/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License */ package com.android.server.pm; import android.annotation.Nullable; import android.content.Context; import android.content.pm.ApplicationInfo; import android.content.pm.PackageParser; import android.os.Environment; import android.os.PowerManager; import android.os.UserHandle; import android.os.WorkSource; import android.util.Log; import android.util.Slog; import com.android.internal.os.InstallerConnection.InstallerException; import java.io.File; import java.io.IOException; import java.util.List; import dalvik.system.DexFile; import static com.android.server.pm.Installer.DEXOPT_BOOTCOMPLETE; import static com.android.server.pm.Installer.DEXOPT_DEBUGGABLE; import static com.android.server.pm.Installer.DEXOPT_PROFILE_GUIDED; import static com.android.server.pm.Installer.DEXOPT_PUBLIC; import static com.android.server.pm.Installer.DEXOPT_SAFEMODE; import static com.android.server.pm.InstructionSets.getAppDexInstructionSets; import static com.android.server.pm.InstructionSets.getDexCodeInstructionSets; import static com.android.server.pm.PackageManagerServiceCompilerMapping.getFullCompilerFilter; /** * Helper class for running dexopt command on packages. */ class PackageDexOptimizer { private static final String TAG = "PackageManager.DexOptimizer"; static final String OAT_DIR_NAME = "oat"; // TODO b/19550105 Remove error codes and use exceptions static final int DEX_OPT_SKIPPED = 0; static final int DEX_OPT_PERFORMED = 1; static final int DEX_OPT_DEFERRED = 2; static final int DEX_OPT_FAILED = -1; private final Installer mInstaller; private final Object mInstallLock; private final PowerManager.WakeLock mDexoptWakeLock; private volatile boolean mSystemReady; PackageDexOptimizer(Installer installer, Object installLock, Context context, String wakeLockTag) { this.mInstaller = installer; this.mInstallLock = installLock; PowerManager powerManager = (PowerManager)context.getSystemService(Context.POWER_SERVICE); mDexoptWakeLock = powerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, wakeLockTag); } protected PackageDexOptimizer(PackageDexOptimizer from) { this.mInstaller = from.mInstaller; this.mInstallLock = from.mInstallLock; this.mDexoptWakeLock = from.mDexoptWakeLock; this.mSystemReady = from.mSystemReady; } static boolean canOptimizePackage(PackageParser.Package pkg) { return (pkg.applicationInfo.flags & ApplicationInfo.FLAG_HAS_CODE) != 0; } /** * Performs dexopt on all code paths and libraries of the specified package for specified * instruction sets. * *

Calls to {@link com.android.server.pm.Installer#dexopt} on {@link #mInstaller} are * synchronized on {@link #mInstallLock}. */ int performDexOpt(PackageParser.Package pkg, String[] instructionSets, boolean checkProfiles, String targetCompilationFilter) { synchronized (mInstallLock) { final boolean useLock = mSystemReady; if (useLock) { mDexoptWakeLock.setWorkSource(new WorkSource(pkg.applicationInfo.uid)); mDexoptWakeLock.acquire(); } try { return performDexOptLI(pkg, instructionSets, checkProfiles, targetCompilationFilter); } finally { if (useLock) { mDexoptWakeLock.release(); } } } } /** * Adjust the given dexopt-needed value. Can be overridden to influence the decision to * optimize or not (and in what way). */ protected int adjustDexoptNeeded(int dexoptNeeded) { return dexoptNeeded; } /** * Adjust the given dexopt flags that will be passed to the installer. */ protected int adjustDexoptFlags(int dexoptFlags) { return dexoptFlags; } private int performDexOptLI(PackageParser.Package pkg, String[] targetInstructionSets, boolean checkProfiles, String targetCompilerFilter) { final String[] instructionSets = targetInstructionSets != null ? targetInstructionSets : getAppDexInstructionSets(pkg.applicationInfo); if (!canOptimizePackage(pkg)) { return DEX_OPT_SKIPPED; } final List paths = pkg.getAllCodePathsExcludingResourceOnly(); final int sharedGid = UserHandle.getSharedAppGid(pkg.applicationInfo.uid); boolean isProfileGuidedFilter = DexFile.isProfileGuidedCompilerFilter(targetCompilerFilter); // If any part of the app is used by other apps, we cannot use profile-guided // compilation. // TODO: This needs to be refactored to be also checked when the target mode is // profile-guided. if (isProfileGuidedFilter) { for (String path : paths) { if (isUsedByOtherApps(path)) { checkProfiles = false; // TODO: Should we only upgrade to the non-profile-guided version? That is, // given verify-profile, should we move to interpret-only? targetCompilerFilter = getFullCompilerFilter(); isProfileGuidedFilter = false; break; } } } // If we're asked to take profile updates into account, check now. boolean newProfile = false; if (checkProfiles && isProfileGuidedFilter) { // Merge profiles, see if we need to do anything. try { newProfile = mInstaller.mergeProfiles(sharedGid, pkg.packageName); } catch (InstallerException e) { Slog.w(TAG, "Failed to merge profiles", e); } } final boolean vmSafeMode = (pkg.applicationInfo.flags & ApplicationInfo.FLAG_VM_SAFE_MODE) != 0; final boolean debuggable = (pkg.applicationInfo.flags & ApplicationInfo.FLAG_DEBUGGABLE) != 0; boolean performedDexOpt = false; final String[] dexCodeInstructionSets = getDexCodeInstructionSets(instructionSets); for (String dexCodeInstructionSet : dexCodeInstructionSets) { for (String path : paths) { int dexoptNeeded; try { dexoptNeeded = DexFile.getDexOptNeeded(path, dexCodeInstructionSet, targetCompilerFilter, newProfile); } catch (IOException ioe) { Slog.w(TAG, "IOException reading apk: " + path, ioe); return DEX_OPT_FAILED; } dexoptNeeded = adjustDexoptNeeded(dexoptNeeded); final String dexoptType; String oatDir = null; switch (dexoptNeeded) { case DexFile.NO_DEXOPT_NEEDED: continue; case DexFile.DEX2OAT_NEEDED: dexoptType = "dex2oat"; oatDir = createOatDirIfSupported(pkg, dexCodeInstructionSet); break; case DexFile.PATCHOAT_NEEDED: dexoptType = "patchoat"; break; case DexFile.SELF_PATCHOAT_NEEDED: dexoptType = "self patchoat"; break; default: throw new IllegalStateException("Invalid dexopt:" + dexoptNeeded); } Log.i(TAG, "Running dexopt (" + dexoptType + ") on: " + path + " pkg=" + pkg.applicationInfo.packageName + " isa=" + dexCodeInstructionSet + " vmSafeMode=" + vmSafeMode + " debuggable=" + debuggable + " target-filter=" + targetCompilerFilter + " oatDir = " + oatDir); // Profile guide compiled oat files should not be public. final boolean isPublic = !pkg.isForwardLocked() && !isProfileGuidedFilter; final int profileFlag = isProfileGuidedFilter ? DEXOPT_PROFILE_GUIDED : 0; final int dexFlags = adjustDexoptFlags( ( isPublic ? DEXOPT_PUBLIC : 0) | (vmSafeMode ? DEXOPT_SAFEMODE : 0) | (debuggable ? DEXOPT_DEBUGGABLE : 0) | profileFlag | DEXOPT_BOOTCOMPLETE); try { mInstaller.dexopt(path, sharedGid, pkg.packageName, dexCodeInstructionSet, dexoptNeeded, oatDir, dexFlags, targetCompilerFilter, pkg.volumeUuid); performedDexOpt = true; } catch (InstallerException e) { Slog.w(TAG, "Failed to dexopt", e); } } } // If we've gotten here, we're sure that no error occurred and that we haven't // deferred dex-opt. We've either dex-opted one more paths or instruction sets or // we've skipped all of them because they are up to date. In both cases this // package doesn't need dexopt any longer. return performedDexOpt ? DEX_OPT_PERFORMED : DEX_OPT_SKIPPED; } /** * Creates oat dir for the specified package. In certain cases oat directory * cannot be created: *

* * @return Absolute path to the oat directory or null, if oat directory * cannot be created. */ @Nullable private String createOatDirIfSupported(PackageParser.Package pkg, String dexInstructionSet) { if (!pkg.canHaveOatDir()) { return null; } File codePath = new File(pkg.codePath); if (codePath.isDirectory()) { File oatDir = getOatDir(codePath); try { mInstaller.createOatDir(oatDir.getAbsolutePath(), dexInstructionSet); } catch (InstallerException e) { Slog.w(TAG, "Failed to create oat dir", e); return null; } return oatDir.getAbsolutePath(); } return null; } static File getOatDir(File codePath) { return new File(codePath, OAT_DIR_NAME); } void systemReady() { mSystemReady = true; } private boolean isUsedByOtherApps(String apkPath) { try { apkPath = new File(apkPath).getCanonicalPath(); } catch (IOException e) { // Log an error but continue without it. Slog.w(TAG, "Failed to get canonical path", e); } String useMarker = apkPath.replace('/', '@'); final int[] currentUserIds = UserManagerService.getInstance().getUserIds(); for (int i = 0; i < currentUserIds.length; i++) { File profileDir = Environment.getDataProfilesDeForeignDexDirectory(currentUserIds[i]); File foreignUseMark = new File(profileDir, useMarker); if (foreignUseMark.exists()) { return true; } } return false; } /** * A specialized PackageDexOptimizer that overrides already-installed checks, forcing a * dexopt path. */ public static class ForcedUpdatePackageDexOptimizer extends PackageDexOptimizer { public ForcedUpdatePackageDexOptimizer(Installer installer, Object installLock, Context context, String wakeLockTag) { super(installer, installLock, context, wakeLockTag); } public ForcedUpdatePackageDexOptimizer(PackageDexOptimizer from) { super(from); } @Override protected int adjustDexoptNeeded(int dexoptNeeded) { // Ensure compilation, no matter the current state. // TODO: The return value is wrong when patchoat is needed. return DexFile.DEX2OAT_NEEDED; } } }