org.hibernate.bytecode.enhance.internal.bytebuddy.EnhancerImpl Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of hibernate-core Show documentation
Show all versions of hibernate-core Show documentation
Hibernate's core ORM functionality
/*
* Hibernate, Relational Persistence for Idiomatic Java
*
* License: GNU Lesser General Public License (LGPL), version 2.1 or later.
* See the lgpl.txt file in the root directory or .
*/
package org.hibernate.bytecode.enhance.internal.bytebuddy;
import static net.bytebuddy.matcher.ElementMatchers.isDefaultFinalizer;
import java.io.IOException;
import java.lang.annotation.Annotation;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import java.util.Optional;
import javax.persistence.Access;
import javax.persistence.AccessType;
import javax.persistence.Transient;
import org.hibernate.bytecode.enhance.internal.tracker.CompositeOwnerTracker;
import org.hibernate.bytecode.enhance.internal.tracker.DirtyTracker;
import org.hibernate.bytecode.enhance.spi.CollectionTracker;
import org.hibernate.bytecode.enhance.spi.EnhancementContext;
import org.hibernate.bytecode.enhance.spi.EnhancementException;
import org.hibernate.bytecode.enhance.spi.Enhancer;
import org.hibernate.bytecode.enhance.spi.EnhancerConstants;
import org.hibernate.bytecode.enhance.spi.UnloadedField;
import org.hibernate.bytecode.enhance.spi.interceptor.LazyAttributeLoadingInterceptor;
import org.hibernate.bytecode.internal.bytebuddy.ByteBuddyState;
import org.hibernate.engine.spi.CompositeOwner;
import org.hibernate.engine.spi.CompositeTracker;
import org.hibernate.engine.spi.EntityEntry;
import org.hibernate.engine.spi.ExtendedSelfDirtinessTracker;
import org.hibernate.engine.spi.Managed;
import org.hibernate.engine.spi.ManagedComposite;
import org.hibernate.engine.spi.ManagedEntity;
import org.hibernate.engine.spi.ManagedMappedSuperclass;
import org.hibernate.engine.spi.PersistentAttributeInterceptable;
import org.hibernate.engine.spi.PersistentAttributeInterceptor;
import org.hibernate.engine.spi.SelfDirtinessTracker;
import org.hibernate.internal.CoreLogging;
import org.hibernate.internal.CoreMessageLogger;
import net.bytebuddy.asm.Advice;
import net.bytebuddy.description.annotation.AnnotationDescription;
import net.bytebuddy.description.annotation.AnnotationList;
import net.bytebuddy.description.field.FieldDescription;
import net.bytebuddy.description.field.FieldDescription.InDefinedShape;
import net.bytebuddy.description.method.MethodDescription;
import net.bytebuddy.description.modifier.FieldPersistence;
import net.bytebuddy.description.modifier.Visibility;
import net.bytebuddy.description.type.TypeDefinition;
import net.bytebuddy.description.type.TypeDescription;
import net.bytebuddy.description.type.TypeDescription.Generic;
import net.bytebuddy.dynamic.ClassFileLocator;
import net.bytebuddy.dynamic.DynamicType;
import net.bytebuddy.implementation.FieldAccessor;
import net.bytebuddy.implementation.FixedValue;
import net.bytebuddy.implementation.Implementation;
import net.bytebuddy.implementation.StubMethod;
import net.bytebuddy.pool.TypePool;
public class EnhancerImpl implements Enhancer {
private static final CoreMessageLogger log = CoreLogging.messageLogger( Enhancer.class );
protected final ByteBuddyEnhancementContext enhancementContext;
private final ByteBuddyState byteBuddyState;
private final EnhancerClassFileLocator classFileLocator;
private final TypePool typePool;
/**
* Extract the following constants so that enhancement on large projects
* can be done efficiently: otherwise each instance use will trigger a
* resource load on the ClassLoader tree, triggering allocation of
* several streams to unzip each JAR file each time.
*/
private final ClassFileLocator adviceLocator = ClassFileLocator.ForClassLoader.of(CodeTemplates.class.getClassLoader());
private final Implementation implementationTrackChange = Advice.to( CodeTemplates.TrackChange.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationGetDirtyAttributesWithoutCollections = Advice.to( CodeTemplates.GetDirtyAttributesWithoutCollections.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationAreFieldsDirtyWithoutCollections = Advice.to( CodeTemplates.AreFieldsDirtyWithoutCollections.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationClearDirtyAttributesWithoutCollections = Advice.to( CodeTemplates.ClearDirtyAttributesWithoutCollections.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationSuspendDirtyTracking = Advice.to( CodeTemplates.SuspendDirtyTracking.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationGetDirtyAttributes = Advice.to( CodeTemplates.GetDirtyAttributes.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationAreFieldsDirty = Advice.to( CodeTemplates.AreFieldsDirty.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationGetCollectionTrackerWithoutCollections = Advice.to( CodeTemplates.GetCollectionTrackerWithoutCollections.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationClearDirtyAttributes = Advice.to( CodeTemplates.ClearDirtyAttributes.class, adviceLocator ).wrap( StubMethod.INSTANCE );
//In this case we just extract the Advice:
private final Advice adviceInitializeLazyAttributeLoadingInterceptor = Advice.to( CodeTemplates.InitializeLazyAttributeLoadingInterceptor.class, adviceLocator );
private final Implementation implementationSetOwner = Advice.to( CodeTemplates.SetOwner.class, adviceLocator ).wrap( StubMethod.INSTANCE );
private final Implementation implementationClearOwner = Advice.to( CodeTemplates.ClearOwner.class, adviceLocator ).wrap( StubMethod.INSTANCE );
/**
* Constructs the Enhancer, using the given context.
*
* @param enhancementContext Describes the context in which enhancement will occur so as to give access
* to contextual/environmental information.
* @param byteBuddyState refers to the ByteBuddy instance to use
*/
public EnhancerImpl(final EnhancementContext enhancementContext, final ByteBuddyState byteBuddyState) {
this.enhancementContext = new ByteBuddyEnhancementContext( enhancementContext );
this.byteBuddyState = byteBuddyState;
this.classFileLocator = new EnhancerClassFileLocator( enhancementContext.getLoadingClassLoader() );
this.typePool = buildTypePool( classFileLocator );
}
/**
* Performs the enhancement.
*
* @param className The name of the class whose bytecode is being enhanced.
* @param originalBytes The class's original (pre-enhancement) byte code
*
* @return The enhanced bytecode. Could be the same as the original bytecode if the original was
* already enhanced or we could not enhance it for some reason.
*
* @throws EnhancementException Indicates a problem performing the enhancement
*/
@Override
public byte[] enhance(String className, byte[] originalBytes) throws EnhancementException {
//Classpool#describe does not accept '/' in the description name as it expects a class name. See HHH-12545
final String safeClassName = className.replace( '/', '.' );
classFileLocator.setClassNameAndBytes( safeClassName, originalBytes );
try {
final TypeDescription typeDescription = typePool.describe( safeClassName ).resolve();
return byteBuddyState.rewrite( typePool, safeClassName, byteBuddy -> doEnhance(
byteBuddy.ignore( isDefaultFinalizer() ).redefine( typeDescription, ClassFileLocator.Simple.of( safeClassName, originalBytes ) ),
typeDescription
) );
}
catch (RuntimeException e) {
throw new EnhancementException( "Failed to enhance class " + className, e );
}
}
private TypePool buildTypePool(final ClassFileLocator classFileLocator) {
return TypePool.Default.WithLazyResolution.of( classFileLocator );
}
private DynamicType.Builder doEnhance(DynamicType.Builder builder, TypeDescription managedCtClass) {
// can't effectively enhance interfaces
if ( managedCtClass.isInterface() ) {
log.debugf( "Skipping enhancement of [%s]: it's an interface!", managedCtClass.getName() );
return null;
}
// skip already enhanced classes
if ( alreadyEnhanced( managedCtClass ) ) {
log.debugf( "Skipping enhancement of [%s]: already enhanced", managedCtClass.getName() );
return null;
}
if ( enhancementContext.isEntityClass( managedCtClass ) ) {
log.debugf( "Enhancing [%s] as Entity", managedCtClass.getName() );
builder = builder.implement( ManagedEntity.class )
.defineMethod( EnhancerConstants.ENTITY_INSTANCE_GETTER_NAME, Object.class, Visibility.PUBLIC )
.intercept( FixedValue.self() );
builder = addFieldWithGetterAndSetter(
builder,
EntityEntry.class,
EnhancerConstants.ENTITY_ENTRY_FIELD_NAME,
EnhancerConstants.ENTITY_ENTRY_GETTER_NAME,
EnhancerConstants.ENTITY_ENTRY_SETTER_NAME
);
builder = addFieldWithGetterAndSetter(
builder,
ManagedEntity.class,
EnhancerConstants.PREVIOUS_FIELD_NAME,
EnhancerConstants.PREVIOUS_GETTER_NAME,
EnhancerConstants.PREVIOUS_SETTER_NAME
);
builder = addFieldWithGetterAndSetter(
builder,
ManagedEntity.class,
EnhancerConstants.NEXT_FIELD_NAME,
EnhancerConstants.NEXT_GETTER_NAME,
EnhancerConstants.NEXT_SETTER_NAME
);
builder = addInterceptorHandling( builder, managedCtClass );
if ( enhancementContext.doDirtyCheckingInline( managedCtClass ) ) {
List collectionFields = collectCollectionFields( managedCtClass );
if ( collectionFields.isEmpty() ) {
builder = builder.implement( SelfDirtinessTracker.class )
.defineField( EnhancerConstants.TRACKER_FIELD_NAME, DirtyTracker.class, FieldPersistence.TRANSIENT, Visibility.PRIVATE )
.annotateField( AnnotationDescription.Builder.ofType( Transient.class ).build() )
.defineMethod( EnhancerConstants.TRACKER_CHANGER_NAME, void.class, Visibility.PUBLIC )
.withParameters( String.class )
.intercept( implementationTrackChange )
.defineMethod( EnhancerConstants.TRACKER_GET_NAME, String[].class, Visibility.PUBLIC )
.intercept( implementationGetDirtyAttributesWithoutCollections )
.defineMethod( EnhancerConstants.TRACKER_HAS_CHANGED_NAME, boolean.class, Visibility.PUBLIC )
.intercept( implementationAreFieldsDirtyWithoutCollections )
.defineMethod( EnhancerConstants.TRACKER_CLEAR_NAME, void.class, Visibility.PUBLIC )
.intercept( implementationClearDirtyAttributesWithoutCollections )
.defineMethod( EnhancerConstants.TRACKER_SUSPEND_NAME, void.class, Visibility.PUBLIC )
.withParameters( boolean.class )
.intercept( implementationSuspendDirtyTracking )
.defineMethod( EnhancerConstants.TRACKER_COLLECTION_GET_NAME, CollectionTracker.class, Visibility.PUBLIC )
.intercept( implementationGetCollectionTrackerWithoutCollections );
}
else {
builder = builder.implement( ExtendedSelfDirtinessTracker.class )
.defineField( EnhancerConstants.TRACKER_FIELD_NAME, DirtyTracker.class, FieldPersistence.TRANSIENT, Visibility.PRIVATE )
.annotateField( AnnotationDescription.Builder.ofType( Transient.class ).build() )
.defineField( EnhancerConstants.TRACKER_COLLECTION_NAME, CollectionTracker.class, FieldPersistence.TRANSIENT, Visibility.PRIVATE )
.annotateField( AnnotationDescription.Builder.ofType( Transient.class ).build() )
.defineMethod( EnhancerConstants.TRACKER_CHANGER_NAME, void.class, Visibility.PUBLIC )
.withParameters( String.class )
.intercept( implementationTrackChange )
.defineMethod( EnhancerConstants.TRACKER_GET_NAME, String[].class, Visibility.PUBLIC )
.intercept( implementationGetDirtyAttributes )
.defineMethod( EnhancerConstants.TRACKER_HAS_CHANGED_NAME, boolean.class, Visibility.PUBLIC )
.intercept( implementationAreFieldsDirty )
.defineMethod( EnhancerConstants.TRACKER_CLEAR_NAME, void.class, Visibility.PUBLIC )
.intercept( implementationClearDirtyAttributes )
.defineMethod( EnhancerConstants.TRACKER_SUSPEND_NAME, void.class, Visibility.PUBLIC )
.withParameters( boolean.class )
.intercept( implementationSuspendDirtyTracking )
.defineMethod( EnhancerConstants.TRACKER_COLLECTION_GET_NAME, CollectionTracker.class, Visibility.PUBLIC )
.intercept( FieldAccessor.ofField( EnhancerConstants.TRACKER_COLLECTION_NAME ) );
Implementation isDirty = StubMethod.INSTANCE, getDirtyNames = StubMethod.INSTANCE, clearDirtyNames = StubMethod.INSTANCE;
for ( AnnotatedFieldDescription collectionField : collectionFields ) {
if ( collectionField.getType().asErasure().isAssignableTo( Map.class ) ) {
isDirty = Advice.withCustomMapping()
.bind( CodeTemplates.FieldName.class, collectionField.getName() )
.bind( CodeTemplates.FieldValue.class, collectionField.getFieldDescription() )
.to( CodeTemplates.MapAreCollectionFieldsDirty.class, adviceLocator )
.wrap( isDirty );
getDirtyNames = Advice.withCustomMapping()
.bind( CodeTemplates.FieldName.class, collectionField.getName() )
.bind( CodeTemplates.FieldValue.class, collectionField.getFieldDescription() )
.to( CodeTemplates.MapGetCollectionFieldDirtyNames.class, adviceLocator )
.wrap( getDirtyNames );
clearDirtyNames = Advice.withCustomMapping()
.bind( CodeTemplates.FieldName.class, collectionField.getName() )
.bind( CodeTemplates.FieldValue.class, collectionField.getFieldDescription() )
.to( CodeTemplates.MapGetCollectionClearDirtyNames.class, adviceLocator )
.wrap( clearDirtyNames );
}
else {
isDirty = Advice.withCustomMapping()
.bind( CodeTemplates.FieldName.class, collectionField.getName() )
.bind( CodeTemplates.FieldValue.class, collectionField.getFieldDescription() )
.to( CodeTemplates.CollectionAreCollectionFieldsDirty.class, adviceLocator )
.wrap( isDirty );
getDirtyNames = Advice.withCustomMapping()
.bind( CodeTemplates.FieldName.class, collectionField.getName() )
.bind( CodeTemplates.FieldValue.class, collectionField.getFieldDescription() )
.to( CodeTemplates.CollectionGetCollectionFieldDirtyNames.class, adviceLocator )
.wrap( getDirtyNames );
clearDirtyNames = Advice.withCustomMapping()
.bind( CodeTemplates.FieldName.class, collectionField.getName() )
.bind( CodeTemplates.FieldValue.class, collectionField.getFieldDescription() )
.to( CodeTemplates.CollectionGetCollectionClearDirtyNames.class, adviceLocator )
.wrap( clearDirtyNames );
}
}
if ( enhancementContext.hasLazyLoadableAttributes( managedCtClass ) ) {
clearDirtyNames = adviceInitializeLazyAttributeLoadingInterceptor.wrap( clearDirtyNames );
}
builder = builder.defineMethod( EnhancerConstants.TRACKER_COLLECTION_CHANGED_NAME, boolean.class, Visibility.PUBLIC )
.intercept( isDirty )
.defineMethod( EnhancerConstants.TRACKER_COLLECTION_CHANGED_FIELD_NAME, void.class, Visibility.PUBLIC )
.withParameters( DirtyTracker.class )
.intercept( getDirtyNames )
.defineMethod( EnhancerConstants.TRACKER_COLLECTION_CLEAR_NAME, void.class, Visibility.PUBLIC )
.intercept( Advice.withCustomMapping()
.to( CodeTemplates.ClearDirtyCollectionNames.class, adviceLocator )
.wrap( StubMethod.INSTANCE ) )
.defineMethod( ExtendedSelfDirtinessTracker.REMOVE_DIRTY_FIELDS_NAME, void.class, Visibility.PUBLIC )
.withParameters( LazyAttributeLoadingInterceptor.class )
.intercept( clearDirtyNames );
}
}
return createTransformer( managedCtClass ).applyTo( builder );
}
else if ( enhancementContext.isCompositeClass( managedCtClass ) ) {
log.debugf( "Enhancing [%s] as Composite", managedCtClass.getName() );
builder = builder.implement( ManagedComposite.class );
builder = addInterceptorHandling( builder, managedCtClass );
if ( enhancementContext.doDirtyCheckingInline( managedCtClass ) ) {
builder = builder.implement( CompositeTracker.class )
.defineField(
EnhancerConstants.TRACKER_COMPOSITE_FIELD_NAME,
CompositeOwnerTracker.class,
FieldPersistence.TRANSIENT,
Visibility.PRIVATE
)
.annotateField( AnnotationDescription.Builder.ofType( Transient.class ).build() )
.defineMethod(
EnhancerConstants.TRACKER_COMPOSITE_SET_OWNER,
void.class,
Visibility.PUBLIC
)
.withParameters( String.class, CompositeOwner.class )
.intercept( implementationSetOwner )
.defineMethod(
EnhancerConstants.TRACKER_COMPOSITE_CLEAR_OWNER,
void.class,
Visibility.PUBLIC
)
.withParameters( String.class )
.intercept( implementationClearOwner );
}
return createTransformer( managedCtClass ).applyTo( builder );
}
else if ( enhancementContext.isMappedSuperclassClass( managedCtClass ) ) {
log.debugf( "Enhancing [%s] as MappedSuperclass", managedCtClass.getName() );
builder = builder.implement( ManagedMappedSuperclass.class );
return createTransformer( managedCtClass ).applyTo( builder );
}
else if ( enhancementContext.doExtendedEnhancement( managedCtClass ) ) {
log.debugf( "Extended enhancement of [%s]", managedCtClass.getName() );
return createTransformer( managedCtClass ).applyExtended( builder );
}
else {
log.debugf( "Skipping enhancement of [%s]: not entity or composite", managedCtClass.getName() );
return null;
}
}
private PersistentAttributeTransformer createTransformer(TypeDescription typeDescription) {
return PersistentAttributeTransformer.collectPersistentFields( typeDescription, enhancementContext, typePool );
}
// See HHH-10977 HHH-11284 HHH-11404 --- check for declaration of Managed interface on the class, not inherited
private boolean alreadyEnhanced(TypeDescription managedCtClass) {
for ( TypeDescription.Generic declaredInterface : managedCtClass.getInterfaces() ) {
if ( declaredInterface.asErasure().isAssignableTo( Managed.class ) ) {
return true;
}
}
return false;
}
private DynamicType.Builder addInterceptorHandling(DynamicType.Builder builder, TypeDescription managedCtClass) {
// interceptor handling is only needed if class has lazy-loadable attributes
if ( enhancementContext.hasLazyLoadableAttributes( managedCtClass ) ) {
log.debugf( "Weaving in PersistentAttributeInterceptable implementation on [%s]", managedCtClass.getName() );
builder = builder.implement( PersistentAttributeInterceptable.class );
builder = addFieldWithGetterAndSetter(
builder,
PersistentAttributeInterceptor.class,
EnhancerConstants.INTERCEPTOR_FIELD_NAME,
EnhancerConstants.INTERCEPTOR_GETTER_NAME,
EnhancerConstants.INTERCEPTOR_SETTER_NAME
);
}
return builder;
}
private static DynamicType.Builder addFieldWithGetterAndSetter(
DynamicType.Builder builder,
Class type,
String fieldName,
String getterName,
String setterName) {
return builder
.defineField( fieldName, type, Visibility.PRIVATE, FieldPersistence.TRANSIENT )
.annotateField( AnnotationDescription.Builder.ofType( Transient.class ).build() )
.defineMethod( getterName, type, Visibility.PUBLIC )
.intercept( FieldAccessor.ofField( fieldName ) )
.defineMethod( setterName, void.class, Visibility.PUBLIC )
.withParameters( type )
.intercept( FieldAccessor.ofField( fieldName ) );
}
private List collectCollectionFields(TypeDescription managedCtClass) {
List collectionList = new ArrayList<>();
for ( FieldDescription ctField : managedCtClass.getDeclaredFields() ) {
// skip static fields and skip fields added by enhancement
if ( Modifier.isStatic( ctField.getModifiers() ) || ctField.getName().startsWith( "$$_hibernate_" ) ) {
continue;
}
AnnotatedFieldDescription annotatedField = new AnnotatedFieldDescription( enhancementContext, ctField );
if ( enhancementContext.isPersistentField( annotatedField ) && !enhancementContext.isMappedCollection( annotatedField ) ) {
if ( ctField.getType().asErasure().isAssignableTo( Collection.class ) || ctField.getType().asErasure().isAssignableTo( Map.class ) ) {
collectionList.add( annotatedField );
}
}
}
// HHH-10646 Add fields inherited from @MappedSuperclass
// HHH-10981 There is no need to do it for @MappedSuperclass
if ( !enhancementContext.isMappedSuperclassClass( managedCtClass ) ) {
collectionList.addAll( collectInheritCollectionFields( managedCtClass ) );
}
return collectionList;
}
private Collection collectInheritCollectionFields(TypeDefinition managedCtClass) {
TypeDefinition managedCtSuperclass = managedCtClass.getSuperClass();
if ( managedCtSuperclass == null || managedCtSuperclass.represents( Object.class ) ) {
return Collections.emptyList();
}
if ( !enhancementContext.isMappedSuperclassClass( managedCtSuperclass.asErasure() ) ) {
return collectInheritCollectionFields( managedCtSuperclass.asErasure() );
}
List collectionList = new ArrayList<>();
for ( FieldDescription ctField : managedCtSuperclass.getDeclaredFields() ) {
if ( !Modifier.isStatic( ctField.getModifiers() ) ) {
AnnotatedFieldDescription annotatedField = new AnnotatedFieldDescription( enhancementContext, ctField );
if ( enhancementContext.isPersistentField( annotatedField ) && !enhancementContext.isMappedCollection( annotatedField ) ) {
if ( ctField.getType().asErasure().isAssignableTo( Collection.class ) || ctField.getType().asErasure().isAssignableTo( Map.class ) ) {
collectionList.add( annotatedField );
}
}
}
}
collectionList.addAll( collectInheritCollectionFields( managedCtSuperclass ) );
return collectionList;
}
static String capitalize(String value) {
return Character.toUpperCase( value.charAt( 0 ) ) + value.substring( 1 );
}
static class AnnotatedFieldDescription implements UnloadedField {
private final ByteBuddyEnhancementContext context;
private final FieldDescription fieldDescription;
private AnnotationList annotations;
private Optional getter;
AnnotatedFieldDescription(ByteBuddyEnhancementContext context, FieldDescription fieldDescription) {
this.context = context;
this.fieldDescription = fieldDescription;
}
@Override
public boolean hasAnnotation(Class annotationType) {
return getAnnotations().isAnnotationPresent( annotationType );
}
@Override
public String toString() {
return fieldDescription.toString();
}
AnnotationDescription.Loadable getAnnotation(Class annotationType) {
return getAnnotations().ofType( annotationType );
}
String getName() {
return fieldDescription.getName();
}
TypeDefinition getDeclaringType() {
return fieldDescription.getDeclaringType();
}
Generic getType() {
return fieldDescription.getType();
}
InDefinedShape asDefined() {
return fieldDescription.asDefined();
}
String getDescriptor() {
return fieldDescription.getDescriptor();
}
boolean isVisibleTo(TypeDescription typeDescription) {
return fieldDescription.isVisibleTo( typeDescription );
}
FieldDescription getFieldDescription() {
return fieldDescription;
}
Optional getGetter() {
if ( getter == null ) {
getter = context.resolveGetter( fieldDescription );
}
return getter;
}
private AnnotationList getAnnotations() {
if ( annotations == null ) {
annotations = doGetAnnotations();
}
return annotations;
}
private AnnotationList doGetAnnotations() {
AnnotationDescription.Loadable access = fieldDescription.getDeclaringType().asErasure()
.getDeclaredAnnotations().ofType( Access.class );
if ( access != null && access.load().value() == AccessType.PROPERTY ) {
Optional getter = getGetter();
if ( getter.isPresent() ) {
return getter.get().getDeclaredAnnotations();
}
else {
return fieldDescription.getDeclaredAnnotations();
}
}
else if ( access != null && access.load().value() == AccessType.FIELD ) {
return fieldDescription.getDeclaredAnnotations();
}
else {
Optional getter = getGetter();
// Note that the order here is important
List annotationDescriptions = new ArrayList<>();
if ( getter.isPresent() ) {
annotationDescriptions.addAll( getter.get().getDeclaredAnnotations() );
}
annotationDescriptions.addAll( fieldDescription.getDeclaredAnnotations() );
return new AnnotationList.Explicit( annotationDescriptions );
}
}
}
private static class EnhancerClassFileLocator extends ClassFileLocator.ForClassLoader {
// The name of the class to (possibly be) transformed.
private String className;
// The explicitly resolved Resolution for the class to (possibly be) transformed.
private Resolution resolution;
/**
* Creates a new class file locator for the given class loader.
*
* @param classLoader The class loader to query which must not be the bootstrap class loader, i.e. {@code null}.
*/
protected EnhancerClassFileLocator(ClassLoader classLoader) {
super( classLoader );
}
@Override
public Resolution locate(String className) throws IOException {
assert className != null;
if ( className.equals( this.className ) ) {
return resolution;
}
else {
return super.locate( className );
}
}
void setClassNameAndBytes(String className, byte[] bytes) {
assert className != null;
assert bytes != null;
this.className = className;
this.resolution = new Resolution.Explicit( bytes);
}
}
}