/* * Copyright (C) 2009 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.internal.content; import static android.content.pm.PackageManager.INSTALL_SUCCEEDED; import static android.os.storage.VolumeInfo.ID_PRIVATE_INTERNAL; import android.content.Context; import android.content.pm.ApplicationInfo; import android.content.pm.PackageInfo; import android.content.pm.PackageInstaller.SessionParams; import android.content.pm.PackageManager; import android.content.pm.PackageManager.NameNotFoundException; import android.content.pm.dex.DexMetadataHelper; import android.content.pm.parsing.PackageLite; import android.os.Environment; import android.os.IBinder; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemProperties; import android.os.storage.IStorageManager; import android.os.storage.StorageManager; import android.os.storage.StorageVolume; import android.os.storage.VolumeInfo; import android.provider.Settings; import android.util.ArrayMap; import android.util.Log; import com.android.internal.annotations.VisibleForTesting; import libcore.io.IoUtils; import java.io.File; import java.io.FileDescriptor; import java.io.IOException; import java.util.Objects; import java.util.UUID; /** * Constants used internally between the PackageManager * and media container service transports. * Some utility methods to invoke StorageManagerService api. */ public class InstallLocationUtils { public static final int RECOMMEND_INSTALL_INTERNAL = 1; public static final int RECOMMEND_INSTALL_EXTERNAL = 2; public static final int RECOMMEND_INSTALL_EPHEMERAL = 3; public static final int RECOMMEND_FAILED_INSUFFICIENT_STORAGE = -1; public static final int RECOMMEND_FAILED_INVALID_APK = -2; public static final int RECOMMEND_FAILED_INVALID_LOCATION = -3; public static final int RECOMMEND_FAILED_ALREADY_EXISTS = -4; public static final int RECOMMEND_MEDIA_UNAVAILABLE = -5; public static final int RECOMMEND_FAILED_INVALID_URI = -6; private static final String TAG = "PackageHelper"; // App installation location settings values public static final int APP_INSTALL_AUTO = 0; public static final int APP_INSTALL_INTERNAL = 1; public static final int APP_INSTALL_EXTERNAL = 2; private static TestableInterface sDefaultTestableInterface = null; public static IStorageManager getStorageManager() throws RemoteException { IBinder service = ServiceManager.getService("mount"); if (service != null) { return IStorageManager.Stub.asInterface(service); } else { Log.e(TAG, "Can't get storagemanager service"); throw new RemoteException("Could not contact storagemanager service"); } } /** * A group of external dependencies used in * {@link #resolveInstallVolume(Context, String, int, long, TestableInterface)}. * It can be backed by real values from the system or mocked ones for testing purposes. */ public static abstract class TestableInterface { abstract public StorageManager getStorageManager(Context context); abstract public boolean getForceAllowOnExternalSetting(Context context); abstract public boolean getAllow3rdPartyOnInternalConfig(Context context); abstract public ApplicationInfo getExistingAppInfo(Context context, String packageName); abstract public File getDataDirectory(); } private synchronized static TestableInterface getDefaultTestableInterface() { if (sDefaultTestableInterface == null) { sDefaultTestableInterface = new TestableInterface() { @Override public StorageManager getStorageManager(Context context) { return context.getSystemService(StorageManager.class); } @Override public boolean getForceAllowOnExternalSetting(Context context) { return Settings.Global.getInt(context.getContentResolver(), Settings.Global.FORCE_ALLOW_ON_EXTERNAL, 0) != 0; } @Override public boolean getAllow3rdPartyOnInternalConfig(Context context) { return context.getResources().getBoolean( com.android.internal.R.bool.config_allow3rdPartyAppOnInternal); } @Override public ApplicationInfo getExistingAppInfo(Context context, String packageName) { ApplicationInfo existingInfo = null; try { existingInfo = context.getPackageManager().getApplicationInfo(packageName, PackageManager.MATCH_ANY_USER); } catch (NameNotFoundException ignored) { } return existingInfo; } @Override public File getDataDirectory() { return Environment.getDataDirectory(); } }; } return sDefaultTestableInterface; } @VisibleForTesting @Deprecated public static String resolveInstallVolume(Context context, String packageName, int installLocation, long sizeBytes, TestableInterface testInterface) throws IOException { final SessionParams params = new SessionParams(SessionParams.MODE_INVALID); params.appPackageName = packageName; params.installLocation = installLocation; params.sizeBytes = sizeBytes; return resolveInstallVolume(context, params, testInterface); } /** * Given a requested {@link PackageInfo#installLocation} and calculated * install size, pick the actual volume to install the app. Only considers * internal and private volumes, and prefers to keep an existing package onocation * its current volume. * * @return the {@link VolumeInfo#fsUuid} to install onto, or {@code null} * for internal storage. */ public static String resolveInstallVolume(Context context, SessionParams params) throws IOException { TestableInterface testableInterface = getDefaultTestableInterface(); return resolveInstallVolume(context, params.appPackageName, params.installLocation, params.sizeBytes, testableInterface); } private static boolean checkFitOnVolume(StorageManager storageManager, String volumePath, SessionParams params) throws IOException { if (volumePath == null) { return false; } final int installFlags = translateAllocateFlags(params.installFlags); final UUID target = storageManager.getUuidForPath(new File(volumePath)); final long availBytes = storageManager.getAllocatableBytes(target, installFlags | StorageManager.FLAG_ALLOCATE_NON_CACHE_ONLY); if (params.sizeBytes <= availBytes) { return true; } final long cacheClearable = storageManager.getAllocatableBytes(target, installFlags | StorageManager.FLAG_ALLOCATE_CACHE_ONLY); return params.sizeBytes <= availBytes + cacheClearable; } @VisibleForTesting public static String resolveInstallVolume(Context context, SessionParams params, TestableInterface testInterface) throws IOException { final StorageManager storageManager = testInterface.getStorageManager(context); final boolean forceAllowOnExternal = testInterface.getForceAllowOnExternalSetting(context); final boolean allow3rdPartyOnInternal = testInterface.getAllow3rdPartyOnInternalConfig(context); // TODO: handle existing apps installed in ASEC; currently assumes // they'll end up back on internal storage ApplicationInfo existingInfo = testInterface.getExistingAppInfo(context, params.appPackageName); final ArrayMap volumePaths = new ArrayMap<>(); String internalVolumePath = null; for (VolumeInfo vol : storageManager.getVolumes()) { if (vol.type == VolumeInfo.TYPE_PRIVATE && vol.isMountedWritable()) { final boolean isInternalStorage = ID_PRIVATE_INTERNAL.equals(vol.id); if (isInternalStorage) { internalVolumePath = vol.path; } if (!isInternalStorage || allow3rdPartyOnInternal) { volumePaths.put(vol.fsUuid, vol.path); } } } // System apps always forced to internal storage if (existingInfo != null && existingInfo.isSystemApp()) { if (checkFitOnVolume(storageManager, internalVolumePath, params)) { return StorageManager.UUID_PRIVATE_INTERNAL; } else { throw new IOException("Not enough space on existing volume " + existingInfo.volumeUuid + " for system app " + params.appPackageName + " upgrade"); } } // If app expresses strong desire for internal storage, honor it if (!forceAllowOnExternal && params.installLocation == PackageInfo.INSTALL_LOCATION_INTERNAL_ONLY) { if (existingInfo != null && !Objects.equals(existingInfo.volumeUuid, StorageManager.UUID_PRIVATE_INTERNAL)) { throw new IOException("Cannot automatically move " + params.appPackageName + " from " + existingInfo.volumeUuid + " to internal storage"); } if (!allow3rdPartyOnInternal) { throw new IOException("Not allowed to install non-system apps on internal storage"); } if (checkFitOnVolume(storageManager, internalVolumePath, params)) { return StorageManager.UUID_PRIVATE_INTERNAL; } else { throw new IOException("Requested internal only, but not enough space"); } } // If app already exists somewhere, we must stay on that volume if (existingInfo != null) { String existingVolumePath = null; if (Objects.equals(existingInfo.volumeUuid, StorageManager.UUID_PRIVATE_INTERNAL)) { existingVolumePath = internalVolumePath; } else if (volumePaths.containsKey(existingInfo.volumeUuid)) { existingVolumePath = volumePaths.get(existingInfo.volumeUuid); } if (checkFitOnVolume(storageManager, existingVolumePath, params)) { return existingInfo.volumeUuid; } else { throw new IOException("Not enough space on existing volume " + existingInfo.volumeUuid + " for " + params.appPackageName + " upgrade"); } } // We're left with new installations with either preferring external or auto, so just pick // volume with most space String bestCandidate = !volumePaths.isEmpty() ? volumePaths.keyAt(0) : null; if (volumePaths.size() == 1) { if (checkFitOnVolume(storageManager, volumePaths.valueAt(0), params)) { return bestCandidate; } } else { long bestCandidateAvailBytes = Long.MIN_VALUE; for (String vol : volumePaths.keySet()) { final String volumePath = volumePaths.get(vol); final UUID target = storageManager.getUuidForPath(new File(volumePath)); // We need to take into account freeable cached space, because we're choosing the // best candidate amongst a list, not just checking if we fit at all. final long availBytes = storageManager.getAllocatableBytes(target, translateAllocateFlags(params.installFlags)); if (availBytes >= bestCandidateAvailBytes) { bestCandidate = vol; bestCandidateAvailBytes = availBytes; } } if (bestCandidateAvailBytes >= params.sizeBytes) { return bestCandidate; } } // For new installations of a predefined size, check property to let it through // regardless of the actual free space. if (!volumePaths.isEmpty() && Integer.MAX_VALUE == params.sizeBytes && SystemProperties.getBoolean("debug.pm.install_skip_size_check_for_maxint", false)) { return bestCandidate; } throw new IOException("No special requests, but no room on allowed volumes. " + " allow3rdPartyOnInternal? " + allow3rdPartyOnInternal); } public static boolean fitsOnInternal(Context context, SessionParams params) throws IOException { final StorageManager storage = context.getSystemService(StorageManager.class); final UUID target = storage.getUuidForPath(Environment.getDataDirectory()); final int flags = translateAllocateFlags(params.installFlags); final long allocateableBytes = storage.getAllocatableBytes(target, flags | StorageManager.FLAG_ALLOCATE_NON_CACHE_ONLY); // If we fit on internal storage without including freeable cache space, don't bother // checking to determine how much space is taken up by the cache. if (params.sizeBytes <= allocateableBytes) { return true; } final long cacheClearable = storage.getAllocatableBytes(target, flags | StorageManager.FLAG_ALLOCATE_CACHE_ONLY); return params.sizeBytes <= allocateableBytes + cacheClearable; } public static boolean fitsOnExternal(Context context, SessionParams params) { final StorageManager storage = context.getSystemService(StorageManager.class); final StorageVolume primary = storage.getPrimaryVolume(); return (params.sizeBytes > 0) && !primary.isEmulated() && Environment.MEDIA_MOUNTED.equals(primary.getState()) && params.sizeBytes <= storage.getStorageBytesUntilLow(primary.getPathFile()); } /** * Given a requested {@link PackageInfo#installLocation} and calculated * install size, pick the actual location to install the app. */ public static int resolveInstallLocation(Context context, SessionParams params) throws IOException { ApplicationInfo existingInfo = null; try { existingInfo = context.getPackageManager().getApplicationInfo(params.appPackageName, PackageManager.MATCH_ANY_USER); } catch (NameNotFoundException ignored) { } final int prefer; final boolean checkBoth; boolean ephemeral = false; if ((params.installFlags & PackageManager.INSTALL_INSTANT_APP) != 0) { prefer = RECOMMEND_INSTALL_INTERNAL; ephemeral = true; checkBoth = false; } else if ((params.installFlags & PackageManager.INSTALL_INTERNAL) != 0) { prefer = RECOMMEND_INSTALL_INTERNAL; checkBoth = false; } else if (params.installLocation == PackageInfo.INSTALL_LOCATION_INTERNAL_ONLY) { prefer = RECOMMEND_INSTALL_INTERNAL; checkBoth = false; } else if (params.installLocation == PackageInfo.INSTALL_LOCATION_PREFER_EXTERNAL) { prefer = RECOMMEND_INSTALL_EXTERNAL; checkBoth = true; } else if (params.installLocation == PackageInfo.INSTALL_LOCATION_AUTO) { // When app is already installed, prefer same medium if (existingInfo != null) { // TODO: distinguish if this is external ASEC if ((existingInfo.flags & ApplicationInfo.FLAG_EXTERNAL_STORAGE) != 0) { prefer = RECOMMEND_INSTALL_EXTERNAL; } else { prefer = RECOMMEND_INSTALL_INTERNAL; } } else { prefer = RECOMMEND_INSTALL_INTERNAL; } checkBoth = true; } else { prefer = RECOMMEND_INSTALL_INTERNAL; checkBoth = false; } boolean fitsOnInternal = false; if (checkBoth || prefer == RECOMMEND_INSTALL_INTERNAL) { fitsOnInternal = fitsOnInternal(context, params); } boolean fitsOnExternal = false; if (checkBoth || prefer == RECOMMEND_INSTALL_EXTERNAL) { fitsOnExternal = fitsOnExternal(context, params); } if (prefer == RECOMMEND_INSTALL_INTERNAL) { // The ephemeral case will either fit and return EPHEMERAL, or will not fit // and will fall through to return INSUFFICIENT_STORAGE if (fitsOnInternal) { return (ephemeral) ? InstallLocationUtils.RECOMMEND_INSTALL_EPHEMERAL : InstallLocationUtils.RECOMMEND_INSTALL_INTERNAL; } } else if (prefer == RECOMMEND_INSTALL_EXTERNAL) { if (fitsOnExternal) { return InstallLocationUtils.RECOMMEND_INSTALL_EXTERNAL; } } if (checkBoth) { if (fitsOnInternal) { return InstallLocationUtils.RECOMMEND_INSTALL_INTERNAL; } else if (fitsOnExternal) { return InstallLocationUtils.RECOMMEND_INSTALL_EXTERNAL; } } return InstallLocationUtils.RECOMMEND_FAILED_INSUFFICIENT_STORAGE; } @Deprecated public static long calculateInstalledSize(PackageLite pkg, boolean isForwardLocked, String abiOverride) throws IOException { return calculateInstalledSize(pkg, abiOverride); } public static long calculateInstalledSize(PackageLite pkg, String abiOverride) throws IOException { return calculateInstalledSize(pkg, abiOverride, null); } public static long calculateInstalledSize(PackageLite pkg, String abiOverride, FileDescriptor fd) throws IOException { NativeLibraryHelper.Handle handle = null; try { handle = fd != null ? NativeLibraryHelper.Handle.createFd(pkg, fd) : NativeLibraryHelper.Handle.create(pkg); return calculateInstalledSize(pkg, handle, abiOverride); } finally { IoUtils.closeQuietly(handle); } } @Deprecated public static long calculateInstalledSize(PackageLite pkg, boolean isForwardLocked, NativeLibraryHelper.Handle handle, String abiOverride) throws IOException { return calculateInstalledSize(pkg, handle, abiOverride); } public static long calculateInstalledSize(PackageLite pkg, NativeLibraryHelper.Handle handle, String abiOverride) throws IOException { long sizeBytes = 0; // Include raw APKs, and possibly unpacked resources for (String codePath : pkg.getAllApkPaths()) { final File codeFile = new File(codePath); sizeBytes += codeFile.length(); } // Include raw dex metadata files sizeBytes += DexMetadataHelper.getPackageDexMetadataSize(pkg); if (pkg.isExtractNativeLibs()) { // Include all relevant native code sizeBytes += NativeLibraryHelper.sumNativeBinariesWithOverride(handle, abiOverride); } return sizeBytes; } public static String replaceEnd(String str, String before, String after) { if (!str.endsWith(before)) { throw new IllegalArgumentException( "Expected " + str + " to end with " + before); } return str.substring(0, str.length() - before.length()) + after; } public static int translateAllocateFlags(int installFlags) { if ((installFlags & PackageManager.INSTALL_ALLOCATE_AGGRESSIVE) != 0) { return StorageManager.FLAG_ALLOCATE_AGGRESSIVE; } else { return 0; } } public static int installLocationPolicy(int installLocation, int recommendedInstallLocation, int installFlags, boolean installedPkgIsSystem, boolean installedPackageOnExternal) { if ((installFlags & PackageManager.INSTALL_REPLACE_EXISTING) == 0) { // Invalid install. Return error code return RECOMMEND_FAILED_ALREADY_EXISTS; } // Check for updated system application. if (installedPkgIsSystem) { return RECOMMEND_INSTALL_INTERNAL; } // If current upgrade specifies particular preference if (installLocation == PackageInfo.INSTALL_LOCATION_INTERNAL_ONLY) { // Application explicitly specified internal. return RECOMMEND_INSTALL_INTERNAL; } else if (installLocation == PackageInfo.INSTALL_LOCATION_PREFER_EXTERNAL) { // App explicitly prefers external. Let policy decide return recommendedInstallLocation; } else { // Prefer previous location if (installedPackageOnExternal) { return RECOMMEND_INSTALL_EXTERNAL; } return RECOMMEND_INSTALL_INTERNAL; } } public static int getInstallationErrorCode(int loc) { if (loc == RECOMMEND_FAILED_INVALID_LOCATION) { return PackageManager.INSTALL_FAILED_INVALID_INSTALL_LOCATION; } else if (loc == RECOMMEND_FAILED_ALREADY_EXISTS) { return PackageManager.INSTALL_FAILED_ALREADY_EXISTS; } else if (loc == RECOMMEND_FAILED_INSUFFICIENT_STORAGE) { return PackageManager.INSTALL_FAILED_INSUFFICIENT_STORAGE; } else if (loc == RECOMMEND_FAILED_INVALID_APK) { return PackageManager.INSTALL_FAILED_INVALID_APK; } else if (loc == RECOMMEND_FAILED_INVALID_URI) { return PackageManager.INSTALL_FAILED_INVALID_URI; } else if (loc == RECOMMEND_MEDIA_UNAVAILABLE) { return PackageManager.INSTALL_FAILED_MEDIA_UNAVAILABLE; } else { return INSTALL_SUCCEEDED; } } }