private static void addDefaultConstructor(CtClass c) throws CannotCompileException {
CtConstructor cons;
try {
cons = c.getDeclaredConstructor(new CtClass[] {});
cons.setModifiers(Modifier.PUBLIC);
} catch (NotFoundException e) {
cons = new CtConstructor(new CtClass[] {}, c);
cons.setBody(";");
c.addConstructor(cons);
}
}
public void onWrite(ClassPool pool, String className)
throws NotFoundException, CannotCompileException {
CtClass cc = pool.get(className);
try {
if (isPersistent(className)) {
CtClass base = cc.getSuperclass();
CtConstructor cons = new CtConstructor(constructorParams, cc);
if (base.subclassOf(persistent) || base == object) {
cons.setBody(null);
cc.addConstructor(cons);
if (base == object) {
cc.setSuperclass(persistent);
}
} else {
if (!isPersistent(base.getName())) {
throw new NotFoundException(
"Base class " + base.getName() + " was not declared as persistent");
}
cons.setBody("super($0);");
cc.addConstructor(cons);
}
preprocessMethods(cc, true, true);
if (base == persistent || base == object) {
CtMethod m = new CtMethod(isRecursive, cc, null);
m.setBody("return false;");
cc.addMethod(m);
addSerializeMethods(cc, false);
} else if (base.subtypeOf(serializable)) {
addSerializeMethods(cc, true);
}
if ((cc.getModifiers() & Modifier.PRIVATE) == 0) {
CtClass f = pool.makeClass(className + "LoadFactory");
f.addInterface(factory);
CtMethod c = new CtMethod(create, f, null);
c.setBody("return new " + className + "($1);");
f.addMethod(c);
CtNewConstructor.defaultConstructor(f);
}
} else {
preprocessMethods(
cc, cc.subtypeOf(persistent) && cc != persistent, !className.startsWith("org.nachodb"));
}
} catch (Exception x) {
x.printStackTrace();
}
}
private void createConstructor(final CtClass ctClass) {
try {
final CtConstructor ctConstructor =
new CtConstructor(
new CtClass[] {
classPool.getCtClass(RingBuffer.class.getName()),
classPool.getCtClass(DropListener.class.getName()),
classPool.getCtClass(MessagePublicationListener.class.getName())
},
ctClass);
ctConstructor.setBody("{ringBuffer = $1;dropListener = $2;messagePublicationListener = $3;}");
ctClass.addConstructor(ctConstructor);
} catch (NotFoundException e) {
throw new RuntimeException("Unable to create constructor", e);
} catch (CannotCompileException e) {
throw new RuntimeException("Unable to create constructor", e);
}
}
private static void findConstructors(
CtClass ctClass, Set<CtConstructor> set, Class<?>... argsClasses) {
try {
if (ctClass == null) {
return;
}
CtConstructor[] constructors = ctClass.getDeclaredConstructors();
if (constructors.length == 0) {
findConstructors(ctClass.getSuperclass(), set, argsClasses);
} else if (constructors.length == 1 && argsClasses.length == 0) {
set.add(constructors[0]);
} else {
for (CtConstructor c : constructors) {
if (c.getParameterTypes().length != argsClasses.length) {
continue;
}
boolean sameArgs = true;
for (int i = 0; i < argsClasses.length; i++) {
String requestedClassName = argsClasses[i].getName();
String currentClassName = c.getParameterTypes()[i].getName();
if (!requestedClassName.equals(currentClassName)) {
sameArgs = false;
}
}
if (sameArgs) {
set.add(c);
}
}
}
} catch (NotFoundException e) {
// should never happen
throw new GwtTestPatchException(
"Error while trying find a constructor in class '" + ctClass.getName() + "'", e);
}
}
/**
* @param pool The AOPClassPool to create the optimized invocation class in
* @param makeInnerClass If true creates the new class as an inner class of className
* @param outerClass The class to create the invocation class as an inner class of if
* makeInnerClass==true
* @param className The full class name (including package info) of the invocation class to be
* created
* @param superInvocation The super class of this invocation
* @return The created invocation class
*/
public static CtClass makeInvocationClass(
AOPClassPool pool,
boolean makeInnerClass,
CtClass outerClass,
String className,
CtClass superInvocation)
throws CannotCompileException, NotFoundException {
CtClass invocation =
makeInvocationClassNoCtors(pool, makeInnerClass, outerClass, className, superInvocation);
// Add the invocation constructor
CtConstructor[] cons = superInvocation.getDeclaredConstructors();
for (int i = 0; i < cons.length; i++) {
CtConstructor conTemplate = superInvocation.getDeclaredConstructors()[i];
CtConstructor icon =
CtNewConstructor.make(
conTemplate.getParameterTypes(), conTemplate.getExceptionTypes(), invocation);
invocation.addConstructor(icon);
}
return invocation;
}
@Override
public void enhanceThisClass(ApplicationClass applicationClass) throws Exception {
final CtClass ctClass = makeClass(applicationClass);
if (ctClass.isInterface()) {
return;
}
if (ctClass.getName().endsWith(".package")) {
return;
}
// Add a default constructor if needed
try {
boolean hasDefaultConstructor = false;
for (CtConstructor constructor : ctClass.getDeclaredConstructors()) {
if (constructor.getParameterTypes().length == 0) {
hasDefaultConstructor = true;
break;
}
}
if (!hasDefaultConstructor && !ctClass.isInterface()) {
CtConstructor defaultConstructor =
CtNewConstructor.make("public " + ctClass.getSimpleName() + "() {}", ctClass);
ctClass.addConstructor(defaultConstructor);
}
} catch (Exception e) {
Logger.error(e, "Error in PropertiesEnhancer");
throw new UnexpectedException("Error in PropertiesEnhancer", e);
}
if (isScala(applicationClass)) {
// Temporary hack for Scala. Done.
applicationClass.enhancedByteCode = ctClass.toBytecode();
ctClass.defrost();
return;
}
for (CtField ctField : ctClass.getDeclaredFields()) {
try {
if (isProperty(ctField)) {
// Property name
String propertyName =
ctField.getName().substring(0, 1).toUpperCase() + ctField.getName().substring(1);
String getter = "get" + propertyName;
String setter = "set" + propertyName;
try {
CtMethod ctMethod = ctClass.getDeclaredMethod(getter);
if (ctMethod.getParameterTypes().length > 0
|| Modifier.isStatic(ctMethod.getModifiers())) {
throw new NotFoundException("it's not a getter !");
}
} catch (NotFoundException noGetter) {
// Créé le getter
String code =
"public "
+ ctField.getType().getName()
+ " "
+ getter
+ "() { return this."
+ ctField.getName()
+ "; }";
CtMethod getMethod = CtMethod.make(code, ctClass);
getMethod.setModifiers(getMethod.getModifiers() | AccessFlag.SYNTHETIC);
ctClass.addMethod(getMethod);
}
if (!isFinal(ctField)) {
try {
CtMethod ctMethod = ctClass.getDeclaredMethod(setter);
if (ctMethod.getParameterTypes().length != 1
|| !ctMethod.getParameterTypes()[0].equals(ctField.getType())
|| Modifier.isStatic(ctMethod.getModifiers())) {
throw new NotFoundException("it's not a setter !");
}
} catch (NotFoundException noSetter) {
// Créé le setter
CtMethod setMethod =
CtMethod.make(
"public void "
+ setter
+ "("
+ ctField.getType().getName()
+ " value) { this."
+ ctField.getName()
+ " = value; }",
ctClass);
setMethod.setModifiers(setMethod.getModifiers() | AccessFlag.SYNTHETIC);
ctClass.addMethod(setMethod);
createAnnotation(getAnnotations(setMethod), PlayPropertyAccessor.class);
}
}
}
} catch (Exception e) {
Logger.error(e, "Error in PropertiesEnhancer");
throw new UnexpectedException("Error in PropertiesEnhancer", e);
}
}
// Add a default constructor if needed
try {
boolean hasDefaultConstructor = false;
for (CtConstructor constructor : ctClass.getDeclaredConstructors()) {
if (constructor.getParameterTypes().length == 0) {
hasDefaultConstructor = true;
break;
}
}
if (!hasDefaultConstructor) {
CtConstructor defaultConstructor = CtNewConstructor.defaultConstructor(ctClass);
ctClass.addConstructor(defaultConstructor);
}
} catch (Exception e) {
Logger.error(e, "Error in PropertiesEnhancer");
throw new UnexpectedException("Error in PropertiesEnhancer", e);
}
// Intercept all fields access
for (final CtBehavior ctMethod : ctClass.getDeclaredBehaviors()) {
ctMethod.instrument(
new ExprEditor() {
@Override
public void edit(FieldAccess fieldAccess) throws CannotCompileException {
try {
// Acces à une property ?
if (isProperty(fieldAccess.getField())) {
// TODO : vérifier que c'est bien un champ d'une classe de l'application
// (fieldAccess.getClassName())
// Si c'est un getter ou un setter
String propertyName = null;
if (fieldAccess
.getField()
.getDeclaringClass()
.equals(ctMethod.getDeclaringClass())
|| ctMethod
.getDeclaringClass()
.subclassOf(fieldAccess.getField().getDeclaringClass())) {
if ((ctMethod.getName().startsWith("get")
|| (!isFinal(fieldAccess.getField())
&& ctMethod.getName().startsWith("set")))
&& ctMethod.getName().length() > 3) {
propertyName = ctMethod.getName().substring(3);
propertyName =
propertyName.substring(0, 1).toLowerCase() + propertyName.substring(1);
}
}
// On n'intercepte pas le getter de sa propre property
if (propertyName == null || !propertyName.equals(fieldAccess.getFieldName())) {
String invocationPoint =
ctClass.getName()
+ "."
+ ctMethod.getName()
+ ", line "
+ fieldAccess.getLineNumber();
if (fieldAccess.isReader()) {
// Réécris l'accés en lecture à la property
fieldAccess.replace(
"$_ = ($r)play.classloading.enhancers.PropertiesEnhancer.FieldAccessor.invokeReadProperty($0, \""
+ fieldAccess.getFieldName()
+ "\", \""
+ fieldAccess.getClassName()
+ "\", \""
+ invocationPoint
+ "\");");
} else if (!isFinal(fieldAccess.getField()) && fieldAccess.isWriter()) {
// Réécris l'accés en ecriture à la property
fieldAccess.replace(
"play.classloading.enhancers.PropertiesEnhancer.FieldAccessor.invokeWriteProperty($0, \""
+ fieldAccess.getFieldName()
+ "\", "
+ fieldAccess.getField().getType().getName()
+ ".class, $1, \""
+ fieldAccess.getClassName()
+ "\", \""
+ invocationPoint
+ "\");");
}
}
}
} catch (Exception e) {
throw new UnexpectedException("Error in PropertiesEnhancer", e);
}
}
});
}
// Done.
applicationClass.enhancedByteCode = ctClass.toBytecode();
ctClass.defrost();
}
/**
* Creates a map of concrete json request handler invokers keyed by <b><code>
* <service-name>/<op-name></code></b>.
*
* @param handlerInstance The request handler instance to generate invokers for
* @return the map of generated invokers
*/
public static Map<String, Map<String, AbstractJSONRequestHandlerInvoker>> createInvokers(
Object handlerInstance) {
if (handlerInstance == null)
throw new IllegalArgumentException("The passed handlerInstance was null");
Map<String, AbstractJSONRequestHandlerInvoker> subInvokerMap =
new HashMap<String, AbstractJSONRequestHandlerInvoker>();
Map<String, Map<String, AbstractJSONRequestHandlerInvoker>> invokerMap =
invokerCache.get(handlerInstance.getClass());
if (invokerMap != null) {
LOG.info("Found Cached Invokers for [{}]", handlerInstance.getClass().getName());
return invokerMap;
}
invokerMap = new HashMap<String, Map<String, AbstractJSONRequestHandlerInvoker>>(1);
LOG.info("Generating Invokers for [{}]", handlerInstance.getClass().getName());
JSONRequestService svc = handlerInstance.getClass().getAnnotation(JSONRequestService.class);
final String invokerServiceKey = svc.name();
final String invokerServiceDescription = svc.description();
invokerMap.put(invokerServiceKey, subInvokerMap);
ClassPool cp = new ClassPool();
cp.appendClassPath(new ClassClassPath(handlerInstance.getClass()));
cp.appendClassPath(new ClassClassPath(AbstractJSONRequestHandlerInvoker.class));
cp.importPackage(handlerInstance.getClass().getPackage().getName());
Set<ClassLoader> classPathsAdded = new HashSet<ClassLoader>();
Set<String> packagesImported = new HashSet<String>();
try {
final CtClass jsonRequestCtClass = cp.get(JSONRequest.class.getName());
final CtClass parent = cp.get(AbstractJSONRequestHandlerInvoker.class.getName());
CtClass targetClass = cp.get(handlerInstance.getClass().getName());
Collection<Method> methods = getTargetMethods(handlerInstance.getClass());
for (Method m : methods) {
final JSONRequestHandler jsonHandler = m.getAnnotation(JSONRequestHandler.class);
final String opName = jsonHandler.name();
final String opDescription = jsonHandler.description();
final RequestType opType = jsonHandler.type();
int targetMethodHashCode = m.toGenericString().hashCode();
final String className =
String.format(
"%s-%s%s-%s-%s",
handlerInstance.getClass().getName(),
invokerServiceKey,
opName,
"ServiceInvoker",
targetMethodHashCode);
final CtClass invokerClass = cp.makeClass(className, parent);
CtField ctf = new CtField(targetClass, "typedTarget", invokerClass);
ctf.setModifiers(ctf.getModifiers() | Modifier.FINAL);
invokerClass.addField(ctf);
for (CtConstructor parentCtor : parent.getConstructors()) {
CtConstructor invokerCtor = CtNewConstructor.copy(parentCtor, invokerClass, null);
invokerCtor.setBody(
"{ super($$); typedTarget = (" + handlerInstance.getClass().getName() + ")$1; }");
invokerClass.addConstructor(invokerCtor);
}
CtMethod invokerMethod =
CtNewMethod.copy(
parent.getDeclaredMethod("doInvoke", new CtClass[] {jsonRequestCtClass}),
invokerClass,
null);
StringBuilder b = new StringBuilder("{this.typedTarget.").append(m.getName()).append("($1");
final Class<?>[] ptypes = m.getParameterTypes();
final int remainingParamCount = ptypes.length - 1;
// Set<Class<?>> classPathsAdded = new HashSet<Class<?>>();
// Set<String> packagesImported = new HashSet<String>();
if (remainingParamCount > 0) {
for (int i = 0; i < remainingParamCount; i++) {
final Class<?> type = ptypes[i + 1];
if (type.getName().contains("UniqueIdType")) {
System.err.println("Comin Up....");
}
if (type.isPrimitive()) {
b.append(", (").append(type.getName()).append(") null");
} else {
if (classPathsAdded.add(type.getClassLoader())) {
cp.appendClassPath(new LoaderClassPath(type.getClassLoader()));
}
try {
Package p = type.getPackage();
if (p == null) {
if (type.isArray()) {
if (!type.getComponentType().isPrimitive()) {
p = type.getComponentType().getPackage();
}
}
}
if (type.isEnum()) {
final String f = type.getEnclosingClass().getName() + "." + type.getSimpleName();
b.append(", (").append(f).append(") null");
String pack = type.getEnclosingClass().getPackage().getName();
if (packagesImported.add(pack)) {
cp.importPackage(pack);
}
continue;
}
if (p != null) {
if (packagesImported.add(p.getName())) {
cp.importPackage(p.getName());
}
}
} catch (Exception ex) {
ex.printStackTrace(System.err);
}
b.append(", (").append(type.getSimpleName()).append(") null");
}
}
}
b.append(");}");
System.out.println("[" + m.getName() + "]: [" + b.toString() + "]");
// invokerMethod.setBody("{this.typedTarget." + m.getName() + "($1);}");
invokerMethod.setBody(b.toString());
invokerMethod.setModifiers(invokerMethod.getModifiers() & ~Modifier.ABSTRACT);
invokerClass.addMethod(invokerMethod);
// invokerClass.writeFile(System.getProperty("java.io.tmpdir") + File.separator +
// "jsoninvokers");
Class<?> clazz =
invokerClass.toClass(
handlerInstance.getClass().getClassLoader(),
handlerInstance.getClass().getProtectionDomain());
Constructor<?> ctor =
clazz.getDeclaredConstructor(
Object.class,
String.class,
String.class,
String.class,
String.class,
RequestType.class);
AbstractJSONRequestHandlerInvoker invokerInstance =
(AbstractJSONRequestHandlerInvoker)
ctor.newInstance(
handlerInstance,
invokerServiceKey,
invokerServiceDescription,
opName,
opDescription,
opType);
subInvokerMap.put(opName, invokerInstance);
}
invokerCache.put(handlerInstance.getClass(), invokerMap);
return invokerMap;
} catch (Exception ex) {
LOG.error(
"Failed to create RequestHandlerInvoker for [{}]",
handlerInstance.getClass().getName(),
ex);
throw new RuntimeException(
"Failed to create RequestHandlerInvoker [" + handlerInstance.getClass().getName() + "]",
ex);
}
}
@Override
public byte[] transform(
ClassLoader loader,
String className,
Class<?> classBeingRedefined,
ProtectionDomain protectionDomain,
byte[] classfileBuffer)
throws IllegalClassFormatException {
// Be careful with Apache library usage in this class (e.g. ArrayUtils). Usage will likely cause
// a ClassCircularityError
// under JRebel. Favor not including outside libraries and unnecessary classes.
CtClass clazz = null;
try {
boolean mySkipOverlaps = skipOverlaps;
boolean myRenameMethodOverlaps = renameMethodOverlaps;
String convertedClassName = className.replace('/', '.');
ClassPool classPool = null;
String xformKey = convertedClassName;
String[] xformVals = null;
Boolean[] xformSkipOverlaps = null;
Boolean[] xformRenameMethodOverlaps = null;
if (!xformTemplates.isEmpty()) {
if (xformTemplates.containsKey(xformKey)) {
xformVals = xformTemplates.get(xformKey).split(",");
classPool = ClassPool.getDefault();
clazz = classPool.makeClass(new ByteArrayInputStream(classfileBuffer), false);
}
} else {
if (annotationTransformedClasses.contains(convertedClassName)) {
logger.warn(
convertedClassName
+ " has already been transformed by a previous instance of DirectCopyTransfomer. "
+ "Skipping this annotation based transformation. Generally, annotation-based transformation is handled "
+ "by bean id blAnnotationDirectCopyClassTransformer with template tokens being added to "
+ "blDirectCopyTransformTokenMap via EarlyStageMergeBeanPostProcessor.");
}
boolean isValidPattern = true;
List<DirectCopyIgnorePattern> matchedPatterns = new ArrayList<DirectCopyIgnorePattern>();
for (DirectCopyIgnorePattern pattern : ignorePatterns) {
boolean isPatternMatch = false;
for (String patternString : pattern.getPatterns()) {
isPatternMatch = convertedClassName.matches(patternString);
if (isPatternMatch) {
break;
}
}
if (isPatternMatch) {
matchedPatterns.add(pattern);
}
isValidPattern = !(isPatternMatch && pattern.getTemplateTokenPatterns() == null);
if (!isValidPattern) {
return null;
}
}
if (isValidPattern) {
classPool = ClassPool.getDefault();
clazz = classPool.makeClass(new ByteArrayInputStream(classfileBuffer), false);
List<?> attributes = clazz.getClassFile().getAttributes();
Iterator<?> itr = attributes.iterator();
List<String> templates = new ArrayList<String>();
List<Boolean> skips = new ArrayList<Boolean>();
List<Boolean> renames = new ArrayList<Boolean>();
check:
{
while (itr.hasNext()) {
Object object = itr.next();
if (AnnotationsAttribute.class.isAssignableFrom(object.getClass())) {
AnnotationsAttribute attr = (AnnotationsAttribute) object;
Annotation[] items = attr.getAnnotations();
for (Annotation annotation : items) {
String typeName = annotation.getTypeName();
if (typeName.equals(DirectCopyTransform.class.getName())) {
ArrayMemberValue arrayMember =
(ArrayMemberValue) annotation.getMemberValue("value");
for (MemberValue arrayMemberValue : arrayMember.getValue()) {
AnnotationMemberValue member = (AnnotationMemberValue) arrayMemberValue;
Annotation memberAnnot = member.getValue();
ArrayMemberValue annot =
(ArrayMemberValue) memberAnnot.getMemberValue("templateTokens");
for (MemberValue memberValue : annot.getValue()) {
String val = ((StringMemberValue) memberValue).getValue();
if (val != null && templateTokens.containsKey(val)) {
templateCheck:
{
for (DirectCopyIgnorePattern matchedPattern : matchedPatterns) {
for (String ignoreToken : matchedPattern.getTemplateTokenPatterns()) {
if (val.matches(ignoreToken)) {
break templateCheck;
}
}
}
templates.add(templateTokens.get(val));
}
}
}
BooleanMemberValue skipAnnot =
(BooleanMemberValue) memberAnnot.getMemberValue("skipOverlaps");
if (skipAnnot != null) {
skips.add(skipAnnot.getValue());
} else {
skips.add(mySkipOverlaps);
}
BooleanMemberValue renameAnnot =
(BooleanMemberValue) memberAnnot.getMemberValue("renameMethodOverlaps");
if (renameAnnot != null) {
renames.add(renameAnnot.getValue());
} else {
renames.add(myRenameMethodOverlaps);
}
}
xformVals = templates.toArray(new String[templates.size()]);
xformSkipOverlaps = skips.toArray(new Boolean[skips.size()]);
xformRenameMethodOverlaps = renames.toArray(new Boolean[renames.size()]);
break check;
}
}
}
}
}
}
}
if (xformVals != null && xformVals.length > 0) {
logger.lifecycle(
LifeCycleEvent.START,
String.format(
"Transform - Copying into [%s] from [%s]",
xformKey, StringUtils.join(xformVals, ",")));
// Load the destination class and defrost it so it is eligible for modifications
clazz.defrost();
int index = 0;
for (String xformVal : xformVals) {
// Load the source class
String trimmed = xformVal.trim();
classPool.appendClassPath(new LoaderClassPath(Class.forName(trimmed).getClassLoader()));
CtClass template = classPool.get(trimmed);
// Add in extra interfaces
CtClass[] interfacesToCopy = template.getInterfaces();
for (CtClass i : interfacesToCopy) {
checkInterfaces:
{
CtClass[] myInterfaces = clazz.getInterfaces();
for (CtClass myInterface : myInterfaces) {
if (myInterface.getName().equals(i.getName())) {
if (xformSkipOverlaps[index]) {
break checkInterfaces;
} else {
throw new RuntimeException(
"Duplicate interface detected " + myInterface.getName());
}
}
}
logger.debug(String.format("Adding interface [%s]", i.getName()));
clazz.addInterface(i);
}
}
// copy over any EntityListeners
ClassFile classFile = clazz.getClassFile();
ClassFile templateFile = template.getClassFile();
ConstPool constantPool = classFile.getConstPool();
buildClassLevelAnnotations(classFile, templateFile, constantPool);
// Copy over all declared fields from the template class
// Note that we do not copy over fields with the @NonCopiedField annotation
CtField[] fieldsToCopy = template.getDeclaredFields();
for (CtField field : fieldsToCopy) {
if (field.hasAnnotation(NonCopied.class)) {
logger.debug(String.format("Not adding field [%s]", field.getName()));
} else {
try {
CtField ctField = clazz.getDeclaredField(field.getName());
String originalSignature = ctField.getSignature();
String mySignature = field.getSignature();
if (!originalSignature.equals(mySignature)) {
throw new IllegalArgumentException(
"Field with name ("
+ field.getName()
+ ") and signature "
+ "("
+ field.getSignature()
+ ") is targeted for weaving into ("
+ clazz.getName()
+ "). "
+ "An incompatible field of the same name and signature of ("
+ ctField.getSignature()
+ ") "
+ "already exists. The field in the target class should be updated to a different name, "
+ "or made to have a matching type.");
}
if (xformSkipOverlaps[index]) {
logger.debug(String.format("Skipping overlapped field [%s]", field.getName()));
continue;
}
} catch (NotFoundException e) {
// do nothing -- field does not exist
}
logger.debug(String.format("Adding field [%s]", field.getName()));
CtField copiedField = new CtField(field, clazz);
boolean defaultConstructorFound = false;
String implClass = getImplementationType(field.getType().getName());
// Look through all of the constructors in the implClass to see
// if there is one that takes zero parameters
try {
CtConstructor[] implConstructors = classPool.get(implClass).getConstructors();
if (implConstructors != null) {
for (CtConstructor cons : implConstructors) {
if (cons.getParameterTypes().length == 0) {
defaultConstructorFound = true;
break;
}
}
}
} catch (NotFoundException e) {
// Do nothing -- if we don't find this implementation, it's probably because it's
// an array. In this case, we will not initialize the field.
}
if (defaultConstructorFound) {
clazz.addField(copiedField, "new " + implClass + "()");
} else {
clazz.addField(copiedField);
}
}
}
// Copy over all declared methods from the template class
CtMethod[] methodsToCopy = template.getDeclaredMethods();
for (CtMethod method : methodsToCopy) {
if (method.hasAnnotation(NonCopied.class)) {
logger.debug(String.format("Not adding method [%s]", method.getName()));
} else {
try {
CtClass[] paramTypes = method.getParameterTypes();
CtMethod originalMethod = clazz.getDeclaredMethod(method.getName(), paramTypes);
if (xformSkipOverlaps[index]) {
logger.debug(
String.format(
"Skipping overlapped method [%s]", methodDescription(originalMethod)));
continue;
}
if (transformedMethods.contains(methodDescription(originalMethod))) {
throw new RuntimeException(
"Method already replaced " + methodDescription(originalMethod));
} else {
logger.debug(
String.format("Marking as replaced [%s]", methodDescription(originalMethod)));
transformedMethods.add(methodDescription(originalMethod));
}
logger.debug(String.format("Removing method [%s]", method.getName()));
if (xformRenameMethodOverlaps[index]) {
originalMethod.setName(renameMethodPrefix + method.getName());
} else {
clazz.removeMethod(originalMethod);
}
} catch (NotFoundException e) {
// Do nothing -- we don't need to remove a method because it doesn't exist
}
logger.debug(String.format("Adding method [%s]", method.getName()));
CtMethod copiedMethod = new CtMethod(method, clazz, null);
clazz.addMethod(copiedMethod);
}
}
index++;
}
if (xformTemplates.isEmpty()) {
annotationTransformedClasses.add(convertedClassName);
}
logger.lifecycle(
LifeCycleEvent.END,
String.format(
"Transform - Copying into [%s] from [%s]",
xformKey, StringUtils.join(xformVals, ",")));
return clazz.toBytecode();
}
} catch (ClassCircularityError error) {
error.printStackTrace();
throw error;
} catch (Exception e) {
throw new RuntimeException("Unable to transform class", e);
} finally {
if (clazz != null) {
clazz.detach();
}
}
return null;
}
@Override
public byte[] transform(
ClassLoader loader,
String className,
Class<?> classBeingRedefined,
ProtectionDomain protectionDomain,
byte[] classfileBuffer)
throws IllegalClassFormatException {
String convertedClassName = className.replace('/', '.');
if (xformTemplates.containsKey(convertedClassName)) {
String xformKey = convertedClassName;
String[] xformVals = xformTemplates.get(xformKey).split(",");
logger.lifecycle(
LifeCycleEvent.START,
String.format(
"Transform - Copying into [%s] from [%s]",
xformKey, StringUtils.join(xformVals, ",")));
try {
// Load the destination class and defrost it so it is eligible for modifications
ClassPool classPool = ClassPool.getDefault();
CtClass clazz = classPool.makeClass(new ByteArrayInputStream(classfileBuffer), false);
clazz.defrost();
for (String xformVal : xformVals) {
// Load the source class
String trimmed = xformVal.trim();
classPool.appendClassPath(new LoaderClassPath(Class.forName(trimmed).getClassLoader()));
CtClass template = classPool.get(trimmed);
// Add in extra interfaces
CtClass[] interfacesToCopy = template.getInterfaces();
for (CtClass i : interfacesToCopy) {
logger.debug(String.format("Adding interface [%s]", i.getName()));
clazz.addInterface(i);
}
// Copy over all declared fields from the template class
// Note that we do not copy over fields with the @NonCopiedField annotation
CtField[] fieldsToCopy = template.getDeclaredFields();
for (CtField field : fieldsToCopy) {
if (field.hasAnnotation(NonCopied.class)) {
logger.debug(String.format("Not adding field [%s]", field.getName()));
} else {
logger.debug(String.format("Adding field [%s]", field.getName()));
CtField copiedField = new CtField(field, clazz);
boolean defaultConstructorFound = false;
String implClass = getImplementationType(field.getType().getName());
// Look through all of the constructors in the implClass to see
// if there is one that takes zero parameters
try {
CtConstructor[] implConstructors = classPool.get(implClass).getConstructors();
if (implConstructors != null) {
for (CtConstructor cons : implConstructors) {
if (cons.getParameterTypes().length == 0) {
defaultConstructorFound = true;
break;
}
}
}
} catch (NotFoundException e) {
// Do nothing -- if we don't find this implementation, it's probably because it's
// an array. In this case, we will not initialize the field.
}
if (defaultConstructorFound) {
clazz.addField(copiedField, "new " + implClass + "()");
} else {
clazz.addField(copiedField);
}
}
}
// Copy over all declared methods from the template class
CtMethod[] methodsToCopy = template.getDeclaredMethods();
for (CtMethod method : methodsToCopy) {
if (method.hasAnnotation(NonCopied.class)) {
logger.debug(String.format("Not adding method [%s]", method.getName()));
} else {
try {
CtClass[] paramTypes = method.getParameterTypes();
CtMethod originalMethod = clazz.getDeclaredMethod(method.getName(), paramTypes);
if (transformedMethods.contains(methodDescription(originalMethod))) {
throw new RuntimeException(
"Method already replaced " + methodDescription(originalMethod));
} else {
logger.debug(
String.format("Marking as replaced [%s]", methodDescription(originalMethod)));
transformedMethods.add(methodDescription(originalMethod));
}
logger.debug(String.format("Removing method [%s]", method.getName()));
clazz.removeMethod(originalMethod);
} catch (NotFoundException e) {
// Do nothing -- we don't need to remove a method because it doesn't exist
}
logger.debug(String.format("Adding method [%s]", method.getName()));
CtMethod copiedMethod = new CtMethod(method, clazz, null);
clazz.addMethod(copiedMethod);
}
}
}
logger.lifecycle(
LifeCycleEvent.END,
String.format(
"Transform - Copying into [%s] from [%s]",
xformKey, StringUtils.join(xformVals, ",")));
return clazz.toBytecode();
} catch (Exception e) {
throw new RuntimeException("Unable to transform class", e);
}
}
return null;
}
@Override
public void enhanceThisClass(ApplicationClass applicationClass) throws Exception {
CtClass ctClass = makeClass(applicationClass);
String entityName = ctClass.getName();
Logger.debug("Enhance class " + entityName);
// Only enhance Neo4jModel classes.
if (!ctClass.subtypeOf(classPool.get("play.modules.neo4j.model.Neo4jModel"))) {
return;
}
// Add a default constructor if needed
try {
for (CtConstructor constructor : ctClass.getDeclaredConstructors()) {
if (constructor.getParameterTypes().length == 0) {
ctClass.removeConstructor(constructor);
}
if (constructor.getParameterTypes().length == 1
&& constructor.getParameterTypes()[0].getClass().isInstance(Node.class)) {
ctClass.removeConstructor(constructor);
}
}
if (!ctClass.isInterface()) {
Logger.debug("Adding default constructor");
CtConstructor defaultConstructor =
CtNewConstructor.make("public " + ctClass.getSimpleName() + "() { super();}", ctClass);
ctClass.addConstructor(defaultConstructor);
}
} catch (Exception e) {
Logger.error(e, "Error in PropertiesEnhancer");
throw new UnexpectedException("Error in PropertiesEnhancer", e);
}
// for all field, we add getter / setter
for (CtField ctField : ctClass.getDeclaredFields()) {
try {
// Property name
String propertyName =
ctField.getName().substring(0, 1).toUpperCase() + ctField.getName().substring(1);
String getter = "get" + propertyName;
String setter = "set" + propertyName;
Logger.debug("Field " + ctField.getName() + " is a property ?");
if (isProperty(ctField)) {
Logger.debug("true");
// ~~~~~~~~~
// GETTER
// ~~~~~~~
try {
CtMethod ctMethod = ctClass.getDeclaredMethod(getter);
if (!ctMethod.getName().equalsIgnoreCase("getShouldBeSave")) {
ctClass.removeMethod(ctMethod);
throw new NotFoundException("it's not a true getter !");
}
} catch (NotFoundException noGetter) {
// create getter
Logger.debug("Adding getter " + getter + " for class " + entityName);
// @formatter:off
String code =
"public "
+ ctField.getType().getName()
+ " "
+ getter
+ "() {"
+ "if(this.shouldBeSave == Boolean.FALSE && this.node != null){"
+ "return (("
+ ctField.getType().getName()
+ ") play.modules.neo4j.util.Binder.bindFromNeo4jFormat(this.node.getProperty(\""
+ ctField.getName()
+ "\", null),"
+ ctField.getType().getName()
+ ".class ));"
+ "}else{"
+ "return "
+ ctField.getName()
+ ";"
+ "}"
+ "}";
// @formatter:on
Logger.debug(code);
CtMethod getMethod = CtMethod.make(code, ctClass);
ctClass.addMethod(getMethod);
}
// ~~~~~~~~~
// SETTER
// ~~~~~~~
try {
CtMethod ctMethod = ctClass.getDeclaredMethod(setter);
if (ctMethod.getParameterTypes().length != 1
|| !ctMethod.getParameterTypes()[0].equals(ctField.getType())
|| Modifier.isStatic(ctMethod.getModifiers())
|| hasPlayPropertiesAccessorAnnotation(ctMethod)) {
if (hasPlayPropertiesAccessorAnnotation(ctMethod)) {
ctClass.removeMethod(ctMethod);
}
throw new NotFoundException("it's not a true setter !");
}
} catch (NotFoundException noSetter) {
// create setter
Logger.debug("Adding setter " + setter + " for class " + entityName);
// @formatter:off
String code =
"public void "
+ setter
+ "("
+ ctField.getType().getName()
+ " value) { "
+ "this."
+ ctField.getName()
+ " = value;"
+ "this.shouldBeSave = Boolean.TRUE;"
+ "}";
// formatter:on
CtMethod setMethod = CtMethod.make(code, ctClass);
Logger.debug(code);
ctClass.addMethod(setMethod);
}
} else {
// ~~~~~~~~~
// GETTER for neo4j relation property
// ~~~~~~~
if (hasNeo4jRelationAnnotation(ctField)) {
// test for related annotation
Neo4jRelatedTo relatedTo = getRelatedAnnotation(ctField);
if (relatedTo != null) {
CtMethod ctMethod = ctClass.getDeclaredMethod(getter);
ctClass.removeMethod(ctMethod);
String code;
if (relatedTo.lazy()) {
// @formatter:off
code =
"public "
+ ctField.getType().getName()
+ " "
+ getter
+ "() {"
+ "if(this."
+ ctField.getName()
+ " == null){"
+ "java.lang.reflect.Field field = this.getClass().getField(\""
+ ctField.getName()
+ "\");"
+ "this."
+ ctField.getName()
+ "=play.modules.neo4j.relationship.Neo4jRelationFactory.getModelsFromRelation(\""
+ relatedTo.value()
+ "\", \""
+ relatedTo.direction()
+ "\", field, this.node);"
+ "}"
+ "return "
+ ctField.getName()
+ ";"
+ "}";
// @formatter:on
} else {
// @formatter:off
code =
"public "
+ ctField.getType().getName()
+ " "
+ getter
+ "() {"
+ "return "
+ ctField.getName()
+ ";"
+ "}";
// @formatter:on
}
Logger.debug(code);
CtMethod method = CtMethod.make(code, ctClass);
ctClass.addMethod(method);
}
// test for unique relation annotation
Neo4jUniqueRelation uniqueRelation = getUniqueRelationAnnotation(ctField);
if (uniqueRelation != null) {
CtMethod ctMethod = ctClass.getDeclaredMethod(getter);
ctClass.removeMethod(ctMethod);
String code;
// @formatter:off
code =
"public "
+ ctField.getType().getName()
+ " "
+ getter
+ "() {"
+ "return ("
+ ctField.getType().getName()
+ ")"
+ ctField.getName()
+ ";"
+ "}";
// @formatter:on
Logger.debug(code);
CtMethod method = CtMethod.make(code, ctClass);
ctClass.addMethod(method);
}
}
}
} catch (Exception e) {
Logger.error(e, "Error in PropertiesEnhancer");
throw new UnexpectedException("Error in PropertiesEnhancer", e);
}
}
// Adding getByKey() method
Logger.debug("Adding getByKey() method for class " + entityName);
// @formatter:off
String codeGetByKey =
"public static play.modules.neo4j.model.Neo4jModel getByKey(Long key) throws play.modules.neo4j.exception.Neo4jException {"
+ "return ("
+ entityName
+ ")_getByKey(key, \""
+ entityName
+ "\");"
+ "}";
// @formatter:on
Logger.debug(codeGetByKey);
CtMethod getByKeyMethod = CtMethod.make(codeGetByKey, ctClass);
ctClass.addMethod(getByKeyMethod);
// ~~~~~~~~~~~~~~~
// Adding findAll() method
// @formatter:off
String codeFindAll =
"public static java.util.List findAll() {"
+ "return "
+ entityName
+ "._findAll(\""
+ entityName
+ "\");"
+ "}";
// @formatter:on
Logger.debug(codeFindAll);
CtMethod findAllMethod = CtMethod.make(codeFindAll, ctClass);
ctClass.addMethod(findAllMethod);
// ~~~~~~~~~~~~~~~
// Adding queryIndex() method
// @formatter:off
String queryIndex =
"public static java.util.List queryIndex(String indexname, String query) {"
+ "return "
+ entityName
+ "._queryIndex(indexname, query);"
+ "}";
// @formatter:on
Logger.debug(queryIndex);
CtMethod queryIndexMethod = CtMethod.make(queryIndex, ctClass);
ctClass.addMethod(queryIndexMethod);
// Done.
applicationClass.enhancedByteCode = ctClass.toBytecode();
ctClass.defrost();
}
public ClazzInfo classProcessing(String clazzName)
throws NotFoundException, CannotCompileException {
ClassPool classPool = ClassPool.getDefault();
CtClass cz = classPool.get(clazzName);
classPool.importPackage(clazzName); // 继承
classPool.importPackage("java.lang.reflect.Method"); // 添加反射引用
CtClass newClass = classPool.makeClass(clazzName + "$MC_IMPL"); // 新建代理类
newClass.setSuperclass(cz); // 继承
// 构造块
CtConstructor tempC;
CtConstructor[] ctConstructors = cz.getDeclaredConstructors();
newClass.addConstructor(CtNewConstructor.defaultConstructor(newClass));
for (CtConstructor c : ctConstructors) {
try {
tempC = CtNewConstructor.copy(c, newClass, null);
tempC.setBody("{super($$);}");
newClass.addConstructor(tempC);
} catch (Exception e) {
// e.printStackTrace();
}
}
// 字段块
// CtField[] ctFields = cz.getDeclaredFields();
// for (CtField f : ctFields)
// System.out.println(f.getFieldInfo().getConstantValue());
// 方法块
CtMethod[] ctMethods = cz.getDeclaredMethods();
CtMethod tempM; // 复制方法名
Map<String, Method> tempMethod = new HashMap<String, Method>();
for (CtMethod m : ctMethods) {
tempMethod.put(
String.format(
"%s %s %s(%s);",
Modifier.toString(m.getModifiers()),
m.getReturnType().getName(),
m.getName(),
Util.getParameterTypes(m.getParameterTypes())),
null);
// System.err.println(String.format("%s %s %s(%s);", Modifier.toString(m.getModifiers()),
// m.getReturnType().getName(), m.getName(), Util.getParameterTypes(m.getParameterTypes())));
tempM = CtNewMethod.copy(m, newClass, null);
if ("void".equals(tempM.getReturnType().getName()))
tempM.setBody("{super." + tempM.getName() + "($$);}");
else tempM.setBody("{ return super." + tempM.getName() + "($$);}");
// CtNewMethod.make(src, declaring, delegateObj, delegateMethod)
// 方法修改
// if (m.getName().equals("x")) {
// //tempM.setBody("{$proceed($$);}", "this", "mba");
// //tempM.setBody("{n nn = new n();" + "Method a = n.class.getDeclaredMethod(\"a\", new
// Class[] { Integer.TYPE });" + "a.invoke(nn, new Object[] { Integer.valueOf(1) });}");
// tempM.setBody("{Method a = n.class.getDeclaredMethod(\"axx\", new Class[] { Integer.TYPE
// });}");
// }
newClass.addMethod(tempM);
}
// 测试输出
try {
newClass.writeFile("D:/Desktop");
} catch (IOException e) {
e.printStackTrace();
}
// Class clazz = newClass.toClass();
// System.out.println(clazz.getCanonicalName());
// DefaultCachePoolFactory.newInstance().addNFloop4Map(new ClazzInfo(clazz, tempMethod),
// DefaultPool.NORNAL_BEAN, clazz.getCanonicalName());
// return clazz;
return new ClazzInfo(newClass.toClass(), tempMethod);
}
@InitMethod
static void initClass(CtClass c) throws CannotCompileException {
CtConstructor cons = JavassistUtils.findConstructor(c);
cons.insertAfter("getElement().getStyle().setProperty(\"visibility\", \"hidden\");");
}
