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

 /*
  * Copyright (C) 2016 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.dex;

 import android.util.AtomicFile;
 import android.util.Slog;
 import android.os.Build;

 import com.android.internal.annotations.GuardedBy;
 import com.android.internal.util.FastPrintWriter;
 import com.android.server.pm.AbstractStatsBase;
 import com.android.server.pm.PackageManagerServiceUtils;

 import java.io.BufferedReader;
 import java.io.File;
 import java.io.FileNotFoundException;
 import java.io.FileOutputStream;
 import java.io.InputStreamReader;
 import java.io.IOException;
 import java.io.OutputStreamWriter;
 import java.io.Reader;
 import java.io.StringWriter;
 import java.io.Writer;
 import java.util.Iterator;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.Map;
 import java.util.Set;

 import dalvik.system.VMRuntime;
 import libcore.io.IoUtils;

 /**
  * Stat file which store usage information about dex files.
  */
 public class PackageDexUsage extends AbstractStatsBase<Void> {
     private final static String TAG = "PackageDexUsage";

     private final static int PACKAGE_DEX_USAGE_VERSION = 1;
     private final static String PACKAGE_DEX_USAGE_VERSION_HEADER =
             "PACKAGE_MANAGER__PACKAGE_DEX_USAGE__";

     private final static String SPLIT_CHAR = ",";
     private final static String DEX_LINE_CHAR = "#";

     // Map which structures the information we have on a package.
     // Maps package name to package data (which stores info about UsedByOtherApps and
     // secondary dex files.).
     // Access to this map needs synchronized.
     @GuardedBy("mPackageUseInfoMap")
     private Map<String, PackageUseInfo> mPackageUseInfoMap;

     public PackageDexUsage() {
         super("package-dex-usage.list", "PackageDexUsage_DiskWriter", /*lock*/ false);
         mPackageUseInfoMap = new HashMap<>();
     }

     /**
      * Record a dex file load.
      *
      * Note this is called when apps load dex files and as such it should return
      * as fast as possible.
      *
      * @param loadingPackage the package performing the load
      * @param dexPath the path of the dex files being loaded
      * @param ownerUserId the user id which runs the code loading the dex files
      * @param loaderIsa the ISA of the app loading the dex files
      * @param isUsedByOtherApps whether or not this dex file was not loaded by its owning package
      * @param primaryOrSplit whether or not the dex file is a primary/split dex. True indicates
      *        the file is either primary or a split. False indicates the file is secondary dex.
      * @return true if the dex load constitutes new information, or false if this information
      *         has been seen before.
      */
     public boolean record(String owningPackageName, String dexPath, int ownerUserId,
             String loaderIsa, boolean isUsedByOtherApps, boolean primaryOrSplit) {
         if (!PackageManagerServiceUtils.checkISA(loaderIsa)) {
             throw new IllegalArgumentException("loaderIsa " + loaderIsa + " is unsupported");
         }
         synchronized (mPackageUseInfoMap) {
             PackageUseInfo packageUseInfo = mPackageUseInfoMap.get(owningPackageName);
             if (packageUseInfo == null) {
                 // This is the first time we see the package.
                 packageUseInfo = new PackageUseInfo();
                 if (primaryOrSplit) {
                     // If we have a primary or a split apk, set isUsedByOtherApps.
                     // We do not need to record the loaderIsa or the owner because we compile
                     // primaries for all users and all ISAs.
                     packageUseInfo.mIsUsedByOtherApps = isUsedByOtherApps;
                 } else {
                     // For secondary dex files record the loaderISA and the owner. We'll need
                     // to know under which user to compile and for what ISA.
                     packageUseInfo.mDexUseInfoMap.put(
                             dexPath, new DexUseInfo(isUsedByOtherApps, ownerUserId, loaderIsa));
                 }
                 mPackageUseInfoMap.put(owningPackageName, packageUseInfo);
                 return true;
             } else {
                 // We already have data on this package. Amend it.
                 if (primaryOrSplit) {
                     // We have a possible update on the primary apk usage. Merge
                     // isUsedByOtherApps information and return if there was an update.
                     return packageUseInfo.merge(isUsedByOtherApps);
                 } else {
                     DexUseInfo newData = new DexUseInfo(
                             isUsedByOtherApps, ownerUserId, loaderIsa);
                     DexUseInfo existingData = packageUseInfo.mDexUseInfoMap.get(dexPath);
                     if (existingData == null) {
                         // It's the first time we see this dex file.
                         packageUseInfo.mDexUseInfoMap.put(dexPath, newData);
                         return true;
                     } else {
                         if (ownerUserId != existingData.mOwnerUserId) {
                             // Oups, this should never happen, the DexManager who calls this should
                             // do the proper checks and not call record if the user does not own the
                             // dex path.
                             // Secondary dex files are stored in the app user directory. A change in
                             // owningUser for the same path means that something went wrong at some
                             // higher level, and the loaderUser was allowed to cross
                             // user-boundaries and access data from what we know to be the owner
                             // user.
                             throw new IllegalArgumentException("Trying to change ownerUserId for "
                                     + " dex path " + dexPath + " from " + existingData.mOwnerUserId
                                     + " to " + ownerUserId);
                         }
                         // Merge the information into the existing data.
                         // Returns true if there was an update.
                         return existingData.merge(newData);
                     }
                 }
             }
         }
     }

     /**
      * Convenience method for sync reads which does not force the user to pass a useless
      * (Void) null.
      */
     public void read() {
       read((Void) null);
     }

     /**
      * Convenience method for async writes which does not force the user to pass a useless
      * (Void) null.
      */
     public void maybeWriteAsync() {
       maybeWriteAsync((Void) null);
     }

     @Override
     protected void writeInternal(Void data) {
         AtomicFile file = getFile();
         FileOutputStream f = null;

         try {
             f = file.startWrite();
             OutputStreamWriter osw = new OutputStreamWriter(f);
             write(osw);
             osw.flush();
             file.finishWrite(f);
         } catch (IOException e) {
             if (f != null) {
                 file.failWrite(f);
             }
             Slog.e(TAG, "Failed to write usage for dex files", e);
         }
     }

     /**
      * File format:
      *
      * file_magic_version
      * package_name_1
      * #dex_file_path_1_1
      * user_1_1, used_by_other_app_1_1, user_isa_1_1_1, user_isa_1_1_2
      * #dex_file_path_1_2
      * user_1_2, used_by_other_app_1_2, user_isa_1_2_1, user_isa_1_2_2
      * ...
      * package_name_2
      * #dex_file_path_2_1
      * user_2_1, used_by_other_app_2_1, user_isa_2_1_1, user_isa_2_1_2
      * #dex_file_path_2_2,
      * user_2_2, used_by_other_app_2_2, user_isa_2_2_1, user_isa_2_2_2
      * ...
     */
     /* package */ void write(Writer out) {
         // Make a clone to avoid locking while writing to disk.
         Map<String, PackageUseInfo> packageUseInfoMapClone = clonePackageUseInfoMap();

         FastPrintWriter fpw = new FastPrintWriter(out);

         // Write the header.
         fpw.print(PACKAGE_DEX_USAGE_VERSION_HEADER);
         fpw.println(PACKAGE_DEX_USAGE_VERSION);

         for (Map.Entry<String, PackageUseInfo> pEntry : packageUseInfoMapClone.entrySet()) {
             // Write the package line.
             String packageName = pEntry.getKey();
             PackageUseInfo packageUseInfo = pEntry.getValue();

             fpw.println(String.join(SPLIT_CHAR, packageName,
                     writeBoolean(packageUseInfo.mIsUsedByOtherApps)));

             // Write dex file lines.
             for (Map.Entry<String, DexUseInfo> dEntry : packageUseInfo.mDexUseInfoMap.entrySet()) {
                 String dexPath = dEntry.getKey();
                 DexUseInfo dexUseInfo = dEntry.getValue();
                 fpw.println(DEX_LINE_CHAR + dexPath);
                 fpw.print(String.join(SPLIT_CHAR, Integer.toString(dexUseInfo.mOwnerUserId),
                         writeBoolean(dexUseInfo.mIsUsedByOtherApps)));
                 for (String isa : dexUseInfo.mLoaderIsas) {
                     fpw.print(SPLIT_CHAR + isa);
                 }
                 fpw.println();
             }
         }
         fpw.flush();
     }

     @Override
     protected void readInternal(Void data) {
         AtomicFile file = getFile();
         BufferedReader in = null;
         try {
             in = new BufferedReader(new InputStreamReader(file.openRead()));
             read(in);
         } catch (FileNotFoundException expected) {
             // The file may not be there. E.g. When we first take the OTA with this feature.
         } catch (IOException e) {
             Slog.w(TAG, "Failed to parse package dex usage.", e);
         } finally {
             IoUtils.closeQuietly(in);
         }
     }

     /* package */ void read(Reader reader) throws IOException {
         Map<String, PackageUseInfo> data = new HashMap<>();
         BufferedReader in = new BufferedReader(reader);
         // Read header, do version check.
         String versionLine = in.readLine();
         if (versionLine == null) {
             throw new IllegalStateException("No version line found.");
         } else {
             if (!versionLine.startsWith(PACKAGE_DEX_USAGE_VERSION_HEADER)) {
                 // TODO(calin): the caller is responsible to clear the file.
                 throw new IllegalStateException("Invalid version line: " + versionLine);
             }
             int version = Integer.parseInt(
                     versionLine.substring(PACKAGE_DEX_USAGE_VERSION_HEADER.length()));
             if (version != PACKAGE_DEX_USAGE_VERSION) {
                 throw new IllegalStateException("Unexpected version: " + version);
             }
         }

         String s = null;
         String currentPakage = null;
         PackageUseInfo currentPakageData = null;

         Set<String> supportedIsas = new HashSet<>();
         for (String abi : Build.SUPPORTED_ABIS) {
             supportedIsas.add(VMRuntime.getInstructionSet(abi));
         }
         while ((s = in.readLine()) != null) {
             if (s.startsWith(DEX_LINE_CHAR)) {
                 // This is the start of the the dex lines.
                 // We expect two lines for each dex entry:
                 // #dexPaths
                 // onwerUserId,isUsedByOtherApps,isa1,isa2
                 if (currentPakage == null) {
                     throw new IllegalStateException(
                         "Malformed PackageDexUsage file. Expected package line before dex line.");
                 }

                 // First line is the dex path.
                 String dexPath = s.substring(DEX_LINE_CHAR.length());
                 // Next line is the dex data.
                 s = in.readLine();
                 if (s == null) {
                     throw new IllegalStateException("Could not fine dexUseInfo for line: " + s);
                 }

                 // We expect at least 3 elements (isUsedByOtherApps, userId, isa).
                 String[] elems = s.split(SPLIT_CHAR);
                 if (elems.length < 3) {
                     throw new IllegalStateException("Invalid PackageDexUsage line: " + s);
                 }
                 int ownerUserId = Integer.parseInt(elems[0]);
                 boolean isUsedByOtherApps = readBoolean(elems[1]);
                 DexUseInfo dexUseInfo = new DexUseInfo(isUsedByOtherApps, ownerUserId);
                 for (int i = 2; i < elems.length; i++) {
                     String isa = elems[i];
                     if (supportedIsas.contains(isa)) {
                         dexUseInfo.mLoaderIsas.add(elems[i]);
                     } else {
                         // Should never happen unless someone crafts the file manually.
                         // In theory it could if we drop a supported ISA after an OTA but we don't
                         // do that.
                         Slog.wtf(TAG, "Unsupported ISA when parsing PackageDexUsage: " + isa);
                     }
                 }
                 if (supportedIsas.isEmpty()) {
                     Slog.wtf(TAG, "Ignore dexPath when parsing PackageDexUsage because of " +
                             "unsupported isas. dexPath=" + dexPath);
                     continue;
                 }
                 currentPakageData.mDexUseInfoMap.put(dexPath, dexUseInfo);
             } else {
                 // This is a package line.
                 // We expect it to be: `packageName,isUsedByOtherApps`.
                 String[] elems = s.split(SPLIT_CHAR);
                 if (elems.length != 2) {
                     throw new IllegalStateException("Invalid PackageDexUsage line: " + s);
                 }
                 currentPakage = elems[0];
                 currentPakageData = new PackageUseInfo();
                 currentPakageData.mIsUsedByOtherApps = readBoolean(elems[1]);
                 data.put(currentPakage, currentPakageData);
             }
         }

         synchronized (mPackageUseInfoMap) {
             mPackageUseInfoMap.clear();
             mPackageUseInfoMap.putAll(data);
         }
     }

     /**
      * Syncs the existing data with the set of available packages by removing obsolete entries.
      */
     public void syncData(Map<String, Set<Integer>> packageToUsersMap) {
         synchronized (mPackageUseInfoMap) {
             Iterator<Map.Entry<String, PackageUseInfo>> pIt =
                     mPackageUseInfoMap.entrySet().iterator();
             while (pIt.hasNext()) {
                 Map.Entry<String, PackageUseInfo> pEntry = pIt.next();
                 String packageName = pEntry.getKey();
                 PackageUseInfo packageUseInfo = pEntry.getValue();
                 Set<Integer> users = packageToUsersMap.get(packageName);
                 if (users == null) {
                     // The package doesn't exist anymore, remove the record.
                     pIt.remove();
                 } else {
                     // The package exists but we can prune the entries associated with non existing
                     // users.
                     Iterator<Map.Entry<String, DexUseInfo>> dIt =
                             packageUseInfo.mDexUseInfoMap.entrySet().iterator();
                     while (dIt.hasNext()) {
                         DexUseInfo dexUseInfo = dIt.next().getValue();
                         if (!users.contains(dexUseInfo.mOwnerUserId)) {
                             // User was probably removed. Delete its dex usage info.
                             dIt.remove();
                         }
                     }
                     if (!packageUseInfo.mIsUsedByOtherApps
                             && packageUseInfo.mDexUseInfoMap.isEmpty()) {
                         // The package is not used by other apps and we removed all its dex files
                         // records. Remove the entire package record as well.
                         pIt.remove();
                     }
                 }
             }
         }
     }

     /**
      * Remove all the records about package {@code packageName} belonging to user {@code userId}.
      * @return true if the record was found and actually deleted,
      *         false if the record doesn't exist
      */
     public boolean removeUserPackage(String packageName, int userId) {
         synchronized (mPackageUseInfoMap) {
             PackageUseInfo packageUseInfo = mPackageUseInfoMap.get(packageName);
             if (packageUseInfo == null) {
                 return false;
             }
             boolean updated = false;
             Iterator<Map.Entry<String, DexUseInfo>> dIt =
                             packageUseInfo.mDexUseInfoMap.entrySet().iterator();
             while (dIt.hasNext()) {
                 DexUseInfo dexUseInfo = dIt.next().getValue();
                 if (dexUseInfo.mOwnerUserId == userId) {
                     dIt.remove();
                     updated = true;
                 }
             }
             return updated;
         }
     }

     /**
      * Remove the secondary dex file record belonging to the package {@code packageName}
      * and user {@code userId}.
      * @return true if the record was found and actually deleted,
      *         false if the record doesn't exist
      */
     public boolean removeDexFile(String packageName, String dexFile, int userId) {
         synchronized (mPackageUseInfoMap) {
             PackageUseInfo packageUseInfo = mPackageUseInfoMap.get(packageName);
             if (packageUseInfo == null) {
                 return false;
             }
             return removeDexFile(packageUseInfo, dexFile, userId);
         }
     }

     private boolean removeDexFile(PackageUseInfo packageUseInfo, String dexFile, int userId) {
         DexUseInfo dexUseInfo = packageUseInfo.mDexUseInfoMap.get(dexFile);
         if (dexUseInfo == null) {
             return false;
         }
         if (dexUseInfo.mOwnerUserId == userId) {
             packageUseInfo.mDexUseInfoMap.remove(dexFile);
             return true;
         }
         return false;
     }

     public PackageUseInfo getPackageUseInfo(String packageName) {
         synchronized (mPackageUseInfoMap) {
             PackageUseInfo useInfo = mPackageUseInfoMap.get(packageName);
             // The useInfo contains a map for secondary dex files which could be modified
             // concurrently after this method returns and thus outside the locking we do here.
             // (i.e. the map is updated when new class loaders are created, which can happen anytime
             // after this method returns)
             // Make a defensive copy to be sure we don't get concurrent modifications.
             return useInfo == null ? null : new PackageUseInfo(useInfo);
         }
     }

     /**
      * Return all packages that contain records of secondary dex files.
      */
     public Set<String> getAllPackagesWithSecondaryDexFiles() {
         Set<String> packages = new HashSet<>();
         synchronized (mPackageUseInfoMap) {
             for (Map.Entry<String, PackageUseInfo> entry : mPackageUseInfoMap.entrySet()) {
                 if (!entry.getValue().mDexUseInfoMap.isEmpty()) {
                     packages.add(entry.getKey());
                 }
             }
         }
         return packages;
     }

     public void clear() {
         synchronized (mPackageUseInfoMap) {
             mPackageUseInfoMap.clear();
         }
     }
     // Creates a deep copy of the class' mPackageUseInfoMap.
     private Map<String, PackageUseInfo> clonePackageUseInfoMap() {
         Map<String, PackageUseInfo> clone = new HashMap<>();
         synchronized (mPackageUseInfoMap) {
             for (Map.Entry<String, PackageUseInfo> e : mPackageUseInfoMap.entrySet()) {
                 clone.put(e.getKey(), new PackageUseInfo(e.getValue()));
             }
         }
         return clone;
     }

     private String writeBoolean(boolean bool) {
         return bool ? "1" : "0";
     }

     private boolean readBoolean(String bool) {
         if ("0".equals(bool)) return false;
         if ("1".equals(bool)) return true;
         throw new IllegalArgumentException("Unknown bool encoding: " + bool);
     }

     private boolean contains(int[] array, int elem) {
         for (int i = 0; i < array.length; i++) {
             if (elem == array[i]) {
                 return true;
             }
         }
         return false;
     }

     public String dump() {
         StringWriter sw = new StringWriter();
         write(sw);
         return sw.toString();
     }

     /**
      * Stores data on how a package and its dex files are used.
      */
     public static class PackageUseInfo {
         // This flag is for the primary and split apks. It is set to true whenever one of them
         // is loaded by another app.
         private boolean mIsUsedByOtherApps;
         // Map dex paths to their data (isUsedByOtherApps, owner id, loader isa).
         private final Map<String, DexUseInfo> mDexUseInfoMap;

         public PackageUseInfo() {
             mIsUsedByOtherApps = false;
             mDexUseInfoMap = new HashMap<>();
         }

         // Creates a deep copy of the `other`.
         public PackageUseInfo(PackageUseInfo other) {
             mIsUsedByOtherApps = other.mIsUsedByOtherApps;
             mDexUseInfoMap = new HashMap<>();
             for (Map.Entry<String, DexUseInfo> e : other.mDexUseInfoMap.entrySet()) {
                 mDexUseInfoMap.put(e.getKey(), new DexUseInfo(e.getValue()));
             }
         }

         private boolean merge(boolean isUsedByOtherApps) {
             boolean oldIsUsedByOtherApps = mIsUsedByOtherApps;
             mIsUsedByOtherApps = mIsUsedByOtherApps || isUsedByOtherApps;
             return oldIsUsedByOtherApps != this.mIsUsedByOtherApps;
         }

         public boolean isUsedByOtherApps() {
             return mIsUsedByOtherApps;
         }

         public Map<String, DexUseInfo> getDexUseInfoMap() {
             return mDexUseInfoMap;
         }
     }

     /**
      * Stores data about a loaded dex files.
      */
     public static class DexUseInfo {
         private boolean mIsUsedByOtherApps;
         private final int mOwnerUserId;
         private final Set<String> mLoaderIsas;

         public DexUseInfo(boolean isUsedByOtherApps, int ownerUserId) {
             this(isUsedByOtherApps, ownerUserId, null);
         }

         public DexUseInfo(boolean isUsedByOtherApps, int ownerUserId, String loaderIsa) {
             mIsUsedByOtherApps = isUsedByOtherApps;
             mOwnerUserId = ownerUserId;
             mLoaderIsas = new HashSet<>();
             if (loaderIsa != null) {
                 mLoaderIsas.add(loaderIsa);
             }
         }

         // Creates a deep copy of the `other`.
         public DexUseInfo(DexUseInfo other) {
             mIsUsedByOtherApps = other.mIsUsedByOtherApps;
             mOwnerUserId = other.mOwnerUserId;
             mLoaderIsas = new HashSet<>(other.mLoaderIsas);
         }

         private boolean merge(DexUseInfo dexUseInfo) {
             boolean oldIsUsedByOtherApps = mIsUsedByOtherApps;
             mIsUsedByOtherApps = mIsUsedByOtherApps || dexUseInfo.mIsUsedByOtherApps;
             boolean updateIsas = mLoaderIsas.addAll(dexUseInfo.mLoaderIsas);
             return updateIsas || (oldIsUsedByOtherApps != mIsUsedByOtherApps);
         }

         public boolean isUsedByOtherApps() {
             return mIsUsedByOtherApps;
         }

         public int getOwnerUserId() {
             return mOwnerUserId;
         }

         public Set<String> getLoaderIsas() {
             return mLoaderIsas;
         }
     }
 }
	/*
	* Copyright (C) 2016 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.dex;

	import android.util.AtomicFile;
	import android.util.Slog;
	import android.os.Build;

	import com.android.internal.annotations.GuardedBy;
	import com.android.internal.util.FastPrintWriter;
	import com.android.server.pm.AbstractStatsBase;
	import com.android.server.pm.PackageManagerServiceUtils;

	import java.io.BufferedReader;
	import java.io.File;
	import java.io.FileNotFoundException;
	import java.io.FileOutputStream;
	import java.io.InputStreamReader;
	import java.io.IOException;
	import java.io.OutputStreamWriter;
	import java.io.Reader;
	import java.io.StringWriter;
	import java.io.Writer;
	import java.util.Iterator;
	import java.util.HashMap;
	import java.util.HashSet;
	import java.util.Map;
	import java.util.Set;

	import dalvik.system.VMRuntime;
	import libcore.io.IoUtils;

	/**
	* Stat file which store usage information about dex files.
	*/
	public class PackageDexUsage extends AbstractStatsBase<Void> {
	private final static String TAG = "PackageDexUsage";

	private final static int PACKAGE_DEX_USAGE_VERSION = 1;
	private final static String PACKAGE_DEX_USAGE_VERSION_HEADER =
	"PACKAGE_MANAGER__PACKAGE_DEX_USAGE__";

	private final static String SPLIT_CHAR = ",";
	private final static String DEX_LINE_CHAR = "#";

	// Map which structures the information we have on a package.
	// Maps package name to package data (which stores info about UsedByOtherApps and
	// secondary dex files.).
	// Access to this map needs synchronized.
	@GuardedBy("mPackageUseInfoMap")
	private Map<String, PackageUseInfo> mPackageUseInfoMap;

	public PackageDexUsage() {
	super("package-dex-usage.list", "PackageDexUsage_DiskWriter", /lock/ false);
	mPackageUseInfoMap = new HashMap<>();
	}

	/**
	* Record a dex file load.
	*
	* Note this is called when apps load dex files and as such it should return
	* as fast as possible.
	*
	* @param loadingPackage the package performing the load
	* @param dexPath the path of the dex files being loaded
	* @param ownerUserId the user id which runs the code loading the dex files
	* @param loaderIsa the ISA of the app loading the dex files
	* @param isUsedByOtherApps whether or not this dex file was not loaded by its owning package
	* @param primaryOrSplit whether or not the dex file is a primary/split dex. True indicates
	* the file is either primary or a split. False indicates the file is secondary dex.
	* @return true if the dex load constitutes new information, or false if this information
	* has been seen before.
	*/
	public boolean record(String owningPackageName, String dexPath, int ownerUserId,
	String loaderIsa, boolean isUsedByOtherApps, boolean primaryOrSplit) {
	if (!PackageManagerServiceUtils.checkISA(loaderIsa)) {
	throw new IllegalArgumentException("loaderIsa " + loaderIsa + " is unsupported");
	}
	synchronized (mPackageUseInfoMap) {
	PackageUseInfo packageUseInfo = mPackageUseInfoMap.get(owningPackageName);
	if (packageUseInfo == null) {
	// This is the first time we see the package.
	packageUseInfo = new PackageUseInfo();
	if (primaryOrSplit) {
	// If we have a primary or a split apk, set isUsedByOtherApps.
	// We do not need to record the loaderIsa or the owner because we compile
	// primaries for all users and all ISAs.
	packageUseInfo.mIsUsedByOtherApps = isUsedByOtherApps;
	} else {
	// For secondary dex files record the loaderISA and the owner. We'll need
	// to know under which user to compile and for what ISA.
	packageUseInfo.mDexUseInfoMap.put(
	dexPath, new DexUseInfo(isUsedByOtherApps, ownerUserId, loaderIsa));
	}
	mPackageUseInfoMap.put(owningPackageName, packageUseInfo);
	return true;
	} else {
	// We already have data on this package. Amend it.
	if (primaryOrSplit) {
	// We have a possible update on the primary apk usage. Merge
	// isUsedByOtherApps information and return if there was an update.
	return packageUseInfo.merge(isUsedByOtherApps);
	} else {
	DexUseInfo newData = new DexUseInfo(
	isUsedByOtherApps, ownerUserId, loaderIsa);
	DexUseInfo existingData = packageUseInfo.mDexUseInfoMap.get(dexPath);
	if (existingData == null) {
	// It's the first time we see this dex file.
	packageUseInfo.mDexUseInfoMap.put(dexPath, newData);
	return true;
	} else {
	if (ownerUserId != existingData.mOwnerUserId) {
	// Oups, this should never happen, the DexManager who calls this should
	// do the proper checks and not call record if the user does not own the
	// dex path.
	// Secondary dex files are stored in the app user directory. A change in
	// owningUser for the same path means that something went wrong at some
	// higher level, and the loaderUser was allowed to cross
	// user-boundaries and access data from what we know to be the owner
	// user.
	throw new IllegalArgumentException("Trying to change ownerUserId for "
	+ " dex path " + dexPath + " from " + existingData.mOwnerUserId
	+ " to " + ownerUserId);
	}
	// Merge the information into the existing data.
	// Returns true if there was an update.
	return existingData.merge(newData);
	}
	}
	}
	}
	}

	/**
	* Convenience method for sync reads which does not force the user to pass a useless
	* (Void) null.
	*/
	public void read() {
	read((Void) null);
	}

	/**
	* Convenience method for async writes which does not force the user to pass a useless
	* (Void) null.
	*/
	public void maybeWriteAsync() {
	maybeWriteAsync((Void) null);
	}

	@Override
	protected void writeInternal(Void data) {
	AtomicFile file = getFile();
	FileOutputStream f = null;

	try {
	f = file.startWrite();
	OutputStreamWriter osw = new OutputStreamWriter(f);
	write(osw);
	osw.flush();
	file.finishWrite(f);
	} catch (IOException e) {
	if (f != null) {
	file.failWrite(f);
	}
	Slog.e(TAG, "Failed to write usage for dex files", e);
	}
	}

	/**
	* File format:
	*
	* file_magic_version
	* package_name_1
	* #dex_file_path_1_1
	* user_1_1, used_by_other_app_1_1, user_isa_1_1_1, user_isa_1_1_2
	* #dex_file_path_1_2
	* user_1_2, used_by_other_app_1_2, user_isa_1_2_1, user_isa_1_2_2
	* ...
	* package_name_2
	* #dex_file_path_2_1
	* user_2_1, used_by_other_app_2_1, user_isa_2_1_1, user_isa_2_1_2
	* #dex_file_path_2_2,
	* user_2_2, used_by_other_app_2_2, user_isa_2_2_1, user_isa_2_2_2
	* ...
	*/
	/* package */ void write(Writer out) {
	// Make a clone to avoid locking while writing to disk.
	Map<String, PackageUseInfo> packageUseInfoMapClone = clonePackageUseInfoMap();

	FastPrintWriter fpw = new FastPrintWriter(out);

	// Write the header.
	fpw.print(PACKAGE_DEX_USAGE_VERSION_HEADER);
	fpw.println(PACKAGE_DEX_USAGE_VERSION);

	for (Map.Entry<String, PackageUseInfo> pEntry : packageUseInfoMapClone.entrySet()) {
	// Write the package line.
	String packageName = pEntry.getKey();
	PackageUseInfo packageUseInfo = pEntry.getValue();

	fpw.println(String.join(SPLIT_CHAR, packageName,
	writeBoolean(packageUseInfo.mIsUsedByOtherApps)));

	// Write dex file lines.
	for (Map.Entry<String, DexUseInfo> dEntry : packageUseInfo.mDexUseInfoMap.entrySet()) {
	String dexPath = dEntry.getKey();
	DexUseInfo dexUseInfo = dEntry.getValue();
	fpw.println(DEX_LINE_CHAR + dexPath);
	fpw.print(String.join(SPLIT_CHAR, Integer.toString(dexUseInfo.mOwnerUserId),
	writeBoolean(dexUseInfo.mIsUsedByOtherApps)));
	for (String isa : dexUseInfo.mLoaderIsas) {
	fpw.print(SPLIT_CHAR + isa);
	}
	fpw.println();
	}
	}
	fpw.flush();
	}

	@Override
	protected void readInternal(Void data) {
	AtomicFile file = getFile();
	BufferedReader in = null;
	try {
	in = new BufferedReader(new InputStreamReader(file.openRead()));
	read(in);
	} catch (FileNotFoundException expected) {
	// The file may not be there. E.g. When we first take the OTA with this feature.
	} catch (IOException e) {
	Slog.w(TAG, "Failed to parse package dex usage.", e);
	} finally {
	IoUtils.closeQuietly(in);
	}
	}

	/* package */ void read(Reader reader) throws IOException {
	Map<String, PackageUseInfo> data = new HashMap<>();
	BufferedReader in = new BufferedReader(reader);
	// Read header, do version check.
	String versionLine = in.readLine();
	if (versionLine == null) {
	throw new IllegalStateException("No version line found.");
	} else {
	if (!versionLine.startsWith(PACKAGE_DEX_USAGE_VERSION_HEADER)) {
	// TODO(calin): the caller is responsible to clear the file.
	throw new IllegalStateException("Invalid version line: " + versionLine);
	}
	int version = Integer.parseInt(
	versionLine.substring(PACKAGE_DEX_USAGE_VERSION_HEADER.length()));
	if (version != PACKAGE_DEX_USAGE_VERSION) {
	throw new IllegalStateException("Unexpected version: " + version);
	}
	}

	String s = null;
	String currentPakage = null;
	PackageUseInfo currentPakageData = null;

	Set<String> supportedIsas = new HashSet<>();
	for (String abi : Build.SUPPORTED_ABIS) {
	supportedIsas.add(VMRuntime.getInstructionSet(abi));
	}
	while ((s = in.readLine()) != null) {
	if (s.startsWith(DEX_LINE_CHAR)) {
	// This is the start of the the dex lines.
	// We expect two lines for each dex entry:
	// #dexPaths
	// onwerUserId,isUsedByOtherApps,isa1,isa2
	if (currentPakage == null) {
	throw new IllegalStateException(
	"Malformed PackageDexUsage file. Expected package line before dex line.");
	}

	// First line is the dex path.
	String dexPath = s.substring(DEX_LINE_CHAR.length());
	// Next line is the dex data.
	s = in.readLine();
	if (s == null) {
	throw new IllegalStateException("Could not fine dexUseInfo for line: " + s);
	}

	// We expect at least 3 elements (isUsedByOtherApps, userId, isa).
	String[] elems = s.split(SPLIT_CHAR);
	if (elems.length < 3) {
	throw new IllegalStateException("Invalid PackageDexUsage line: " + s);
	}
	int ownerUserId = Integer.parseInt(elems[0]);
	boolean isUsedByOtherApps = readBoolean(elems[1]);
	DexUseInfo dexUseInfo = new DexUseInfo(isUsedByOtherApps, ownerUserId);
	for (int i = 2; i < elems.length; i++) {
	String isa = elems[i];
	if (supportedIsas.contains(isa)) {
	dexUseInfo.mLoaderIsas.add(elems[i]);
	} else {
	// Should never happen unless someone crafts the file manually.
	// In theory it could if we drop a supported ISA after an OTA but we don't
	// do that.
	Slog.wtf(TAG, "Unsupported ISA when parsing PackageDexUsage: " + isa);
	}
	}
	if (supportedIsas.isEmpty()) {
	Slog.wtf(TAG, "Ignore dexPath when parsing PackageDexUsage because of " +
	"unsupported isas. dexPath=" + dexPath);
	continue;
	}
	currentPakageData.mDexUseInfoMap.put(dexPath, dexUseInfo);
	} else {
	// This is a package line.
	// We expect it to be: `packageName,isUsedByOtherApps`.
	String[] elems = s.split(SPLIT_CHAR);
	if (elems.length != 2) {
	throw new IllegalStateException("Invalid PackageDexUsage line: " + s);
	}
	currentPakage = elems[0];
	currentPakageData = new PackageUseInfo();
	currentPakageData.mIsUsedByOtherApps = readBoolean(elems[1]);
	data.put(currentPakage, currentPakageData);
	}
	}

	synchronized (mPackageUseInfoMap) {
	mPackageUseInfoMap.clear();
	mPackageUseInfoMap.putAll(data);
	}
	}

	/**
	* Syncs the existing data with the set of available packages by removing obsolete entries.
	*/
	public void syncData(Map<String, Set<Integer>> packageToUsersMap) {
	synchronized (mPackageUseInfoMap) {
	Iterator<Map.Entry<String, PackageUseInfo>> pIt =
	mPackageUseInfoMap.entrySet().iterator();
	while (pIt.hasNext()) {
	Map.Entry<String, PackageUseInfo> pEntry = pIt.next();
	String packageName = pEntry.getKey();
	PackageUseInfo packageUseInfo = pEntry.getValue();
	Set<Integer> users = packageToUsersMap.get(packageName);
	if (users == null) {
	// The package doesn't exist anymore, remove the record.
	pIt.remove();
	} else {
	// The package exists but we can prune the entries associated with non existing
	// users.
	Iterator<Map.Entry<String, DexUseInfo>> dIt =
	packageUseInfo.mDexUseInfoMap.entrySet().iterator();
	while (dIt.hasNext()) {
	DexUseInfo dexUseInfo = dIt.next().getValue();
	if (!users.contains(dexUseInfo.mOwnerUserId)) {
	// User was probably removed. Delete its dex usage info.
	dIt.remove();
	}
	}
	if (!packageUseInfo.mIsUsedByOtherApps
	&& packageUseInfo.mDexUseInfoMap.isEmpty()) {
	// The package is not used by other apps and we removed all its dex files
	// records. Remove the entire package record as well.
	pIt.remove();
	}
	}
	}
	}
	}

	/**
	* Remove all the records about package {@code packageName} belonging to user {@code userId}.
	* @return true if the record was found and actually deleted,
	* false if the record doesn't exist
	*/
	public boolean removeUserPackage(String packageName, int userId) {
	synchronized (mPackageUseInfoMap) {
	PackageUseInfo packageUseInfo = mPackageUseInfoMap.get(packageName);
	if (packageUseInfo == null) {
	return false;
	}
	boolean updated = false;
	Iterator<Map.Entry<String, DexUseInfo>> dIt =
	packageUseInfo.mDexUseInfoMap.entrySet().iterator();
	while (dIt.hasNext()) {
	DexUseInfo dexUseInfo = dIt.next().getValue();
	if (dexUseInfo.mOwnerUserId == userId) {
	dIt.remove();
	updated = true;
	}
	}
	return updated;
	}
	}

	/**
	* Remove the secondary dex file record belonging to the package {@code packageName}
	* and user {@code userId}.
	* @return true if the record was found and actually deleted,
	* false if the record doesn't exist
	*/
	public boolean removeDexFile(String packageName, String dexFile, int userId) {
	synchronized (mPackageUseInfoMap) {
	PackageUseInfo packageUseInfo = mPackageUseInfoMap.get(packageName);
	if (packageUseInfo == null) {
	return false;
	}
	return removeDexFile(packageUseInfo, dexFile, userId);
	}
	}

	private boolean removeDexFile(PackageUseInfo packageUseInfo, String dexFile, int userId) {
	DexUseInfo dexUseInfo = packageUseInfo.mDexUseInfoMap.get(dexFile);
	if (dexUseInfo == null) {
	return false;
	}
	if (dexUseInfo.mOwnerUserId == userId) {
	packageUseInfo.mDexUseInfoMap.remove(dexFile);
	return true;
	}
	return false;
	}

	public PackageUseInfo getPackageUseInfo(String packageName) {
	synchronized (mPackageUseInfoMap) {
	PackageUseInfo useInfo = mPackageUseInfoMap.get(packageName);
	// The useInfo contains a map for secondary dex files which could be modified
	// concurrently after this method returns and thus outside the locking we do here.
	// (i.e. the map is updated when new class loaders are created, which can happen anytime
	// after this method returns)
	// Make a defensive copy to be sure we don't get concurrent modifications.
	return useInfo == null ? null : new PackageUseInfo(useInfo);
	}
	}

	/**
	* Return all packages that contain records of secondary dex files.
	*/
	public Set<String> getAllPackagesWithSecondaryDexFiles() {
	Set<String> packages = new HashSet<>();
	synchronized (mPackageUseInfoMap) {
	for (Map.Entry<String, PackageUseInfo> entry : mPackageUseInfoMap.entrySet()) {
	if (!entry.getValue().mDexUseInfoMap.isEmpty()) {
	packages.add(entry.getKey());
	}
	}
	}
	return packages;
	}

	public void clear() {
	synchronized (mPackageUseInfoMap) {
	mPackageUseInfoMap.clear();
	}
	}
	// Creates a deep copy of the class' mPackageUseInfoMap.
	private Map<String, PackageUseInfo> clonePackageUseInfoMap() {
	Map<String, PackageUseInfo> clone = new HashMap<>();
	synchronized (mPackageUseInfoMap) {
	for (Map.Entry<String, PackageUseInfo> e : mPackageUseInfoMap.entrySet()) {
	clone.put(e.getKey(), new PackageUseInfo(e.getValue()));
	}
	}
	return clone;
	}

	private String writeBoolean(boolean bool) {
	return bool ? "1" : "0";
	}

	private boolean readBoolean(String bool) {
	if ("0".equals(bool)) return false;
	if ("1".equals(bool)) return true;
	throw new IllegalArgumentException("Unknown bool encoding: " + bool);
	}

	private boolean contains(int[] array, int elem) {
	for (int i = 0; i < array.length; i++) {
	if (elem == array[i]) {
	return true;
	}
	}
	return false;
	}

	public String dump() {
	StringWriter sw = new StringWriter();
	write(sw);
	return sw.toString();
	}

	/**
	* Stores data on how a package and its dex files are used.
	*/
	public static class PackageUseInfo {
	// This flag is for the primary and split apks. It is set to true whenever one of them
	// is loaded by another app.
	private boolean mIsUsedByOtherApps;
	// Map dex paths to their data (isUsedByOtherApps, owner id, loader isa).
	private final Map<String, DexUseInfo> mDexUseInfoMap;

	public PackageUseInfo() {
	mIsUsedByOtherApps = false;
	mDexUseInfoMap = new HashMap<>();
	}

	// Creates a deep copy of the `other`.
	public PackageUseInfo(PackageUseInfo other) {
	mIsUsedByOtherApps = other.mIsUsedByOtherApps;
	mDexUseInfoMap = new HashMap<>();
	for (Map.Entry<String, DexUseInfo> e : other.mDexUseInfoMap.entrySet()) {
	mDexUseInfoMap.put(e.getKey(), new DexUseInfo(e.getValue()));
	}
	}

	private boolean merge(boolean isUsedByOtherApps) {
	boolean oldIsUsedByOtherApps = mIsUsedByOtherApps;
	mIsUsedByOtherApps = mIsUsedByOtherApps \|\| isUsedByOtherApps;
	return oldIsUsedByOtherApps != this.mIsUsedByOtherApps;
	}

	public boolean isUsedByOtherApps() {
	return mIsUsedByOtherApps;
	}

	public Map<String, DexUseInfo> getDexUseInfoMap() {
	return mDexUseInfoMap;
	}
	}

	/**
	* Stores data about a loaded dex files.
	*/
	public static class DexUseInfo {
	private boolean mIsUsedByOtherApps;
	private final int mOwnerUserId;
	private final Set<String> mLoaderIsas;

	public DexUseInfo(boolean isUsedByOtherApps, int ownerUserId) {
	this(isUsedByOtherApps, ownerUserId, null);
	}

	public DexUseInfo(boolean isUsedByOtherApps, int ownerUserId, String loaderIsa) {
	mIsUsedByOtherApps = isUsedByOtherApps;
	mOwnerUserId = ownerUserId;
	mLoaderIsas = new HashSet<>();
	if (loaderIsa != null) {
	mLoaderIsas.add(loaderIsa);
	}
	}

	// Creates a deep copy of the `other`.
	public DexUseInfo(DexUseInfo other) {
	mIsUsedByOtherApps = other.mIsUsedByOtherApps;
	mOwnerUserId = other.mOwnerUserId;
	mLoaderIsas = new HashSet<>(other.mLoaderIsas);
	}

	private boolean merge(DexUseInfo dexUseInfo) {
	boolean oldIsUsedByOtherApps = mIsUsedByOtherApps;
	mIsUsedByOtherApps = mIsUsedByOtherApps \|\| dexUseInfo.mIsUsedByOtherApps;
	boolean updateIsas = mLoaderIsas.addAll(dexUseInfo.mLoaderIsas);
	return updateIsas \|\| (oldIsUsedByOtherApps != mIsUsedByOtherApps);
	}

	public boolean isUsedByOtherApps() {
	return mIsUsedByOtherApps;
	}

	public int getOwnerUserId() {
	return mOwnerUserId;
	}

	public Set<String> getLoaderIsas() {
	return mLoaderIsas;
	}
	}
	}