services/core/java/com/android/server/pm/PackageDexOptimizer.java - platform/frameworks/base - Git at Google

 /*
  * 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.PowerManager;
 import android.os.UserHandle;
 import android.os.WorkSource;
 import android.util.ArraySet;
 import android.util.Log;
 import android.util.Slog;

 import java.io.File;
 import java.io.FileNotFoundException;
 import java.io.IOException;
 import java.util.ArrayList;
 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_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;

 /**
  * Helper class for running dexopt command on packages.
  */
 final 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 PackageManagerService mPackageManagerService;
     private ArraySet<PackageParser.Package> mDeferredDexOpt;

     private final PowerManager.WakeLock mDexoptWakeLock;
     private volatile boolean mSystemReady;

     PackageDexOptimizer(PackageManagerService packageManagerService) {
         this.mPackageManagerService = packageManagerService;
         PowerManager powerManager = (PowerManager)packageManagerService.mContext.getSystemService(
                 Context.POWER_SERVICE);
         mDexoptWakeLock = powerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, "*dexopt*");
     }

     /**
      * Performs dexopt on all code paths and libraries of the specified package for specified
      * instruction sets.
      *
      * <p>Calls to {@link com.android.server.pm.Installer#dexopt} are synchronized on
      * {@link PackageManagerService#mInstallLock}.
      */
     int performDexOpt(PackageParser.Package pkg, String[] instructionSets,
             boolean forceDex, boolean defer, boolean inclDependencies, boolean bootComplete) {
         ArraySet<String> done;
         if (inclDependencies && (pkg.usesLibraries != null || pkg.usesOptionalLibraries != null)) {
             done = new ArraySet<String>();
             done.add(pkg.packageName);
         } else {
             done = null;
         }
         synchronized (mPackageManagerService.mInstallLock) {
             final boolean useLock = mSystemReady;
             if (useLock) {
                 mDexoptWakeLock.setWorkSource(new WorkSource(pkg.applicationInfo.uid));
                 mDexoptWakeLock.acquire();
             }
             try {
                 return performDexOptLI(pkg, instructionSets, forceDex, defer, bootComplete, done);
             } finally {
                 if (useLock) {
                     mDexoptWakeLock.release();
                 }
             }
         }
     }

     private int performDexOptLI(PackageParser.Package pkg, String[] targetInstructionSets,
             boolean forceDex, boolean defer, boolean bootComplete, ArraySet<String> done) {
         final String[] instructionSets = targetInstructionSets != null ?
                 targetInstructionSets : getAppDexInstructionSets(pkg.applicationInfo);

         if (done != null) {
             done.add(pkg.packageName);
             if (pkg.usesLibraries != null) {
                 performDexOptLibsLI(pkg.usesLibraries, instructionSets, forceDex, defer,
                         bootComplete, done);
             }
             if (pkg.usesOptionalLibraries != null) {
                 performDexOptLibsLI(pkg.usesOptionalLibraries, instructionSets, forceDex, defer,
                         bootComplete, done);
             }
         }

         if ((pkg.applicationInfo.flags & ApplicationInfo.FLAG_HAS_CODE) == 0) {
             return DEX_OPT_SKIPPED;
         }

         final boolean vmSafeMode = (pkg.applicationInfo.flags & ApplicationInfo.FLAG_VM_SAFE_MODE) != 0;
         final boolean debuggable = (pkg.applicationInfo.flags & ApplicationInfo.FLAG_DEBUGGABLE) != 0;

         final List<String> paths = pkg.getAllCodePathsExcludingResourceOnly();
         boolean performedDexOpt = false;
         // There are three basic cases here:
         // 1.) we need to dexopt, either because we are forced or it is needed
         // 2.) we are deferring a needed dexopt
         // 3.) we are skipping an unneeded dexopt
         final String[] dexCodeInstructionSets = getDexCodeInstructionSets(instructionSets);
         for (String dexCodeInstructionSet : dexCodeInstructionSets) {
             if (!forceDex && pkg.mDexOptPerformed.contains(dexCodeInstructionSet)) {
                 continue;
             }

             for (String path : paths) {
                 final int dexoptNeeded;
                 if (forceDex) {
                     dexoptNeeded = DexFile.DEX2OAT_NEEDED;
                 } else {
                     try {
                         dexoptNeeded = DexFile.getDexOptNeeded(path, pkg.packageName,
                                 dexCodeInstructionSet, defer);
                     } catch (IOException ioe) {
                         Slog.w(TAG, "IOException reading apk: " + path, ioe);
                         return DEX_OPT_FAILED;
                     }
                 }

                 if (!forceDex && defer && dexoptNeeded != DexFile.NO_DEXOPT_NEEDED) {
                     // We're deciding to defer a needed dexopt. Don't bother dexopting for other
                     // paths and instruction sets. We'll deal with them all together when we process
                     // our list of deferred dexopts.
                     addPackageForDeferredDexopt(pkg);
                     return DEX_OPT_DEFERRED;
                 }

                 if (dexoptNeeded != DexFile.NO_DEXOPT_NEEDED) {
                     final String dexoptType;
                     String oatDir = null;
                     if (dexoptNeeded == DexFile.DEX2OAT_NEEDED) {
                         dexoptType = "dex2oat";
                         try {
                             oatDir = createOatDirIfSupported(pkg, dexCodeInstructionSet);
                         } catch (IOException ioe) {
                             Slog.w(TAG, "Unable to create oatDir for package: " + pkg.packageName);
                             return DEX_OPT_FAILED;
                         }
                     } else if (dexoptNeeded == DexFile.PATCHOAT_NEEDED) {
                         dexoptType = "patchoat";
                     } else if (dexoptNeeded == DexFile.SELF_PATCHOAT_NEEDED) {
                         dexoptType = "self patchoat";
                     } else {
                         throw new IllegalStateException("Invalid dexopt needed: " + dexoptNeeded);
                     }

                     Log.i(TAG, "Running dexopt (" + dexoptType + ") on: " + path + " pkg="
                             + pkg.applicationInfo.packageName + " isa=" + dexCodeInstructionSet
                             + " vmSafeMode=" + vmSafeMode + " debuggable=" + debuggable
                             + " oatDir = " + oatDir + " bootComplete=" + bootComplete);
                     final int sharedGid = UserHandle.getSharedAppGid(pkg.applicationInfo.uid);
                     final int dexFlags =
                             (!pkg.isForwardLocked() ? DEXOPT_PUBLIC : 0)
                             | (vmSafeMode ? DEXOPT_SAFEMODE : 0)
                             | (debuggable ? DEXOPT_DEBUGGABLE : 0)
                             | (bootComplete ? DEXOPT_BOOTCOMPLETE : 0);
                     final int ret = mPackageManagerService.mInstaller.dexopt(path, sharedGid,
                             pkg.packageName, dexCodeInstructionSet, dexoptNeeded, oatDir, dexFlags);

                     // Dex2oat might fail due to compiler / verifier errors. We soldier on
                     // regardless, and attempt to interpret the app as a safety net.
                     if (ret == 0) {
                         performedDexOpt = true;
                     }
                 }
             }

             // At this point we haven't failed dexopt and we haven't deferred dexopt. We must
             // either have either succeeded dexopt, or have had getDexOptNeeded tell us
             // it isn't required. We therefore mark that this package doesn't need dexopt unless
             // it's forced. performedDexOpt will tell us whether we performed dex-opt or skipped
             // it.
             pkg.mDexOptPerformed.add(dexCodeInstructionSet);
         }

         // 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
      * <strong>cannot</strong> be created:
      * <ul>
      *      <li>{@code pkg} is a system app, which is not updated.</li>
      *      <li>Package location is not a directory, i.e. monolithic install.</li>
      * </ul>
      *
      * @return Absolute path to the oat directory or null, if oat directory
      * cannot be created.
      */
     @Nullable
     private String createOatDirIfSupported(PackageParser.Package pkg, String dexInstructionSet)
             throws IOException {
         if (!pkg.canHaveOatDir()) {
             return null;
         }
         File codePath = new File(pkg.codePath);
         if (codePath.isDirectory()) {
             File oatDir = getOatDir(codePath);
             mPackageManagerService.mInstaller.createOatDir(oatDir.getAbsolutePath(),
                     dexInstructionSet);
             return oatDir.getAbsolutePath();
         }
         return null;
     }

     static File getOatDir(File codePath) {
         return new File(codePath, OAT_DIR_NAME);
     }

     private void performDexOptLibsLI(ArrayList<String> libs, String[] instructionSets,
             boolean forceDex, boolean defer, boolean bootComplete, ArraySet<String> done) {
         for (String libName : libs) {
             PackageParser.Package libPkg = mPackageManagerService.findSharedNonSystemLibrary(
                     libName);
             if (libPkg != null && !done.contains(libName)) {
                 performDexOptLI(libPkg, instructionSets, forceDex, defer, bootComplete, done);
             }
         }
     }

     /**
      * Clears set of deferred dexopt packages.
      * @return content of dexopt set if it was not empty
      */
     public ArraySet<PackageParser.Package> clearDeferredDexOptPackages() {
         ArraySet<PackageParser.Package> result = mDeferredDexOpt;
         mDeferredDexOpt = null;
         return result;
     }

     public void addPackageForDeferredDexopt(PackageParser.Package pkg) {
         if (mDeferredDexOpt == null) {
             mDeferredDexOpt = new ArraySet<>();
         }
         mDeferredDexOpt.add(pkg);
     }

     void systemReady() {
         mSystemReady = true;
     }
 }
	/*
	* 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.PowerManager;
	import android.os.UserHandle;
	import android.os.WorkSource;
	import android.util.ArraySet;
	import android.util.Log;
	import android.util.Slog;

	import java.io.File;
	import java.io.FileNotFoundException;
	import java.io.IOException;
	import java.util.ArrayList;
	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_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;

	/**
	* Helper class for running dexopt command on packages.
	*/
	final 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 PackageManagerService mPackageManagerService;
	private ArraySet<PackageParser.Package> mDeferredDexOpt;

	private final PowerManager.WakeLock mDexoptWakeLock;
	private volatile boolean mSystemReady;

	PackageDexOptimizer(PackageManagerService packageManagerService) {
	this.mPackageManagerService = packageManagerService;
	PowerManager powerManager = (PowerManager)packageManagerService.mContext.getSystemService(
	Context.POWER_SERVICE);
	mDexoptWakeLock = powerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, "dexopt");
	}

	/**
	* Performs dexopt on all code paths and libraries of the specified package for specified
	* instruction sets.
	*
	* <p>Calls to {@link com.android.server.pm.Installer#dexopt} are synchronized on
	* {@link PackageManagerService#mInstallLock}.
	*/
	int performDexOpt(PackageParser.Package pkg, String[] instructionSets,
	boolean forceDex, boolean defer, boolean inclDependencies, boolean bootComplete) {
	ArraySet<String> done;
	if (inclDependencies && (pkg.usesLibraries != null \|\| pkg.usesOptionalLibraries != null)) {
	done = new ArraySet<String>();
	done.add(pkg.packageName);
	} else {
	done = null;
	}
	synchronized (mPackageManagerService.mInstallLock) {
	final boolean useLock = mSystemReady;
	if (useLock) {
	mDexoptWakeLock.setWorkSource(new WorkSource(pkg.applicationInfo.uid));
	mDexoptWakeLock.acquire();
	}
	try {
	return performDexOptLI(pkg, instructionSets, forceDex, defer, bootComplete, done);
	} finally {
	if (useLock) {
	mDexoptWakeLock.release();
	}
	}
	}
	}

	private int performDexOptLI(PackageParser.Package pkg, String[] targetInstructionSets,
	boolean forceDex, boolean defer, boolean bootComplete, ArraySet<String> done) {
	final String[] instructionSets = targetInstructionSets != null ?
	targetInstructionSets : getAppDexInstructionSets(pkg.applicationInfo);

	if (done != null) {
	done.add(pkg.packageName);
	if (pkg.usesLibraries != null) {
	performDexOptLibsLI(pkg.usesLibraries, instructionSets, forceDex, defer,
	bootComplete, done);
	}
	if (pkg.usesOptionalLibraries != null) {
	performDexOptLibsLI(pkg.usesOptionalLibraries, instructionSets, forceDex, defer,
	bootComplete, done);
	}
	}

	if ((pkg.applicationInfo.flags & ApplicationInfo.FLAG_HAS_CODE) == 0) {
	return DEX_OPT_SKIPPED;
	}

	final boolean vmSafeMode = (pkg.applicationInfo.flags & ApplicationInfo.FLAG_VM_SAFE_MODE) != 0;
	final boolean debuggable = (pkg.applicationInfo.flags & ApplicationInfo.FLAG_DEBUGGABLE) != 0;

	final List<String> paths = pkg.getAllCodePathsExcludingResourceOnly();
	boolean performedDexOpt = false;
	// There are three basic cases here:
	// 1.) we need to dexopt, either because we are forced or it is needed
	// 2.) we are deferring a needed dexopt
	// 3.) we are skipping an unneeded dexopt
	final String[] dexCodeInstructionSets = getDexCodeInstructionSets(instructionSets);
	for (String dexCodeInstructionSet : dexCodeInstructionSets) {
	if (!forceDex && pkg.mDexOptPerformed.contains(dexCodeInstructionSet)) {
	continue;
	}

	for (String path : paths) {
	final int dexoptNeeded;
	if (forceDex) {
	dexoptNeeded = DexFile.DEX2OAT_NEEDED;
	} else {
	try {
	dexoptNeeded = DexFile.getDexOptNeeded(path, pkg.packageName,
	dexCodeInstructionSet, defer);
	} catch (IOException ioe) {
	Slog.w(TAG, "IOException reading apk: " + path, ioe);
	return DEX_OPT_FAILED;
	}
	}

	if (!forceDex && defer && dexoptNeeded != DexFile.NO_DEXOPT_NEEDED) {
	// We're deciding to defer a needed dexopt. Don't bother dexopting for other
	// paths and instruction sets. We'll deal with them all together when we process
	// our list of deferred dexopts.
	addPackageForDeferredDexopt(pkg);
	return DEX_OPT_DEFERRED;
	}

	if (dexoptNeeded != DexFile.NO_DEXOPT_NEEDED) {
	final String dexoptType;
	String oatDir = null;
	if (dexoptNeeded == DexFile.DEX2OAT_NEEDED) {
	dexoptType = "dex2oat";
	try {
	oatDir = createOatDirIfSupported(pkg, dexCodeInstructionSet);
	} catch (IOException ioe) {
	Slog.w(TAG, "Unable to create oatDir for package: " + pkg.packageName);
	return DEX_OPT_FAILED;
	}
	} else if (dexoptNeeded == DexFile.PATCHOAT_NEEDED) {
	dexoptType = "patchoat";
	} else if (dexoptNeeded == DexFile.SELF_PATCHOAT_NEEDED) {
	dexoptType = "self patchoat";
	} else {
	throw new IllegalStateException("Invalid dexopt needed: " + dexoptNeeded);
	}

	Log.i(TAG, "Running dexopt (" + dexoptType + ") on: " + path + " pkg="
	+ pkg.applicationInfo.packageName + " isa=" + dexCodeInstructionSet
	+ " vmSafeMode=" + vmSafeMode + " debuggable=" + debuggable
	+ " oatDir = " + oatDir + " bootComplete=" + bootComplete);
	final int sharedGid = UserHandle.getSharedAppGid(pkg.applicationInfo.uid);
	final int dexFlags =
	(!pkg.isForwardLocked() ? DEXOPT_PUBLIC : 0)
	\| (vmSafeMode ? DEXOPT_SAFEMODE : 0)
	\| (debuggable ? DEXOPT_DEBUGGABLE : 0)
	\| (bootComplete ? DEXOPT_BOOTCOMPLETE : 0);
	final int ret = mPackageManagerService.mInstaller.dexopt(path, sharedGid,
	pkg.packageName, dexCodeInstructionSet, dexoptNeeded, oatDir, dexFlags);

	// Dex2oat might fail due to compiler / verifier errors. We soldier on
	// regardless, and attempt to interpret the app as a safety net.
	if (ret == 0) {
	performedDexOpt = true;
	}
	}
	}

	// At this point we haven't failed dexopt and we haven't deferred dexopt. We must
	// either have either succeeded dexopt, or have had getDexOptNeeded tell us
	// it isn't required. We therefore mark that this package doesn't need dexopt unless
	// it's forced. performedDexOpt will tell us whether we performed dex-opt or skipped
	// it.
	pkg.mDexOptPerformed.add(dexCodeInstructionSet);
	}

	// 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
	* <strong>cannot</strong> be created:
	* <ul>
	* <li>{@code pkg} is a system app, which is not updated.</li>
	* <li>Package location is not a directory, i.e. monolithic install.</li>
	* </ul>
	*
	* @return Absolute path to the oat directory or null, if oat directory
	* cannot be created.
	*/
	@Nullable
	private String createOatDirIfSupported(PackageParser.Package pkg, String dexInstructionSet)
	throws IOException {
	if (!pkg.canHaveOatDir()) {
	return null;
	}
	File codePath = new File(pkg.codePath);
	if (codePath.isDirectory()) {
	File oatDir = getOatDir(codePath);
	mPackageManagerService.mInstaller.createOatDir(oatDir.getAbsolutePath(),
	dexInstructionSet);
	return oatDir.getAbsolutePath();
	}
	return null;
	}

	static File getOatDir(File codePath) {
	return new File(codePath, OAT_DIR_NAME);
	}

	private void performDexOptLibsLI(ArrayList<String> libs, String[] instructionSets,
	boolean forceDex, boolean defer, boolean bootComplete, ArraySet<String> done) {
	for (String libName : libs) {
	PackageParser.Package libPkg = mPackageManagerService.findSharedNonSystemLibrary(
	libName);
	if (libPkg != null && !done.contains(libName)) {
	performDexOptLI(libPkg, instructionSets, forceDex, defer, bootComplete, done);
	}
	}
	}

	/**
	* Clears set of deferred dexopt packages.
	* @return content of dexopt set if it was not empty
	*/
	public ArraySet<PackageParser.Package> clearDeferredDexOptPackages() {
	ArraySet<PackageParser.Package> result = mDeferredDexOpt;
	mDeferredDexOpt = null;
	return result;
	}

	public void addPackageForDeferredDexopt(PackageParser.Package pkg) {
	if (mDeferredDexOpt == null) {
	mDeferredDexOpt = new ArraySet<>();
	}
	mDeferredDexOpt.add(pkg);
	}

	void systemReady() {
	mSystemReady = true;
	}
	}