Rabbit-R1/android (non root)/java/sources/androidx/profileinstaller/ProfileTranscoder.java
2024-05-21 17:08:36 -04:00

657 lines
30 KiB
Java

package androidx.profileinstaller;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.BitSet;
import java.util.Iterator;
import java.util.Map;
import java.util.TreeMap;
/* JADX INFO: Access modifiers changed from: package-private */
/* loaded from: classes2.dex */
public class ProfileTranscoder {
private static final int HOT = 1;
private static final int INLINE_CACHE_MEGAMORPHIC_ENCODING = 7;
private static final int INLINE_CACHE_MISSING_TYPES_ENCODING = 6;
static final byte[] MAGIC_PROF = {112, 114, 111, 0};
static final byte[] MAGIC_PROFM = {112, 114, 109, 0};
private static final int POST_STARTUP = 4;
private static final int STARTUP = 2;
private static int roundUpToByte(int i) {
return (i + 7) & (-8);
}
private ProfileTranscoder() {
}
/* JADX INFO: Access modifiers changed from: package-private */
public static byte[] readHeader(InputStream inputStream, byte[] bArr) throws IOException {
if (!Arrays.equals(bArr, Encoding.read(inputStream, bArr.length))) {
throw Encoding.error("Invalid magic");
}
return Encoding.read(inputStream, ProfileVersion.V010_P.length);
}
/* JADX INFO: Access modifiers changed from: package-private */
public static void writeHeader(OutputStream outputStream, byte[] bArr) throws IOException {
outputStream.write(MAGIC_PROF);
outputStream.write(bArr);
}
/* JADX INFO: Access modifiers changed from: package-private */
public static boolean transcodeAndWriteBody(OutputStream outputStream, byte[] bArr, DexProfileData[] dexProfileDataArr) throws IOException {
if (Arrays.equals(bArr, ProfileVersion.V015_S)) {
writeProfileForS(outputStream, dexProfileDataArr);
return true;
}
if (Arrays.equals(bArr, ProfileVersion.V010_P)) {
writeProfileForP(outputStream, dexProfileDataArr);
return true;
}
if (Arrays.equals(bArr, ProfileVersion.V005_O)) {
writeProfileForO(outputStream, dexProfileDataArr);
return true;
}
if (Arrays.equals(bArr, ProfileVersion.V009_O_MR1)) {
writeProfileForO_MR1(outputStream, dexProfileDataArr);
return true;
}
if (!Arrays.equals(bArr, ProfileVersion.V001_N)) {
return false;
}
writeProfileForN(outputStream, dexProfileDataArr);
return true;
}
private static void writeProfileForN(OutputStream outputStream, DexProfileData[] dexProfileDataArr) throws IOException {
Encoding.writeUInt16(outputStream, dexProfileDataArr.length);
for (DexProfileData dexProfileData : dexProfileDataArr) {
String generateDexKey = generateDexKey(dexProfileData.apkName, dexProfileData.dexName, ProfileVersion.V001_N);
Encoding.writeUInt16(outputStream, Encoding.utf8Length(generateDexKey));
Encoding.writeUInt16(outputStream, dexProfileData.methods.size());
Encoding.writeUInt16(outputStream, dexProfileData.classes.length);
Encoding.writeUInt32(outputStream, dexProfileData.dexChecksum);
Encoding.writeString(outputStream, generateDexKey);
Iterator<Integer> it = dexProfileData.methods.keySet().iterator();
while (it.hasNext()) {
Encoding.writeUInt16(outputStream, it.next().intValue());
}
for (int i : dexProfileData.classes) {
Encoding.writeUInt16(outputStream, i);
}
}
}
private static void writeProfileForS(OutputStream outputStream, DexProfileData[] dexProfileDataArr) throws IOException {
writeProfileSections(outputStream, dexProfileDataArr);
}
private static void writeProfileSections(OutputStream outputStream, DexProfileData[] dexProfileDataArr) throws IOException {
int length;
ArrayList arrayList = new ArrayList(3);
ArrayList arrayList2 = new ArrayList(3);
arrayList.add(writeDexFileSection(dexProfileDataArr));
arrayList.add(createCompressibleClassSection(dexProfileDataArr));
arrayList.add(createCompressibleMethodsSection(dexProfileDataArr));
long length2 = ProfileVersion.V015_S.length + MAGIC_PROF.length + 4 + (arrayList.size() * 16);
Encoding.writeUInt32(outputStream, arrayList.size());
for (int i = 0; i < arrayList.size(); i++) {
WritableFileSection writableFileSection = (WritableFileSection) arrayList.get(i);
Encoding.writeUInt32(outputStream, writableFileSection.mType.getValue());
Encoding.writeUInt32(outputStream, length2);
if (writableFileSection.mNeedsCompression) {
long length3 = writableFileSection.mContents.length;
byte[] compress = Encoding.compress(writableFileSection.mContents);
arrayList2.add(compress);
Encoding.writeUInt32(outputStream, compress.length);
Encoding.writeUInt32(outputStream, length3);
length = compress.length;
} else {
arrayList2.add(writableFileSection.mContents);
Encoding.writeUInt32(outputStream, writableFileSection.mContents.length);
Encoding.writeUInt32(outputStream, 0L);
length = writableFileSection.mContents.length;
}
length2 += length;
}
for (int i2 = 0; i2 < arrayList2.size(); i2++) {
outputStream.write((byte[]) arrayList2.get(i2));
}
}
private static WritableFileSection writeDexFileSection(DexProfileData[] dexProfileDataArr) throws IOException {
ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream();
try {
Encoding.writeUInt16(byteArrayOutputStream, dexProfileDataArr.length);
int i = 2;
for (DexProfileData dexProfileData : dexProfileDataArr) {
Encoding.writeUInt32(byteArrayOutputStream, dexProfileData.dexChecksum);
Encoding.writeUInt32(byteArrayOutputStream, dexProfileData.mTypeIdCount);
Encoding.writeUInt32(byteArrayOutputStream, dexProfileData.numMethodIds);
String generateDexKey = generateDexKey(dexProfileData.apkName, dexProfileData.dexName, ProfileVersion.V015_S);
int utf8Length = Encoding.utf8Length(generateDexKey);
Encoding.writeUInt16(byteArrayOutputStream, utf8Length);
i = i + 14 + utf8Length;
Encoding.writeString(byteArrayOutputStream, generateDexKey);
}
byte[] byteArray = byteArrayOutputStream.toByteArray();
if (i != byteArray.length) {
throw Encoding.error("Expected size " + i + ", does not match actual size " + byteArray.length);
}
WritableFileSection writableFileSection = new WritableFileSection(FileSectionType.DEX_FILES, i, byteArray, false);
byteArrayOutputStream.close();
return writableFileSection;
} catch (Throwable th) {
try {
byteArrayOutputStream.close();
} catch (Throwable th2) {
th.addSuppressed(th2);
}
throw th;
}
}
private static WritableFileSection createCompressibleClassSection(DexProfileData[] dexProfileDataArr) throws IOException {
ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream();
int i = 0;
for (int i2 = 0; i2 < dexProfileDataArr.length; i2++) {
try {
DexProfileData dexProfileData = dexProfileDataArr[i2];
Encoding.writeUInt16(byteArrayOutputStream, i2);
Encoding.writeUInt16(byteArrayOutputStream, dexProfileData.classSetSize);
i = i + 4 + (dexProfileData.classSetSize * 2);
writeClasses(byteArrayOutputStream, dexProfileData);
} catch (Throwable th) {
try {
byteArrayOutputStream.close();
} catch (Throwable th2) {
th.addSuppressed(th2);
}
throw th;
}
}
byte[] byteArray = byteArrayOutputStream.toByteArray();
if (i != byteArray.length) {
throw Encoding.error("Expected size " + i + ", does not match actual size " + byteArray.length);
}
WritableFileSection writableFileSection = new WritableFileSection(FileSectionType.CLASSES, i, byteArray, true);
byteArrayOutputStream.close();
return writableFileSection;
}
private static WritableFileSection createCompressibleMethodsSection(DexProfileData[] dexProfileDataArr) throws IOException {
ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream();
int i = 0;
for (int i2 = 0; i2 < dexProfileDataArr.length; i2++) {
try {
DexProfileData dexProfileData = dexProfileDataArr[i2];
int computeMethodFlags = computeMethodFlags(dexProfileData);
byte[] createMethodBitmapRegion = createMethodBitmapRegion(dexProfileData);
byte[] createMethodsWithInlineCaches = createMethodsWithInlineCaches(dexProfileData);
Encoding.writeUInt16(byteArrayOutputStream, i2);
int length = createMethodBitmapRegion.length + 2 + createMethodsWithInlineCaches.length;
Encoding.writeUInt32(byteArrayOutputStream, length);
Encoding.writeUInt16(byteArrayOutputStream, computeMethodFlags);
byteArrayOutputStream.write(createMethodBitmapRegion);
byteArrayOutputStream.write(createMethodsWithInlineCaches);
i = i + 6 + length;
} catch (Throwable th) {
try {
byteArrayOutputStream.close();
} catch (Throwable th2) {
th.addSuppressed(th2);
}
throw th;
}
}
byte[] byteArray = byteArrayOutputStream.toByteArray();
if (i != byteArray.length) {
throw Encoding.error("Expected size " + i + ", does not match actual size " + byteArray.length);
}
WritableFileSection writableFileSection = new WritableFileSection(FileSectionType.METHODS, i, byteArray, true);
byteArrayOutputStream.close();
return writableFileSection;
}
private static byte[] createMethodBitmapRegion(DexProfileData dexProfileData) throws IOException {
ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream();
try {
writeMethodBitmap(byteArrayOutputStream, dexProfileData);
byte[] byteArray = byteArrayOutputStream.toByteArray();
byteArrayOutputStream.close();
return byteArray;
} catch (Throwable th) {
try {
byteArrayOutputStream.close();
} catch (Throwable th2) {
th.addSuppressed(th2);
}
throw th;
}
}
private static byte[] createMethodsWithInlineCaches(DexProfileData dexProfileData) throws IOException {
ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream();
try {
writeMethodsWithInlineCaches(byteArrayOutputStream, dexProfileData);
byte[] byteArray = byteArrayOutputStream.toByteArray();
byteArrayOutputStream.close();
return byteArray;
} catch (Throwable th) {
try {
byteArrayOutputStream.close();
} catch (Throwable th2) {
th.addSuppressed(th2);
}
throw th;
}
}
private static int computeMethodFlags(DexProfileData dexProfileData) {
Iterator<Map.Entry<Integer, Integer>> it = dexProfileData.methods.entrySet().iterator();
int i = 0;
while (it.hasNext()) {
i |= it.next().getValue().intValue();
}
return i;
}
private static void writeProfileForP(OutputStream outputStream, DexProfileData[] dexProfileDataArr) throws IOException {
byte[] createCompressibleBody = createCompressibleBody(dexProfileDataArr, ProfileVersion.V010_P);
Encoding.writeUInt8(outputStream, dexProfileDataArr.length);
Encoding.writeCompressed(outputStream, createCompressibleBody);
}
private static void writeProfileForO_MR1(OutputStream outputStream, DexProfileData[] dexProfileDataArr) throws IOException {
byte[] createCompressibleBody = createCompressibleBody(dexProfileDataArr, ProfileVersion.V009_O_MR1);
Encoding.writeUInt8(outputStream, dexProfileDataArr.length);
Encoding.writeCompressed(outputStream, createCompressibleBody);
}
private static void writeProfileForO(OutputStream outputStream, DexProfileData[] dexProfileDataArr) throws IOException {
Encoding.writeUInt8(outputStream, dexProfileDataArr.length);
for (DexProfileData dexProfileData : dexProfileDataArr) {
int size = dexProfileData.methods.size() * 4;
String generateDexKey = generateDexKey(dexProfileData.apkName, dexProfileData.dexName, ProfileVersion.V005_O);
Encoding.writeUInt16(outputStream, Encoding.utf8Length(generateDexKey));
Encoding.writeUInt16(outputStream, dexProfileData.classes.length);
Encoding.writeUInt32(outputStream, size);
Encoding.writeUInt32(outputStream, dexProfileData.dexChecksum);
Encoding.writeString(outputStream, generateDexKey);
Iterator<Integer> it = dexProfileData.methods.keySet().iterator();
while (it.hasNext()) {
Encoding.writeUInt16(outputStream, it.next().intValue());
Encoding.writeUInt16(outputStream, 0);
}
for (int i : dexProfileData.classes) {
Encoding.writeUInt16(outputStream, i);
}
}
}
private static byte[] createCompressibleBody(DexProfileData[] dexProfileDataArr, byte[] bArr) throws IOException {
int i = 0;
int i2 = 0;
for (DexProfileData dexProfileData : dexProfileDataArr) {
i2 += Encoding.utf8Length(generateDexKey(dexProfileData.apkName, dexProfileData.dexName, bArr)) + 16 + (dexProfileData.classSetSize * 2) + dexProfileData.hotMethodRegionSize + getMethodBitmapStorageSize(dexProfileData.numMethodIds);
}
ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream(i2);
if (Arrays.equals(bArr, ProfileVersion.V009_O_MR1)) {
int length = dexProfileDataArr.length;
while (i < length) {
DexProfileData dexProfileData2 = dexProfileDataArr[i];
writeLineHeader(byteArrayOutputStream, dexProfileData2, generateDexKey(dexProfileData2.apkName, dexProfileData2.dexName, bArr));
writeLineData(byteArrayOutputStream, dexProfileData2);
i++;
}
} else {
for (DexProfileData dexProfileData3 : dexProfileDataArr) {
writeLineHeader(byteArrayOutputStream, dexProfileData3, generateDexKey(dexProfileData3.apkName, dexProfileData3.dexName, bArr));
}
int length2 = dexProfileDataArr.length;
while (i < length2) {
writeLineData(byteArrayOutputStream, dexProfileDataArr[i]);
i++;
}
}
if (byteArrayOutputStream.size() != i2) {
throw Encoding.error("The bytes saved do not match expectation. actual=" + byteArrayOutputStream.size() + " expected=" + i2);
}
return byteArrayOutputStream.toByteArray();
}
private static int getMethodBitmapStorageSize(int i) {
return roundUpToByte(i * 2) / 8;
}
private static void setMethodBitmapBit(byte[] bArr, int i, int i2, DexProfileData dexProfileData) {
int methodFlagBitmapIndex = methodFlagBitmapIndex(i, i2, dexProfileData.numMethodIds);
int i3 = methodFlagBitmapIndex / 8;
bArr[i3] = (byte) ((1 << (methodFlagBitmapIndex % 8)) | bArr[i3]);
}
private static void writeLineHeader(OutputStream outputStream, DexProfileData dexProfileData, String str) throws IOException {
Encoding.writeUInt16(outputStream, Encoding.utf8Length(str));
Encoding.writeUInt16(outputStream, dexProfileData.classSetSize);
Encoding.writeUInt32(outputStream, dexProfileData.hotMethodRegionSize);
Encoding.writeUInt32(outputStream, dexProfileData.dexChecksum);
Encoding.writeUInt32(outputStream, dexProfileData.numMethodIds);
Encoding.writeString(outputStream, str);
}
private static void writeLineData(OutputStream outputStream, DexProfileData dexProfileData) throws IOException {
writeMethodsWithInlineCaches(outputStream, dexProfileData);
writeClasses(outputStream, dexProfileData);
writeMethodBitmap(outputStream, dexProfileData);
}
private static void writeMethodsWithInlineCaches(OutputStream outputStream, DexProfileData dexProfileData) throws IOException {
int i = 0;
for (Map.Entry<Integer, Integer> entry : dexProfileData.methods.entrySet()) {
int intValue = entry.getKey().intValue();
if ((entry.getValue().intValue() & 1) != 0) {
Encoding.writeUInt16(outputStream, intValue - i);
Encoding.writeUInt16(outputStream, 0);
i = intValue;
}
}
}
private static void writeClasses(OutputStream outputStream, DexProfileData dexProfileData) throws IOException {
int i = 0;
for (int i2 : dexProfileData.classes) {
Integer valueOf = Integer.valueOf(i2);
Encoding.writeUInt16(outputStream, valueOf.intValue() - i);
i = valueOf.intValue();
}
}
private static void writeMethodBitmap(OutputStream outputStream, DexProfileData dexProfileData) throws IOException {
byte[] bArr = new byte[getMethodBitmapStorageSize(dexProfileData.numMethodIds)];
for (Map.Entry<Integer, Integer> entry : dexProfileData.methods.entrySet()) {
int intValue = entry.getKey().intValue();
int intValue2 = entry.getValue().intValue();
if ((intValue2 & 2) != 0) {
setMethodBitmapBit(bArr, 2, intValue, dexProfileData);
}
if ((intValue2 & 4) != 0) {
setMethodBitmapBit(bArr, 4, intValue, dexProfileData);
}
}
outputStream.write(bArr);
}
/* JADX INFO: Access modifiers changed from: package-private */
public static DexProfileData[] readProfile(InputStream inputStream, byte[] bArr, String str) throws IOException {
if (!Arrays.equals(bArr, ProfileVersion.V010_P)) {
throw Encoding.error("Unsupported version");
}
int readUInt8 = Encoding.readUInt8(inputStream);
byte[] readCompressed = Encoding.readCompressed(inputStream, (int) Encoding.readUInt32(inputStream), (int) Encoding.readUInt32(inputStream));
if (inputStream.read() > 0) {
throw Encoding.error("Content found after the end of file");
}
ByteArrayInputStream byteArrayInputStream = new ByteArrayInputStream(readCompressed);
try {
DexProfileData[] readUncompressedBody = readUncompressedBody(byteArrayInputStream, str, readUInt8);
byteArrayInputStream.close();
return readUncompressedBody;
} catch (Throwable th) {
try {
byteArrayInputStream.close();
} catch (Throwable th2) {
th.addSuppressed(th2);
}
throw th;
}
}
/* JADX INFO: Access modifiers changed from: package-private */
public static DexProfileData[] readMeta(InputStream inputStream, byte[] bArr, byte[] bArr2, DexProfileData[] dexProfileDataArr) throws IOException {
if (Arrays.equals(bArr, ProfileVersion.METADATA_V001_N)) {
if (Arrays.equals(ProfileVersion.V015_S, bArr2)) {
throw Encoding.error("Requires new Baseline Profile Metadata. Please rebuild the APK with Android Gradle Plugin 7.2 Canary 7 or higher");
}
return readMetadata001(inputStream, bArr, dexProfileDataArr);
}
if (Arrays.equals(bArr, ProfileVersion.METADATA_V002)) {
return readMetadataV002(inputStream, bArr2, dexProfileDataArr);
}
throw Encoding.error("Unsupported meta version");
}
static DexProfileData[] readMetadata001(InputStream inputStream, byte[] bArr, DexProfileData[] dexProfileDataArr) throws IOException {
if (!Arrays.equals(bArr, ProfileVersion.METADATA_V001_N)) {
throw Encoding.error("Unsupported meta version");
}
int readUInt8 = Encoding.readUInt8(inputStream);
byte[] readCompressed = Encoding.readCompressed(inputStream, (int) Encoding.readUInt32(inputStream), (int) Encoding.readUInt32(inputStream));
if (inputStream.read() > 0) {
throw Encoding.error("Content found after the end of file");
}
ByteArrayInputStream byteArrayInputStream = new ByteArrayInputStream(readCompressed);
try {
DexProfileData[] readMetadataForNBody = readMetadataForNBody(byteArrayInputStream, readUInt8, dexProfileDataArr);
byteArrayInputStream.close();
return readMetadataForNBody;
} catch (Throwable th) {
try {
byteArrayInputStream.close();
} catch (Throwable th2) {
th.addSuppressed(th2);
}
throw th;
}
}
static DexProfileData[] readMetadataV002(InputStream inputStream, byte[] bArr, DexProfileData[] dexProfileDataArr) throws IOException {
int readUInt16 = Encoding.readUInt16(inputStream);
byte[] readCompressed = Encoding.readCompressed(inputStream, (int) Encoding.readUInt32(inputStream), (int) Encoding.readUInt32(inputStream));
if (inputStream.read() > 0) {
throw Encoding.error("Content found after the end of file");
}
ByteArrayInputStream byteArrayInputStream = new ByteArrayInputStream(readCompressed);
try {
DexProfileData[] readMetadataV002Body = readMetadataV002Body(byteArrayInputStream, bArr, readUInt16, dexProfileDataArr);
byteArrayInputStream.close();
return readMetadataV002Body;
} catch (Throwable th) {
try {
byteArrayInputStream.close();
} catch (Throwable th2) {
th.addSuppressed(th2);
}
throw th;
}
}
private static DexProfileData[] readMetadataV002Body(InputStream inputStream, byte[] bArr, int i, DexProfileData[] dexProfileDataArr) throws IOException {
if (inputStream.available() == 0) {
return new DexProfileData[0];
}
if (i != dexProfileDataArr.length) {
throw Encoding.error("Mismatched number of dex files found in metadata");
}
for (int i2 = 0; i2 < i; i2++) {
Encoding.readUInt16(inputStream);
String readString = Encoding.readString(inputStream, Encoding.readUInt16(inputStream));
long readUInt32 = Encoding.readUInt32(inputStream);
int readUInt16 = Encoding.readUInt16(inputStream);
DexProfileData findByDexName = findByDexName(dexProfileDataArr, readString);
if (findByDexName == null) {
throw Encoding.error("Missing profile key: " + readString);
}
findByDexName.mTypeIdCount = readUInt32;
int[] readClasses = readClasses(inputStream, readUInt16);
if (Arrays.equals(bArr, ProfileVersion.V001_N)) {
findByDexName.classSetSize = readUInt16;
findByDexName.classes = readClasses;
}
}
return dexProfileDataArr;
}
private static DexProfileData findByDexName(DexProfileData[] dexProfileDataArr, String str) {
if (dexProfileDataArr.length <= 0) {
return null;
}
String extractKey = extractKey(str);
for (int i = 0; i < dexProfileDataArr.length; i++) {
if (dexProfileDataArr[i].dexName.equals(extractKey)) {
return dexProfileDataArr[i];
}
}
return null;
}
private static DexProfileData[] readMetadataForNBody(InputStream inputStream, int i, DexProfileData[] dexProfileDataArr) throws IOException {
if (inputStream.available() == 0) {
return new DexProfileData[0];
}
if (i != dexProfileDataArr.length) {
throw Encoding.error("Mismatched number of dex files found in metadata");
}
String[] strArr = new String[i];
int[] iArr = new int[i];
for (int i2 = 0; i2 < i; i2++) {
int readUInt16 = Encoding.readUInt16(inputStream);
iArr[i2] = Encoding.readUInt16(inputStream);
strArr[i2] = Encoding.readString(inputStream, readUInt16);
}
for (int i3 = 0; i3 < i; i3++) {
DexProfileData dexProfileData = dexProfileDataArr[i3];
if (!dexProfileData.dexName.equals(strArr[i3])) {
throw Encoding.error("Order of dexfiles in metadata did not match baseline");
}
dexProfileData.classSetSize = iArr[i3];
dexProfileData.classes = readClasses(inputStream, dexProfileData.classSetSize);
}
return dexProfileDataArr;
}
private static String generateDexKey(String str, String str2, byte[] bArr) {
String dexKeySeparator = ProfileVersion.dexKeySeparator(bArr);
if (str.length() <= 0) {
return enforceSeparator(str2, dexKeySeparator);
}
if (str2.equals("classes.dex")) {
return str;
}
if (str2.contains("!") || str2.contains(":")) {
return enforceSeparator(str2, dexKeySeparator);
}
return str2.endsWith(".apk") ? str2 : str + ProfileVersion.dexKeySeparator(bArr) + str2;
}
private static String enforceSeparator(String str, String str2) {
if ("!".equals(str2)) {
return str.replace(":", "!");
}
return ":".equals(str2) ? str.replace("!", ":") : str;
}
private static String extractKey(String str) {
int indexOf = str.indexOf("!");
if (indexOf < 0) {
indexOf = str.indexOf(":");
}
return indexOf > 0 ? str.substring(indexOf + 1) : str;
}
private static DexProfileData[] readUncompressedBody(InputStream inputStream, String str, int i) throws IOException {
if (inputStream.available() == 0) {
return new DexProfileData[0];
}
DexProfileData[] dexProfileDataArr = new DexProfileData[i];
for (int i2 = 0; i2 < i; i2++) {
int readUInt16 = Encoding.readUInt16(inputStream);
int readUInt162 = Encoding.readUInt16(inputStream);
dexProfileDataArr[i2] = new DexProfileData(str, Encoding.readString(inputStream, readUInt16), Encoding.readUInt32(inputStream), 0L, readUInt162, (int) Encoding.readUInt32(inputStream), (int) Encoding.readUInt32(inputStream), new int[readUInt162], new TreeMap());
}
for (int i3 = 0; i3 < i; i3++) {
DexProfileData dexProfileData = dexProfileDataArr[i3];
readHotMethodRegion(inputStream, dexProfileData);
dexProfileData.classes = readClasses(inputStream, dexProfileData.classSetSize);
readMethodBitmap(inputStream, dexProfileData);
}
return dexProfileDataArr;
}
private static void readHotMethodRegion(InputStream inputStream, DexProfileData dexProfileData) throws IOException {
int available = inputStream.available() - dexProfileData.hotMethodRegionSize;
int i = 0;
while (inputStream.available() > available) {
i += Encoding.readUInt16(inputStream);
dexProfileData.methods.put(Integer.valueOf(i), 1);
for (int readUInt16 = Encoding.readUInt16(inputStream); readUInt16 > 0; readUInt16--) {
skipInlineCache(inputStream);
}
}
if (inputStream.available() != available) {
throw Encoding.error("Read too much data during profile line parse");
}
}
private static void skipInlineCache(InputStream inputStream) throws IOException {
Encoding.readUInt16(inputStream);
int readUInt8 = Encoding.readUInt8(inputStream);
if (readUInt8 == 6 || readUInt8 == 7) {
return;
}
while (readUInt8 > 0) {
Encoding.readUInt8(inputStream);
for (int readUInt82 = Encoding.readUInt8(inputStream); readUInt82 > 0; readUInt82--) {
Encoding.readUInt16(inputStream);
}
readUInt8--;
}
}
private static int[] readClasses(InputStream inputStream, int i) throws IOException {
int[] iArr = new int[i];
int i2 = 0;
for (int i3 = 0; i3 < i; i3++) {
i2 += Encoding.readUInt16(inputStream);
iArr[i3] = i2;
}
return iArr;
}
private static void readMethodBitmap(InputStream inputStream, DexProfileData dexProfileData) throws IOException {
BitSet valueOf = BitSet.valueOf(Encoding.read(inputStream, Encoding.bitsToBytes(dexProfileData.numMethodIds * 2)));
for (int i = 0; i < dexProfileData.numMethodIds; i++) {
int readFlagsFromBitmap = readFlagsFromBitmap(valueOf, i, dexProfileData.numMethodIds);
if (readFlagsFromBitmap != 0) {
Integer num = dexProfileData.methods.get(Integer.valueOf(i));
if (num == null) {
num = 0;
}
dexProfileData.methods.put(Integer.valueOf(i), Integer.valueOf(readFlagsFromBitmap | num.intValue()));
}
}
}
private static int readFlagsFromBitmap(BitSet bitSet, int i, int i2) {
int i3 = bitSet.get(methodFlagBitmapIndex(2, i, i2)) ? 2 : 0;
return bitSet.get(methodFlagBitmapIndex(4, i, i2)) ? i3 | 4 : i3;
}
private static int methodFlagBitmapIndex(int i, int i2, int i3) {
if (i == 1) {
throw Encoding.error("HOT methods are not stored in the bitmap");
}
if (i == 2) {
return i2;
}
if (i == 4) {
return i2 + i3;
}
throw Encoding.error("Unexpected flag: " + i);
}
}