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);
}
/* MemberCodeGen overrides this method.
*/
protected void atClassObject2(String cname) throws CompileError {
int start = bytecode.currentPc();
bytecode.addLdc(cname);
bytecode.addInvokestatic("java.lang.Class", "forName", "(Ljava/lang/String;)Ljava/lang/Class;");
int end = bytecode.currentPc();
bytecode.addOpcode(Opcode.GOTO);
int pc = bytecode.currentPc();
bytecode.addIndex(0); // correct later
bytecode.addExceptionHandler(
start, end, bytecode.currentPc(), "java.lang.ClassNotFoundException");
/* -- the following code is for inlining a call to DotClass.fail().
int var = getMaxLocals();
incMaxLocals(1);
bytecode.growStack(1);
bytecode.addAstore(var);
bytecode.addNew("java.lang.NoClassDefFoundError");
bytecode.addOpcode(DUP);
bytecode.addAload(var);
bytecode.addInvokevirtual("java.lang.ClassNotFoundException",
"getMessage", "()Ljava/lang/String;");
bytecode.addInvokespecial("java.lang.NoClassDefFoundError", "<init>",
"(Ljava/lang/String;)V");
*/
bytecode.growStack(1);
bytecode.addInvokestatic(
"javassist.runtime.DotClass",
"fail",
"(Ljava/lang/ClassNotFoundException;)" + "Ljava/lang/NoClassDefFoundError;");
bytecode.addOpcode(ATHROW);
bytecode.write16bit(pc, bytecode.currentPc() - pc + 1);
}
private void convToString(int type, int dim) throws CompileError {
final String method = "valueOf";
if (isRefType(type) || dim > 0)
bytecode.addInvokestatic(javaLangString, method, "(Ljava/lang/Object;)Ljava/lang/String;");
else if (type == DOUBLE)
bytecode.addInvokestatic(javaLangString, method, "(D)Ljava/lang/String;");
else if (type == FLOAT)
bytecode.addInvokestatic(javaLangString, method, "(F)Ljava/lang/String;");
else if (type == LONG)
bytecode.addInvokestatic(javaLangString, method, "(J)Ljava/lang/String;");
else if (type == BOOLEAN)
bytecode.addInvokestatic(javaLangString, method, "(Z)Ljava/lang/String;");
else if (type == CHAR)
bytecode.addInvokestatic(javaLangString, method, "(C)Ljava/lang/String;");
else if (type == VOID) throw new CompileError("void type expression");
else /* INT, BYTE, SHORT */
bytecode.addInvokestatic(javaLangString, method, "(I)Ljava/lang/String;");
}
@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;
}
/**
* Calls methodHandler.invoke with a null method parameter in order to get the underlying
* instance. The invocation is then forwarded to this instance with generated bytecode.
*/
protected Bytecode createForwardingMethodBody(ClassFile file, MethodInformation methodInfo)
throws NotFoundException {
Method method = methodInfo.getMethod();
// we can only use bytecode based invocation for some methods
// at the moment we restrict it solely to public methods with public
// return and parameter types
boolean bytecodeInvocationAllowed =
Modifier.isPublic(method.getModifiers())
&& Modifier.isPublic(method.getReturnType().getModifiers());
for (Class<?> paramType : method.getParameterTypes()) {
if (!Modifier.isPublic(paramType.getModifiers())) {
bytecodeInvocationAllowed = false;
break;
}
}
if (!bytecodeInvocationAllowed) {
return createInterceptorBody(file, methodInfo);
}
Bytecode b = new Bytecode(file.getConstPool());
int localCount = MethodUtils.calculateMaxLocals(method) + 1;
// create a new interceptor invocation context whenever we invoke a method on a client proxy
// we use a try-catch block in order to make sure that endInterceptorContext() is invoked
// regardless whether
// the method has succeeded or not
int start = b.currentPc();
b.addInvokestatic(
"org.jboss.weld.bean.proxy.InterceptionDecorationContext",
"startInterceptorContext",
"()V");
b.add(Opcode.ALOAD_0);
b.addGetfield(
file.getName(),
"methodHandler",
DescriptorUtils.classToStringRepresentation(MethodHandler.class));
// pass null arguments to methodHandler.invoke
b.add(Opcode.ALOAD_0);
b.add(Opcode.ACONST_NULL);
b.add(Opcode.ACONST_NULL);
b.add(Opcode.ACONST_NULL);
// now we have all our arguments on the stack
// lets invoke the method
b.addInvokeinterface(
MethodHandler.class.getName(),
"invoke",
"(Ljava/lang/Object;Ljava/lang/reflect/Method;Ljava/lang/reflect/Method;[Ljava/lang/Object;)Ljava/lang/Object;",
5);
b.addCheckcast(methodInfo.getDeclaringClass());
// now we should have the target bean instance on top of the stack
// we need to dup it so we still have it to compare to the return value
b.add(Opcode.DUP);
// lets create the method invocation
String methodDescriptor = methodInfo.getDescriptor();
BytecodeUtils.loadParameters(b, methodDescriptor);
if (method.getDeclaringClass().isInterface()) {
b.addInvokeinterface(
methodInfo.getDeclaringClass(),
methodInfo.getName(),
methodDescriptor,
method.getParameterTypes().length + 1);
} else {
b.addInvokevirtual(methodInfo.getDeclaringClass(), methodInfo.getName(), methodDescriptor);
}
// end the interceptor context, everything was fine
b.addInvokestatic(
"org.jboss.weld.bean.proxy.InterceptionDecorationContext", "endInterceptorContext", "()V");
// jump over the catch block
b.addOpcode(Opcode.GOTO);
JumpMarker gotoEnd = JumpUtils.addJumpInstruction(b);
// create catch block
b.addExceptionHandler(start, b.currentPc(), b.currentPc(), 0);
b.addInvokestatic(
"org.jboss.weld.bean.proxy.InterceptionDecorationContext", "endInterceptorContext", "()V");
b.add(Opcode.ATHROW);
// update the correct address to jump over the catch block
gotoEnd.mark();
// if this method returns a primitive we just return
if (method.getReturnType().isPrimitive()) {
BytecodeUtils.addReturnInstruction(b, methodInfo.getReturnType());
} else {
// otherwise we have to check that the proxy is not returning 'this;
// now we need to check if the proxy has return 'this' and if so return
// an
// instance of the proxy.
// currently we have result, beanInstance on the stack.
b.add(Opcode.DUP_X1);
// now we have result, beanInstance, result
// we need to compare result and beanInstance
// first we need to build up the inner conditional that just returns
// the
// result
b.add(Opcode.IF_ACMPEQ);
JumpMarker returnInstruction = JumpUtils.addJumpInstruction(b);
BytecodeUtils.addReturnInstruction(b, methodInfo.getReturnType());
returnInstruction.mark();
// now add the case where the proxy returns 'this';
b.add(Opcode.ALOAD_0);
b.addCheckcast(methodInfo.getMethod().getReturnType().getName());
BytecodeUtils.addReturnInstruction(b, methodInfo.getReturnType());
}
if (b.getMaxLocals() < localCount) {
b.setMaxLocals(localCount);
}
return b;
}
public boolean transformClass(ClassFile file, ClassLoader loader, boolean modifiableClass) {
Set<Integer> methodCallLocations = new HashSet<Integer>();
Integer newCallLocation = null;
Integer methodReflectionLocation = null;
Integer fakeCallRequiredLocation = null;
// first we need to scan the constant pool looking for
// CONSTANT_method_info_ref structures
ConstPool pool = file.getConstPool();
for (int i = 1; i < pool.getSize(); ++i) {
// we have a method call
if (pool.getTag(i) == ConstPool.CONST_Methodref) {
String className = pool.getMethodrefClassName(i);
String methodName = pool.getMethodrefName(i);
if (className.equals(Method.class.getName())) {
if (methodName.equals("invoke")) {
// store the location in the const pool of the method ref
methodCallLocations.add(i);
// we have found a method call
// if we have not already stored a reference to our new
// method in the const pool
if (newCallLocation == null) {
methodReflectionLocation =
pool.addClassInfo("org.fakereplace.reflection.MethodReflection");
int nt = pool.addNameAndTypeInfo("fakeCallRequired", "(Ljava/lang/reflect/Method;)Z");
fakeCallRequiredLocation = pool.addMethodrefInfo(methodReflectionLocation, nt);
newCallLocation = pool.addNameAndTypeInfo(METHOD_NAME, REPLACED_METHOD_DESCRIPTOR);
}
}
}
}
}
// this means we found an instance of the call, now we have to iterate
// through the methods and replace instances of the call
if (newCallLocation != null) {
List<MethodInfo> methods = file.getMethods();
for (MethodInfo m : methods) {
try {
// ignore abstract methods
if (m.getCodeAttribute() == null) {
continue;
}
CodeIterator it = m.getCodeAttribute().iterator();
while (it.hasNext()) {
// loop through the bytecode
int index = it.next();
int op = it.byteAt(index);
// if the bytecode is a method invocation
if (op == CodeIterator.INVOKEVIRTUAL) {
int val = it.s16bitAt(index + 1);
// if the method call is one of the methods we are
// replacing
if (methodCallLocations.contains(val)) {
Bytecode b = new Bytecode(file.getConstPool());
// our stack looks like Method, instance,params
// we need Method, instance, params , Method
b.add(Opcode.DUP_X2);
b.add(Opcode.POP);
b.add(Opcode.DUP_X2);
b.add(Opcode.POP);
b.add(Opcode.DUP_X2);
b.addInvokestatic(
methodReflectionLocation, "fakeCallRequired", "(Ljava/lang/reflect/Method;)Z");
b.add(Opcode.IFEQ);
JumpMarker performRealCall = JumpUtils.addJumpInstruction(b);
// now perform the fake call
b.addInvokestatic(methodReflectionLocation, "invoke", REPLACED_METHOD_DESCRIPTOR);
b.add(Opcode.GOTO);
JumpMarker finish = JumpUtils.addJumpInstruction(b);
performRealCall.mark();
b.addInvokevirtual(Method.class.getName(), METHOD_NAME, METHOD_DESCRIPTOR);
finish.mark();
it.writeByte(CodeIterator.NOP, index);
it.writeByte(CodeIterator.NOP, index + 1);
it.writeByte(CodeIterator.NOP, index + 2);
it.insert(b.get());
}
}
}
m.getCodeAttribute().computeMaxStack();
} catch (Exception e) {
log.error("Bad byte code transforming " + file.getName());
e.printStackTrace();
}
}
return true;
} else {
return false;
}
}