private void createWriteReplace() {
MethodIdentifier identifier = MethodIdentifier.getIdentifier(Object.class, "writeReplace");
ClassMethod method =
classFile.addMethod(AccessFlag.PROTECTED, "writeReplace", "Ljava/lang/Object;");
method.addCheckedExceptions(ObjectStreamException.class);
overrideMethod(method, identifier, new WriteReplaceBodyCreator());
}
@Override
public void overrideMethod(ClassMethod method, Method superclassMethod) {
CodeAttribute ca = method.getCodeAttribute();
if (method.getName().equals("_getProxyInvocationDispatcher")) {
ca.aload(0);
ca.getfield(getClassName(), INVOCATION_DISPATCHER_FIELD, InvocationDispatcher.class);
ca.returnInstruction();
} else if (method.getName().equals("_setProxyInvocationDispatcher")) {
ca.aload(0);
ca.aload(1);
ca.putfield(getClassName(), INVOCATION_DISPATCHER_FIELD, InvocationDispatcher.class);
ca.returnInstruction();
} else {
throw new RuntimeException("Unkown method on interface " + ProxyInstance.class);
}
}
/**
* Writes the bytecode to load an instance of Method for the given method onto the stack
*
* <p>If loadMethod has not already been called for the given method then a static field to hold
* the method is added to the class, and code is added to the static constructor to initialize the
* field to the correct Method.
*
* @param methodToLoad the method to load
* @param method the subclass method to populate
*/
protected void loadMethodIdentifier(Method methodToLoad, ClassMethod method) {
if (!methodIdentifiers.containsKey(methodToLoad)) {
int identifierNo = identifierCount++;
String fieldName = METHOD_FIELD_PREFIX + identifierNo;
classFile.addField(AccessFlag.PRIVATE | AccessFlag.STATIC, fieldName, Method.class);
methodIdentifiers.put(methodToLoad, identifierNo);
}
final Integer fieldNo = methodIdentifiers.get(methodToLoad);
method
.getCodeAttribute()
.getstatic(getClassName(), METHOD_FIELD_PREFIX + fieldNo, METHOD_FIELD_DESCRIPTOR);
}
@Override
public void overrideConstructor(ClassMethod method, Constructor<?> constructor) {
CodeAttribute ca = method.getCodeAttribute();
ca.aload(0);
ca.iconst(0);
ca.putfield(getClassName(), CONSTRUCTED_GUARD, "Z");
ca.aload(0);
ca.loadMethodParameters();
ca.invokespecial(constructor);
ca.aload(0);
ca.iconst(1);
ca.putfield(getClassName(), CONSTRUCTED_GUARD, "Z");
ca.returnInstruction();
}
@Override
public void overrideMethod(ClassMethod method, Method superclassMethod) {
// superClassMethod will be null
CodeAttribute ca = method.getCodeAttribute();
ca.newInstruction(serializableProxyClass.getName());
ca.dup();
ca.invokespecial(serializableProxyClass.getName(), "<init>", "()V");
ca.dup();
ca.aload(0);
ca.invokeinterface(
SerializableProxy.class.getName(),
"setProxyInstance",
"(Lorg/jboss/proxy/ProxyInstance;)V");
ca.returnInstruction();
}
private void setupCachedProxyFields() {
cachedMethods.addAll(methodIdentifiers.keySet());
// set the methods to be accessible
AccessController.doPrivileged(
new PrivilegedAction<Object>() {
@Override
public Object run() {
for (Method method : cachedMethods) {
method.setAccessible(true);
}
return null;
}
});
// store the Method objects in a thread local, so that
// the proxies <clinit> method can access them
// this removes the need for reflection in the proxy <clinit> method
final Method[] methods = new Method[identifierCount];
for (Map.Entry<Method, Integer> entry : methodIdentifiers.entrySet()) {
methods[entry.getValue()] = entry.getKey();
}
MethodStore.METHODS.put(new ClassIdentifier(classFile.getName(), getClassLoader()), methods);
// add the bytecode to load the cached fields in the static constructor
CodeAttribute ca = staticConstructor.getCodeAttribute();
ca.getstatic(MethodStore.class.getName(), "METHODS", "Ljava/util/Map;");
ca.newInstruction(ClassIdentifier.class);
ca.dup();
ca.ldc(classFile.getName());
ca.loadClass(classFile.getName());
ca.invokevirtual("java.lang.Class", "getClassLoader", "()Ljava/lang/ClassLoader;");
ca.invokespecial(
ClassIdentifier.class.getName(), "<init>", "(Ljava/lang/String;Ljava/lang/ClassLoader;)V");
ca.invokeinterface(Map.class.getName(), "remove", "(Ljava/lang/Object;)Ljava/lang/Object;");
ca.checkcast("[Ljava/lang/reflect/Method;");
for (int i = 0; i < identifierCount; ++i) {
ca.dup();
ca.ldc(i);
ca.aaload();
ca.putstatic(getClassName(), METHOD_FIELD_PREFIX + i, METHOD_FIELD_DESCRIPTOR);
}
}
// we simply want to load the corresponding identifier
// and then forward it to the dispatcher
@Override
public void overrideMethod(ClassMethod method, Method superclassMethod) {
CodeAttribute ca = method.getCodeAttribute();
// first we need to check the constructed field
ca.aload(0);
ca.getfield(getClassName(), CONSTRUCTED_GUARD, "Z");
// if the object has not been constructed yet invoke the superclass version of the method
BranchEnd end = ca.ifne();
ca.aload(0);
ca.loadMethodParameters();
ca.invokespecial(getSuperClassName(), method.getName(), method.getDescriptor());
ca.returnInstruction();
// normal invocation path begins here
ca.branchEnd(end);
ca.aload(0);
ca.getfield(getClassName(), INVOCATION_DISPATCHER_FIELD, InvocationDispatcher.class);
// now we have the dispatcher on the stack, we need to build an invocation
ca.newInstruction(Invocation.class.getName());
ca.dup();
// the constructor we are using is Invocation(final Class<?> declaringClass, final
// MethodIdentifier
// methodIdentifier, final Object... args)
ca.loadClass(getClassName());
loadMethodIdentifier(superclassMethod, method);
// now we need to stick the parameters into an array, boxing if nessesary
String[] params = method.getParameters();
ca.iconst(params.length);
ca.anewarray("java/lang/Object");
int loadPosition = 1;
for (int i = 0; i < params.length; ++i) {
ca.dup();
ca.iconst(i);
String type = params[i];
if (type.length() == 1) { // primitive
char typeChar = type.charAt(0);
switch (typeChar) {
case 'I':
ca.iload(loadPosition);
Boxing.boxInt(ca);
break;
case 'S':
ca.iload(loadPosition);
Boxing.boxShort(ca);
break;
case 'B':
ca.iload(loadPosition);
Boxing.boxByte(ca);
break;
case 'Z':
ca.iload(loadPosition);
Boxing.boxBoolean(ca);
break;
case 'C':
ca.iload(loadPosition);
Boxing.boxChar(ca);
break;
case 'D':
ca.dload(loadPosition);
Boxing.boxDouble(ca);
loadPosition++;
break;
case 'J':
ca.lload(loadPosition);
Boxing.boxLong(ca);
loadPosition++;
break;
case 'F':
ca.fload(loadPosition);
Boxing.boxFloat(ca);
break;
default:
throw new RuntimeException("Unkown primitive type descriptor: " + typeChar);
}
} else {
ca.aload(loadPosition);
}
ca.aastore();
loadPosition++;
}
ca.invokespecial(
Invocation.class.getName(),
"<init>",
"(Ljava/lang/Class;Lorg/jboss/invocation/MethodIdentifier;[Ljava/lang/Object;)V");
// now we have the invocation on top of the stack, with the dispatcher below it
ca.invokeinterface(
InvocationDispatcher.class.getName(),
"dispatch",
"(Lorg/jboss/invocation/Invocation;)Lorg/jboss/invocation/InvocationReply;");
ca.invokevirtual(InvocationReply.class.getName(), "getReply", "()Ljava/lang/Object;");
if (superclassMethod.getReturnType() != void.class) {
if (superclassMethod.getReturnType().isPrimitive()) {
Boxing.unbox(ca, method.getReturnType());
} else {
ca.checkcast(superclassMethod.getReturnType().getName());
}
}
ca.returnInstruction();
}
/** This method must be called by subclasses after they have finished generating the class. */
protected void finalizeStaticConstructor() {
setupCachedProxyFields();
staticConstructor.getCodeAttribute().returnInstruction();
}
