMetaData.getFloat(METADATA_MAX_ASPECT_RATIO, maxAspectRatio);
}
for (Activity activity : owner.activities) {
// If the max aspect ratio for the activity has already been set, skip.
if (activity.hasMaxAspectRatio()) {
continue;
}
// By default we prefer to use a values defined on the activity directly than values
// defined on the application. We do not check the styled attributes on the activity
// as it would have already been set when we processed the activity. We wait to process
// the meta data here since this method is called at the end of processing the
// application and all meta data is guaranteed.
final float activityAspectRatio = activity.metaData != null
? activity.metaData.getFloat(METADATA_MAX_ASPECT_RATIO, maxAspectRatio)
: maxAspectRatio;
activity.setMaxAspectRatio(activityAspectRatio);
}
}
/**
* Sets every the min aspect ratio of every child activity that doesn't already have an aspect
* ratio set.
*/
private void setMinAspectRatio(Package owner) {
// Use the application max aspect ration as default if set.
final float minAspectRatio = owner.applicationInfo.minAspectRatio;
for (Activity activity : owner.activities) {
if (activity.hasMinAspectRatio()) {
continue;
}
activity.setMinAspectRatio(minAspectRatio);
}
}
private void setSupportsSizeChanges(Package owner) {
final boolean supportsSizeChanges = owner.mAppMetaData != null
&& owner.mAppMetaData.getBoolean(METADATA_SUPPORTS_SIZE_CHANGES, false);
for (Activity activity : owner.activities) {
if (supportsSizeChanges || (activity.metaData != null
&& activity.metaData.getBoolean(METADATA_SUPPORTS_SIZE_CHANGES, false))) {
activity.info.supportsSizeChanges = true;
}
}
}
/**
* @param configChanges The bit mask of configChanges fetched from AndroidManifest.xml.
* @param recreateOnConfigChanges The bit mask recreateOnConfigChanges fetched from
* AndroidManifest.xml.
* @hide Exposed for unit testing only.
*/
public static int getActivityConfigChanges(int configChanges, int recreateOnConfigChanges) {
return configChanges | ((~recreateOnConfigChanges) & RECREATE_ON_CONFIG_CHANGES_MASK);
}
private void parseLayout(Resources res, AttributeSet attrs, Activity a) {
TypedArray sw = res.obtainAttributes(attrs,
com.android.internal.R.styleable.AndroidManifestLayout);
int width = -1;
float widthFraction = -1f;
int height = -1;
float heightFraction = -1f;
final int widthType = sw.getType(
com.android.internal.R.styleable.AndroidManifestLayout_defaultWidth);
if (widthType == TypedValue.TYPE_FRACTION) {
widthFraction = sw.getFraction(
com.android.internal.R.styleable.AndroidManifestLayout_defaultWidth,
1, 1, -1);
} else if (widthType == TypedValue.TYPE_DIMENSION) {
width = sw.getDimensionPixelSize(
com.android.internal.R.styleable.AndroidManifestLayout_defaultWidth,
-1);
}
final int heightType = sw.getType(
com.android.internal.R.styleable.AndroidManifestLayout_defaultHeight);
if (heightType == TypedValue.TYPE_FRACTION) {
heightFraction = sw.getFraction(
com.android.internal.R.styleable.AndroidManifestLayout_defaultHeight,
1, 1, -1);
} else if (heightType == TypedValue.TYPE_DIMENSION) {
height = sw.getDimensionPixelSize(
com.android.internal.R.styleable.AndroidManifestLayout_defaultHeight,
-1);
}
int gravity = sw.getInt(
com.android.internal.R.styleable.AndroidManifestLayout_gravity,
Gravity.CENTER);
int minWidth = sw.getDimensionPixelSize(
com.android.internal.R.styleable.AndroidManifestLayout_minWidth,
-1);
int minHeight = sw.getDimensionPixelSize(
com.android.internal.R.styleable.AndroidManifestLayout_minHeight,
-1);
sw.recycle();
a.info.windowLayout = new ActivityInfo.WindowLayout(width, widthFraction,
height, heightFraction, gravity, minWidth, minHeight);
}
/**
* Resolves values in {@link ActivityInfo.WindowLayout}.
*
* <p>{@link ActivityInfo.WindowLayout#windowLayoutAffinity} has a fallback metadata used in
* Android R and some variants of pre-R.
*/
private void resolveWindowLayout(Activity activity) {
// There isn't a metadata for us to fall back. Whatever is in layout is correct.
if (activity.metaData == null
|| !activity.metaData.containsKey(METADATA_ACTIVITY_WINDOW_LAYOUT_AFFINITY)) {
return;
}
final ActivityInfo aInfo = activity.info;
// Layout already specifies a value. We should just use that one.
if (aInfo.windowLayout != null && aInfo.windowLayout.windowLayoutAffinity != null) {
return;
}
String windowLayoutAffinity = activity.metaData.getString(
METADATA_ACTIVITY_WINDOW_LAYOUT_AFFINITY);
if (aInfo.windowLayout == null) {
aInfo.windowLayout = new ActivityInfo.WindowLayout(-1 /* width */,
-1 /* widthFraction */, -1 /* height */, -1 /* heightFraction */,
Gravity.NO_GRAVITY, -1 /* minWidth */, -1 /* minHeight */);
}
aInfo.windowLayout.windowLayoutAffinity = windowLayoutAffinity;
}
private Activity parseActivityAlias(Package owner, Resources res,
XmlResourceParser parser, int flags, String[] outError,
CachedComponentArgs cachedArgs)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestActivityAlias);
String targetActivity = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestActivityAlias_targetActivity,
Configuration.NATIVE_CONFIG_VERSION);
if (targetActivity == null) {
outError[0] = "<activity-alias> does not specify android:targetActivity";
sa.recycle();
return null;
}
targetActivity = buildClassName(owner.applicationInfo.packageName,
targetActivity, outError);
if (targetActivity == null) {
sa.recycle();
return null;
}
if (cachedArgs.mActivityAliasArgs == null) {
cachedArgs.mActivityAliasArgs = new ParseComponentArgs(owner, outError,
com.android.internal.R.styleable.AndroidManifestActivityAlias_name,
com.android.internal.R.styleable.AndroidManifestActivityAlias_label,
com.android.internal.R.styleable.AndroidManifestActivityAlias_icon,
com.android.internal.R.styleable.AndroidManifestActivityAlias_roundIcon,
com.android.internal.R.styleable.AndroidManifestActivityAlias_logo,
com.android.internal.R.styleable.AndroidManifestActivityAlias_banner,
mSeparateProcesses,
0,
com.android.internal.R.styleable.AndroidManifestActivityAlias_description,
com.android.internal.R.styleable.AndroidManifestActivityAlias_enabled);
cachedArgs.mActivityAliasArgs.tag = "<activity-alias>";
}
cachedArgs.mActivityAliasArgs.sa = sa;
cachedArgs.mActivityAliasArgs.flags = flags;
Activity target = null;
final int NA = owner.activities.size();
for (int i=0; i<NA; i++) {
Activity t = owner.activities.get(i);
if (targetActivity.equals(t.info.name)) {
target = t;
break;
}
}
if (target == null) {
outError[0] = "<activity-alias> target activity " + targetActivity
+ " not found in manifest";
sa.recycle();
return null;
}
ActivityInfo info = new ActivityInfo();
info.targetActivity = targetActivity;
info.configChanges = target.info.configChanges;
info.flags = target.info.flags;
info.privateFlags = target.info.privateFlags;
info.icon = target.info.icon;
info.logo = target.info.logo;
info.banner = target.info.banner;
info.labelRes = target.info.labelRes;
info.nonLocalizedLabel = target.info.nonLocalizedLabel;
info.launchMode = target.info.launchMode;
info.lockTaskLaunchMode = target.info.lockTaskLaunchMode;
info.processName = target.info.processName;
if (info.descriptionRes == 0) {
info.descriptionRes = target.info.descriptionRes;
}
info.screenOrientation = target.info.screenOrientation;
info.taskAffinity = target.info.taskAffinity;
info.theme = target.info.theme;
info.softInputMode = target.info.softInputMode;
info.uiOptions = target.info.uiOptions;
info.parentActivityName = target.info.parentActivityName;
info.maxRecents = target.info.maxRecents;
info.windowLayout = target.info.windowLayout;
info.resizeMode = target.info.resizeMode;
info.setMaxAspectRatio(target.info.getMaxAspectRatio());
info.setMinAspectRatio(target.info.getManifestMinAspectRatio());
info.supportsSizeChanges = target.info.supportsSizeChanges;
info.requestedVrComponent = target.info.requestedVrComponent;
info.directBootAware = target.info.directBootAware;
Activity a = new Activity(cachedArgs.mActivityAliasArgs, info);
if (outError[0] != null) {
sa.recycle();
return null;
}
final boolean setExported = sa.hasValue(
com.android.internal.R.styleable.AndroidManifestActivityAlias_exported);
if (setExported) {
a.info.exported = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestActivityAlias_exported, false);
}
String str;
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestActivityAlias_permission, 0);
if (str != null) {
a.info.permission = str.length() > 0 ? str.toString().intern() : null;
}
String parentName = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestActivityAlias_parentActivityName,
Configuration.NATIVE_CONFIG_VERSION);
if (parentName != null) {
String parentClassName = buildClassName(a.info.packageName, parentName, outError);
if (outError[0] == null) {
a.info.parentActivityName = parentClassName;
} else {
Log.e(TAG, "Activity alias " + a.info.name +
" specified invalid parentActivityName " + parentName);
outError[0] = null;
}
}
// TODO add visibleToInstantApps attribute to activity alias
final boolean visibleToEphemeral =
((a.info.flags & ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP) != 0);
sa.recycle();
if (outError[0] != null) {
return 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;
}
if (parser.getName().equals("intent-filter")) {
ActivityIntentInfo intent = new ActivityIntentInfo(a);
if (!parseIntent(res, parser, true /*allowGlobs*/, true /*allowAutoVerify*/,
intent, outError)) {
return null;
}
if (intent.countActions() == 0) {
Slog.w(TAG, "No actions in intent filter at "
+ mArchiveSourcePath + " "
+ parser.getPositionDescription());
} else {
a.order = Math.max(intent.getOrder(), a.order);
a.intents.add(intent);
}
// adjust activity flags when we implicitly expose it via a browsable filter
final int visibility = visibleToEphemeral
? IntentFilter.VISIBILITY_EXPLICIT
: isImplicitlyExposedIntent(intent)
? IntentFilter.VISIBILITY_IMPLICIT
: IntentFilter.VISIBILITY_NONE;
intent.setVisibilityToInstantApp(visibility);
if (intent.isVisibleToInstantApp()) {
a.info.flags |= ActivityInfo.FLAG_VISIBLE_TO_INSTANT_APP;
}
if (intent.isImplicitlyVisibleToInstantApp()) {
a.info.flags |= ActivityInfo.FLAG_IMPLICITLY_VISIBLE_TO_INSTANT_APP;
}
} else if (parser.getName().equals("meta-data")) {
if ((a.metaData=parseMetaData(res, parser, a.metaData,
outError)) == null) {
return null;
}
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "Unknown element under <activity-alias>: " + parser.getName()
+ " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
} else {
outError[0] = "Bad element under <activity-alias>: " + parser.getName();
return null;
}
}
}
if (!setExported) {
a.info.exported = a.intents.size() > 0;
}
return a;
}
private Provider parseProvider(Package owner, Resources res,
XmlResourceParser parser, int flags, String[] outError,
CachedComponentArgs cachedArgs)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestProvider);
if (cachedArgs.mProviderArgs == null) {
cachedArgs.mProviderArgs = new ParseComponentArgs(owner, outError,
com.android.internal.R.styleable.AndroidManifestProvider_name,
com.android.internal.R.styleable.AndroidManifestProvider_label,
com.android.internal.R.styleable.AndroidManifestProvider_icon,
com.android.internal.R.styleable.AndroidManifestProvider_roundIcon,
com.android.internal.R.styleable.AndroidManifestProvider_logo,
com.android.internal.R.styleable.AndroidManifestProvider_banner,
mSeparateProcesses,
com.android.internal.R.styleable.AndroidManifestProvider_process,
com.android.internal.R.styleable.AndroidManifestProvider_description,
com.android.internal.R.styleable.AndroidManifestProvider_enabled);
cachedArgs.mProviderArgs.tag = "<provider>";
}
cachedArgs.mProviderArgs.sa = sa;
cachedArgs.mProviderArgs.flags = flags;
Provider p = new Provider(cachedArgs.mProviderArgs, new ProviderInfo());
if (outError[0] != null) {
sa.recycle();
return null;
}
boolean providerExportedDefault = false;
if (owner.applicationInfo.targetSdkVersion < Build.VERSION_CODES.JELLY_BEAN_MR1) {
// For compatibility, applications targeting API level 16 or lower
// should have their content providers exported by default, unless they
// specify otherwise.
providerExportedDefault = true;
}
p.info.exported = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestProvider_exported,
providerExportedDefault);
String cpname = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestProvider_authorities, 0);
p.info.isSyncable = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestProvider_syncable,
false);
String permission = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestProvider_permission, 0);
String str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestProvider_readPermission, 0);
if (str == null) {
str = permission;
}
if (str == null) {
p.info.readPermission = owner.applicationInfo.permission;
} else {
p.info.readPermission =
str.length() > 0 ? str.toString().intern() : null;
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestProvider_writePermission, 0);
if (str == null) {
str = permission;
}
if (str == null) {
p.info.writePermission = owner.applicationInfo.permission;
} else {
p.info.writePermission =
str.length() > 0 ? str.toString().intern() : null;
}
p.info.grantUriPermissions = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestProvider_grantUriPermissions,
false);
p.info.forceUriPermissions = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestProvider_forceUriPermissions,
false);
p.info.multiprocess = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestProvider_multiprocess,
false);
p.info.initOrder = sa.getInt(
com.android.internal.R.styleable.AndroidManifestProvider_initOrder,
0);
p.info.splitName =
sa.getNonConfigurationString(R.styleable.AndroidManifestProvider_splitName, 0);
p.info.flags = 0;
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestProvider_singleUser,
false)) {
p.info.flags |= ProviderInfo.FLAG_SINGLE_USER;
}
p.info.directBootAware = sa.getBoolean(
R.styleable.AndroidManifestProvider_directBootAware,
false);
if (p.info.directBootAware) {
owner.applicationInfo.privateFlags |=
ApplicationInfo.PRIVATE_FLAG_PARTIALLY_DIRECT_BOOT_AWARE;
}
final boolean visibleToEphemeral =
sa.getBoolean(R.styleable.AndroidManifestProvider_visibleToInstantApps, false);
if (visibleToEphemeral) {
p.info.flags |= ProviderInfo.FLAG_VISIBLE_TO_INSTANT_APP;
owner.visibleToInstantApps = true;
}
sa.recycle();
if ((owner.applicationInfo.privateFlags&ApplicationInfo.PRIVATE_FLAG_CANT_SAVE_STATE)
!= 0) {
// A heavy-weight application can not have providers in its main process
// We can do direct compare because we intern all strings.
if (p.info.processName == owner.packageName) {
outError[0] = "Heavy-weight applications can not have providers in main process";
return null;
}
}
if (cpname == null) {
outError[0] = "<provider> does not include authorities attribute";
return null;
}
if (cpname.length() <= 0) {
outError[0] = "<provider> has empty authorities attribute";
return null;
}
p.info.authority = cpname.intern();
if (!parseProviderTags(
res, parser, visibleToEphemeral, p, outError)) {
return null;
}
return p;
}
private boolean parseProviderTags(Resources res, XmlResourceParser parser,
boolean visibleToEphemeral, Provider outInfo, String[] outError)
throws XmlPullParserException, IOException {
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;
}
if (parser.getName().equals("intent-filter")) {
ProviderIntentInfo intent = new ProviderIntentInfo(outInfo);
if (!parseIntent(res, parser, true /*allowGlobs*/, false /*allowAutoVerify*/,
intent, outError)) {
return false;
}
if (visibleToEphemeral) {
intent.setVisibilityToInstantApp(IntentFilter.VISIBILITY_EXPLICIT);
outInfo.info.flags |= ProviderInfo.FLAG_VISIBLE_TO_INSTANT_APP;
}
outInfo.order = Math.max(intent.getOrder(), outInfo.order);
outInfo.intents.add(intent);
} else if (parser.getName().equals("meta-data")) {
if ((outInfo.metaData=parseMetaData(res, parser,
outInfo.metaData, outError)) == null) {
return false;
}
} else if (parser.getName().equals("grant-uri-permission")) {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestGrantUriPermission);
PatternMatcher pa = null;
String str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestGrantUriPermission_path, 0);
if (str != null) {
pa = new PatternMatcher(str, PatternMatcher.PATTERN_LITERAL);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestGrantUriPermission_pathPrefix, 0);
if (str != null) {
pa = new PatternMatcher(str, PatternMatcher.PATTERN_PREFIX);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestGrantUriPermission_pathPattern, 0);
if (str != null) {
pa = new PatternMatcher(str, PatternMatcher.PATTERN_SIMPLE_GLOB);
}
sa.recycle();
if (pa != null) {
if (outInfo.info.uriPermissionPatterns == null) {
outInfo.info.uriPermissionPatterns = new PatternMatcher[1];
outInfo.info.uriPermissionPatterns[0] = pa;
} else {
final int N = outInfo.info.uriPermissionPatterns.length;
PatternMatcher[] newp = new PatternMatcher[N+1];
System.arraycopy(outInfo.info.uriPermissionPatterns, 0, newp, 0, N);
newp[N] = pa;
outInfo.info.uriPermissionPatterns = newp;
}
outInfo.info.grantUriPermissions = true;
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "Unknown element under <path-permission>: "
+ parser.getName() + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
} else {
outError[0] = "No path, pathPrefix, or pathPattern for <path-permission>";
return false;
}
}
XmlUtils.skipCurrentTag(parser);
} else if (parser.getName().equals("path-permission")) {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestPathPermission);
PathPermission pa = null;
String permission = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestPathPermission_permission, 0);
String readPermission = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestPathPermission_readPermission, 0);
if (readPermission == null) {
readPermission = permission;
}
String writePermission = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestPathPermission_writePermission, 0);
if (writePermission == null) {
writePermission = permission;
}
boolean havePerm = false;
if (readPermission != null) {
readPermission = readPermission.intern();
havePerm = true;
}
if (writePermission != null) {
writePermission = writePermission.intern();
havePerm = true;
}
if (!havePerm) {
if (!RIGID_PARSER) {
Slog.w(TAG, "No readPermission or writePermssion for <path-permission>: "
+ parser.getName() + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
} else {
outError[0] = "No readPermission or writePermssion for <path-permission>";
return false;
}
}
String path = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestPathPermission_path, 0);
if (path != null) {
pa = new PathPermission(path,
PatternMatcher.PATTERN_LITERAL, readPermission, writePermission);
}
path = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestPathPermission_pathPrefix, 0);
if (path != null) {
pa = new PathPermission(path,
PatternMatcher.PATTERN_PREFIX, readPermission, writePermission);
}
path = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestPathPermission_pathPattern, 0);
if (path != null) {
pa = new PathPermission(path,
PatternMatcher.PATTERN_SIMPLE_GLOB, readPermission, writePermission);
}
path = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestPathPermission_pathAdvancedPattern, 0);
if (path != null) {
pa = new PathPermission(path,
PatternMatcher.PATTERN_ADVANCED_GLOB, readPermission, writePermission);
}
sa.recycle();
if (pa != null) {
if (outInfo.info.pathPermissions == null) {
outInfo.info.pathPermissions = new PathPermission[1];
outInfo.info.pathPermissions[0] = pa;
} else {
final int N = outInfo.info.pathPermissions.length;
PathPermission[] newp = new PathPermission[N+1];
System.arraycopy(outInfo.info.pathPermissions, 0, newp, 0, N);
newp[N] = pa;
outInfo.info.pathPermissions = newp;
}
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "No path, pathPrefix, or pathPattern for <path-permission>: "
+ parser.getName() + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
}
outError[0] = "No path, pathPrefix, or pathPattern for <path-permission>";
return false;
}
XmlUtils.skipCurrentTag(parser);
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "Unknown element under <provider>: "
+ parser.getName() + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
} else {
outError[0] = "Bad element under <provider>: " + parser.getName();
return false;
}
}
}
return true;
}
private Service parseService(Package owner, Resources res,
XmlResourceParser parser, int flags, String[] outError,
CachedComponentArgs cachedArgs)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestService);
if (cachedArgs.mServiceArgs == null) {
cachedArgs.mServiceArgs = new ParseComponentArgs(owner, outError,
com.android.internal.R.styleable.AndroidManifestService_name,
com.android.internal.R.styleable.AndroidManifestService_label,
com.android.internal.R.styleable.AndroidManifestService_icon,
com.android.internal.R.styleable.AndroidManifestService_roundIcon,
com.android.internal.R.styleable.AndroidManifestService_logo,
com.android.internal.R.styleable.AndroidManifestService_banner,
mSeparateProcesses,
com.android.internal.R.styleable.AndroidManifestService_process,
com.android.internal.R.styleable.AndroidManifestService_description,
com.android.internal.R.styleable.AndroidManifestService_enabled);
cachedArgs.mServiceArgs.tag = "<service>";
}
cachedArgs.mServiceArgs.sa = sa;
cachedArgs.mServiceArgs.flags = flags;
Service s = new Service(cachedArgs.mServiceArgs, new ServiceInfo());
if (outError[0] != null) {
sa.recycle();
return null;
}
boolean setExported = sa.hasValue(
com.android.internal.R.styleable.AndroidManifestService_exported);
if (setExported) {
s.info.exported = sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestService_exported, false);
}
String str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestService_permission, 0);
if (str == null) {
s.info.permission = owner.applicationInfo.permission;
} else {
s.info.permission = str.length() > 0 ? str.toString().intern() : null;
}
s.info.splitName =
sa.getNonConfigurationString(R.styleable.AndroidManifestService_splitName, 0);
s.info.mForegroundServiceType = sa.getInt(
com.android.internal.R.styleable.AndroidManifestService_foregroundServiceType,
ServiceInfo.FOREGROUND_SERVICE_TYPE_NONE);
s.info.flags = 0;
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestService_stopWithTask,
false)) {
s.info.flags |= ServiceInfo.FLAG_STOP_WITH_TASK;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestService_isolatedProcess,
false)) {
s.info.flags |= ServiceInfo.FLAG_ISOLATED_PROCESS;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestService_externalService,
false)) {
s.info.flags |= ServiceInfo.FLAG_EXTERNAL_SERVICE;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestService_useAppZygote,
false)) {
s.info.flags |= ServiceInfo.FLAG_USE_APP_ZYGOTE;
}
if (sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestService_singleUser,
false)) {
s.info.flags |= ServiceInfo.FLAG_SINGLE_USER;
}
s.info.directBootAware = sa.getBoolean(
R.styleable.AndroidManifestService_directBootAware,
false);
if (s.info.directBootAware) {
owner.applicationInfo.privateFlags |=
ApplicationInfo.PRIVATE_FLAG_PARTIALLY_DIRECT_BOOT_AWARE;
}
boolean visibleToEphemeral =
sa.getBoolean(R.styleable.AndroidManifestService_visibleToInstantApps, false);
if (visibleToEphemeral) {
s.info.flags |= ServiceInfo.FLAG_VISIBLE_TO_INSTANT_APP;
owner.visibleToInstantApps = true;
}
sa.recycle();
if ((owner.applicationInfo.privateFlags&ApplicationInfo.PRIVATE_FLAG_CANT_SAVE_STATE)
!= 0) {
// A heavy-weight application can not have services in its main process
// We can do direct compare because we intern all strings.
if (s.info.processName == owner.packageName) {
outError[0] = "Heavy-weight applications can not have services in main process";
return 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;
}
if (parser.getName().equals("intent-filter")) {
ServiceIntentInfo intent = new ServiceIntentInfo(s);
if (!parseIntent(res, parser, true /*allowGlobs*/, false /*allowAutoVerify*/,
intent, outError)) {
return null;
}
if (visibleToEphemeral) {
intent.setVisibilityToInstantApp(IntentFilter.VISIBILITY_EXPLICIT);
s.info.flags |= ServiceInfo.FLAG_VISIBLE_TO_INSTANT_APP;
}
s.order = Math.max(intent.getOrder(), s.order);
s.intents.add(intent);
} else if (parser.getName().equals("meta-data")) {
if ((s.metaData=parseMetaData(res, parser, s.metaData,
outError)) == null) {
return null;
}
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "Unknown element under <service>: "
+ parser.getName() + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
} else {
outError[0] = "Bad element under <service>: " + parser.getName();
return null;
}
}
}
if (!setExported) {
s.info.exported = s.intents.size() > 0;
}
return s;
}
private boolean isImplicitlyExposedIntent(IntentInfo intent) {
return intent.hasCategory(Intent.CATEGORY_BROWSABLE)
|| intent.hasAction(Intent.ACTION_SEND)
|| intent.hasAction(Intent.ACTION_SENDTO)
|| intent.hasAction(Intent.ACTION_SEND_MULTIPLE);
}
private boolean parseAllMetaData(Resources res, XmlResourceParser parser, String tag,
Component<?> outInfo, String[] outError) throws XmlPullParserException, IOException {
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;
}
if (parser.getName().equals("meta-data")) {
if ((outInfo.metaData=parseMetaData(res, parser,
outInfo.metaData, outError)) == null) {
return false;
}
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "Unknown element under " + tag + ": "
+ parser.getName() + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
continue;
} else {
outError[0] = "Bad element under " + tag + ": " + parser.getName();
return false;
}
}
}
return true;
}
private Bundle parseMetaData(Resources res,
XmlResourceParser parser, Bundle data, String[] outError)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestMetaData);
if (data == null) {
data = new Bundle();
}
String name = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestMetaData_name, 0);
if (name == null) {
outError[0] = "<meta-data> requires an android:name attribute";
sa.recycle();
return null;
}
name = name.intern();
TypedValue v = sa.peekValue(
com.android.internal.R.styleable.AndroidManifestMetaData_resource);
if (v != null && v.resourceId != 0) {
//Slog.i(TAG, "Meta data ref " + name + ": " + v);
data.putInt(name, v.resourceId);
} else {
v = sa.peekValue(
com.android.internal.R.styleable.AndroidManifestMetaData_value);
//Slog.i(TAG, "Meta data " + name + ": " + v);
if (v != null) {
if (v.type == TypedValue.TYPE_STRING) {
CharSequence cs = v.coerceToString();
data.putString(name, cs != null ? cs.toString() : null);
} else if (v.type == TypedValue.TYPE_INT_BOOLEAN) {
data.putBoolean(name, v.data != 0);
} else if (v.type >= TypedValue.TYPE_FIRST_INT
&& v.type <= TypedValue.TYPE_LAST_INT) {
data.putInt(name, v.data);
} else if (v.type == TypedValue.TYPE_FLOAT) {
data.putFloat(name, v.getFloat());
} else {
if (!RIGID_PARSER) {
Slog.w(TAG, "<meta-data> only supports string, integer, float, color, boolean, and resource reference types: "
+ parser.getName() + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
} else {
outError[0] = "<meta-data> only supports string, integer, float, color, boolean, and resource reference types";
data = null;
}
}
} else {
outError[0] = "<meta-data> requires an android:value or android:resource attribute";
data = null;
}
}
sa.recycle();
XmlUtils.skipCurrentTag(parser);
return data;
}
private static VerifierInfo parseVerifier(AttributeSet attrs) {
String packageName = null;
String encodedPublicKey = null;
final int attrCount = attrs.getAttributeCount();
for (int i = 0; i < attrCount; i++) {
final int attrResId = attrs.getAttributeNameResource(i);
switch (attrResId) {
case com.android.internal.R.attr.name:
packageName = attrs.getAttributeValue(i);
break;
case com.android.internal.R.attr.publicKey:
encodedPublicKey = attrs.getAttributeValue(i);
break;
}
}
if (packageName == null || packageName.length() == 0) {
Slog.i(TAG, "verifier package name was null; skipping");
return null;
}
final PublicKey publicKey = parsePublicKey(encodedPublicKey);
if (publicKey == null) {
Slog.i(TAG, "Unable to parse verifier public key for " + packageName);
return null;
}
return new VerifierInfo(packageName, publicKey);
}
public static final PublicKey parsePublicKey(final String encodedPublicKey) {
if (encodedPublicKey == null) {
Slog.w(TAG, "Could not parse null public key");
return null;
}
try {
return parsePublicKey(Base64.decode(encodedPublicKey, Base64.DEFAULT));
} catch (IllegalArgumentException e) {
Slog.w(TAG, "Could not parse verifier public key; invalid Base64");
return null;
}
}
public static final PublicKey parsePublicKey(final byte[] publicKey) {
if (publicKey == null) {
Slog.w(TAG, "Could not parse null public key");
return null;
}
EncodedKeySpec keySpec;
try {
keySpec = new X509EncodedKeySpec(publicKey);
} catch (IllegalArgumentException e) {
Slog.w(TAG, "Could not parse verifier public key; invalid Base64");
return null;
}
/* First try the key as an RSA key. */
try {
final KeyFactory keyFactory = KeyFactory.getInstance("RSA");
return keyFactory.generatePublic(keySpec);
} catch (NoSuchAlgorithmException e) {
Slog.wtf(TAG, "Could not parse public key: RSA KeyFactory not included in build");
} catch (InvalidKeySpecException e) {
// Not a RSA public key.
}
/* Now try it as a ECDSA key. */
try {
final KeyFactory keyFactory = KeyFactory.getInstance("EC");
return keyFactory.generatePublic(keySpec);
} catch (NoSuchAlgorithmException e) {
Slog.wtf(TAG, "Could not parse public key: EC KeyFactory not included in build");
} catch (InvalidKeySpecException e) {
// Not a ECDSA public key.
}
/* Now try it as a DSA key. */
try {
final KeyFactory keyFactory = KeyFactory.getInstance("DSA");
return keyFactory.generatePublic(keySpec);
} catch (NoSuchAlgorithmException e) {
Slog.wtf(TAG, "Could not parse public key: DSA KeyFactory not included in build");
} catch (InvalidKeySpecException e) {
// Not a DSA public key.
}
/* Not a supported key type */
return null;
}
public static final String ANDROID_RESOURCES
= "http://schemas.android.com/apk/res/android";
private boolean parseIntent(Resources res, XmlResourceParser parser, boolean allowGlobs,
boolean allowAutoVerify, IntentInfo outInfo, String[] outError)
throws XmlPullParserException, IOException {
TypedArray sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestIntentFilter);
int priority = sa.getInt(
com.android.internal.R.styleable.AndroidManifestIntentFilter_priority, 0);
outInfo.setPriority(priority);
int order = sa.getInt(
com.android.internal.R.styleable.AndroidManifestIntentFilter_order, 0);
outInfo.setOrder(order);
TypedValue v = sa.peekValue(
com.android.internal.R.styleable.AndroidManifestIntentFilter_label);
if (v != null && (outInfo.labelRes=v.resourceId) == 0) {
outInfo.nonLocalizedLabel = v.coerceToString();
}
int roundIconVal = sUseRoundIcon ? sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestIntentFilter_roundIcon, 0) : 0;
if (roundIconVal != 0) {
outInfo.icon = roundIconVal;
} else {
outInfo.icon = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestIntentFilter_icon, 0);
}
outInfo.logo = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestIntentFilter_logo, 0);
outInfo.banner = sa.getResourceId(
com.android.internal.R.styleable.AndroidManifestIntentFilter_banner, 0);
if (allowAutoVerify) {
outInfo.setAutoVerify(sa.getBoolean(
com.android.internal.R.styleable.AndroidManifestIntentFilter_autoVerify,
false));
}
sa.recycle();
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;
}
String nodeName = parser.getName();
if (nodeName.equals("action")) {
String value = parser.getAttributeValue(
ANDROID_RESOURCES, "name");
if (value == null || value == "") {
outError[0] = "No value supplied for <android:name>";
return false;
}
XmlUtils.skipCurrentTag(parser);
outInfo.addAction(value);
} else if (nodeName.equals("category")) {
String value = parser.getAttributeValue(
ANDROID_RESOURCES, "name");
if (value == null || value == "") {
outError[0] = "No value supplied for <android:name>";
return false;
}
XmlUtils.skipCurrentTag(parser);
outInfo.addCategory(value);
} else if (nodeName.equals("data")) {
sa = res.obtainAttributes(parser,
com.android.internal.R.styleable.AndroidManifestData);
String str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_mimeType, 0);
if (str != null) {
try {
outInfo.addDataType(str);
} catch (IntentFilter.MalformedMimeTypeException e) {
outError[0] = e.toString();
sa.recycle();
return false;
}
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_scheme, 0);
if (str != null) {
outInfo.addDataScheme(str);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_ssp, 0);
if (str != null) {
outInfo.addDataSchemeSpecificPart(str, PatternMatcher.PATTERN_LITERAL);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_sspPrefix, 0);
if (str != null) {
outInfo.addDataSchemeSpecificPart(str, PatternMatcher.PATTERN_PREFIX);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_sspPattern, 0);
if (str != null) {
if (!allowGlobs) {
outError[0] = "sspPattern not allowed here; ssp must be literal";
return false;
}
outInfo.addDataSchemeSpecificPart(str, PatternMatcher.PATTERN_SIMPLE_GLOB);
}
String host = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_host, 0);
String port = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_port, 0);
if (host != null) {
outInfo.addDataAuthority(host, port);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_path, 0);
if (str != null) {
outInfo.addDataPath(str, PatternMatcher.PATTERN_LITERAL);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_pathPrefix, 0);
if (str != null) {
outInfo.addDataPath(str, PatternMatcher.PATTERN_PREFIX);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_pathPattern, 0);
if (str != null) {
if (!allowGlobs) {
outError[0] = "pathPattern not allowed here; path must be literal";
return false;
}
outInfo.addDataPath(str, PatternMatcher.PATTERN_SIMPLE_GLOB);
}
str = sa.getNonConfigurationString(
com.android.internal.R.styleable.AndroidManifestData_pathAdvancedPattern, 0);
if (str != null) {
if (!allowGlobs) {
outError[0] = "pathAdvancedPattern not allowed here; path must be literal";
return false;
}
outInfo.addDataPath(str, PatternMatcher.PATTERN_ADVANCED_GLOB);
}
sa.recycle();
XmlUtils.skipCurrentTag(parser);
} else if (!RIGID_PARSER) {
Slog.w(TAG, "Unknown element under <intent-filter>: "
+ parser.getName() + " at " + mArchiveSourcePath + " "
+ parser.getPositionDescription());
XmlUtils.skipCurrentTag(parser);
} else {
outError[0] = "Bad element under <intent-filter>: " + parser.getName();
return false;
}
}
outInfo.hasDefault = outInfo.hasCategory(Intent.CATEGORY_DEFAULT);
if (DEBUG_PARSER) {
final StringBuilder cats = new StringBuilder("Intent d=");
cats.append(outInfo.hasDefault);
cats.append(", cat=");
final Iterator<String> it = outInfo.categoriesIterator();
if (it != null) {
while (it.hasNext()) {
cats.append(' ');
cats.append(it.next());
}
}
Slog.d(TAG, cats.toString());
}
return true;
}
/**
* A container for signing-related data of an application package.
* @hide
*/
public static final class SigningDetails implements Parcelable {
@IntDef({SigningDetails.SignatureSchemeVersion.UNKNOWN,
SigningDetails.SignatureSchemeVersion.JAR,
SigningDetails.SignatureSchemeVersion.SIGNING_BLOCK_V2,
SigningDetails.SignatureSchemeVersion.SIGNING_BLOCK_V3,
SigningDetails.SignatureSchemeVersion.SIGNING_BLOCK_V4})
public @interface SignatureSchemeVersion {
int UNKNOWN = 0;
int JAR = 1;
int SIGNING_BLOCK_V2 = 2;
int SIGNING_BLOCK_V3 = 3;
int SIGNING_BLOCK_V4 = 4;
}
@Nullable
@UnsupportedAppUsage
public final Signature[] signatures;
@SignatureSchemeVersion
public final int signatureSchemeVersion;
@Nullable
public final ArraySet<PublicKey> publicKeys;
/**
* APK Signature Scheme v3 includes support for adding a proof-of-rotation record that
* contains two pieces of information:
* 1) the past signing certificates
* 2) the flags that APK wants to assign to each of the past signing certificates.
*
* This collection of {@code Signature} objects, each of which is formed from a former
* signing certificate of this APK before it was changed by signing certificate rotation,
* represents the first piece of information. It is the APK saying to the rest of the
* world: "hey if you trust the old cert, you can trust me!" This is useful, if for
* instance, the platform would like to determine whether or not to allow this APK to do
* something it would've allowed it to do under the old cert (like upgrade).
*/
@Nullable
public final Signature[] pastSigningCertificates;
/** special value used to see if cert is in package - not exposed to callers */
private static final int PAST_CERT_EXISTS = 0;
@IntDef(
flag = true,
value = {CertCapabilities.INSTALLED_DATA,
CertCapabilities.SHARED_USER_ID,
CertCapabilities.PERMISSION,
CertCapabilities.ROLLBACK})
public @interface CertCapabilities {
/** accept data from already installed pkg with this cert */
int INSTALLED_DATA = 1;
/** accept sharedUserId with pkg with this cert */
int SHARED_USER_ID = 2;
/** grant SIGNATURE permissions to pkgs with this cert */
int PERMISSION = 4;
/** allow pkg to update to one signed by this certificate */
int ROLLBACK = 8;
/** allow pkg to continue to have auth access gated by this cert */
int AUTH = 16;
}
/** A representation of unknown signing details. Use instead of null. */
public static final SigningDetails UNKNOWN =
new SigningDetails(null, SignatureSchemeVersion.UNKNOWN, null, null);
@VisibleForTesting
public SigningDetails(Signature[] signatures,
@SignatureSchemeVersion int signatureSchemeVersion,
ArraySet<PublicKey> keys, Signature[] pastSigningCertificates) {
this.signatures = signatures;
this.signatureSchemeVersion = signatureSchemeVersion;
this.publicKeys = keys;
this.pastSigningCertificates = pastSigningCertificates;
}
public SigningDetails(Signature[] signatures,
@SignatureSchemeVersion int signatureSchemeVersion,
Signature[] pastSigningCertificates)
throws CertificateException {
this(signatures, signatureSchemeVersion, toSigningKeys(signatures),
pastSigningCertificates);
}
public SigningDetails(Signature[] signatures,
@SignatureSchemeVersion int signatureSchemeVersion)
throws CertificateException {
this(signatures, signatureSchemeVersion, null);
}
public SigningDetails(SigningDetails orig) {
if (orig != null) {
if (orig.signatures != null) {
this.signatures = orig.signatures.clone();
} else {
this.signatures = null;
}
this.signatureSchemeVersion = orig.signatureSchemeVersion;
this.publicKeys = new ArraySet<>(orig.publicKeys);
if (orig.pastSigningCertificates != null) {
this.pastSigningCertificates = orig.pastSigningCertificates.clone();
} else {
this.pastSigningCertificates = null;
}
} else {
this.signatures = null;
this.signatureSchemeVersion = SignatureSchemeVersion.UNKNOWN;
this.publicKeys = null;
this.pastSigningCertificates = null;
}
}
/**
* Merges the signing lineage of this instance with the lineage in the provided {@code
* otherSigningDetails} when one has the same or an ancestor signer of the other.
*
* <p>Merging two signing lineages will result in a new {@code SigningDetails} instance
* containing the longest common lineage with the most restrictive capabilities. If the two
* lineages contain the same signers with the same capabilities then the instance on which
* this was invoked is returned without any changes. Similarly if neither instance has a
* lineage, or if neither has the same or an ancestor signer then this instance is returned.
*
* Following are some example results of this method for lineages with signers A, B, C, D:
* - lineage B merged with lineage A -> B returns lineage A -> B.
* - lineage A -> B merged with lineage B -> C returns lineage A -> B -> C
* - lineage A -> B with the {@code PERMISSION} capability revoked for A merged with
* lineage A -> B with the {@code SHARED_USER_ID} capability revoked for A returns
* lineage A -> B with both capabilities revoked for A.
* - lineage A -> B -> C merged with lineage A -> B -> D would return the original lineage
* A -> B -> C since the current signer of both instances is not the same or in the
* lineage of the other.
*/
public SigningDetails mergeLineageWith(SigningDetails otherSigningDetails) {
if (!hasPastSigningCertificates()) {
return otherSigningDetails.hasPastSigningCertificates()
&& otherSigningDetails.hasAncestorOrSelf(this) ? otherSigningDetails : this;
}
if (!otherSigningDetails.hasPastSigningCertificates()) {
return this;
}
// Use the utility method to determine which SigningDetails instance is the descendant
// and to confirm that the signing lineage does not diverge.
SigningDetails descendantSigningDetails = getDescendantOrSelf(otherSigningDetails);
if (descendantSigningDetails == null) {
return this;
}
return descendantSigningDetails == this ? mergeLineageWithAncestorOrSelf(
otherSigningDetails) : otherSigningDetails.mergeLineageWithAncestorOrSelf(this);
}
/**
* Merges the signing lineage of this instance with the lineage of the ancestor (or same)
* signer in the provided {@code otherSigningDetails}.
*/
private SigningDetails mergeLineageWithAncestorOrSelf(SigningDetails otherSigningDetails) {
// This method should only be called with instances that contain lineages.
int index = pastSigningCertificates.length - 1;
int otherIndex = otherSigningDetails.pastSigningCertificates.length - 1;
if (index < 0 || otherIndex < 0) {
return this;
}
List<Signature> mergedSignatures = new ArrayList<>();
boolean capabilitiesModified = false;
// If this is a descendant lineage then add all of the descendant signer(s) to the
// merged lineage until the ancestor signer is reached.
while (index >= 0 && !pastSigningCertificates[index].equals(
otherSigningDetails.pastSigningCertificates[otherIndex])) {
mergedSignatures.add(new Signature(pastSigningCertificates[index--]));
}
// If the signing lineage was exhausted then the provided ancestor is not actually an
// ancestor of this lineage.
if (index < 0) {
return this;
}
do {
// Add the common signer to the merged lineage with the most restrictive
// capabilities of the two lineages.
Signature signature = pastSigningCertificates[index--];
Signature ancestorSignature =
otherSigningDetails.pastSigningCertificates[otherIndex--];
Signature mergedSignature = new Signature(signature);
int mergedCapabilities = signature.getFlags() & ancestorSignature.getFlags();
if (signature.getFlags() != mergedCapabilities) {
capabilitiesModified = true;
mergedSignature.setFlags(mergedCapabilities);
}
mergedSignatures.add(mergedSignature);
} while (index >= 0 && otherIndex >= 0 && pastSigningCertificates[index].equals(
otherSigningDetails.pastSigningCertificates[otherIndex]));
// If both lineages still have elements then their lineages have diverged; since this is
// not supported return the invoking instance.
if (index >= 0 && otherIndex >= 0) {
return this;
}
// Add any remaining elements from either lineage that is not yet exhausted to the
// the merged lineage.
while (otherIndex >= 0) {
mergedSignatures.add(new Signature(
otherSigningDetails.pastSigningCertificates[otherIndex--]));
}
while (index >= 0) {
mergedSignatures.add(new Signature(pastSigningCertificates[index--]));
}
// if this lineage already contains all the elements in the ancestor and none of the
// capabilities were changed then just return this instance.
if (mergedSignatures.size() == pastSigningCertificates.length
&& !capabilitiesModified) {
return this;
}
// Since the signatures were added to the merged lineage from newest to oldest reverse
// the list to ensure the oldest signer is at index 0.
Collections.reverse(mergedSignatures);
try {
return new SigningDetails(new Signature[]{new Signature(signatures[0])},
signatureSchemeVersion, mergedSignatures.toArray(new Signature[0]));
} catch (CertificateException e) {
Slog.e(TAG, "Caught an exception creating the merged lineage: ", e);
return this;
}
}
/**
* Returns whether this and the provided {@code otherSigningDetails} share a common
* ancestor.
*
* <p>The two SigningDetails have a common ancestor if any of the following conditions are
* met:
* - If neither has a lineage and their current signer(s) are equal.
* - If only one has a lineage and the signer of the other is the same or in the lineage.
* - If both have a lineage and their current signers are the same or one is in the lineage
* of the other, and their lineages do not diverge to different signers.
*/
public boolean hasCommonAncestor(SigningDetails otherSigningDetails) {
if (!hasPastSigningCertificates()) {
// If this instance does not have a lineage then it must either be in the ancestry
// of or the same signer of the otherSigningDetails.
return otherSigningDetails.hasAncestorOrSelf(this);
}
if (!otherSigningDetails.hasPastSigningCertificates()) {
return hasAncestorOrSelf(otherSigningDetails);
}
// If both have a lineage then use getDescendantOrSelf to obtain the descendant signing
// details; a null return from that method indicates there is no common lineage between
// the two or that they diverge at a point in the lineage.
return getDescendantOrSelf(otherSigningDetails) != null;
}
/**
* Returns whether this instance is currently signed, or has ever been signed, with a
* signing certificate from the provided {@link Set} of {@code certDigests}.
*
* <p>The provided {@code certDigests} should contain the SHA-256 digest of the DER encoding
* of each trusted certificate with the digest characters in upper case. If this instance
* has multiple signers then all signers must be in the provided {@code Set}. If this
* instance has a signing lineage then this method will return true if any of the previous
* signers in the lineage match one of the entries in the {@code Set}.
*/
public boolean hasAncestorOrSelfWithDigest(Set<String> certDigests) {
if (this == UNKNOWN || certDigests == null || certDigests.size() == 0) {
return false;
}
// If an app is signed by multiple signers then all of the signers must be in the Set.
if (signatures.length > 1) {
// If the Set has less elements than the number of signatures then immediately
// return false as there's no way to satisfy the requirement of all signatures being
// in the Set.
if (certDigests.size() < signatures.length) {
return false;
}
for (Signature signature : signatures) {
String signatureDigest = PackageUtils.computeSha256Digest(
signature.toByteArray());
if (!certDigests.contains(signatureDigest)) {
return false;
}
}
return true;
}
String signatureDigest = PackageUtils.computeSha256Digest(signatures[0].toByteArray());
if (certDigests.contains(signatureDigest)) {
return true;
}
if (hasPastSigningCertificates()) {
// The last element in the pastSigningCertificates array is the current signer;
// since that was verified above just check all the signers in the lineage.
for (int i = 0; i < pastSigningCertificates.length - 1; i++) {
signatureDigest = PackageUtils.computeSha256Digest(
pastSigningCertificates[i].toByteArray());
if (certDigests.contains(signatureDigest)) {
return true;
}
}
}
return false;
}
/**
* Returns the SigningDetails with a descendant (or same) signer after verifying the
* descendant has the same, a superset, or a subset of the lineage of the ancestor.
*
* <p>If this instance and the provided {@code otherSigningDetails} do not share an
* ancestry, or if their lineages diverge then null is returned to indicate there is no
* valid descendant SigningDetails.
*/
private SigningDetails getDescendantOrSelf(SigningDetails otherSigningDetails) {
SigningDetails descendantSigningDetails;
SigningDetails ancestorSigningDetails;
if (hasAncestorOrSelf(otherSigningDetails)) {
// If the otherSigningDetails has the same signer or a signer in the lineage of this
// instance then treat this instance as the descendant.
descendantSigningDetails = this;
ancestorSigningDetails = otherSigningDetails;
} else if (otherSigningDetails.hasAncestor(this)) {
// The above check confirmed that the two instances do not have the same signer and
// the signer of otherSigningDetails is not in this instance's lineage; if this
// signer is in the otherSigningDetails lineage then treat this as the ancestor.
descendantSigningDetails = otherSigningDetails;
ancestorSigningDetails = this;
} else {
// The signers are not the same and neither has the current signer of the other in
// its lineage; return null to indicate there is no descendant signer.
return null;
}
// Once the descent (or same) signer is identified iterate through the ancestry until
// the current signer of the ancestor is found.
int descendantIndex = descendantSigningDetails.pastSigningCertificates.length - 1;
int ancestorIndex = ancestorSigningDetails.pastSigningCertificates.length - 1;
while (descendantIndex >= 0
&& !descendantSigningDetails.pastSigningCertificates[descendantIndex].equals(
ancestorSigningDetails.pastSigningCertificates[ancestorIndex])) {
descendantIndex--;
}
// Since the ancestry was verified above the descendant lineage should never be
// exhausted, but if for some reason the ancestor signer is not found then return null.
if (descendantIndex < 0) {
return null;
}
// Once the common ancestor (or same) signer is found iterate over the lineage of both
// to ensure that they are either the same or one is a subset of the other.
do {
descendantIndex--;
ancestorIndex--;
} while (descendantIndex >= 0 && ancestorIndex >= 0
&& descendantSigningDetails.pastSigningCertificates[descendantIndex].equals(
ancestorSigningDetails.pastSigningCertificates[ancestorIndex]));
// If both lineages still have elements then they diverge and cannot be considered a
// valid common lineage.
if (descendantIndex >= 0 && ancestorIndex >= 0) {
return null;
}
// Since one or both of the lineages was exhausted they are either the same or one is a
// subset of the other; return the valid descendant.
return descendantSigningDetails;
}
/** Returns true if the signing details have one or more signatures. */
public boolean hasSignatures() {
return signatures != null && signatures.length > 0;
}
/** Returns true if the signing details have past signing certificates. */
public boolean hasPastSigningCertificates() {
return pastSigningCertificates != null && pastSigningCertificates.length > 0;
}
/**
* Determines if the provided {@code oldDetails} is an ancestor of or the same as this one.
* If the {@code oldDetails} signing certificate appears in our pastSigningCertificates,
* then that means it has authorized a signing certificate rotation, which eventually leads
* to our certificate, and thus can be trusted. If this method evaluates to true, this
* SigningDetails object should be trusted if the previous one is.
*/
public boolean hasAncestorOrSelf(SigningDetails oldDetails) {
if (this == UNKNOWN || oldDetails == UNKNOWN) {
return false;
}
if (oldDetails.signatures.length > 1) {
// multiple-signer packages cannot rotate signing certs, so we just compare current
// signers for an exact match
return signaturesMatchExactly(oldDetails);
} else {
// we may have signing certificate rotation history, check to see if the oldDetails
// was one of our old signing certificates
return hasCertificate(oldDetails.signatures[0]);
}
}
/**
* Similar to {@code hasAncestorOrSelf}. Returns true only if this {@code SigningDetails}
* is a descendant of {@code oldDetails}, not if they're the same. This is used to
* determine if this object is newer than the provided one.
*/
public boolean hasAncestor(SigningDetails oldDetails) {
if (this == UNKNOWN || oldDetails == UNKNOWN) {
return false;
}
if (this.hasPastSigningCertificates() && oldDetails.signatures.length == 1) {
// the last entry in pastSigningCertificates is the current signer, ignore it
for (int i = 0; i < pastSigningCertificates.length - 1; i++) {
if (pastSigningCertificates[i].equals(oldDetails.signatures[0])) {
return true;
}
}
}
return false;
}
/**
* Returns whether this {@code SigningDetails} has a signer in common with the provided
* {@code otherDetails} with the specified {@code flags} capabilities provided by this
* signer.
*
* <p>Note this method allows for the signing lineage to diverge, so this should only be
* used for instances where the only requirement is a common signer in the lineage with
* the specified capabilities. If the current signer of this instance is an ancestor of
* {@code otherDetails} then {@code true} is immediately returned since the current signer
* has all capabilities granted.
*/
public boolean hasCommonSignerWithCapability(SigningDetails otherDetails,
@CertCapabilities int flags) {
if (this == UNKNOWN || otherDetails == UNKNOWN) {
return false;
}
// If either is signed with more than one signer then both must be signed by the same
// signers to consider the capabilities granted.
if (signatures.length > 1 || otherDetails.signatures.length > 1) {
return signaturesMatchExactly(otherDetails);
}
// The Signature class does not use the granted capabilities in the hashCode
// computation, so a Set can be used to check for a common signer.
Set<Signature> otherSignatures = new ArraySet<>();
if (otherDetails.hasPastSigningCertificates()) {
otherSignatures.addAll(Arrays.asList(otherDetails.pastSigningCertificates));
} else {
otherSignatures.addAll(Arrays.asList(otherDetails.signatures));
}
// If the current signer of this instance is an ancestor of the other than return true
// since all capabilities are granted to the current signer.
if (otherSignatures.contains(signatures[0])) {
return true;
}
if (hasPastSigningCertificates()) {
// Since the current signer was checked above and the last signature in the
// pastSigningCertificates is the current signer skip checking the last element.
for (int i = 0; i < pastSigningCertificates.length - 1; i++) {
if (otherSignatures.contains(pastSigningCertificates[i])) {
// If the caller specified multiple capabilities ensure all are set.
if ((pastSigningCertificates[i].getFlags() & flags) == flags) {
return true;
}
}
}
}
return false;
}
/**
* Determines if the provided {@code oldDetails} is an ancestor of this one, and whether or
* not this one grants it the provided capability, represented by the {@code flags}
* parameter. In the event of signing certificate rotation, a package may still interact
* with entities signed by its old signing certificate and not want to break previously
* functioning behavior. The {@code flags} value determines which capabilities the app
* signed by the newer signing certificate would like to continue to give to its previous
* signing certificate(s).
*/
public boolean checkCapability(SigningDetails oldDetails, @CertCapabilities int flags) {
if (this == UNKNOWN || oldDetails == UNKNOWN) {
return false;
}
if (oldDetails.signatures.length > 1) {
// multiple-signer packages cannot rotate signing certs, so we must have an exact
// match, which also means all capabilities are granted
return signaturesMatchExactly(oldDetails);
} else {
// we may have signing certificate rotation history, check to see if the oldDetails
// was one of our old signing certificates, and if we grant it the capability it's
// requesting
return hasCertificate(oldDetails.signatures[0], flags);
}
}
/**
* A special case of {@code checkCapability} which re-encodes both sets of signing
* certificates to counteract a previous re-encoding.
*/
public boolean checkCapabilityRecover(SigningDetails oldDetails,
@CertCapabilities int flags) throws CertificateException {
if (oldDetails == UNKNOWN || this == UNKNOWN) {
return false;
}
if (hasPastSigningCertificates() && oldDetails.signatures.length == 1) {
// signing certificates may have rotated, check entire history for effective match
for (int i = 0; i < pastSigningCertificates.length; i++) {
if (Signature.areEffectiveMatch(
oldDetails.signatures[0],
pastSigningCertificates[i])
&& pastSigningCertificates[i].getFlags() == flags) {
return true;
}
}
} else {
return Signature.areEffectiveArraysMatch(oldDetails.signatures, signatures);
}
return false;
}
/**
* Determine if {@code signature} is in this SigningDetails' signing certificate history,
* including the current signer. Automatically returns false if this object has multiple
* signing certificates, since rotation is only supported for single-signers; this is
* enforced by {@code hasCertificateInternal}.
*/
public boolean hasCertificate(Signature signature) {
return hasCertificateInternal(signature, PAST_CERT_EXISTS);
}
/**
* Determine if {@code signature} is in this SigningDetails' signing certificate history,
* including the current signer, and whether or not it has the given permission.
* Certificates which match our current signer automatically get all capabilities.
* Automatically returns false if this object has multiple signing certificates, since
* rotation is only supported for single-signers.
*/
public boolean hasCertificate(Signature signature, @CertCapabilities int flags) {
return hasCertificateInternal(signature, flags);
}
/** Convenient wrapper for calling {@code hasCertificate} with certificate's raw bytes. */
public boolean hasCertificate(byte[] certificate) {
Signature signature = new Signature(certificate);
return hasCertificate(signature);
}
private boolean hasCertificateInternal(Signature signature, int flags) {
if (this == UNKNOWN) {
return false;
}
// only single-signed apps can have pastSigningCertificates
if (hasPastSigningCertificates()) {
// check all past certs, except for the current one, which automatically gets all
// capabilities, since it is the same as the current signature
for (int i = 0; i < pastSigningCertificates.length - 1; i++) {
if (pastSigningCertificates[i].equals(signature)) {
if (flags == PAST_CERT_EXISTS
|| (flags & pastSigningCertificates[i].getFlags()) == flags) {
return true;
}
}
}
}
// not in previous certs signing history, just check the current signer and make sure
// we are singly-signed
return signatures.length == 1 && signatures[0].equals(signature);
}
/**
* Determines if the provided {@code sha256String} is an ancestor of this one, and whether
* or not this one grants it the provided capability, represented by the {@code flags}
* parameter. In the event of signing certificate rotation, a package may still interact
* with entities signed by its old signing certificate and not want to break previously
* functioning behavior. The {@code flags} value determines which capabilities the app
* signed by the newer signing certificate would like to continue to give to its previous
* signing certificate(s).
*
* @param sha256String A hex-encoded representation of a sha256 digest. In the case of an
* app with multiple signers, this represents the hex-encoded sha256
* digest of the combined hex-encoded sha256 digests of each individual
* signing certificate according to {@link
* PackageUtils#computeSignaturesSha256Digest(Signature[])}
*/
public boolean checkCapability(String sha256String, @CertCapabilities int flags) {
if (this == UNKNOWN) {
return false;
}
// first see if the hash represents a single-signer in our signing history
byte[] sha256Bytes = sha256String == null
? null : HexEncoding.decode(sha256String, false /* allowSingleChar */);
if (hasSha256Certificate(sha256Bytes, flags)) {
return true;
}
// Not in signing history, either represents multiple signatures or not a match.
// Multiple signers can't rotate, so no need to check flags, just see if the SHAs match.
// We already check the single-signer case above as part of hasSha256Certificate, so no
// need to verify we have multiple signers, just run the old check
// just consider current signing certs
final String[] mSignaturesSha256Digests =
PackageUtils.computeSignaturesSha256Digests(signatures);
final String mSignaturesSha256Digest =
PackageUtils.computeSignaturesSha256Digest(mSignaturesSha256Digests);
return mSignaturesSha256Digest.equals(sha256String);
}
/**
* Determine if the {@code sha256Certificate} is in this SigningDetails' signing certificate
* history, including the current signer. Automatically returns false if this object has
* multiple signing certificates, since rotation is only supported for single-signers.
*/
public boolean hasSha256Certificate(byte[] sha256Certificate) {
return hasSha256CertificateInternal(sha256Certificate, PAST_CERT_EXISTS);
}
/**
* Determine if the {@code sha256Certificate} certificate hash corresponds to a signing
* certificate in this SigningDetails' signing certificate history, including the current
* signer, and whether or not it has the given permission. Certificates which match our
* current signer automatically get all capabilities. Automatically returns false if this
* object has multiple signing certificates, since rotation is only supported for
* single-signers.
*/
public boolean hasSha256Certificate(byte[] sha256Certificate, @CertCapabilities int flags) {
return hasSha256CertificateInternal(sha256Certificate, flags);
}
private boolean hasSha256CertificateInternal(byte[] sha256Certificate, int flags) {
if (this == UNKNOWN) {
return false;
}
if (hasPastSigningCertificates()) {
// check all past certs, except for the last one, which automatically gets all
// capabilities, since it is the same as the current signature, and is checked below
for (int i = 0; i < pastSigningCertificates.length - 1; i++) {
byte[] digest = PackageUtils.computeSha256DigestBytes(
pastSigningCertificates[i].toByteArray());
if (Arrays.equals(sha256Certificate, digest)) {
if (flags == PAST_CERT_EXISTS
|| (flags & pastSigningCertificates[i].getFlags()) == flags) {
return true;
}
}
}
}
// not in previous certs signing history, just check the current signer
if (signatures.length == 1) {
byte[] digest =
PackageUtils.computeSha256DigestBytes(signatures[0].toByteArray());
return Arrays.equals(sha256Certificate, digest);
}
return false;
}
/** Returns true if the signatures in this and other match exactly. */
public boolean signaturesMatchExactly(SigningDetails other) {
return Signature.areExactArraysMatch(this.signatures, other.signatures);
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
boolean isUnknown = UNKNOWN == this;
dest.writeBoolean(isUnknown);
if (isUnknown) {
return;
}
dest.writeTypedArray(this.signatures, flags);
dest.writeInt(this.signatureSchemeVersion);
dest.writeArraySet(this.publicKeys);
dest.writeTypedArray(this.pastSigningCertificates, flags);
}
protected SigningDetails(Parcel in) {
final ClassLoader boot = Object.class.getClassLoader();
this.signatures = in.createTypedArray(Signature.CREATOR);
this.signatureSchemeVersion = in.readInt();
this.publicKeys = (ArraySet<PublicKey>) in.readArraySet(boot);
this.pastSigningCertificates = in.createTypedArray(Signature.CREATOR);
}
public static final @android.annotation.NonNull Creator<SigningDetails> CREATOR = new Creator<SigningDetails>() {
@Override
public SigningDetails createFromParcel(Parcel source) {
if (source.readBoolean()) {
return UNKNOWN;
}
return new SigningDetails(source);
}
@Override
public SigningDetails[] newArray(int size) {
return new SigningDetails[size];
}
};
@Override
public boolean equals(@Nullable Object o) {
if (this == o) return true;
if (!(o instanceof SigningDetails)) return false;
SigningDetails that = (SigningDetails) o;
if (signatureSchemeVersion != that.signatureSchemeVersion) return false;
if (!Signature.areExactArraysMatch(signatures, that.signatures)) return false;
if (publicKeys != null) {
if (!publicKeys.equals((that.publicKeys))) {
return false;
}
} else if (that.publicKeys != null) {
return false;
}
// can't use Signature.areExactArraysMatch() because order matters with the past
// signing certs
if (!Arrays.equals(pastSigningCertificates, that.pastSigningCertificates)) {
return false;
}
// The capabilities for the past signing certs must match as well.
for (int i = 0; i < pastSigningCertificates.length; i++) {
if (pastSigningCertificates[i].getFlags()
!= that.pastSigningCertificates[i].getFlags()) {
return false;
}
}
return true;
}
@Override
public int hashCode() {
int result = +Arrays.hashCode(signatures);
result = 31 * result + signatureSchemeVersion;
result = 31 * result + (publicKeys != null ? publicKeys.hashCode() : 0);
result = 31 * result + Arrays.hashCode(pastSigningCertificates);
return result;
}
/**
* Builder of {@code SigningDetails} instances.
*/
public static class Builder {
private Signature[] mSignatures;
private int mSignatureSchemeVersion = SignatureSchemeVersion.UNKNOWN;
private Signature[] mPastSigningCertificates;
@UnsupportedAppUsage
public Builder() {
}
/** get signing certificates used to sign the current APK */
@UnsupportedAppUsage
public Builder setSignatures(Signature[] signatures) {
mSignatures = signatures;
return this;
}
/** set the signature scheme version used to sign the APK */
@UnsupportedAppUsage
public Builder setSignatureSchemeVersion(int signatureSchemeVersion) {
mSignatureSchemeVersion = signatureSchemeVersion;
return this;
}
/** set the signing certificates by which the APK proved it can be authenticated */
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
public Builder setPastSigningCertificates(Signature[] pastSigningCertificates) {
mPastSigningCertificates = pastSigningCertificates;
return this;
}
private void checkInvariants() {
// must have signatures and scheme version set
if (mSignatures == null) {
throw new IllegalStateException("SigningDetails requires the current signing"
+ " certificates.");
}
}
/** build a {@code SigningDetails} object */
@UnsupportedAppUsage
public SigningDetails build()
throws CertificateException {
checkInvariants();
return new SigningDetails(mSignatures, mSignatureSchemeVersion,
mPastSigningCertificates);
}
}
}
/**
* Representation of a full package parsed from APK files on disk. A package
* consists of a single base APK, and zero or more split APKs.
*
* Deprecated internally. Use AndroidPackage instead.
*/
public final static class Package implements Parcelable {
@UnsupportedAppUsage
public String packageName;
// The package name declared in the manifest as the package can be
// renamed, for example static shared libs use synthetic package names.
public String manifestPackageName;
/** Names of any split APKs, ordered by parsed splitName */
public String[] splitNames;
// TODO: work towards making these paths invariant
public String volumeUuid;
/**
* Path where this package was found on disk. For monolithic packages
* this is path to single base APK file; for cluster packages this is
* path to the cluster directory.
*/
public String codePath;
/** Path of base APK */
public String baseCodePath;
/** Paths of any split APKs, ordered by parsed splitName */
public String[] splitCodePaths;
/** Revision code of base APK */
public int baseRevisionCode;
/** Revision codes of any split APKs, ordered by parsed splitName */
public int[] splitRevisionCodes;
/** Flags of any split APKs; ordered by parsed splitName */
public int[] splitFlags;
/**
* Private flags of any split APKs; ordered by parsed splitName.
*
* {@hide}
*/
public int[] splitPrivateFlags;
public boolean baseHardwareAccelerated;
// For now we only support one application per package.
@UnsupportedAppUsage
public ApplicationInfo applicationInfo = new ApplicationInfo();
@UnsupportedAppUsage
public final ArrayList<Permission> permissions = new ArrayList<Permission>(0);
@UnsupportedAppUsage
public final ArrayList<PermissionGroup> permissionGroups = new ArrayList<PermissionGroup>(0);
@UnsupportedAppUsage
public final ArrayList<Activity> activities = new ArrayList<Activity>(0);
@UnsupportedAppUsage
public final ArrayList<Activity> receivers = new ArrayList<Activity>(0);
@UnsupportedAppUsage
public final ArrayList<Provider> providers = new ArrayList<Provider>(0);
@UnsupportedAppUsage
public final ArrayList<Service> services = new ArrayList<Service>(0);
@UnsupportedAppUsage
public final ArrayList<Instrumentation> instrumentation = new ArrayList<Instrumentation>(0);
@UnsupportedAppUsage
public final ArrayList<String> requestedPermissions = new ArrayList<String>();
/** Permissions requested but not in the manifest. */
public final ArrayList<String> implicitPermissions = new ArrayList<>();
@UnsupportedAppUsage
public ArrayList<String> protectedBroadcasts;
public Package parentPackage;
public ArrayList<Package> childPackages;
public String staticSharedLibName = null;
public long staticSharedLibVersion = 0;
public ArrayList<String> libraryNames = null;
@UnsupportedAppUsage
public ArrayList<String> usesLibraries = null;
public ArrayList<String> usesStaticLibraries = null;
public long[] usesStaticLibrariesVersions = null;
public String[][] usesStaticLibrariesCertDigests = null;
@UnsupportedAppUsage
public ArrayList<String> usesOptionalLibraries = null;
@UnsupportedAppUsage
public String[] usesLibraryFiles = null;
public ArrayList<SharedLibraryInfo> usesLibraryInfos = null;
public ArrayList<ActivityIntentInfo> preferredActivityFilters = null;
public ArrayList<String> mOriginalPackages = null;
public String mRealPackage = null;
public ArrayList<String> mAdoptPermissions = null;
// We store the application meta-data independently to avoid multiple unwanted references
@UnsupportedAppUsage
public Bundle mAppMetaData = null;
// The version code declared for this package.
@UnsupportedAppUsage
public int mVersionCode;
// The major version code declared for this package.
public int mVersionCodeMajor;
// Return long containing mVersionCode and mVersionCodeMajor.
public long getLongVersionCode() {
return PackageInfo.composeLongVersionCode(mVersionCodeMajor, mVersionCode);
}
// The version name declared for this package.
@UnsupportedAppUsage
public String mVersionName;
// The shared user id that this package wants to use.
@UnsupportedAppUsage
public String mSharedUserId;
// The shared user label that this package wants to use.
@UnsupportedAppUsage
public int mSharedUserLabel;
// Signatures that were read from the package.
@UnsupportedAppUsage
@NonNull public SigningDetails mSigningDetails = SigningDetails.UNKNOWN;
// For use by package manager service for quick lookup of
// preferred up order.
@UnsupportedAppUsage
public int mPreferredOrder = 0;
// For use by package manager to keep track of when a package was last used.
public long[] mLastPackageUsageTimeInMills =
new long[PackageManager.NOTIFY_PACKAGE_USE_REASONS_COUNT];
// // User set enabled state.
// public int mSetEnabled = PackageManager.COMPONENT_ENABLED_STATE_DEFAULT;
//
// // Whether the package has been stopped.
// public boolean mSetStopped = false;
// Additional data supplied by callers.
@UnsupportedAppUsage
public Object mExtras;
// Applications hardware preferences
@UnsupportedAppUsage
public ArrayList<ConfigurationInfo> configPreferences = null;
// Applications requested features
@UnsupportedAppUsage
public ArrayList<FeatureInfo> reqFeatures = null;
// Applications requested feature groups
public ArrayList<FeatureGroupInfo> featureGroups = null;
@UnsupportedAppUsage
public int installLocation;
public boolean coreApp;
/* An app that's required for all users and cannot be uninstalled for a user */
public boolean mRequiredForAllUsers;
/* The restricted account authenticator type that is used by this application */
public String mRestrictedAccountType;
/* The required account type without which this application will not function */
public String mRequiredAccountType;
public String mOverlayTarget;
public String mOverlayTargetName;
public String mOverlayCategory;
public int mOverlayPriority;
public boolean mOverlayIsStatic;
public int mCompileSdkVersion;
public String mCompileSdkVersionCodename;
/**
* Data used to feed the KeySetManagerService
*/
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
public ArraySet<String> mUpgradeKeySets;
@UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.R, trackingBug = 170729553)
public ArrayMap<String, ArraySet<PublicKey>> mKeySetMapping;
/**
* The install time abi override for this package, if any.
*
* TODO: This seems like a horrible place to put the abiOverride because
* this isn't something the packageParser parsers. However, this fits in with
* the rest of the PackageManager where package scanning randomly pushes
* and prods fields out of {@code this.applicationInfo}.
*/
public String cpuAbiOverride;
/**
* The install time abi override to choose 32bit abi's when multiple abi's
* are present. This is only meaningfull for multiarch applications.
* The use32bitAbi attribute is ignored if cpuAbiOverride is also set.
*/
public boolean use32bitAbi;
public byte[] restrictUpdateHash;
/** Set if the app or any of its components are visible to instant applications. */
public boolean visibleToInstantApps;
/** Whether or not the package is a stub and must be replaced by the full version. */
public boolean isStub;
@UnsupportedAppUsage
public Package(String packageName) {
this.packageName = packageName;
this.manifestPackageName = packageName;
applicationInfo.packageName = packageName;
applicationInfo.uid = -1;
}
public void setApplicationVolumeUuid(String volumeUuid) {
final UUID storageUuid = StorageManager.convert(volumeUuid);
this.applicationInfo.volumeUuid = volumeUuid;
this.applicationInfo.storageUuid = storageUuid;
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).applicationInfo.volumeUuid = volumeUuid;
childPackages.get(i).applicationInfo.storageUuid = storageUuid;
}
}
}
public void setApplicationInfoCodePath(String codePath) {
this.applicationInfo.setCodePath(codePath);
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).applicationInfo.setCodePath(codePath);
}
}
}
/** @deprecated Forward locked apps no longer supported. Resource path not needed. */
@Deprecated
public void setApplicationInfoResourcePath(String resourcePath) {
this.applicationInfo.setResourcePath(resourcePath);
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).applicationInfo.setResourcePath(resourcePath);
}
}
}
/** @deprecated Forward locked apps no longer supported. Resource path not needed. */
@Deprecated
public void setApplicationInfoBaseResourcePath(String resourcePath) {
this.applicationInfo.setBaseResourcePath(resourcePath);
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).applicationInfo.setBaseResourcePath(resourcePath);
}
}
}
public void setApplicationInfoBaseCodePath(String baseCodePath) {
this.applicationInfo.setBaseCodePath(baseCodePath);
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).applicationInfo.setBaseCodePath(baseCodePath);
}
}
}
public List<String> getChildPackageNames() {
if (childPackages == null) {
return null;
}
final int childCount = childPackages.size();
final List<String> childPackageNames = new ArrayList<>(childCount);
for (int i = 0; i < childCount; i++) {
String childPackageName = childPackages.get(i).packageName;
childPackageNames.add(childPackageName);
}
return childPackageNames;
}
public boolean hasChildPackage(String packageName) {
final int childCount = (childPackages != null) ? childPackages.size() : 0;
for (int i = 0; i < childCount; i++) {
if (childPackages.get(i).packageName.equals(packageName)) {
return true;
}
}
return false;
}
public void setApplicationInfoSplitCodePaths(String[] splitCodePaths) {
this.applicationInfo.setSplitCodePaths(splitCodePaths);
// Children have no splits
}
/** @deprecated Forward locked apps no longer supported. Resource path not needed. */
@Deprecated
public void setApplicationInfoSplitResourcePaths(String[] resroucePaths) {
this.applicationInfo.setSplitResourcePaths(resroucePaths);
// Children have no splits
}
public void setSplitCodePaths(String[] codePaths) {
this.splitCodePaths = codePaths;
}
public void setCodePath(String codePath) {
this.codePath = codePath;
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).codePath = codePath;
}
}
}
public void setBaseCodePath(String baseCodePath) {
this.baseCodePath = baseCodePath;
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).baseCodePath = baseCodePath;
}
}
}
/** Sets signing details on the package and any of its children. */
public void setSigningDetails(@NonNull SigningDetails signingDetails) {
mSigningDetails = signingDetails;
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).mSigningDetails = signingDetails;
}
}
}
public void setVolumeUuid(String volumeUuid) {
this.volumeUuid = volumeUuid;
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).volumeUuid = volumeUuid;
}
}
}
public void setApplicationInfoFlags(int mask, int flags) {
applicationInfo.flags = (applicationInfo.flags & ~mask) | (mask & flags);
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).applicationInfo.flags =
(applicationInfo.flags & ~mask) | (mask & flags);
}
}
}
public void setUse32bitAbi(boolean use32bitAbi) {
this.use32bitAbi = use32bitAbi;
if (childPackages != null) {
final int packageCount = childPackages.size();
for (int i = 0; i < packageCount; i++) {
childPackages.get(i).use32bitAbi = use32bitAbi;
}
}
}
public boolean isLibrary() {
return staticSharedLibName != null || !ArrayUtils.isEmpty(libraryNames);
}
public List<String> getAllCodePaths() {
ArrayList<String> paths = new ArrayList<>();
paths.add(baseCodePath);
if (!ArrayUtils.isEmpty(splitCodePaths)) {
Collections.addAll(paths, splitCodePaths);
}
return paths;
}
/**
* Filtered set of {@link #getAllCodePaths()} that excludes
* resource-only APKs.
*/
public List<String> getAllCodePathsExcludingResourceOnly() {
ArrayList<String> paths = new ArrayList<>();
if ((applicationInfo.flags & ApplicationInfo.FLAG_HAS_CODE) != 0) {
paths.add(baseCodePath);
}
if (!ArrayUtils.isEmpty(splitCodePaths)) {
for (int i = 0; i < splitCodePaths.length; i++) {
if ((splitFlags[i] & ApplicationInfo.FLAG_HAS_CODE) != 0) {
paths.add(splitCodePaths[i]);
}
}
}
return paths;
}
@UnsupportedAppUsage
public void setPackageName(String newName) {
packageName = newName;
applicationInfo.packageName = newName;
for (int i=permissions.size()-1; i>=0; i--) {
permissions.get(i).setPackageName(newName);
}
for (int i=permissionGroups.size()-1; i>=0; i--) {
permissionGroups.get(i).setPackageName(newName);
}
for (int i=activities.size()-1; i>=0; i--) {
activities.get(i).setPackageName(newName);
}
for (int i=receivers.size()-1; i>=0; i--) {
receivers.get(i).setPackageName(newName);
}
for (int i=providers.size()-1; i>=0; i--) {
providers.get(i).setPackageName(newName);
}
for (int i=services.size()-1; i>=0; i--) {
services.get(i).setPackageName(newName);
}
for (int i=instrumentation.size()-1; i>=0; i--) {
instrumentation.get(i).setPackageName(newName);
}
}
public boolean hasComponentClassName(String name) {
for (int i=activities.size()-1; i>=0; i--) {
if (name.equals(activities.get(i).className)) {
return true;
}
}
for (int i=receivers.size()-1; i>=0; i--) {
if (name.equals(receivers.get(i).className)) {
return true;
}
}
for (int i=providers.size()-1; i>=0; i--) {
if (name.equals(providers.get(i).className)) {
return true;
}
}
for (int i=services.size()-1; i>=0; i--) {
if (name.equals(services.get(i).className)) {
return true;
}
}
for (int i=instrumentation.size()-1; i>=0; i--) {
if (name.equals(instrumentation.get(i).className)) {
return true;
}
}
return false;
}
/** @hide */
public boolean isExternal() {
return applicationInfo.isExternal();
}
/** @hide */
public boolean isForwardLocked() {
return false;
}
/** @hide */
public boolean isOem() {
return applicationInfo.isOem();
}
/** @hide */
public boolean isVendor() {
return applicationInfo.isVendor();
}
/** @hide */
public boolean isProduct() {
return applicationInfo.isProduct();
}
/** @hide */
public boolean isSystemExt() {
return applicationInfo.isSystemExt();
}
/** @hide */
public boolean isOdm() {
return applicationInfo.isOdm();
}
/** @hide */
public boolean isPrivileged() {
return applicationInfo.isPrivilegedApp();
}
/** @hide */
public boolean isSystem() {
return applicationInfo.isSystemApp();
}
/** @hide */
public boolean isUpdatedSystemApp() {
return applicationInfo.isUpdatedSystemApp();
}
/** @hide */
public boolean canHaveOatDir() {
// Nobody should be calling this method ever, but we can't rely on this.
// Thus no logic here and a reasonable return value.
return true;
}
public boolean isMatch(int flags) {
if ((flags & PackageManager.MATCH_SYSTEM_ONLY) != 0) {
return isSystem();
}
return true;
}
public long getLatestPackageUseTimeInMills() {
long latestUse = 0L;
for (long use : mLastPackageUsageTimeInMills) {
latestUse = Math.max(latestUse, use);
}
return latestUse;
}
public long getLatestForegroundPackageUseTimeInMills() {
int[] foregroundReasons = {
PackageManager.NOTIFY_PACKAGE_USE_ACTIVITY,
PackageManager.NOTIFY_PACKAGE_USE_FOREGROUND_SERVICE
};
long latestUse = 0L;
for (int reason : foregroundReasons) {
latestUse = Math.max(latestUse, mLastPackageUsageTimeInMills[reason]);
}
return latestUse;
}
public String toString() {
return "Package{"
+ Integer.toHexString(System.identityHashCode(this))
+ " " + packageName + "}";
}
@Override
public int describeContents() {
return 0;
}
public Package(Parcel dest) {
// We use the boot classloader for all classes that we load.
final ClassLoader boot = Object.class.getClassLoader();
packageName = dest.readString().intern();
manifestPackageName = dest.readString();
splitNames = dest.readStringArray();
volumeUuid = dest.readString();
codePath = dest.readString();
baseCodePath = dest.readString();
splitCodePaths = dest.readStringArray();
baseRevisionCode = dest.readInt();
splitRevisionCodes = dest.createIntArray();
splitFlags = dest.createIntArray();
splitPrivateFlags = dest.createIntArray();
baseHardwareAccelerated = (dest.readInt() == 1);
applicationInfo = dest.readParcelable(boot, android.content.pm.ApplicationInfo.class);
if (applicationInfo.permission != null) {
applicationInfo.permission = applicationInfo.permission.intern();
}
// We don't serialize the "owner" package and the application info object for each of
// these components, in order to save space and to avoid circular dependencies while
// serialization. We need to fix them all up here.
dest.readParcelableList(permissions, boot, android.content.pm.PackageParser.Permission.class);
fixupOwner(permissions);
dest.readParcelableList(permissionGroups, boot, android.content.pm.PackageParser.PermissionGroup.class);
fixupOwner(permissionGroups);
dest.readParcelableList(activities, boot, android.content.pm.PackageParser.Activity.class);
fixupOwner(activities);
dest.readParcelableList(receivers, boot, android.content.pm.PackageParser.Activity.class);
fixupOwner(receivers);
dest.readParcelableList(providers, boot, android.content.pm.PackageParser.Provider.class);
fixupOwner(providers);
dest.readParcelableList(services, boot, android.content.pm.PackageParser.Service.class);
fixupOwner(services);
dest.readParcelableList(instrumentation, boot, android.content.pm.PackageParser.Instrumentation.class);
fixupOwner(instrumentation);
dest.readStringList(requestedPermissions);
internStringArrayList(requestedPermissions);
dest.readStringList(implicitPermissions);
internStringArrayList(implicitPermissions);
protectedBroadcasts = dest.createStringArrayList();
internStringArrayList(protectedBroadcasts);
parentPackage = dest.readParcelable(boot, android.content.pm.PackageParser.Package.class);
childPackages = new ArrayList<>();
dest.readParcelableList(childPackages, boot, android.content.pm.PackageParser.Package.class);
if (childPackages.size() == 0) {
childPackages = null;
}
staticSharedLibName = dest.readString();
if (staticSharedLibName != null) {
staticSharedLibName = staticSharedLibName.intern();
}
staticSharedLibVersion = dest.readLong();
libraryNames = dest.createStringArrayList();
internStringArrayList(libraryNames);
usesLibraries = dest.createStringArrayList();
internStringArrayList(usesLibraries);
usesOptionalLibraries = dest.createStringArrayList();
internStringArrayList(usesOptionalLibraries);
usesLibraryFiles = dest.readStringArray();
usesLibraryInfos = dest.createTypedArrayList(SharedLibraryInfo.CREATOR);
final int libCount = dest.readInt();
if (libCount > 0) {
usesStaticLibraries = new ArrayList<>(libCount);
dest.readStringList(usesStaticLibraries);
internStringArrayList(usesStaticLibraries);
usesStaticLibrariesVersions = new long[libCount];
dest.readLongArray(usesStaticLibrariesVersions);
usesStaticLibrariesCertDigests = new String[libCount][];
for (int i = 0; i < libCount; i++) {
usesStaticLibrariesCertDigests[i] = dest.createStringArray();
}
}
preferredActivityFilters = new ArrayList<>();
dest.readParcelableList(preferredActivityFilters, boot, android.content.pm.PackageParser.ActivityIntentInfo.class);
if (preferredActivityFilters.size() == 0) {
preferredActivityFilters = null;
}
mOriginalPackages = dest.createStringArrayList();
mRealPackage = dest.readString();
mAdoptPermissions = dest.createStringArrayList();
mAppMetaData = dest.readBundle();
mVersionCode = dest.readInt();
mVersionCodeMajor = dest.readInt();
mVersionName = dest.readString();
if (mVersionName != null) {
mVersionName = mVersionName.intern();
}
mSharedUserId = dest.readString();
if (mSharedUserId != null) {
mSharedUserId = mSharedUserId.intern();
}
mSharedUserLabel = dest.readInt();
mSigningDetails = dest.readParcelable(boot, android.content.pm.PackageParser.SigningDetails.class);
mPreferredOrder = dest.readInt();
// long[] packageUsageTimeMillis is not persisted because it isn't information that
// is parsed from the APK.
// Object mExtras is not persisted because it is not information that is read from
// the APK, rather, it is supplied by callers.
configPreferences = new ArrayList<>();
dest.readParcelableList(configPreferences, boot, android.content.pm.ConfigurationInfo.class);
if (configPreferences.size() == 0) {
configPreferences = null;
}
reqFeatures = new ArrayList<>();
dest.readParcelableList(reqFeatures, boot, android.content.pm.FeatureInfo.class);
if (reqFeatures.size() == 0) {
reqFeatures = null;
}
featureGroups = new ArrayList<>();
dest.readParcelableList(featureGroups, boot, android.content.pm.FeatureGroupInfo.class);
if (featureGroups.size() == 0) {
featureGroups = null;
}
installLocation = dest.readInt();
coreApp = (dest.readInt() == 1);
mRequiredForAllUsers = (dest.readInt() == 1);
mRestrictedAccountType = dest.readString();
mRequiredAccountType = dest.readString();
mOverlayTarget = dest.readString();
mOverlayTargetName = dest.readString();
mOverlayCategory = dest.readString();
mOverlayPriority = dest.readInt();
mOverlayIsStatic = (dest.readInt() == 1);
mCompileSdkVersion = dest.readInt();
mCompileSdkVersionCodename = dest.readString();
mUpgradeKeySets = (ArraySet<String>) dest.readArraySet(boot);
mKeySetMapping = readKeySetMapping(dest);
cpuAbiOverride = dest.readString();
use32bitAbi = (dest.readInt() == 1);
restrictUpdateHash = dest.createByteArray();
visibleToInstantApps = dest.readInt() == 1;
}
private static void internStringArrayList(List<String> list) {
if (list != null) {
final int N = list.size();
for (int i = 0; i < N; ++i) {
list.set(i, list.get(i).intern());
}
}
}
/**
* Sets the package owner and the the {@code applicationInfo} for every component
* owner by this package.
*/
public void fixupOwner(List<? extends Component<?>> list) {
if (list != null) {
for (Component<?> c : list) {
c.owner = this;
if (c instanceof Activity) {
((Activity) c).info.applicationInfo = this.applicationInfo;
} else if (c instanceof Service) {
((Service) c).info.applicationInfo = this.applicationInfo;
} else if (c instanceof Provider) {
((Provider) c).info.applicationInfo = this.applicationInfo;
}
}
}
}
@Override
public void writeToParcel(Parcel dest, int flags) {
dest.writeString(packageName);
dest.writeString(manifestPackageName);
dest.writeStringArray(splitNames);
dest.writeString(volumeUuid);
dest.writeString(codePath);
dest.writeString(baseCodePath);
dest.writeStringArray(splitCodePaths);
dest.writeInt(baseRevisionCode);
dest.writeIntArray(splitRevisionCodes);
dest.writeIntArray(splitFlags);
dest.writeIntArray(splitPrivateFlags);
dest.writeInt(baseHardwareAccelerated ? 1 : 0);
dest.writeParcelable(applicationInfo, flags);
dest.writeParcelableList(permissions, flags);
dest.writeParcelableList(permissionGroups, flags);
dest.writeParcelableList(activities, flags);
dest.writeParcelableList(receivers, flags);
dest.writeParcelableList(providers, flags);
dest.writeParcelableList(services, flags);
dest.writeParcelableList(instrumentation, flags);
dest.writeStringList(requestedPermissions);
dest.writeStringList(implicitPermissions);
dest.writeStringList(protectedBroadcasts);
// TODO: This doesn't work: b/64295061
dest.writeParcelable(parentPackage, flags);
dest.writeParcelableList(childPackages, flags);
dest.writeString(staticSharedLibName);
dest.writeLong(staticSharedLibVersion);
dest.writeStringList(libraryNames);
dest.writeStringList(usesLibraries);
dest.writeStringList(usesOptionalLibraries);
dest.writeStringArray(usesLibraryFiles);
dest.writeTypedList(usesLibraryInfos);
if (ArrayUtils.isEmpty(usesStaticLibraries)) {
dest.writeInt(-1);
} else {
dest.writeInt(usesStaticLibraries.size());
dest.writeStringList(usesStaticLibraries);
dest.writeLongArray(usesStaticLibrariesVersions);
for (String[] usesStaticLibrariesCertDigest : usesStaticLibrariesCertDigests) {
dest.writeStringArray(usesStaticLibrariesCertDigest);
}
}
dest.writeParcelableList(preferredActivityFilters, flags);
dest.writeStringList(mOriginalPackages);
dest.writeString(mRealPackage);
dest.writeStringList(mAdoptPermissions);
dest.writeBundle(mAppMetaData);
dest.writeInt(mVersionCode);
dest.writeInt(mVersionCodeMajor);
dest.writeString(mVersionName);
dest.writeString(mSharedUserId);
dest.writeInt(mSharedUserLabel);
dest.writeParcelable(mSigningDetails, flags);
dest.writeInt(mPreferredOrder);
// long[] packageUsageTimeMillis is not persisted because it isn't information that
// is parsed from the APK.
// Object mExtras is not persisted because it is not information that is read from
// the APK, rather, it is supplied by callers.
dest.writeParcelableList(configPreferences, flags);
dest.writeParcelableList(reqFeatures, flags);
dest.writeParcelableList(featureGroups, flags);
dest.writeInt(installLocation);
dest.writeInt(coreApp ? 1 : 0);
dest.writeInt(mRequiredForAllUsers ? 1 : 0);
dest.writeString(mRestrictedAccountType);
dest.writeString(mRequiredAccountType);
dest.writeString(mOverlayTarget);
dest.writeString(mOverlayTargetName);
dest.writeString(mOverlayCategory);
dest.writeInt(mOverlayPriority);
dest.writeInt(mOverlayIsStatic ? 1 : 0);
dest.writeInt(mCompileSdkVersion);
dest.writeString(mCompileSdkVersionCodename);
dest.writeArraySet(mUpgradeKeySets);
writeKeySetMapping(dest, mKeySetMapping);
dest.writeString(cpuAbiOverride);
dest.writeInt(use32bitAbi ? 1 : 0);
dest.writeByteArray(restrictUpdateHash);
dest.writeInt(visibleToInstantApps ? 1 : 0);
}
public static final Parcelable.Creator CREATOR = new Parcelable.Creator<Package>() {
public Package createFromParcel(Parcel in) {
return new Package(in);
}
public Package[] newArray(int size) {
return new Package[size];
}
};
}
public static abstract class Component<II extends IntentInfo> {
@UnsupportedAppUsage
public final ArrayList<II> intents;
@UnsupportedAppUsage
public final String className;
@UnsupportedAppUsage
public Bundle metaData;
@UnsupportedAppUsage
public Package owner;
/** The order of this component in relation to its peers */
public int order;
ComponentName componentName;
String componentShortName;
public Component(Package owner, ArrayList<II> intents, String className) {
this.owner = owner;
this.intents = intents;
this.className = className;
}
public Component(Package owner) {
this.owner = owner;
this.intents = null;
this.className = null;
}
public Component(final ParsePackageItemArgs args, final PackageItemInfo outInfo) {
owner = args.owner;
intents = new ArrayList<II>(0);
if (parsePackageItemInfo(args.owner, outInfo, args.outError, args.tag, args.sa,
true /*nameRequired*/, args.nameRes, args.labelRes, args.iconRes,
args.roundIconRes, args.logoRes, args.bannerRes)) {
className = outInfo.name;
} else {
className = null;
}
}
public Component(final ParseComponentArgs args, final ComponentInfo outInfo) {
this(args, (PackageItemInfo)outInfo);
if (args.outError[0] != null) {
return;
}
if (args.processRes != 0) {
CharSequence pname;
if (owner.applicationInfo.targetSdkVersion >= Build.VERSION_CODES.FROYO) {
pname = args.sa.getNonConfigurationString(args.processRes,
Configuration.NATIVE_CONFIG_VERSION);
} else {
// Some older apps have been seen to use a resource reference
// here that on older builds was ignored (with a warning). We
// need to continue to do this for them so they don't break.
pname = args.sa.getNonResourceString(args.processRes);
}
outInfo.processName = buildProcessName(owner.applicationInfo.packageName,
owner.applicationInfo.processName, pname,
args.flags, args.sepProcesses, args.outError);
}
if (args.descriptionRes != 0) {
outInfo.descriptionRes = args.sa.getResourceId(args.descriptionRes, 0);
}
outInfo.enabled = args.sa.getBoolean(args.enabledRes, true);
}
public Component(Component<II> clone) {
owner = clone.owner;
intents = clone.intents;
className = clone.className;
componentName = clone.componentName;
componentShortName = clone.componentShortName;
}
@UnsupportedAppUsage
public ComponentName getComponentName() {
if (componentName != null) {
return componentName;
}
if (className != null) {
componentName = new ComponentName(owner.applicationInfo.packageName,
className);
}
return componentName;
}
protected Component(Parcel in) {
className = in.readString();
metaData = in.readBundle();
intents = createIntentsList(in);
owner = null;
}
protected void writeToParcel(Parcel dest, int flags) {
dest.writeString(className);
dest.writeBundle(metaData);
writeIntentsList(intents, dest, flags);
}
/**
* <p>
* Implementation note: The serialized form for the intent list also contains the name
* of the concrete class that's stored in the list, and assumes that every element of the
* list is of the same type. This is very similar to the original parcelable mechanism.
* We cannot use that directly because IntentInfo extends IntentFilter, which is parcelable
* and is public API. It also declares Parcelable related methods as final which means
* we can't extend them. The approach of using composition instead of inheritance leads to
* a large set of cascading changes in the PackageManagerService, which seem undesirable.
*
* <p>
* <b>WARNING: </b> The list of objects returned by this function might need to be fixed up
* to make sure their owner fields are consistent. See {@code fixupOwner}.
*/
private static void writeIntentsList(ArrayList<? extends IntentInfo> list, Parcel out,
int flags) {
if (list == null) {
out.writeInt(-1);
return;
}
final int N = list.size();
out.writeInt(N);
// Don't bother writing the component name if the list is empty.
if (N > 0) {
IntentInfo info = list.get(0);
out.writeString(info.getClass().getName());
for (int i = 0; i < N;i++) {
list.get(i).writeIntentInfoToParcel(out, flags);
}
}
}
private static <T extends IntentInfo> ArrayList<T> createIntentsList(Parcel in) {
int N = in.readInt();
if (N == -1) {
return null;
}
if (N == 0) {
return new ArrayList<>(0);
}
String componentName = in.readString();
final ArrayList<T> intentsList;
try {
final Class<T> cls = (Class<T>) Class.forName(componentName);
final Constructor<T> cons = cls.getConstructor(Parcel.class);
intentsList = new ArrayList<>(N);
for (int i = 0; i < N; ++i) {
intentsList.add(cons.newInstance(in));
}
} catch (ReflectiveOperationException ree) {
throw new AssertionError("Unable to construct intent list for: " + componentName);
}
return intentsList;
}
public void appendComponentShortName(StringBuilder sb) {
ComponentName.appendShortString(sb, owner.applicationInfo.packageName, className);
}
public void printComponentShortName(PrintWriter pw) {
ComponentName.printShortString(pw, owner.applicationInfo.packageName, className);
}
public void setPackageName(String packageName) {
componentName = null;
componentShortName = null;
}
}
public final static class Permission extends Component<IntentInfo> implements Parcelable {
@UnsupportedAppUsage
public final PermissionInfo info;
@UnsupportedAppUsage
public boolean tree;
@UnsupportedAppUsage
public PermissionGroup group;
/**
* @hide
*/
public Permission(Package owner, @Nullable String backgroundPermission) {
super(owner);
info = new PermissionInfo(backgroundPermission);
}
@UnsupportedAppUsage
public Permission(Package _owner, PermissionInfo _info) {
super(_owner);
info = _info;
}
public void setPackageName(String packageName) {
super.setPackageName(packageName);
info.packageName = packageName;
}
public String toString() {
return "Permission{"
+ Integer.toHexString(System.identityHashCode(this))
+ " " + info.name + "}";
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
super.writeToParcel(dest, flags);
dest.writeParcelable(info, flags);
dest.writeInt(tree ? 1 : 0);
dest.writeParcelable(group, flags);
}
/** @hide */
public boolean isAppOp() {
return info.isAppOp();
}
private Permission(Parcel in) {
super(in);
final ClassLoader boot = Object.class.getClassLoader();
info = in.readParcelable(boot, android.content.pm.PermissionInfo.class);
if (info.group != null) {
info.group = info.group.intern();
}
tree = (in.readInt() == 1);
group = in.readParcelable(boot, android.content.pm.PackageParser.PermissionGroup.class);
}
public static final Parcelable.Creator CREATOR = new Parcelable.Creator<Permission>() {
public Permission createFromParcel(Parcel in) {
return new Permission(in);
}
public Permission[] newArray(int size) {
return new Permission[size];
}
};
}
public final static class PermissionGroup extends Component<IntentInfo> implements Parcelable {
@UnsupportedAppUsage
public final PermissionGroupInfo info;
public PermissionGroup(Package owner, @StringRes int requestDetailResourceId,
@StringRes int backgroundRequestResourceId,
@StringRes int backgroundRequestDetailResourceId) {
super(owner);
info = new PermissionGroupInfo(requestDetailResourceId, backgroundRequestResourceId,
backgroundRequestDetailResourceId);
}
public PermissionGroup(Package _owner, PermissionGroupInfo _info) {
super(_owner);
info = _info;
}
public void setPackageName(String packageName) {
super.setPackageName(packageName);
info.packageName = packageName;
}
public String toString() {
return "PermissionGroup{"
+ Integer.toHexString(System.identityHashCode(this))
+ " " + info.name + "}";
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
super.writeToParcel(dest, flags);
dest.writeParcelable(info, flags);
}
private PermissionGroup(Parcel in) {
super(in);
info = in.readParcelable(Object.class.getClassLoader(), android.content.pm.PermissionGroupInfo.class);
}
public static final Parcelable.Creator CREATOR = new Parcelable.Creator<PermissionGroup>() {
public PermissionGroup createFromParcel(Parcel in) {
return new PermissionGroup(in);
}
public PermissionGroup[] newArray(int size) {
return new PermissionGroup[size];
}
};
}
private static boolean copyNeeded(int flags, Package p,
FrameworkPackageUserState state, Bundle metaData, int userId) {
if (userId != UserHandle.USER_SYSTEM) {
// We always need to copy for other users, since we need
// to fix up the uid.
return true;
}
if (state.getEnabledState() != PackageManager.COMPONENT_ENABLED_STATE_DEFAULT) {
boolean enabled =
state.getEnabledState() == PackageManager.COMPONENT_ENABLED_STATE_ENABLED;
if (p.applicationInfo.enabled != enabled) {
return true;
}
}
boolean suspended = (p.applicationInfo.flags & FLAG_SUSPENDED) != 0;
if (state.isSuspended() != suspended) {
return true;
}
if (!state.isInstalled() || state.isHidden()) {
return true;
}
if (state.isStopped()) {
return true;
}
if (state.isInstantApp() != p.applicationInfo.isInstantApp()) {
return true;
}
if ((flags & PackageManager.GET_META_DATA) != 0
&& (metaData != null || p.mAppMetaData != null)) {
return true;
}
if ((flags & PackageManager.GET_SHARED_LIBRARY_FILES) != 0
&& p.usesLibraryFiles != null) {
return true;
}
if ((flags & PackageManager.GET_SHARED_LIBRARY_FILES) != 0
&& p.usesLibraryInfos != null) {
return true;
}
if (p.staticSharedLibName != null) {
return true;
}
return false;
}
@UnsupportedAppUsage
public static ApplicationInfo generateApplicationInfo(Package p, int flags,
FrameworkPackageUserState state) {
return generateApplicationInfo(p, flags, state, UserHandle.getCallingUserId());
}
private static void updateApplicationInfo(ApplicationInfo ai, int flags,
FrameworkPackageUserState state) {
// CompatibilityMode is global state.
if (!sCompatibilityModeEnabled) {
ai.disableCompatibilityMode();
}
if (state.isInstalled()) {
ai.flags |= ApplicationInfo.FLAG_INSTALLED;
} else {
ai.flags &= ~ApplicationInfo.FLAG_INSTALLED;
}
if (state.isSuspended()) {
ai.flags |= ApplicationInfo.FLAG_SUSPENDED;
} else {
ai.flags &= ~ApplicationInfo.FLAG_SUSPENDED;
}
if (state.isInstantApp()) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_INSTANT;
} else {
ai.privateFlags &= ~ApplicationInfo.PRIVATE_FLAG_INSTANT;
}
if (state.isVirtualPreload()) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_VIRTUAL_PRELOAD;
} else {
ai.privateFlags &= ~ApplicationInfo.PRIVATE_FLAG_VIRTUAL_PRELOAD;
}
if (state.isHidden()) {
ai.privateFlags |= ApplicationInfo.PRIVATE_FLAG_HIDDEN;
} else {
ai.privateFlags &= ~ApplicationInfo.PRIVATE_FLAG_HIDDEN;
}
if (state.getEnabledState() == PackageManager.COMPONENT_ENABLED_STATE_ENABLED) {
ai.enabled = true;
} else if (state.getEnabledState()
== PackageManager.COMPONENT_ENABLED_STATE_DISABLED_UNTIL_USED) {
ai.enabled = (flags & PackageManager.GET_DISABLED_UNTIL_USED_COMPONENTS) != 0;
} else if (state.getEnabledState() == PackageManager.COMPONENT_ENABLED_STATE_DISABLED
|| state.getEnabledState()
== PackageManager.COMPONENT_ENABLED_STATE_DISABLED_USER) {
ai.enabled = false;
}
ai.enabledSetting = state.getEnabledState();
if (ai.category == ApplicationInfo.CATEGORY_UNDEFINED) {
ai.category = FallbackCategoryProvider.getFallbackCategory(ai.packageName);
}
ai.seInfoUser = getSeinfoUser(state);
final OverlayPaths overlayPaths = state.getAllOverlayPaths();
if (overlayPaths != null) {
ai.resourceDirs = overlayPaths.getResourceDirs().toArray(new String[0]);
ai.overlayPaths = overlayPaths.getOverlayPaths().toArray(new String[0]);
}
ai.icon = (sUseRoundIcon && ai.roundIconRes != 0) ? ai.roundIconRes : ai.iconRes;
}
@UnsupportedAppUsage
public static ApplicationInfo generateApplicationInfo(Package p, int flags,
FrameworkPackageUserState state, int userId) {
if (p == null) return null;
if (!checkUseInstalledOrHidden(flags, state, p.applicationInfo) || !p.isMatch(flags)) {
return null;
}
if (!copyNeeded(flags, p, state, null, userId)
&& ((flags&PackageManager.GET_DISABLED_UNTIL_USED_COMPONENTS) == 0
|| state.getEnabledState()
!= PackageManager.COMPONENT_ENABLED_STATE_DISABLED_UNTIL_USED)) {
// In this case it is safe to directly modify the internal ApplicationInfo state:
// - CompatibilityMode is global state, so will be the same for every call.
// - We only come in to here if the app should reported as installed; this is the
// default state, and we will do a copy otherwise.
// - The enable state will always be reported the same for the application across
// calls; the only exception is for the UNTIL_USED mode, and in that case we will
// be doing a copy.
updateApplicationInfo(p.applicationInfo, flags, state);
return p.applicationInfo;
}
// Make shallow copy so we can store the metadata/libraries safely
ApplicationInfo ai = new ApplicationInfo(p.applicationInfo);
ai.initForUser(userId);
if ((flags & PackageManager.GET_META_DATA) != 0) {
ai.metaData = p.mAppMetaData;
}
if ((flags & PackageManager.GET_SHARED_LIBRARY_FILES) != 0) {
ai.sharedLibraryFiles = p.usesLibraryFiles;
ai.sharedLibraryInfos = p.usesLibraryInfos;
}
if (state.isStopped()) {
ai.flags |= ApplicationInfo.FLAG_STOPPED;
} else {
ai.flags &= ~ApplicationInfo.FLAG_STOPPED;
}
updateApplicationInfo(ai, flags, state);
return ai;
}
public static ApplicationInfo generateApplicationInfo(ApplicationInfo ai, int flags,
FrameworkPackageUserState state, int userId) {
if (ai == null) return null;
if (!checkUseInstalledOrHidden(flags, state, ai)) {
return null;
}
// This is only used to return the ResolverActivity; we will just always
// make a copy.
ai = new ApplicationInfo(ai);
ai.initForUser(userId);
if (state.isStopped()) {
ai.flags |= ApplicationInfo.FLAG_STOPPED;
} else {
ai.flags &= ~ApplicationInfo.FLAG_STOPPED;
}
updateApplicationInfo(ai, flags, state);
return ai;
}
@UnsupportedAppUsage
public static final PermissionInfo generatePermissionInfo(
Permission p, int flags) {
if (p == null) return null;
if ((flags&PackageManager.GET_META_DATA) == 0) {
return p.info;
}
PermissionInfo pi = new PermissionInfo(p.info);
pi.metaData = p.metaData;
return pi;
}
@UnsupportedAppUsage
public static final PermissionGroupInfo generatePermissionGroupInfo(
PermissionGroup pg, int flags) {
if (pg == null) return null;
if ((flags&PackageManager.GET_META_DATA) == 0) {
return pg.info;
}
PermissionGroupInfo pgi = new PermissionGroupInfo(pg.info);
pgi.metaData = pg.metaData;
return pgi;
}
public final static class Activity extends Component<ActivityIntentInfo> implements Parcelable {
@UnsupportedAppUsage
public final ActivityInfo info;
private boolean mHasMaxAspectRatio;
private boolean mHasMinAspectRatio;
private boolean hasMaxAspectRatio() {
return mHasMaxAspectRatio;
}
private boolean hasMinAspectRatio() {
return mHasMinAspectRatio;
}
// To construct custom activity which does not exist in manifest
Activity(final Package owner, final String className, final ActivityInfo info) {
super(owner, new ArrayList<>(0), className);
this.info = info;
this.info.applicationInfo = owner.applicationInfo;
}
public Activity(final ParseComponentArgs args, final ActivityInfo _info) {
super(args, _info);
info = _info;
info.applicationInfo = args.owner.applicationInfo;
}
public void setPackageName(String packageName) {
super.setPackageName(packageName);
info.packageName = packageName;
}
private void setMaxAspectRatio(float maxAspectRatio) {
if (info.resizeMode == RESIZE_MODE_RESIZEABLE
|| info.resizeMode == RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION) {
// Resizeable activities can be put in any aspect ratio.
return;
}
if (maxAspectRatio < 1.0f && maxAspectRatio != 0) {
// Ignore any value lesser than 1.0.
return;
}
info.setMaxAspectRatio(maxAspectRatio);
mHasMaxAspectRatio = true;
}
private void setMinAspectRatio(float minAspectRatio) {
if (info.resizeMode == RESIZE_MODE_RESIZEABLE
|| info.resizeMode == RESIZE_MODE_RESIZEABLE_VIA_SDK_VERSION) {
// Resizeable activities can be put in any aspect ratio.
return;
}
if (minAspectRatio < 1.0f && minAspectRatio != 0) {
// Ignore any value lesser than 1.0.
return;
}
info.setMinAspectRatio(minAspectRatio);
mHasMinAspectRatio = true;
}
public String toString() {
StringBuilder sb = new StringBuilder(128);
sb.append("Activity{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(' ');
appendComponentShortName(sb);
sb.append('}');
return sb.toString();
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
super.writeToParcel(dest, flags);
dest.writeParcelable(info, flags | Parcelable.PARCELABLE_ELIDE_DUPLICATES);
dest.writeBoolean(mHasMaxAspectRatio);
dest.writeBoolean(mHasMinAspectRatio);
}
private Activity(Parcel in) {
super(in);
info = in.readParcelable(Object.class.getClassLoader(), android.content.pm.ActivityInfo.class);
mHasMaxAspectRatio = in.readBoolean();
mHasMinAspectRatio = in.readBoolean();
for (ActivityIntentInfo aii : intents) {
aii.activity = this;
order = Math.max(aii.getOrder(), order);
}
if (info.permission != null) {
info.permission = info.permission.intern();
}
}
public static final Parcelable.Creator CREATOR = new Parcelable.Creator<Activity>() {
public Activity createFromParcel(Parcel in) {
return new Activity(in);
}
public Activity[] newArray(int size) {
return new Activity[size];
}
};
}
@UnsupportedAppUsage
public static final ActivityInfo generateActivityInfo(Activity a, int flags,
FrameworkPackageUserState state, int userId) {
return generateActivityInfo(a, flags, state, userId, null);
}
private static ActivityInfo generateActivityInfo(Activity a, int flags,
FrameworkPackageUserState state, int userId, ApplicationInfo applicationInfo) {
if (a == null) return null;
if (!checkUseInstalledOrHidden(flags, state, a.owner.applicationInfo)) {
return null;
}
if (!copyNeeded(flags, a.owner, state, a.metaData, userId)) {
updateApplicationInfo(a.info.applicationInfo, flags, state);
return a.info;
}
// Make shallow copies so we can store the metadata safely
ActivityInfo ai = new ActivityInfo(a.info);
ai.metaData = a.metaData;
if (applicationInfo == null) {
applicationInfo = generateApplicationInfo(a.owner, flags, state, userId);
}
ai.applicationInfo = applicationInfo;
return ai;
}
public static final ActivityInfo generateActivityInfo(ActivityInfo ai, int flags,
FrameworkPackageUserState state, int userId) {
if (ai == null) return null;
if (!checkUseInstalledOrHidden(flags, state, ai.applicationInfo)) {
return null;
}
// This is only used to return the ResolverActivity; we will just always
// make a copy.
ai = new ActivityInfo(ai);
ai.applicationInfo = generateApplicationInfo(ai.applicationInfo, flags, state, userId);
return ai;
}
public final static class Service extends Component<ServiceIntentInfo> implements Parcelable {
@UnsupportedAppUsage
public final ServiceInfo info;
public Service(final ParseComponentArgs args, final ServiceInfo _info) {
super(args, _info);
info = _info;
info.applicationInfo = args.owner.applicationInfo;
}
public void setPackageName(String packageName) {
super.setPackageName(packageName);
info.packageName = packageName;
}
public String toString() {
StringBuilder sb = new StringBuilder(128);
sb.append("Service{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(' ');
appendComponentShortName(sb);
sb.append('}');
return sb.toString();
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
super.writeToParcel(dest, flags);
dest.writeParcelable(info, flags | Parcelable.PARCELABLE_ELIDE_DUPLICATES);
}
private Service(Parcel in) {
super(in);
info = in.readParcelable(Object.class.getClassLoader(), android.content.pm.ServiceInfo.class);
for (ServiceIntentInfo aii : intents) {
aii.service = this;
order = Math.max(aii.getOrder(), order);
}
if (info.permission != null) {
info.permission = info.permission.intern();
}
}
public static final Parcelable.Creator CREATOR = new Parcelable.Creator<Service>() {
public Service createFromParcel(Parcel in) {
return new Service(in);
}
public Service[] newArray(int size) {
return new Service[size];
}
};
}
@UnsupportedAppUsage
public static final ServiceInfo generateServiceInfo(Service s, int flags,
FrameworkPackageUserState state, int userId) {
return generateServiceInfo(s, flags, state, userId, null);
}
private static ServiceInfo generateServiceInfo(Service s, int flags,
FrameworkPackageUserState state, int userId, ApplicationInfo applicationInfo) {
if (s == null) return null;
if (!checkUseInstalledOrHidden(flags, state, s.owner.applicationInfo)) {
return null;
}
if (!copyNeeded(flags, s.owner, state, s.metaData, userId)) {
updateApplicationInfo(s.info.applicationInfo, flags, state);
return s.info;
}
// Make shallow copies so we can store the metadata safely
ServiceInfo si = new ServiceInfo(s.info);
si.metaData = s.metaData;
if (applicationInfo == null) {
applicationInfo = generateApplicationInfo(s.owner, flags, state, userId);
}
si.applicationInfo = applicationInfo;
return si;
}
public final static class Provider extends Component<ProviderIntentInfo> implements Parcelable {
@UnsupportedAppUsage
public final ProviderInfo info;
@UnsupportedAppUsage
public boolean syncable;
public Provider(final ParseComponentArgs args, final ProviderInfo _info) {
super(args, _info);
info = _info;
info.applicationInfo = args.owner.applicationInfo;
syncable = false;
}
@UnsupportedAppUsage
public Provider(Provider existingProvider) {
super(existingProvider);
this.info = existingProvider.info;
this.syncable = existingProvider.syncable;
}
public void setPackageName(String packageName) {
super.setPackageName(packageName);
info.packageName = packageName;
}
public String toString() {
StringBuilder sb = new StringBuilder(128);
sb.append("Provider{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(' ');
appendComponentShortName(sb);
sb.append('}');
return sb.toString();
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
super.writeToParcel(dest, flags);
dest.writeParcelable(info, flags | Parcelable.PARCELABLE_ELIDE_DUPLICATES);
dest.writeInt((syncable) ? 1 : 0);
}
private Provider(Parcel in) {
super(in);
info = in.readParcelable(Object.class.getClassLoader(), android.content.pm.ProviderInfo.class);
syncable = (in.readInt() == 1);
for (ProviderIntentInfo aii : intents) {
aii.provider = this;
}
if (info.readPermission != null) {
info.readPermission = info.readPermission.intern();
}
if (info.writePermission != null) {
info.writePermission = info.writePermission.intern();
}
if (info.authority != null) {
info.authority = info.authority.intern();
}
}
public static final Parcelable.Creator CREATOR = new Parcelable.Creator<Provider>() {
public Provider createFromParcel(Parcel in) {
return new Provider(in);
}
public Provider[] newArray(int size) {
return new Provider[size];
}
};
}
@UnsupportedAppUsage
public static final ProviderInfo generateProviderInfo(Provider p, int flags,
FrameworkPackageUserState state, int userId) {
return generateProviderInfo(p, flags, state, userId, null);
}
private static ProviderInfo generateProviderInfo(Provider p, int flags,
FrameworkPackageUserState state, int userId, ApplicationInfo applicationInfo) {
if (p == null) return null;
if (!checkUseInstalledOrHidden(flags, state, p.owner.applicationInfo)) {
return null;
}
if (!copyNeeded(flags, p.owner, state, p.metaData, userId)
&& ((flags & PackageManager.GET_URI_PERMISSION_PATTERNS) != 0
|| p.info.uriPermissionPatterns == null)) {
updateApplicationInfo(p.info.applicationInfo, flags, state);
return p.info;
}
// Make shallow copies so we can store the metadata safely
ProviderInfo pi = new ProviderInfo(p.info);
pi.metaData = p.metaData;
if ((flags & PackageManager.GET_URI_PERMISSION_PATTERNS) == 0) {
pi.uriPermissionPatterns = null;
}
if (applicationInfo == null) {
applicationInfo = generateApplicationInfo(p.owner, flags, state, userId);
}
pi.applicationInfo = applicationInfo;
return pi;
}
public final static class Instrumentation extends Component<IntentInfo> implements
Parcelable {
@UnsupportedAppUsage
public final InstrumentationInfo info;
public Instrumentation(final ParsePackageItemArgs args, final InstrumentationInfo _info) {
super(args, _info);
info = _info;
}
public void setPackageName(String packageName) {
super.setPackageName(packageName);
info.packageName = packageName;
}
public String toString() {
StringBuilder sb = new StringBuilder(128);
sb.append("Instrumentation{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(' ');
appendComponentShortName(sb);
sb.append('}');
return sb.toString();
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
super.writeToParcel(dest, flags);
dest.writeParcelable(info, flags);
}
private Instrumentation(Parcel in) {
super(in);
info = in.readParcelable(Object.class.getClassLoader(), android.content.pm.InstrumentationInfo.class);
if (info.targetPackage != null) {
info.targetPackage = info.targetPackage.intern();
}
if (info.targetProcesses != null) {
info.targetProcesses = info.targetProcesses.intern();
}
}
public static final Parcelable.Creator CREATOR = new Parcelable.Creator<Instrumentation>() {
public Instrumentation createFromParcel(Parcel in) {
return new Instrumentation(in);
}
public Instrumentation[] newArray(int size) {
return new Instrumentation[size];
}
};
}
@UnsupportedAppUsage
public static final InstrumentationInfo generateInstrumentationInfo(
Instrumentation i, int flags) {
if (i == null) return null;
if ((flags&PackageManager.GET_META_DATA) == 0) {
return i.info;
}
InstrumentationInfo ii = new InstrumentationInfo(i.info);
ii.metaData = i.metaData;
return ii;
}
public static abstract class IntentInfo extends IntentFilter {
@UnsupportedAppUsage
public boolean hasDefault;
@UnsupportedAppUsage
public int labelRes;
@UnsupportedAppUsage
public CharSequence nonLocalizedLabel;
@UnsupportedAppUsage
public int icon;
@UnsupportedAppUsage
public int logo;
@UnsupportedAppUsage
public int banner;
public int preferred;
@UnsupportedAppUsage
protected IntentInfo() {
}
protected IntentInfo(Parcel dest) {
super(dest);
hasDefault = (dest.readInt() == 1);
labelRes = dest.readInt();
nonLocalizedLabel = dest.readCharSequence();
icon = dest.readInt();
logo = dest.readInt();
banner = dest.readInt();
preferred = dest.readInt();
}
public void writeIntentInfoToParcel(Parcel dest, int flags) {
super.writeToParcel(dest, flags);
dest.writeInt(hasDefault ? 1 : 0);
dest.writeInt(labelRes);
dest.writeCharSequence(nonLocalizedLabel);
dest.writeInt(icon);
dest.writeInt(logo);
dest.writeInt(banner);
dest.writeInt(preferred);
}
}
public final static class ActivityIntentInfo extends IntentInfo {
@UnsupportedAppUsage
public Activity activity;
public ActivityIntentInfo(Activity _activity) {
activity = _activity;
}
public String toString() {
StringBuilder sb = new StringBuilder(128);
sb.append("ActivityIntentInfo{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(' ');
activity.appendComponentShortName(sb);
sb.append('}');
return sb.toString();
}
public ActivityIntentInfo(Parcel in) {
super(in);
}
}
public final static class ServiceIntentInfo extends IntentInfo {
@UnsupportedAppUsage
public Service service;
public ServiceIntentInfo(Service _service) {
service = _service;
}
public String toString() {
StringBuilder sb = new StringBuilder(128);
sb.append("ServiceIntentInfo{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(' ');
service.appendComponentShortName(sb);
sb.append('}');
return sb.toString();
}
public ServiceIntentInfo(Parcel in) {
super(in);
}
}
public static final class ProviderIntentInfo extends IntentInfo {
@UnsupportedAppUsage
public Provider provider;
public ProviderIntentInfo(Provider provider) {
this.provider = provider;
}
public String toString() {
StringBuilder sb = new StringBuilder(128);
sb.append("ProviderIntentInfo{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(' ');
provider.appendComponentShortName(sb);
sb.append('}');
return sb.toString();
}
public ProviderIntentInfo(Parcel in) {
super(in);
}
}
/**
* @hide
*/
@UnsupportedAppUsage
public static void setCompatibilityModeEnabled(boolean compatibilityModeEnabled) {
sCompatibilityModeEnabled = compatibilityModeEnabled;
}
/**
* @hide
*/
public static void readConfigUseRoundIcon(Resources r) {
if (r != null) {
sUseRoundIcon = r.getBoolean(com.android.internal.R.bool.config_useRoundIcon);
return;
}
ApplicationInfo androidAppInfo;
try {
androidAppInfo = ActivityThread.getPackageManager().getApplicationInfo(
"android", 0 /* flags */,
UserHandle.myUserId());
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
Resources systemResources = Resources.getSystem();
// Create in-flight as this overlayable resource is only used when config changes
Resources overlayableRes = ResourcesManager.getInstance().getResources(null,
null,
null,
androidAppInfo.resourceDirs,
androidAppInfo.overlayPaths,
androidAppInfo.sharedLibraryFiles,
null,
null,
systemResources.getCompatibilityInfo(),
systemResources.getClassLoader(),
null);
sUseRoundIcon = overlayableRes.getBoolean(com.android.internal.R.bool.config_useRoundIcon);
}
public static class PackageParserException extends Exception {
public final int error;
public PackageParserException(int error, String detailMessage) {
super(detailMessage);
this.error = error;
}
public PackageParserException(int error, String detailMessage, Throwable throwable) {
super(detailMessage, throwable);
this.error = error;
}
}
// Duplicate the SplitAsset related classes with PackageParser.Package/ApkLite here, and
// change the original one using new Package/ApkLite. The propose is that we don't want to
// have two branches of methods in SplitAsset related classes so we can keep real classes
// clean and move all the legacy code to one place.
/**
* Simple interface for loading base Assets and Splits. Used by PackageParser when parsing
* split APKs.
*
* @hide
* @deprecated Do not use. New changes should use
* {@link android.content.pm.split.SplitAssetLoader} instead.
*/
@Deprecated
private interface SplitAssetLoader extends AutoCloseable {
AssetManager getBaseAssetManager() throws PackageParserException;
AssetManager getSplitAssetManager(int splitIdx) throws PackageParserException;
ApkAssets getBaseApkAssets();
}
/**
* A helper class that implements the dependency tree traversal for splits. Callbacks
* are implemented by subclasses to notify whether a split has already been constructed
* and is cached, and to actually create the split requested.
*
* This helper is meant to be subclassed so as to reduce the number of allocations
* needed to make use of it.
*
* All inputs and outputs are assumed to be indices into an array of splits.
*
* @hide
* @deprecated Do not use. New changes should use
* {@link android.content.pm.split.SplitDependencyLoader} instead.
*/
@Deprecated
private abstract static class SplitDependencyLoader<E extends Exception> {
private final @NonNull SparseArray<int[]> mDependencies;
/**
* Construct a new SplitDependencyLoader. Meant to be called from the
* subclass constructor.
* @param dependencies The dependency tree of splits.
*/
protected SplitDependencyLoader(@NonNull SparseArray<int[]> dependencies) {
mDependencies = dependencies;
}
/**
* Traverses the dependency tree and constructs any splits that are not already
* cached. This routine short-circuits and skips the creation of splits closer to the
* root if they are cached, as reported by the subclass implementation of
* {@link #isSplitCached(int)}. The construction of splits is delegated to the subclass
* implementation of {@link #constructSplit(int, int[], int)}.
* @param splitIdx The index of the split to load. 0 represents the base Application.
*/
protected void loadDependenciesForSplit(@IntRange(from = 0) int splitIdx) throws E {
// Quick check before any allocations are done.
if (isSplitCached(splitIdx)) {
return;
}
// Special case the base, since it has no dependencies.
if (splitIdx == 0) {
final int[] configSplitIndices = collectConfigSplitIndices(0);
constructSplit(0, configSplitIndices, -1);
return;
}
// Build up the dependency hierarchy.
final IntArray linearDependencies = new IntArray();
linearDependencies.add(splitIdx);
// Collect all the dependencies that need to be constructed.
// They will be listed from leaf to root.
while (true) {
// Only follow the first index into the array. The others are config splits and
// get loaded with the split.
final int[] deps = mDependencies.get(splitIdx);
if (deps != null && deps.length > 0) {
splitIdx = deps[0];
} else {
splitIdx = -1;
}
if (splitIdx < 0 || isSplitCached(splitIdx)) {
break;
}
linearDependencies.add(splitIdx);
}
// Visit each index, from right to left (root to leaf).
int parentIdx = splitIdx;
for (int i = linearDependencies.size() - 1; i >= 0; i--) {
final int idx = linearDependencies.get(i);
final int[] configSplitIndices = collectConfigSplitIndices(idx);
constructSplit(idx, configSplitIndices, parentIdx);
parentIdx = idx;
}
}
private @NonNull int[] collectConfigSplitIndices(int splitIdx) {
// The config splits appear after the first element.
final int[] deps = mDependencies.get(splitIdx);
if (deps == null || deps.length <= 1) {
return EmptyArray.INT;
}
return Arrays.copyOfRange(deps, 1, deps.length);
}
/**
* Subclass to report whether the split at `splitIdx` is cached and need not be constructed.
* It is assumed that if `splitIdx` is cached, any parent of `splitIdx` is also cached.
* @param splitIdx The index of the split to check for in the cache.
* @return true if the split is cached and does not need to be constructed.
*/
protected abstract boolean isSplitCached(@IntRange(from = 0) int splitIdx);
/**
* Subclass to construct a split at index `splitIdx` with parent split `parentSplitIdx`.
* The result is expected to be cached by the subclass in its own structures.
* @param splitIdx The index of the split to construct. 0 represents the base Application.
* @param configSplitIndices The array of configuration splits to load along with this
* split. May be empty (length == 0) but never null.
* @param parentSplitIdx The index of the parent split. -1 if there is no parent.
* @throws E Subclass defined exception representing failure to construct a split.
*/
protected abstract void constructSplit(@IntRange(from = 0) int splitIdx,
@NonNull @IntRange(from = 1) int[] configSplitIndices,
@IntRange(from = -1) int parentSplitIdx) throws E;
public static class IllegalDependencyException extends Exception {
private IllegalDependencyException(String message) {
super(message);
}
}
private static int[] append(int[] src, int elem) {
if (src == null) {
return new int[] { elem };
}
int[] dst = Arrays.copyOf(src, src.length + 1);
dst[src.length] = elem;
return dst;
}
public static @NonNull SparseArray<int[]> createDependenciesFromPackage(
PackageLite pkg)
throws SplitDependencyLoader.IllegalDependencyException {
// The data structure that holds the dependencies. In PackageParser, splits are stored
// in their own array, separate from the base. We treat all paths as equals, so
// we need to insert the base as index 0, and shift all other splits.
final SparseArray<int[]> splitDependencies = new SparseArray<>();
// The base depends on nothing.
splitDependencies.put(0, new int[] {-1});
// First write out the <uses-split> dependencies. These must appear first in the
// array of ints, as is convention in this class.
for (int splitIdx = 0; splitIdx < pkg.splitNames.length; splitIdx++) {
if (!pkg.isFeatureSplits[splitIdx]) {
// Non-feature splits don't have dependencies.
continue;
}
// Implicit dependency on the base.
final int targetIdx;
final String splitDependency = pkg.usesSplitNames[splitIdx];
if (splitDependency != null) {
final int depIdx = Arrays.binarySearch(pkg.splitNames, splitDependency);
if (depIdx < 0) {
throw new SplitDependencyLoader.IllegalDependencyException(
"Split '" + pkg.splitNames[splitIdx] + "' requires split '"
+ splitDependency + "', which is missing.");
}
targetIdx = depIdx + 1;
} else {
// Implicitly depend on the base.
targetIdx = 0;
}
splitDependencies.put(splitIdx + 1, new int[] {targetIdx});
}
// Write out the configForSplit reverse-dependencies. These appear after the
// <uses-split> dependencies and are considered leaves.
//
// At this point, all splits in splitDependencies have the first element in their
// array set.
for (int splitIdx = 0, size = pkg.splitNames.length; splitIdx < size; splitIdx++) {
if (pkg.isFeatureSplits[splitIdx]) {
// Feature splits are not configForSplits.
continue;
}
// Implicit feature for the base.
final int targetSplitIdx;
final String configForSplit = pkg.configForSplit[splitIdx];
if (configForSplit != null) {
final int depIdx = Arrays.binarySearch(pkg.splitNames, configForSplit);
if (depIdx < 0) {
throw new SplitDependencyLoader.IllegalDependencyException(
"Split '" + pkg.splitNames[splitIdx] + "' targets split '"
+ configForSplit + "', which is missing.");
}
if (!pkg.isFeatureSplits[depIdx]) {
throw new SplitDependencyLoader.IllegalDependencyException(
"Split '" + pkg.splitNames[splitIdx] + "' declares itself as "
+ "configuration split for a non-feature split '"
+ pkg.splitNames[depIdx] + "'");
}
targetSplitIdx = depIdx + 1;
} else {
targetSplitIdx = 0;
}
splitDependencies.put(targetSplitIdx,
append(splitDependencies.get(targetSplitIdx), splitIdx + 1));
}
// Verify that there are no cycles.
final BitSet bitset = new BitSet();
for (int i = 0, size = splitDependencies.size(); i < size; i++) {
int splitIdx = splitDependencies.keyAt(i);
bitset.clear();
while (splitIdx != -1) {
// Check if this split has been visited yet.
if (bitset.get(splitIdx)) {
throw new SplitDependencyLoader.IllegalDependencyException(
"Cycle detected in split dependencies.");
}
// Mark the split so that if we visit it again, we no there is a cycle.
bitset.set(splitIdx);
// Follow the first dependency only, the others are leaves by definition.
final int[] deps = splitDependencies.get(splitIdx);
splitIdx = deps != null ? deps[0] : -1;
}
}
return splitDependencies;
}
}
/**
* Loads the base and split APKs into a single AssetManager.
* @hide
* @deprecated Do not use. New changes should use
* {@link android.content.pm.split.DefaultSplitAssetLoader} instead.
*/
@Deprecated
private static class DefaultSplitAssetLoader implements SplitAssetLoader {
private final String mBaseCodePath;
private final String[] mSplitCodePaths;
private final @ParseFlags int mFlags;
private AssetManager mCachedAssetManager;
private ApkAssets mBaseApkAssets;
DefaultSplitAssetLoader(PackageLite pkg, @ParseFlags int flags) {
mBaseCodePath = pkg.baseCodePath;
mSplitCodePaths = pkg.splitCodePaths;
mFlags = flags;
}
private static ApkAssets loadApkAssets(String path, @ParseFlags int flags)
throws PackageParserException {
if ((flags & PackageParser.PARSE_MUST_BE_APK) != 0 && !PackageParser.isApkPath(path)) {
throw new PackageParserException(INSTALL_PARSE_FAILED_NOT_APK,
"Invalid package file: " + path);
}
try {
return ApkAssets.loadFromPath(path);
} catch (IOException e) {
throw new PackageParserException(INSTALL_FAILED_INVALID_APK,
"Failed to load APK at path " + path, e);
}
}
@Override
public AssetManager getBaseAssetManager() throws PackageParserException {
if (mCachedAssetManager != null) {
return mCachedAssetManager;
}
ApkAssets[] apkAssets = new ApkAssets[(mSplitCodePaths != null
? mSplitCodePaths.length : 0) + 1];
mBaseApkAssets = loadApkAssets(mBaseCodePath, mFlags);
// Load the base.
int splitIdx = 0;
apkAssets[splitIdx++] = mBaseApkAssets;
// Load any splits.
if (!ArrayUtils.isEmpty(mSplitCodePaths)) {
for (String apkPath : mSplitCodePaths) {
apkAssets[splitIdx++] = loadApkAssets(apkPath, mFlags);
}
}
AssetManager assets = new AssetManager();
assets.setConfiguration(0, 0, null, null, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, Build.VERSION.RESOURCES_SDK_INT);
assets.setApkAssets(apkAssets, false /*invalidateCaches*/);
mCachedAssetManager = assets;
return mCachedAssetManager;
}
@Override
public AssetManager getSplitAssetManager(int splitIdx) throws PackageParserException {
return getBaseAssetManager();
}
@Override
public void close() throws Exception {
IoUtils.closeQuietly(mCachedAssetManager);
}
@Override
public ApkAssets getBaseApkAssets() {
return mBaseApkAssets;
}
}
/**
* Loads AssetManagers for splits and their dependencies. This SplitAssetLoader implementation
* is to be used when an application opts-in to isolated split loading.
* @hide
* @deprecated Do not use. New changes should use
* {@link android.content.pm.split.SplitAssetDependencyLoader} instead.
*/
@Deprecated
private static class SplitAssetDependencyLoader extends
SplitDependencyLoader<PackageParserException> implements SplitAssetLoader {
private final String[] mSplitPaths;
private final @ParseFlags int mFlags;
private final ApkAssets[][] mCachedSplitApks;
private final AssetManager[] mCachedAssetManagers;
SplitAssetDependencyLoader(PackageLite pkg,
SparseArray<int[]> dependencies, @ParseFlags int flags) {
super(dependencies);
// The base is inserted into index 0, so we need to shift all the splits by 1.
mSplitPaths = new String[pkg.splitCodePaths.length + 1];
mSplitPaths[0] = pkg.baseCodePath;
System.arraycopy(pkg.splitCodePaths, 0, mSplitPaths, 1, pkg.splitCodePaths.length);
mFlags = flags;
mCachedSplitApks = new ApkAssets[mSplitPaths.length][];
mCachedAssetManagers = new AssetManager[mSplitPaths.length];
}
@Override
protected boolean isSplitCached(int splitIdx) {
return mCachedAssetManagers[splitIdx] != null;
}
private static ApkAssets loadApkAssets(String path, @ParseFlags int flags)
throws PackageParserException {
if ((flags & PackageParser.PARSE_MUST_BE_APK) != 0 && !PackageParser.isApkPath(path)) {
throw new PackageParserException(INSTALL_PARSE_FAILED_NOT_APK,
"Invalid package file: " + path);
}
try {
return ApkAssets.loadFromPath(path);
} catch (IOException e) {
throw new PackageParserException(PackageManager.INSTALL_FAILED_INVALID_APK,
"Failed to load APK at path " + path, e);
}
}
private static AssetManager createAssetManagerWithAssets(ApkAssets[] apkAssets) {
final AssetManager assets = new AssetManager();
assets.setConfiguration(0, 0, null, null, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, Build.VERSION.RESOURCES_SDK_INT);
assets.setApkAssets(apkAssets, false /*invalidateCaches*/);
return assets;
}
@Override
protected void constructSplit(int splitIdx, @NonNull int[] configSplitIndices,
int parentSplitIdx) throws PackageParserException {
final ArrayList<ApkAssets> assets = new ArrayList<>();
// Include parent ApkAssets.
if (parentSplitIdx >= 0) {
Collections.addAll(assets, mCachedSplitApks[parentSplitIdx]);
}
// Include this ApkAssets.
assets.add(loadApkAssets(mSplitPaths[splitIdx], mFlags));
// Load and include all config splits for this feature.
for (int configSplitIdx : configSplitIndices) {
assets.add(loadApkAssets(mSplitPaths[configSplitIdx], mFlags));
}
// Cache the results.
mCachedSplitApks[splitIdx] = assets.toArray(new ApkAssets[assets.size()]);
mCachedAssetManagers[splitIdx] = createAssetManagerWithAssets(
mCachedSplitApks[splitIdx]);
}
@Override
public AssetManager getBaseAssetManager() throws PackageParserException {
loadDependenciesForSplit(0);
return mCachedAssetManagers[0];
}
@Override
public AssetManager getSplitAssetManager(int idx) throws PackageParserException {
// Since we insert the base at position 0, and PackageParser keeps splits separate from
// the base, we need to adjust the index.
loadDependenciesForSplit(idx + 1);
return mCachedAssetManagers[idx + 1];
}
@Override
public void close() throws Exception {
for (AssetManager assets : mCachedAssetManagers) {
IoUtils.closeQuietly(assets);
}
}
@Override
public ApkAssets getBaseApkAssets() {
return mCachedSplitApks[0][0];
}
}
public static boolean isMatch(@NonNull FrameworkPackageUserState state,
ComponentInfo componentInfo, long flags) {
return isMatch(state, componentInfo.applicationInfo.isSystemApp(),
componentInfo.applicationInfo.enabled, componentInfo.enabled,
componentInfo.directBootAware, componentInfo.name, flags);
}
public static boolean isMatch(@NonNull FrameworkPackageUserState state, boolean isSystem,
boolean isPackageEnabled, ComponentInfo component, long flags) {
return isMatch(state, isSystem, isPackageEnabled, component.isEnabled(),
component.directBootAware, component.name, flags);
}
/**
* Test if the given component is considered installed, enabled and a match for the given
* flags.
*
* <p>
* Expects at least one of {@link PackageManager#MATCH_DIRECT_BOOT_AWARE} and {@link
* PackageManager#MATCH_DIRECT_BOOT_UNAWARE} are specified in {@code flags}.
* </p>
*/
public static boolean isMatch(@NonNull FrameworkPackageUserState state, boolean isSystem,
boolean isPackageEnabled, boolean isComponentEnabled,
boolean isComponentDirectBootAware, String componentName, long flags) {
final boolean matchUninstalled = (flags & PackageManager.MATCH_KNOWN_PACKAGES) != 0;
if (!isAvailable(state, flags) && !(isSystem && matchUninstalled)) {
return reportIfDebug(false, flags);
}
if (!isEnabled(state, isPackageEnabled, isComponentEnabled, componentName, flags)) {
return reportIfDebug(false, flags);
}
if ((flags & PackageManager.MATCH_SYSTEM_ONLY) != 0) {
if (!isSystem) {
return reportIfDebug(false, flags);
}
}
final boolean matchesUnaware = ((flags & PackageManager.MATCH_DIRECT_BOOT_UNAWARE) != 0)
&& !isComponentDirectBootAware;
final boolean matchesAware = ((flags & PackageManager.MATCH_DIRECT_BOOT_AWARE) != 0)
&& isComponentDirectBootAware;
return reportIfDebug(matchesUnaware || matchesAware, flags);
}
public static boolean isAvailable(@NonNull FrameworkPackageUserState state, long flags) {
// True if it is installed for this user and it is not hidden. If it is hidden,
// still return true if the caller requested MATCH_UNINSTALLED_PACKAGES
final boolean matchAnyUser = (flags & PackageManager.MATCH_ANY_USER) != 0;
final boolean matchUninstalled = (flags & PackageManager.MATCH_UNINSTALLED_PACKAGES) != 0;
return matchAnyUser
|| (state.isInstalled()
&& (!state.isHidden() || matchUninstalled));
}
public static boolean reportIfDebug(boolean result, long flags) {
if (DEBUG_PARSER && !result) {
Slog.i(TAG, "No match!; flags: "
+ DebugUtils.flagsToString(PackageManager.class, "MATCH_", flags) + " "
+ Debug.getCaller());
}
return result;
}
public static boolean isEnabled(@NonNull FrameworkPackageUserState state, ComponentInfo componentInfo,
long flags) {
return isEnabled(state, componentInfo.applicationInfo.enabled, componentInfo.enabled,
componentInfo.name, flags);
}
public static boolean isEnabled(@NonNull FrameworkPackageUserState state, boolean isPackageEnabled,
ComponentInfo parsedComponent, long flags) {
return isEnabled(state, isPackageEnabled, parsedComponent.isEnabled(),
parsedComponent.name, flags);
}
/**
* Test if the given component is considered enabled.
*/
public static boolean isEnabled(@NonNull FrameworkPackageUserState state,
boolean isPackageEnabled, boolean isComponentEnabled, String componentName,
long flags) {
if ((flags & MATCH_DISABLED_COMPONENTS) != 0) {
return true;
}
// First check if the overall package is disabled; if the package is
// enabled then fall through to check specific component
switch (state.getEnabledState()) {
case PackageManager.COMPONENT_ENABLED_STATE_DISABLED:
case PackageManager.COMPONENT_ENABLED_STATE_DISABLED_USER:
return false;
case PackageManager.COMPONENT_ENABLED_STATE_DISABLED_UNTIL_USED:
if ((flags & MATCH_DISABLED_UNTIL_USED_COMPONENTS) == 0) {
return false;
}
// fallthrough
case PackageManager.COMPONENT_ENABLED_STATE_DEFAULT:
if (!isPackageEnabled) {
return false;
}
// fallthrough
case PackageManager.COMPONENT_ENABLED_STATE_ENABLED:
break;
}
// Check if component has explicit state before falling through to
// the manifest default
if (state.isComponentEnabled(componentName)) {
return true;
} else if (state.isComponentDisabled(componentName)) {
return false;
}
return isComponentEnabled;
}
/**
* Writes the keyset mapping to the provided package. {@code null} mappings are permitted.
*/
public static void writeKeySetMapping(@NonNull Parcel dest,
@NonNull Map<String, ArraySet<PublicKey>> keySetMapping) {
if (keySetMapping == null) {
dest.writeInt(-1);
return;
}
final int N = keySetMapping.size();
dest.writeInt(N);
for (String key : keySetMapping.keySet()) {
dest.writeString(key);
ArraySet<PublicKey> keys = keySetMapping.get(key);
if (keys == null) {
dest.writeInt(-1);
continue;
}
final int M = keys.size();
dest.writeInt(M);
for (int j = 0; j < M; j++) {
dest.writeSerializable(keys.valueAt(j));
}
}
}
/**
* Reads a keyset mapping from the given parcel at the given data position. May return
* {@code null} if the serialized mapping was {@code null}.
*/
@NonNull
public static ArrayMap<String, ArraySet<PublicKey>> readKeySetMapping(@NonNull Parcel in) {
final int N = in.readInt();
if (N == -1) {
return null;
}
ArrayMap<String, ArraySet<PublicKey>> keySetMapping = new ArrayMap<>();
for (int i = 0; i < N; ++i) {
String key = in.readString();
final int M = in.readInt();
if (M == -1) {
keySetMapping.put(key, null);
continue;
}
ArraySet<PublicKey> keys = new ArraySet<>(M);
for (int j = 0; j < M; ++j) {
PublicKey pk =
in.readSerializable(PublicKey.class.getClassLoader(), PublicKey.class);
keys.add(pk);
}
keySetMapping.put(key, keys);
}
return keySetMapping;
}
public static String getSeinfoUser(FrameworkPackageUserState userState) {
if (userState.isInstantApp()) {
return ":ephemeralapp:complete";
}
return ":complete";
}
}
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