use of org.jf.dexlib2.immutable.instruction.ImmutableInstruction3rc in project atlas by alibaba.
the class InsTructionsReIClassDef method reInstructions.
@Override
protected Iterable<? extends Instruction> reInstructions(Iterable<? extends Instruction> instructions) {
final List<Instruction> reinstructions = new ArrayList<Instruction>();
for (final Instruction instruction : instructions) {
if (instruction instanceof ReferenceInstruction) {
Opcode opcode = instruction.getOpcode();
if (opcode.referenceType == ReferenceType.METHOD) {
boolean isBasic = false;
MethodReference methodReference = null;
try {
methodReference = (MethodReference) ((ReferenceInstruction) instruction).getReference();
if (methodReference.getDefiningClass().contains("Ljava/lang") || methodReference.getDefiningClass().startsWith("Ljava/util/") || methodReference.getDefiningClass().startsWith("[Ljava/lang")) {
reinstructions.add(ImmutableInstruction.of(instruction));
continue;
}
String returnType = methodReference.getReturnType();
boolean isArray = false;
if (returnType.startsWith("[")) {
isArray = true;
}
String methodName = methodReference.getName();
if (methodName.equals("InitBundleInfoByVersionIfNeed")) {
System.out.println("InitBundleInfoByVersionIfNeed");
}
if (basicType.containsKey(returnType)) {
isBasic = true;
}
List<? extends CharSequence> paramTypes = methodReference.getParameterTypes();
List<CharSequence> dalvikParamTypes = new ArrayList<CharSequence>();
List<CharSequence> newParamTypes = new ArrayList<CharSequence>();
for (CharSequence charSequence : paramTypes) {
if (basicType.containsKey(charSequence.toString())) {
newParamTypes.add(charSequence);
dalvikParamTypes.add(basicType.get(charSequence.toString()));
continue;
}
boolean isArray1 = charSequence.toString().startsWith("[");
dalvikParamTypes.add(DefineUtils.getDalvikClassName(charSequence.toString()) + (isArray ? "[]" : ""));
newParamTypes.add(DefineUtils.getDefineClassName(classProcessor.classProcess(DefineUtils.getDalvikClassName(charSequence.toString())).className, isArray1));
}
final ImmutableMethodReference immutableReference = new ImmutableMethodReference(DefineUtils.getDefineClassName(classProcessor.classProcess(DefineUtils.getDalvikClassName(methodReference.getDefiningClass())).className, false), classProcessor.methodProcess(DefineUtils.getDalvikClassName(methodReference.getDefiningClass()), methodReference.getName(), isBasic ? basicType.get(methodReference.getReturnType()) : DefineUtils.getDalvikClassName(methodReference.getReturnType()) + (isArray ? "[]" : ""), StringUtils.join(dalvikParamTypes.toArray(), ",")).methodName, newParamTypes, isBasic ? returnType : DefineUtils.getDefineClassName(classProcessor.classProcess(DefineUtils.getDalvikClassName(methodReference.getReturnType())).className, methodReference.getReturnType().startsWith("[")));
if (instruction instanceof Instruction3rc) {
reinstructions.add(new ImmutableInstruction3rc(instruction.getOpcode(), ((Instruction3rc) instruction).getStartRegister(), ((Instruction3rc) instruction).getRegisterCount(), immutableReference));
} else if (instruction instanceof Instruction20bc) {
reinstructions.add(new ImmutableInstruction20bc(instruction.getOpcode(), ((Instruction20bc) instruction).getVerificationError(), immutableReference));
} else if (instruction instanceof Instruction21c) {
reinstructions.add(new ImmutableInstruction21c(instruction.getOpcode(), ((Instruction21c) instruction).getRegisterA(), immutableReference));
} else if (instruction instanceof Instruction22c) {
reinstructions.add(new ImmutableInstruction22c(instruction.getOpcode(), ((Instruction22c) instruction).getRegisterA(), ((Instruction22c) instruction).getRegisterB(), immutableReference));
} else if (instruction instanceof Instruction31c) {
reinstructions.add(new ImmutableInstruction31c(instruction.getOpcode(), ((Instruction31c) instruction).getRegisterA(), immutableReference));
} else if (instruction instanceof Instruction35c) {
reinstructions.add(new ImmutableInstruction35c(instruction.getOpcode(), ((Instruction35c) instruction).getRegisterCount(), ((Instruction35c) instruction).getRegisterC(), ((Instruction35c) instruction).getRegisterD(), ((Instruction35c) instruction).getRegisterE(), ((Instruction35c) instruction).getRegisterF(), ((Instruction35c) instruction).getRegisterG(), immutableReference));
}
} catch (Exception e) {
}
} else if (opcode.referenceType == ReferenceType.FIELD) {
FieldReference fieldReference = null;
boolean isBasic = false;
boolean isBasicArray = false;
fieldReference = (FieldReference) ((ReferenceInstruction) instruction).getReference();
if (fieldReference.getDefiningClass().startsWith("Ljava/lang/") || fieldReference.getDefiningClass().startsWith("Ljava/util/") || fieldReference.getDefiningClass().startsWith("[Ljava/lang/")) {
reinstructions.add(ImmutableInstruction.of(instruction));
continue;
}
if (basicType.containsKey(fieldReference.getType())) {
isBasic = true;
}
final ImmutableFieldReference immutableFieldReference = new ImmutableFieldReference(DefineUtils.getDefineClassName(classProcessor.classProcess(DefineUtils.getDalvikClassName(fieldReference.getDefiningClass())).className, false), classProcessor.filedProcess(DefineUtils.getDalvikClassName(fieldReference.getDefiningClass()), isBasic ? basicType.get(fieldReference.getType()) : DefineUtils.getDalvikClassName(fieldReference.getType()), fieldReference.getName()).fieldName, isBasic ? fieldReference.getType() : DefineUtils.getDefineClassName(classProcessor.classProcess(DefineUtils.getDalvikClassName(fieldReference.getType())).className, fieldReference.getType().startsWith("[")));
if (instruction instanceof Instruction3rc) {
reinstructions.add(new ImmutableInstruction3rc(instruction.getOpcode(), ((Instruction3rc) instruction).getStartRegister(), ((Instruction3rc) instruction).getRegisterCount(), immutableFieldReference));
} else if (instruction instanceof Instruction20bc) {
reinstructions.add(new ImmutableInstruction20bc(instruction.getOpcode(), ((Instruction20bc) instruction).getVerificationError(), immutableFieldReference));
} else if (instruction instanceof Instruction21c) {
reinstructions.add(new ImmutableInstruction21c(instruction.getOpcode(), ((Instruction21c) instruction).getRegisterA(), immutableFieldReference));
} else if (instruction instanceof Instruction22c) {
reinstructions.add(new ImmutableInstruction22c(instruction.getOpcode(), ((Instruction22c) instruction).getRegisterA(), ((Instruction22c) instruction).getRegisterB(), immutableFieldReference));
} else if (instruction instanceof Instruction31c) {
reinstructions.add(new ImmutableInstruction31c(instruction.getOpcode(), ((Instruction31c) instruction).getRegisterA(), immutableFieldReference));
} else if (instruction instanceof Instruction35c) {
reinstructions.add(new ImmutableInstruction35c(instruction.getOpcode(), ((Instruction35c) instruction).getRegisterCount(), ((Instruction35c) instruction).getRegisterC(), ((Instruction35c) instruction).getRegisterD(), ((Instruction35c) instruction).getRegisterE(), ((Instruction35c) instruction).getRegisterF(), ((Instruction35c) instruction).getRegisterG(), immutableFieldReference));
}
} else if (opcode.referenceType == ReferenceType.TYPE) {
TypeReference typeReference = (TypeReference) ((ReferenceInstruction) instruction).getReference();
String type = typeReference.getType();
if (!basicType.containsKey(type) && !type.startsWith("Ljava/lang") && !type.startsWith("Ljava/util/") && !type.startsWith("[Ljava/lang")) {
type = DefineUtils.getDefineClassName(classProcessor.classProcess(DefineUtils.getDalvikClassName(type)).className, type.startsWith("["));
}
ImmutableTypeReference immutableTypeReference = new ImmutableTypeReference(type);
if (instruction instanceof Instruction3rc) {
reinstructions.add(new ImmutableInstruction3rc(instruction.getOpcode(), ((Instruction3rc) instruction).getStartRegister(), ((Instruction3rc) instruction).getRegisterCount(), immutableTypeReference));
} else if (instruction instanceof Instruction20bc) {
reinstructions.add(new ImmutableInstruction20bc(instruction.getOpcode(), ((Instruction20bc) instruction).getVerificationError(), immutableTypeReference));
} else if (instruction instanceof Instruction21c) {
reinstructions.add(new ImmutableInstruction21c(instruction.getOpcode(), ((Instruction21c) instruction).getRegisterA(), immutableTypeReference));
} else if (instruction instanceof Instruction22c) {
reinstructions.add(new ImmutableInstruction22c(instruction.getOpcode(), ((Instruction22c) instruction).getRegisterA(), ((Instruction22c) instruction).getRegisterB(), immutableTypeReference));
} else if (instruction instanceof Instruction31c) {
reinstructions.add(new ImmutableInstruction31c(instruction.getOpcode(), ((Instruction31c) instruction).getRegisterA(), immutableTypeReference));
} else if (instruction instanceof Instruction35c) {
reinstructions.add(new ImmutableInstruction35c(instruction.getOpcode(), ((Instruction35c) instruction).getRegisterCount(), ((Instruction35c) instruction).getRegisterC(), ((Instruction35c) instruction).getRegisterD(), ((Instruction35c) instruction).getRegisterE(), ((Instruction35c) instruction).getRegisterF(), ((Instruction35c) instruction).getRegisterG(), immutableTypeReference));
}
} else if (opcode.referenceType == ReferenceType.STRING) {
StringReference stringReference = (StringReference) ((ReferenceInstruction) instruction).getReference();
String type = stringReference.getString();
// if (!basicType.contains(type) && !type.startsWith("[Ljava/lang")) {
// type = DefineUtils.getDefineClassName(classProcessor.classProcess(DefineUtils.getDalvikClassName(type)).className);
// }
ImmutableStringReference immutableStringReference = new ImmutableStringReference(type);
if (instruction instanceof Instruction3rc) {
reinstructions.add(new ImmutableInstruction3rc(instruction.getOpcode(), ((Instruction3rc) instruction).getStartRegister(), ((Instruction3rc) instruction).getRegisterCount(), immutableStringReference));
} else if (instruction instanceof Instruction20bc) {
reinstructions.add(new ImmutableInstruction20bc(instruction.getOpcode(), ((Instruction20bc) instruction).getVerificationError(), immutableStringReference));
} else if (instruction instanceof Instruction21c) {
reinstructions.add(new ImmutableInstruction21c(instruction.getOpcode(), ((Instruction21c) instruction).getRegisterA(), immutableStringReference));
} else if (instruction instanceof Instruction22c) {
reinstructions.add(new ImmutableInstruction22c(instruction.getOpcode(), ((Instruction22c) instruction).getRegisterA(), ((Instruction22c) instruction).getRegisterB(), immutableStringReference));
} else if (instruction instanceof Instruction31c) {
reinstructions.add(new ImmutableInstruction31c(instruction.getOpcode(), ((Instruction31c) instruction).getRegisterA(), immutableStringReference));
} else if (instruction instanceof Instruction35c) {
reinstructions.add(new ImmutableInstruction35c(instruction.getOpcode(), ((Instruction35c) instruction).getRegisterCount(), ((Instruction35c) instruction).getRegisterC(), ((Instruction35c) instruction).getRegisterD(), ((Instruction35c) instruction).getRegisterE(), ((Instruction35c) instruction).getRegisterF(), ((Instruction35c) instruction).getRegisterG(), immutableStringReference));
}
} else {
reinstructions.add(ImmutableInstruction.of(instruction));
}
} else {
reinstructions.add(ImmutableInstruction.of(instruction));
}
}
return new Iterable<Instruction>() {
@Override
public Iterator<Instruction> iterator() {
return reinstructions.iterator();
}
};
}
use of org.jf.dexlib2.immutable.instruction.ImmutableInstruction3rc in project smali by JesusFreke.
the class InstructionOffsetMapTest method testInstructionOffsetMap.
@Test
public void testInstructionOffsetMap() {
ImmutableList<ImmutableInstruction> instructions = ImmutableList.of(/*00: 0x00*/
new ImmutableInstruction10t(Opcode.GOTO, 1), /*01: 0x01*/
new ImmutableInstruction10x(Opcode.NOP), /*02: 0x02*/
new ImmutableInstruction11n(Opcode.CONST_4, 2, 3), /*03: 0x03*/
new ImmutableInstruction11x(Opcode.RETURN, 4), /*04: 0x04*/
new ImmutableInstruction12x(Opcode.ARRAY_LENGTH, 5, 6), /*05: 0x05*/
new ImmutableInstruction20t(Opcode.GOTO_16, 7), /*06: 0x07*/
new ImmutableInstruction21c(Opcode.CONST_STRING, 8, new ImmutableStringReference("blah")), /*07: 0x09*/
new ImmutableInstruction21ih(Opcode.CONST_HIGH16, 9, 0x10000), /*08: 0x0b*/
new ImmutableInstruction21lh(Opcode.CONST_WIDE_HIGH16, 10, 0x1000000000000L), /*09: 0x0d*/
new ImmutableInstruction21s(Opcode.CONST_16, 11, 12), /*10: 0x0f*/
new ImmutableInstruction21t(Opcode.IF_EQZ, 12, 13), /*11: 0x11*/
new ImmutableInstruction22b(Opcode.ADD_INT_LIT8, 14, 15, 16), /*12: 0x13*/
new ImmutableInstruction22c(Opcode.INSTANCE_OF, 0, 1, new ImmutableTypeReference("Ltype;")), /*13: 0x15*/
new ImmutableInstruction22s(Opcode.ADD_INT_LIT16, 2, 3, 17), /*14: 0x17*/
new ImmutableInstruction22t(Opcode.IF_EQ, 4, 5, 18), /*15: 0x19*/
new ImmutableInstruction22x(Opcode.MOVE_FROM16, 19, 20), /*16: 0x1b*/
new ImmutableInstruction23x(Opcode.AGET, 21, 22, 23), /*17: 0x1d*/
new ImmutableInstruction30t(Opcode.GOTO_32, 24), /*18: 0x20*/
new ImmutableInstruction31c(Opcode.CONST_STRING_JUMBO, 25, new ImmutableStringReference("this is a string")), /*19: 0x23*/
new ImmutableInstruction31i(Opcode.CONST, 26, 27), /*20: 0x26*/
new ImmutableInstruction31t(Opcode.FILL_ARRAY_DATA, 28, 29), /*21: 0x29*/
new ImmutableInstruction32x(Opcode.MOVE_16, 30, 31), /*22: 0x2c*/
new ImmutableInstruction35c(Opcode.FILLED_NEW_ARRAY, 0, 0, 0, 0, 0, 0, new ImmutableTypeReference("Ltype;")), /*23: 0x2f*/
new ImmutableInstruction3rc(Opcode.FILLED_NEW_ARRAY_RANGE, 0, 0, new ImmutableTypeReference("Ltype;")), /*24: 0x32*/
new ImmutableInstruction51l(Opcode.CONST_WIDE, 32, 33), /*25: 0x37*/
new ImmutableInstruction10t(Opcode.GOTO, 1));
ImmutableMethodImplementation impl = new ImmutableMethodImplementation(33, instructions, null, null);
InstructionOffsetMap instructionOffsetMap = new InstructionOffsetMap(instructions);
int[] expectedOffsets = new int[] { 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x07, 0x09, 0x0b, 0x0d, 0x0f, 0x11, 0x13, 0x15, 0x17, 0x19, 0x1b, 0x1d, 0x20, 0x23, 0x26, 0x29, 0x2c, 0x2f, 0x32, 0x37 };
for (int i = 0; i < instructions.size(); i++) {
Assert.assertEquals(expectedOffsets[i], instructionOffsetMap.getInstructionCodeOffset(i));
Assert.assertEquals(i, instructionOffsetMap.getInstructionIndexAtCodeOffset(expectedOffsets[i], true));
Assert.assertEquals(i, instructionOffsetMap.getInstructionIndexAtCodeOffset(expectedOffsets[i], false));
}
int instructionIndex = -1;
for (int codeOffset = 0; codeOffset <= expectedOffsets[expectedOffsets.length - 1]; codeOffset++) {
if (codeOffset == expectedOffsets[instructionIndex + 1]) {
// this offset is at the beginning of an instruction
instructionIndex++;
} else {
// this offset is in the middle of an instruction
Assert.assertEquals(instructionIndex, instructionOffsetMap.getInstructionIndexAtCodeOffset(codeOffset, false));
try {
instructionOffsetMap.getInstructionIndexAtCodeOffset(codeOffset, true);
Assert.fail(String.format("Exception exception didn't occur for code offset 0x%x", codeOffset));
} catch (ExceptionWithContext ex) {
// expected exception
}
}
}
Assert.assertEquals(expectedOffsets.length - 1, instructionOffsetMap.getInstructionIndexAtCodeOffset(expectedOffsets[expectedOffsets.length - 1] + 1, false));
Assert.assertEquals(expectedOffsets.length - 1, instructionOffsetMap.getInstructionIndexAtCodeOffset(expectedOffsets[expectedOffsets.length - 1] + 10, false));
}
use of org.jf.dexlib2.immutable.instruction.ImmutableInstruction3rc in project smali by JesusFreke.
the class MethodAnalyzer method analyzeInvokeVirtual.
private boolean analyzeInvokeVirtual(@Nonnull AnalyzedInstruction analyzedInstruction, boolean isRange) {
MethodReference targetMethod;
if (!normalizeVirtualMethods) {
return true;
}
if (isRange) {
Instruction3rc instruction = (Instruction3rc) analyzedInstruction.instruction;
targetMethod = (MethodReference) instruction.getReference();
} else {
Instruction35c instruction = (Instruction35c) analyzedInstruction.instruction;
targetMethod = (MethodReference) instruction.getReference();
}
MethodReference replacementMethod = normalizeMethodReference(targetMethod);
if (replacementMethod == null || replacementMethod.equals(targetMethod)) {
return true;
}
Instruction deodexedInstruction;
if (isRange) {
Instruction3rc instruction = (Instruction3rc) analyzedInstruction.instruction;
deodexedInstruction = new ImmutableInstruction3rc(instruction.getOpcode(), instruction.getStartRegister(), instruction.getRegisterCount(), replacementMethod);
} else {
Instruction35c instruction = (Instruction35c) analyzedInstruction.instruction;
deodexedInstruction = new ImmutableInstruction35c(instruction.getOpcode(), instruction.getRegisterCount(), instruction.getRegisterC(), instruction.getRegisterD(), instruction.getRegisterE(), instruction.getRegisterF(), instruction.getRegisterG(), replacementMethod);
}
analyzedInstruction.setDeodexedInstruction(deodexedInstruction);
return true;
}
use of org.jf.dexlib2.immutable.instruction.ImmutableInstruction3rc in project smali by JesusFreke.
the class MethodAnalyzer method analyzeInvokeVirtualQuick.
private boolean analyzeInvokeVirtualQuick(@Nonnull AnalyzedInstruction analyzedInstruction, boolean isSuper, boolean isRange) {
int methodIndex;
int objectRegister;
if (isRange) {
Instruction3rms instruction = (Instruction3rms) analyzedInstruction.instruction;
methodIndex = instruction.getVtableIndex();
objectRegister = instruction.getStartRegister();
} else {
Instruction35ms instruction = (Instruction35ms) analyzedInstruction.instruction;
methodIndex = instruction.getVtableIndex();
objectRegister = instruction.getRegisterC();
}
RegisterType objectRegisterType = getAndCheckSourceRegister(analyzedInstruction, objectRegister, ReferenceOrUninitCategories);
TypeProto objectRegisterTypeProto = objectRegisterType.type;
if (objectRegisterType.category == RegisterType.NULL) {
return false;
}
assert objectRegisterTypeProto != null;
MethodReference resolvedMethod;
if (isSuper) {
// invoke-super is only used for the same class that we're currently in
TypeProto typeProto = classPath.getClass(method.getDefiningClass());
TypeProto superType;
String superclassType = typeProto.getSuperclass();
if (superclassType != null) {
superType = classPath.getClass(superclassType);
} else {
// This is either java.lang.Object, or an UnknownClassProto
superType = typeProto;
}
resolvedMethod = superType.getMethodByVtableIndex(methodIndex);
} else {
resolvedMethod = objectRegisterTypeProto.getMethodByVtableIndex(methodIndex);
}
if (resolvedMethod == null) {
throw new AnalysisException("Could not resolve the method in class %s at index %d", objectRegisterType.type.getType(), methodIndex);
}
// no need to check class access for invoke-super. A class can obviously access its superclass.
ClassDef thisClass = classPath.getClassDef(method.getDefiningClass());
if (classPath.getClass(resolvedMethod.getDefiningClass()).isInterface()) {
resolvedMethod = new ReparentedMethodReference(resolvedMethod, objectRegisterTypeProto.getType());
} else if (!isSuper && !TypeUtils.canAccessClass(thisClass.getType(), classPath.getClassDef(resolvedMethod.getDefiningClass()))) {
// the class is not accessible. So we start looking at objectRegisterTypeProto (which may be different
// than resolvedMethod.getDefiningClass()), and walk up the class hierarchy.
ClassDef methodClass = classPath.getClassDef(objectRegisterTypeProto.getType());
while (!TypeUtils.canAccessClass(thisClass.getType(), methodClass)) {
String superclass = methodClass.getSuperclass();
if (superclass == null) {
throw new ExceptionWithContext("Couldn't find accessible class while resolving method %s", resolvedMethod);
}
methodClass = classPath.getClassDef(superclass);
}
// methodClass is now the first accessible class found. Now. we need to make sure that the method is
// actually valid for this class
MethodReference newResolvedMethod = classPath.getClass(methodClass.getType()).getMethodByVtableIndex(methodIndex);
if (newResolvedMethod == null) {
throw new ExceptionWithContext("Couldn't find accessible class while resolving method %s", resolvedMethod);
}
resolvedMethod = newResolvedMethod;
resolvedMethod = new ImmutableMethodReference(methodClass.getType(), resolvedMethod.getName(), resolvedMethod.getParameterTypes(), resolvedMethod.getReturnType());
}
if (normalizeVirtualMethods) {
MethodReference replacementMethod = normalizeMethodReference(resolvedMethod);
if (replacementMethod != null) {
resolvedMethod = replacementMethod;
}
}
Instruction deodexedInstruction;
if (isRange) {
Instruction3rms instruction = (Instruction3rms) analyzedInstruction.instruction;
Opcode opcode;
if (isSuper) {
opcode = Opcode.INVOKE_SUPER_RANGE;
} else {
opcode = Opcode.INVOKE_VIRTUAL_RANGE;
}
deodexedInstruction = new ImmutableInstruction3rc(opcode, instruction.getStartRegister(), instruction.getRegisterCount(), resolvedMethod);
} else {
Instruction35ms instruction = (Instruction35ms) analyzedInstruction.instruction;
Opcode opcode;
if (isSuper) {
opcode = Opcode.INVOKE_SUPER;
} else {
opcode = Opcode.INVOKE_VIRTUAL;
}
deodexedInstruction = new ImmutableInstruction35c(opcode, instruction.getRegisterCount(), instruction.getRegisterC(), instruction.getRegisterD(), instruction.getRegisterE(), instruction.getRegisterF(), instruction.getRegisterG(), resolvedMethod);
}
analyzedInstruction.setDeodexedInstruction(deodexedInstruction);
analyzeInstruction(analyzedInstruction);
return true;
}
use of org.jf.dexlib2.immutable.instruction.ImmutableInstruction3rc in project smali by JesusFreke.
the class MethodAnalyzer method analyzeExecuteInlineRange.
private void analyzeExecuteInlineRange(@Nonnull AnalyzedInstruction analyzedInstruction) {
if (inlineResolver == null) {
throw new AnalysisException("Cannot analyze an odexed instruction unless we are deodexing");
}
Instruction3rmi instruction = (Instruction3rmi) analyzedInstruction.instruction;
Method resolvedMethod = inlineResolver.resolveExecuteInline(analyzedInstruction);
Opcode deodexedOpcode;
int acccessFlags = resolvedMethod.getAccessFlags();
if (AccessFlags.STATIC.isSet(acccessFlags)) {
deodexedOpcode = Opcode.INVOKE_STATIC_RANGE;
} else if (AccessFlags.PRIVATE.isSet(acccessFlags)) {
deodexedOpcode = Opcode.INVOKE_DIRECT_RANGE;
} else {
deodexedOpcode = Opcode.INVOKE_VIRTUAL_RANGE;
}
Instruction3rc deodexedInstruction = new ImmutableInstruction3rc(deodexedOpcode, instruction.getStartRegister(), instruction.getRegisterCount(), resolvedMethod);
analyzedInstruction.setDeodexedInstruction(deodexedInstruction);
analyzeInstruction(analyzedInstruction);
}
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