private static CtMethod delegator0(CtMethod delegate, CtClass declaring)
throws CannotCompileException, NotFoundException {
MethodInfo deleInfo = delegate.getMethodInfo2();
String methodName = deleInfo.getName();
String desc = deleInfo.getDescriptor();
ConstPool cp = declaring.getClassFile2().getConstPool();
MethodInfo minfo = new MethodInfo(cp, methodName, desc);
minfo.setAccessFlags(deleInfo.getAccessFlags());
ExceptionsAttribute eattr = deleInfo.getExceptionsAttribute();
if (eattr != null) minfo.setExceptionsAttribute((ExceptionsAttribute) eattr.copy(cp, null));
Bytecode code = new Bytecode(cp, 0, 0);
boolean isStatic = Modifier.isStatic(delegate.getModifiers());
CtClass deleClass = delegate.getDeclaringClass();
CtClass[] params = delegate.getParameterTypes();
int s;
if (isStatic) {
s = code.addLoadParameters(params, 0);
code.addInvokestatic(deleClass, methodName, desc);
} else {
code.addLoad(0, deleClass);
s = code.addLoadParameters(params, 1);
code.addInvokespecial(deleClass, methodName, desc);
}
code.addReturn(delegate.getReturnType());
code.setMaxLocals(++s);
code.setMaxStack(s < 2 ? 2 : s); // for a 2-word return value
minfo.setCodeAttribute(code.toCodeAttribute());
return new CtMethod(minfo, declaring);
}
private CodeCoverage(ClassLoader classLoader, MethodExclusion exclusion, String... classes)
throws Exception {
for (String clazz : classes) {
Map<Tuple, Set<CodeLine>> map = new TreeMap<>();
report.put(clazz, map);
List<Tuple> mds = new ArrayList<>();
descriptors.put(clazz, mds);
InputStream is = classLoader.getResourceAsStream(clazz.replace(".", "/") + ".class");
ClassFile classFile = getClassFile(clazz, is);
List<MethodInfo> methods = classFile.getMethods();
for (MethodInfo m : methods) {
if (exclusion.exclude(classFile, m) == false) {
String descriptor = m.getDescriptor();
Tuple tuple = new Tuple(m.getName(), descriptor);
map.put(tuple, new TreeSet<CodeLine>());
mds.add(tuple);
}
}
if (isAccessFlagSet(classFile.getAccessFlags(), AccessFlag.ANNOTATION)) {
boolean hasAttributes = methods.size() > 0;
annotations.put(clazz, hasAttributes);
if (hasAttributes == false) {
map.put(TYPE_USAGE, new TreeSet<CodeLine>());
mds.add(TYPE_USAGE);
}
} else {
fillSupers(classFile);
}
}
}
public BaseClassData(ClassFile file, ClassLoader loader, boolean replaceable) {
className = file.getName();
this.replaceable = replaceable;
internalName = Descriptor.toJvmName(file.getName());
this.loader = loader;
superClassName = file.getSuperclass();
boolean finalMethod = false;
Set<MethodData> meths = new HashSet<MethodData>();
for (Object o : file.getMethods()) {
String methodClassName = className;
MethodInfo m = (MethodInfo) o;
MemberType type = MemberType.NORMAL;
if ((m.getDescriptor().equals(Constants.ADDED_METHOD_DESCRIPTOR)
&& m.getName().equals(Constants.ADDED_METHOD_NAME))
|| (m.getDescriptor().equals(Constants.ADDED_STATIC_METHOD_DESCRIPTOR)
&& m.getName().equals(Constants.ADDED_STATIC_METHOD_NAME))
|| (m.getDescriptor().equals(Constants.ADDED_CONSTRUCTOR_DESCRIPTOR))) {
type = MemberType.ADDED_SYSTEM;
} else if (m.getAttribute(Constants.FINAL_METHOD_ATTRIBUTE) != null) {
finalMethod = true;
}
MethodData md =
new MethodData(
m.getName(),
m.getDescriptor(),
methodClassName,
type,
m.getAccessFlags(),
finalMethod);
meths.add(md);
}
this.methods = Collections.unmodifiableSet(meths);
Set<FieldData> fieldData = new HashSet<FieldData>();
for (Object o : file.getFields()) {
FieldInfo m = (FieldInfo) o;
MemberType mt = MemberType.NORMAL;
fieldData.add(new FieldData(m, mt, className, m.getAccessFlags()));
}
this.fields = Collections.unmodifiableSet(fieldData);
}
protected void enhanceAttributesAccess(
CtClass managedCtClass,
IdentityHashMap<String, PersistentAttributeAccessMethods> attributeDescriptorMap) {
final ConstPool constPool = managedCtClass.getClassFile().getConstPool();
for (Object oMethod : managedCtClass.getClassFile().getMethods()) {
final MethodInfo methodInfo = (MethodInfo) oMethod;
final String methodName = methodInfo.getName();
// skip methods added by enhancement and abstract methods (methods without any code)
if (methodName.startsWith("$$_hibernate_") || methodInfo.getCodeAttribute() == null) {
continue;
}
try {
final CodeIterator itr = methodInfo.getCodeAttribute().iterator();
while (itr.hasNext()) {
final int index = itr.next();
final int op = itr.byteAt(index);
if (op != Opcode.PUTFIELD && op != Opcode.GETFIELD) {
continue;
}
final String fieldName = constPool.getFieldrefName(itr.u16bitAt(index + 1));
final PersistentAttributeAccessMethods attributeMethods =
attributeDescriptorMap.get(fieldName);
// its not a field we have enhanced for interception, so skip it
if (attributeMethods == null) {
continue;
}
// System.out.printf( "Transforming access to field [%s] from method [%s]%n", fieldName,
// methodName );
log.debugf("Transforming access to field [%s] from method [%s]", fieldName, methodName);
if (op == Opcode.GETFIELD) {
final int methodIndex = MethodWriter.addMethod(constPool, attributeMethods.getReader());
itr.writeByte(Opcode.INVOKESPECIAL, index);
itr.write16bit(methodIndex, index + 1);
} else {
final int methodIndex = MethodWriter.addMethod(constPool, attributeMethods.getWriter());
itr.writeByte(Opcode.INVOKESPECIAL, index);
itr.write16bit(methodIndex, index + 1);
}
}
methodInfo.getCodeAttribute().setAttribute(MapMaker.make(classPool, methodInfo));
} catch (BadBytecode bb) {
final String msg =
String.format(
"Unable to perform field access transformation in method [%s]", methodName);
throw new EnhancementException(msg, bb);
}
}
}
protected void enhanceAttributesAccess(Map<String, CtField> fieldsMap, CtClass managedCtClass)
throws Exception {
final ConstPool constPool = managedCtClass.getClassFile().getConstPool();
final ClassPool classPool = managedCtClass.getClassPool();
for (Object oMethod : managedCtClass.getClassFile().getMethods()) {
final MethodInfo methodInfo = (MethodInfo) oMethod;
final String methodName = methodInfo.getName();
// skip methods added by enhancement, and abstract methods (methods without any code)
if (methodName.startsWith(DROOLS_PREFIX) || methodInfo.getCodeAttribute() == null) {
continue;
}
try {
final CodeIterator itr = methodInfo.getCodeAttribute().iterator();
while (itr.hasNext()) {
final int index = itr.next();
final int op = itr.byteAt(index);
if (op != Opcode.PUTFIELD && op != Opcode.GETFIELD) {
continue;
}
final String fieldName = constPool.getFieldrefName(itr.u16bitAt(index + 1));
CtField ctField = fieldsMap.get(fieldName);
if (ctField == null) {
continue;
}
// if we are in constructors, only need to intercept assignment statement for Reactive
// Collection/List/... (regardless they may be final)
if (methodInfo.isConstructor() && !(isCtFieldACollection(ctField))) {
continue;
}
if (op == Opcode.PUTFIELD) {
// addMethod is a safe add, if constant already present it return the existing value
// without adding.
final int methodIndex = addMethod(constPool, writeMethods.get(fieldName));
itr.writeByte(Opcode.INVOKEVIRTUAL, index);
itr.write16bit(methodIndex, index + 1);
}
}
methodInfo.getCodeAttribute().setAttribute(MapMaker.make(classPool, methodInfo));
} catch (BadBytecode bb) {
final String msg =
String.format(
"Unable to perform field access transformation in method [%s]", methodName);
throw new Exception(msg, bb);
}
}
}
/**
* add a bogus constructor call to a bytecode sequence so a constructor can pass bytecode
* validation
*
* @param bytecode
*/
public static boolean addBogusConstructorCall(ClassFile file, Bytecode code) {
MethodInfo constructorToCall = null;
for (Object meth : file.getMethods()) {
MethodInfo m = (MethodInfo) meth;
if (m.getName().equals("<init>")) {
constructorToCall = m;
break;
}
}
if (constructorToCall == null) {
return false;
}
// push this onto the stack
code.add(Bytecode.ALOAD_0);
String[] params =
DescriptorUtils.descriptorStringToParameterArray(constructorToCall.getDescriptor());
for (String p : params) {
// int char short boolean byte
if (p.equals("I") || p.equals("C") || p.equals("S") || p.equals("Z") || p.equals("B")) {
// push integer 0
code.add(Opcode.ICONST_0);
}
// long
else if (p.equals("J")) {
code.add(Opcode.LCONST_0);
}
// double
else if (p.equals("D")) {
code.add(Opcode.DCONST_0);
}
// float
else if (p.equals("F")) {
code.add(Opcode.FCONST_0);
}
// arrays and reference types
else {
code.add(Opcode.ACONST_NULL);
}
}
// all our args should be pushed onto the stack, call the constructor
code.addInvokespecial(file.getName(), "<init>", constructorToCall.getDescriptor());
code.add(Opcode.RETURN);
return true;
}
@Override
public boolean transform(
ClassLoader loader,
String className,
Class<?> classBeingRedefined,
ProtectionDomain protectionDomain,
ClassFile file)
throws IllegalClassFormatException, BadBytecode {
/**
* Hack up the proxy factory so it stores the proxy ClassFile. We need this to regenerate
* proxies.
*/
if (file.getName().equals("org.jboss.weld.bean.proxy.ProxyFactory")) {
for (final MethodInfo method : (List<MethodInfo>) file.getMethods()) {
if (method.getName().equals("createProxyClass")) {
final MethodInvokationManipulator methodInvokationManipulator =
new MethodInvokationManipulator();
methodInvokationManipulator.replaceVirtualMethodInvokationWithStatic(
ClassLoader.class.getName(),
WeldProxyClassLoadingDelegate.class.getName(),
"loadClass",
"(Ljava/lang/String;)Ljava/lang/Class;",
"(Ljava/lang/ClassLoader;Ljava/lang/String;)Ljava/lang/Class;",
loader);
methodInvokationManipulator.replaceVirtualMethodInvokationWithStatic(
"org.jboss.weld.util.bytecode.ClassFileUtils",
WeldProxyClassLoadingDelegate.class.getName(),
"toClass",
"(Ljavassist/bytecode/ClassFile;Ljava/lang/ClassLoader;Ljava/security/ProtectionDomain;)Ljava/lang/Class;",
"(Ljavassist/bytecode/ClassFile;Ljava/lang/ClassLoader;Ljava/security/ProtectionDomain;)Ljava/lang/Class;",
loader);
HashSet<MethodInfo> modifiedMethods = new HashSet<MethodInfo>();
methodInvokationManipulator.transformClass(file, loader, true, modifiedMethods);
for (MethodInfo m : modifiedMethods) {
m.rebuildStackMap(ClassPool.getDefault());
}
return true;
} else if (method.getName().equals("<init>")) {
Integer beanArgument = null;
int count = 0;
for (final String paramType :
DescriptorUtils.descriptorStringToParameterArray(method.getDescriptor())) {
if (paramType.equals("javax/enterprise/inject/spi/Bean")) {
beanArgument = count;
break;
} else if (paramType.equals("D") || paramType.equals("J")) {
count += 2;
} else {
count++;
}
}
if (beanArgument == null) {
log.error(
"Constructor org.jboss.weld.bean.proxy.ProxyFactory.<init>"
+ method.getDescriptor()
+ " does not have a bean parameter, proxies produced by this factory will not be reloadable");
continue;
}
// similar to other tracked instances
// but we need a strong ref
Bytecode code = new Bytecode(file.getConstPool());
code.addAload(0);
code.addAload(beanArgument);
code.addInvokestatic(
WeldClassChangeAware.class.getName(),
"addProxyFactory",
"(Lorg/jboss/weld/bean/proxy/ProxyFactory;)V");
CodeIterator it = method.getCodeAttribute().iterator();
it.skipConstructor();
it.insert(code.get());
}
}
}
return false;
}
/**
* Replace access to fields of entities (for example, entity.field) with a call to the enhanced
* getter / setter (in this example, entity.$$_hibernate_read_field()). It's assumed that the
* target entity is enhanced as well.
*
* @param managedCtClass Class to enhance
*/
public void enhanceFieldAccess(CtClass managedCtClass) {
final ConstPool constPool = managedCtClass.getClassFile().getConstPool();
for (Object oMethod : managedCtClass.getClassFile().getMethods()) {
final MethodInfo methodInfo = (MethodInfo) oMethod;
final String methodName = methodInfo.getName();
// skip methods added by enhancement and abstract methods (methods without any code)
if (methodName.startsWith("$$_hibernate_") || methodInfo.getCodeAttribute() == null) {
continue;
}
try {
final CodeIterator itr = methodInfo.getCodeAttribute().iterator();
while (itr.hasNext()) {
int index = itr.next();
int op = itr.byteAt(index);
if (op != Opcode.PUTFIELD && op != Opcode.GETFIELD) {
continue;
}
String fieldName = constPool.getFieldrefName(itr.u16bitAt(index + 1));
String fieldClassName =
constPool.getClassInfo(constPool.getFieldrefClass(itr.u16bitAt(index + 1)));
CtClass targetCtClass = this.classPool.getCtClass(fieldClassName);
if (!enhancementContext.isEntityClass(targetCtClass)
&& !enhancementContext.isCompositeClass(targetCtClass)) {
continue;
}
if (targetCtClass == managedCtClass
|| !enhancementContext.isPersistentField(targetCtClass.getField(fieldName))
|| "this$0".equals(fieldName)) {
continue;
}
log.debugf("Transforming access to field [%s] from method [%s]", fieldName, methodName);
if (op == Opcode.GETFIELD) {
int fieldReaderMethodIndex =
constPool.addMethodrefInfo(
constPool.addClassInfo(fieldClassName),
EnhancerConstants.PERSISTENT_FIELD_READER_PREFIX + fieldName,
"()" + constPool.getFieldrefType(itr.u16bitAt(index + 1)));
itr.writeByte(Opcode.INVOKEVIRTUAL, index);
itr.write16bit(fieldReaderMethodIndex, index + 1);
} else {
int fieldWriterMethodIndex =
constPool.addMethodrefInfo(
constPool.addClassInfo(fieldClassName),
EnhancerConstants.PERSISTENT_FIELD_WRITER_PREFIX + fieldName,
"(" + constPool.getFieldrefType(itr.u16bitAt(index + 1)) + ")V");
itr.writeByte(Opcode.INVOKEVIRTUAL, index);
itr.write16bit(fieldWriterMethodIndex, index + 1);
}
}
methodInfo.getCodeAttribute().setAttribute(MapMaker.make(classPool, methodInfo));
} catch (BadBytecode bb) {
final String msg =
String.format(
"Unable to perform field access transformation in method [%s]", methodName);
throw new EnhancementException(msg, bb);
} catch (NotFoundException nfe) {
final String msg =
String.format(
"Unable to perform field access transformation in method [%s]", methodName);
throw new EnhancementException(msg, nfe);
}
}
}
public boolean match(String filename, ClassFile classFile, ClassMap tempClassMap) {
for (Object o : classFile.getMethods()) {
MethodInfo methodInfo = (MethodInfo) o;
classMod.methodInfo = methodInfo;
CodeAttribute codeAttribute = methodInfo.getCodeAttribute();
if (codeAttribute == null) {
continue;
}
if (getClassMap().hasMap(deobfMethod)) {
MethodRef obfTarget = (MethodRef) getClassMap().map(deobfMethod);
if (!methodInfo.getName().equals(obfTarget.getName())) {
continue;
}
}
ArrayList<String> deobfTypes = null;
ArrayList<String> obfTypes = null;
if (deobfMethod != null && deobfMethod.getType() != null) {
deobfTypes = ConstPoolUtils.parseDescriptor(deobfMethod.getType());
obfTypes = ConstPoolUtils.parseDescriptor(methodInfo.getDescriptor());
if (!isPotentialTypeMatch(deobfTypes, obfTypes)) {
continue;
}
}
ConstPool constPool = methodInfo.getConstPool();
CodeIterator codeIterator = codeAttribute.iterator();
initMatcher();
ArrayList<JavaRef> tempMappings = new ArrayList<JavaRef>();
try {
match:
for (int offset = 0;
offset < codeIterator.getCodeLength() && matcher.match(methodInfo, offset);
offset = codeIterator.next()) {
tempMappings.clear();
for (Map.Entry<Integer, JavaRef> entry : xrefs.entrySet()) {
int captureGroup = entry.getKey();
JavaRef xref = entry.getValue();
byte[] code = matcher.getCaptureGroup(captureGroup);
int index = Util.demarshal(code, 1, 2);
ConstPoolUtils.matchOpcodeToRefType(code[0], xref);
ConstPoolUtils.matchConstPoolTagToRefType(constPool.getTag(index), xref);
JavaRef newRef = ConstPoolUtils.getRefForIndex(constPool, index);
if (!isPotentialTypeMatch(xref.getType(), newRef.getType())) {
if (deobfMethod != null) {
Logger.log(
Logger.LOG_METHOD,
"method %s %s matches %s %s, but",
methodInfo.getName(),
methodInfo.getDescriptor(),
deobfMethod.getName(),
deobfMethod.getType());
}
Logger.log(
Logger.LOG_METHOD,
"method %s %s failed xref #%d %s %s -> %s %s",
methodInfo.getName(),
methodInfo.getDescriptor(),
captureGroup,
xref.getName(),
xref.getType(),
newRef.getName(),
newRef.getType());
continue match;
}
tempMappings.add(xref);
tempMappings.add(newRef);
}
for (int i = 0; i + 1 < tempMappings.size(); i += 2) {
tempClassMap.addMap(tempMappings.get(i), tempMappings.get(i + 1));
}
if (deobfMethod != null) {
String deobfName = classMod.getDeobfClass();
tempClassMap.addClassMap(deobfName, ClassMap.filenameToClassName(filename));
tempClassMap.addMethodMap(
deobfName, deobfMethod.getName(), methodInfo.getName(), methodInfo.getDescriptor());
if (deobfTypes != null && obfTypes != null) {
for (int i = 0; i < deobfTypes.size(); i++) {
String desc = ClassMap.descriptorToClassName(deobfTypes.get(i));
String obf = ClassMap.descriptorToClassName(obfTypes.get(i));
if (!obf.equals(desc)) {
tempClassMap.addClassMap(desc, obf);
}
}
}
}
afterMatch(classFile, methodInfo);
classMod.methodInfo = null;
return true;
}
} catch (BadBytecode e) {
Logger.log(e);
}
}
classMod.methodInfo = null;
return false;
}
protected void checkClassFile(ClassFile file) throws Exception {
Map<Integer, Triple> calls = new HashMap<>();
ConstPool pool = file.getConstPool();
for (int i = 1; i < pool.getSize(); ++i) {
// we have a method call
BytecodeUtils.Ref ref = BytecodeUtils.getRef(pool, i);
String className = ref.getClassName(pool, i);
if (className != null) {
String methodName = ref.getName(pool, i);
String methodDesc = ref.getDesc(pool, i);
fillCalls(i, className, methodName, methodDesc, calls);
}
}
if (calls.isEmpty() && annotations.isEmpty()) {
return;
}
String className = file.getName();
AnnotationsAttribute faa =
(AnnotationsAttribute) file.getAttribute(AnnotationsAttribute.visibleTag);
checkAnnotations(className, TYPE_USAGE.getMethodName(), faa, -1);
List<MethodInfo> methods = file.getMethods();
for (MethodInfo m : methods) {
try {
// ignore abstract methods
if (m.getCodeAttribute() == null) {
continue;
}
AnnotationsAttribute maa =
(AnnotationsAttribute) m.getAttribute(AnnotationsAttribute.visibleTag);
boolean annotationsChecked = false;
int firstLine = -1;
CodeIterator it = m.getCodeAttribute().iterator();
while (it.hasNext()) {
// loop through the bytecode
final int index = it.next();
final int line = m.getLineNumber(index);
if (annotationsChecked == false) {
annotationsChecked = true;
firstLine = line;
checkAnnotations(
className, m.getName(), maa, line - 2); // -2 to get the line above the method
}
int op = it.byteAt(index);
// if the bytecode is a method invocation
if (op == CodeIterator.INVOKEVIRTUAL
|| op == CodeIterator.INVOKESTATIC
|| op == CodeIterator.INVOKEINTERFACE
|| op == CodeIterator.INVOKESPECIAL) {
int val = it.s16bitAt(index + 1);
Triple triple = calls.get(val);
if (triple != null) {
Map<Tuple, Set<CodeLine>> map = report.get(triple.className);
Set<CodeLine> set = map.get(triple.tuple);
CodeLine cl = new CodeLine(className, m.getName(), line);
set.add(cl.modify()); // check for .jsp, etc
}
}
}
if (BaseMethodExclusion.isBridge(m) == false) {
SignatureAttribute.MethodSignature signature =
SignatureAttribute.toMethodSignature(m.getDescriptor());
handleMethodSignature(className, m.getName(), firstLine - 1, signature.getReturnType());
handleMethodSignature(
className, m.getName(), firstLine - 1, signature.getParameterTypes());
handleMethodSignature(
className, m.getName(), firstLine - 1, signature.getExceptionTypes());
}
ParameterAnnotationsAttribute paa =
(ParameterAnnotationsAttribute)
m.getAttribute(ParameterAnnotationsAttribute.visibleTag);
if (paa != null) {
Annotation[][] paas = paa.getAnnotations();
if (paas != null) {
for (Annotation[] params : paas) {
for (Annotation a : params) {
for (Map.Entry<String, Boolean> entry : annotations.entrySet()) {
if (entry.getKey().equals(a.getTypeName())) {
checkAnnotation(
className, m.getName(), firstLine - 1, entry.getValue(), entry.getKey(), a);
}
}
}
}
}
}
m.getCodeAttribute().computeMaxStack();
} catch (Exception e) {
e.printStackTrace();
}
}
}
