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/*
 * Copyright 2014 - Present Rafael Winterhalter
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package net.bytebuddy.implementation;

import edu.umd.cs.findbugs.annotations.SuppressFBWarnings;
import net.bytebuddy.build.HashCodeAndEqualsPlugin;
import net.bytebuddy.description.enumeration.EnumerationDescription;
import net.bytebuddy.description.field.FieldDescription;
import net.bytebuddy.description.field.FieldList;
import net.bytebuddy.description.method.MethodDescription;
import net.bytebuddy.description.method.ParameterDescription;
import net.bytebuddy.description.method.ParameterList;
import net.bytebuddy.description.type.TypeDefinition;
import net.bytebuddy.description.type.TypeDescription;
import net.bytebuddy.dynamic.scaffold.FieldLocator;
import net.bytebuddy.dynamic.scaffold.InstrumentedType;
import net.bytebuddy.dynamic.scaffold.MethodGraph;
import net.bytebuddy.implementation.bytecode.*;
import net.bytebuddy.implementation.bytecode.assign.Assigner;
import net.bytebuddy.implementation.bytecode.collection.ArrayAccess;
import net.bytebuddy.implementation.bytecode.collection.ArrayFactory;
import net.bytebuddy.implementation.bytecode.constant.*;
import net.bytebuddy.implementation.bytecode.member.FieldAccess;
import net.bytebuddy.implementation.bytecode.member.MethodInvocation;
import net.bytebuddy.implementation.bytecode.member.MethodReturn;
import net.bytebuddy.implementation.bytecode.member.MethodVariableAccess;
import net.bytebuddy.matcher.ElementMatcher;
import net.bytebuddy.matcher.ElementMatchers;
import net.bytebuddy.utility.*;
import net.bytebuddy.utility.nullability.MaybeNull;
import net.bytebuddy.jar.asm.MethodVisitor;
import net.bytebuddy.jar.asm.Opcodes;

import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.Method;
import java.lang.reflect.Type;
import java.util.*;
import java.util.concurrent.Callable;

import static net.bytebuddy.matcher.ElementMatchers.*;

/**
 * This {@link Implementation} allows the invocation of a specified method while
 * providing explicit arguments to this method.
 */
@HashCodeAndEqualsPlugin.Enhance
public class MethodCall implements Implementation.Composable {

    /**
     * The method locator to use.
     */
    protected final MethodLocator.Factory methodLocator;

    /**
     * The target handler to use.
     */
    protected final TargetHandler.Factory targetHandler;

    /**
     * The argument loader to load arguments onto the operand stack in their application order.
     */
    protected final List argumentLoaders;

    /**
     * The method invoker to use.
     */
    protected final MethodInvoker.Factory methodInvoker;

    /**
     * The termination handler to use.
     */
    protected final TerminationHandler.Factory terminationHandler;

    /**
     * The assigner to use.
     */
    protected final Assigner assigner;

    /**
     * Indicates if dynamic type castings should be attempted for incompatible assignments.
     */
    protected final Assigner.Typing typing;

    /**
     * Creates a new method call implementation.
     *
     * @param methodLocator      The method locator to use.
     * @param targetHandler      The target handler to use.
     * @param argumentLoaders    The argument loader to load arguments onto the operand stack in their application order.
     * @param methodInvoker      The method invoker to use.
     * @param terminationHandler The termination handler to use.
     * @param assigner           The assigner to use.
     * @param typing             Indicates if dynamic type castings should be attempted for incompatible assignments.
     */
    protected MethodCall(MethodLocator.Factory methodLocator,
                         TargetHandler.Factory targetHandler,
                         List argumentLoaders,
                         MethodInvoker.Factory methodInvoker,
                         TerminationHandler.Factory terminationHandler,
                         Assigner assigner,
                         Assigner.Typing typing) {
        this.methodLocator = methodLocator;
        this.targetHandler = targetHandler;
        this.argumentLoaders = argumentLoaders;
        this.methodInvoker = methodInvoker;
        this.terminationHandler = terminationHandler;
        this.assigner = assigner;
        this.typing = typing;
    }

    /**
     * Invokes the given method. Without further specification, the method is invoked without any arguments on
     * the instance of the instrumented class or statically, if the given method is {@code static}.
     *
     * @param method The method to invoke.
     * @return A method call implementation that invokes the given method without providing any arguments.
     */
    public static WithoutSpecifiedTarget invoke(Method method) {
        return invoke(new MethodDescription.ForLoadedMethod(method));
    }

    /**
     * 

* Invokes the given constructor on the instance of the instrumented type. *

*

* Important: A constructor invocation can only be applied within another constructor to invoke the super constructor or an auxiliary * constructor. To construct a new instance, use {@link MethodCall#construct(Constructor)}. *

* * @param constructor The constructor to invoke. * @return A method call implementation that invokes the given constructor without providing any arguments. */ public static WithoutSpecifiedTarget invoke(Constructor constructor) { return invoke(new MethodDescription.ForLoadedConstructor(constructor)); } /** *

* Invokes the given method. If the method description describes a constructor, it is automatically invoked as * a special method invocation on the instance of the instrumented type. The same is true for {@code private} * methods. Finally, {@code static} methods are invoked statically. *

*

* Important: A constructor invocation can only be applied within another constructor to invoke the super constructor or an auxiliary * constructor. To construct a new instance, use {@link MethodCall#construct(MethodDescription)}. *

* * @param methodDescription The method to invoke. * @return A method call implementation that invokes the given method without providing any arguments. */ public static WithoutSpecifiedTarget invoke(MethodDescription methodDescription) { return invoke(new MethodLocator.ForExplicitMethod(methodDescription)); } /** * Invokes a unique virtual method or constructor of the instrumented type that is matched by the specified matcher. * * @param matcher The matcher to identify the method to invoke. * @return A method call for the uniquely identified method. */ @SuppressWarnings("overloads") public static WithoutSpecifiedTarget invoke(ElementMatcher matcher) { return invoke(matcher, MethodGraph.Compiler.DEFAULT); } /** * Invokes a unique virtual method or constructor of the instrumented type that is matched by the specified matcher. * * @param matcher The matcher to identify the method to invoke. * @param methodGraphCompiler The method graph compiler to use. * @return A method call for the uniquely identified method. */ public static WithoutSpecifiedTarget invoke(ElementMatcher matcher, MethodGraph.Compiler methodGraphCompiler) { return invoke(new MethodLocator.ForElementMatcher.Factory(matcher, methodGraphCompiler)); } /** * Invokes a method using the provided method locator. * * @param methodLocator The method locator to apply for locating the method to invoke given the instrumented * method. * @return A method call implementation that uses the provided method locator for resolving the method * to be invoked. */ @SuppressWarnings("overloads") public static WithoutSpecifiedTarget invoke(MethodLocator.Factory methodLocator) { return new WithoutSpecifiedTarget(methodLocator); } /** * Invokes the instrumented method recursively. Invoking this method on the same instance causes a {@link StackOverflowError} due to * infinite recursion. * * @return A method call that invokes the method being instrumented. */ public static WithoutSpecifiedTarget invokeSelf() { return new WithoutSpecifiedTarget(MethodLocator.ForInstrumentedMethod.INSTANCE); } /** * Invokes the instrumented method as a super method call on the instance itself. This is a shortcut for {@code invokeSelf().onSuper()}. * * @return A method call that invokes the method being instrumented as a super method call. */ public static MethodCall invokeSuper() { return invokeSelf().onSuper(); } /** * Implements a method by invoking the provided {@link Callable}. The return value of the provided object is casted to the implemented method's * return type, if necessary. * * @param callable The callable to invoke when a method is intercepted. * @return A composable method implementation that invokes the given callable. */ public static Composable call(Callable callable) { try { return invoke(Callable.class.getMethod("call")).on(callable, Callable.class).withAssigner(Assigner.DEFAULT, Assigner.Typing.DYNAMIC); } catch (NoSuchMethodException exception) { throw new IllegalStateException("Could not locate Callable::call method", exception); } } /** * Implements a method by invoking the provided {@link Runnable}. If the instrumented method returns a value, {@code null} is returned. * * @param runnable The runnable to invoke when a method is intercepted. * @return A composable method implementation that invokes the given runnable. */ public static Composable run(Runnable runnable) { try { return invoke(Runnable.class.getMethod("run")).on(runnable, Runnable.class).withAssigner(Assigner.DEFAULT, Assigner.Typing.DYNAMIC); } catch (NoSuchMethodException exception) { throw new IllegalStateException("Could not locate Runnable::run method", exception); } } /** * Invokes the given constructor in order to create an instance. * * @param constructor The constructor to invoke. * @return A method call that invokes the given constructor without providing any arguments. */ public static MethodCall construct(Constructor constructor) { return construct(new MethodDescription.ForLoadedConstructor(constructor)); } /** * Invokes the given constructor in order to create an instance. * * @param methodDescription A description of the constructor to invoke. * @return A method call that invokes the given constructor without providing any arguments. */ public static MethodCall construct(MethodDescription methodDescription) { if (!methodDescription.isConstructor()) { throw new IllegalArgumentException("Not a constructor: " + methodDescription); } return new MethodCall(new MethodLocator.ForExplicitMethod(methodDescription), TargetHandler.ForConstructingInvocation.Factory.INSTANCE, Collections.emptyList(), MethodInvoker.ForContextualInvocation.Factory.INSTANCE, TerminationHandler.Simple.RETURNING, Assigner.DEFAULT, Assigner.Typing.STATIC); } /** * Defines a number of arguments to be handed to the method that is being invoked by this implementation. Any * wrapper type instances for primitive values, instances of {@link java.lang.String}, method handles, types, * method types as well as instances of {@link TypeDescription} or {@link JavaConstant} or {@code null} are loaded * directly onto the operand stack. This might corrupt referential identity for these values. Any other values * are stored within a {@code static} field that is added to the instrumented type. * * @param argument The arguments to provide to the method that is being called in their order. * @return A method call that hands the provided arguments to the invoked method. */ public MethodCall with(Object... argument) { List argumentLoaders = new ArrayList(argument.length); for (Object anArgument : argument) { argumentLoaders.add(ArgumentLoader.ForStackManipulation.of(anArgument)); } return with(argumentLoaders); } /** * Defines the given types to be provided as arguments to the invoked method where the represented types * are stored in the generated class's constant pool. * * @param typeDescription The type descriptions to provide as arguments. * @return A method call that hands the provided arguments to the invoked method. */ public MethodCall with(TypeDescription... typeDescription) { List argumentLoaders = new ArrayList(typeDescription.length); for (TypeDescription aTypeDescription : typeDescription) { argumentLoaders.add(new ArgumentLoader.ForStackManipulation(ClassConstant.of(aTypeDescription), Class.class)); } return with(argumentLoaders); } /** * Defines the given enumeration values to be provided as arguments to the invoked method where the values * are read from the enumeration class on demand. * * @param enumerationDescription The enumeration descriptions to provide as arguments. * @return A method call that hands the provided arguments to the invoked method. */ public MethodCall with(EnumerationDescription... enumerationDescription) { List argumentLoaders = new ArrayList(enumerationDescription.length); for (EnumerationDescription anEnumerationDescription : enumerationDescription) { argumentLoaders.add(new ArgumentLoader.ForStackManipulation(FieldAccess.forEnumeration(anEnumerationDescription), anEnumerationDescription.getEnumerationType())); } return with(argumentLoaders); } /** * Defines the given Java instances to be provided as arguments to the invoked method where the given * instances are stored in the generated class's constant pool. * * @param constant The constants to provide as arguments. * @return A method call that hands the provided arguments to the invoked method. */ public MethodCall with(ConstantValue... constant) { List argumentLoaders = new ArrayList(constant.length); for (ConstantValue aConstant : constant) { argumentLoaders.add(new ArgumentLoader.ForStackManipulation(aConstant.toStackManipulation(), aConstant.getTypeDescription())); } return with(argumentLoaders); } /** * Defines the given Java instances to be provided as arguments to the invoked method where the given * instances are stored in the generated class's constant pool. * * @param constant The constants to provide as arguments. * @return A method call that hands the provided arguments to the invoked method. */ public MethodCall with(JavaConstant... constant) { return with((ConstantValue[]) constant); } /** * Defines a number of arguments to be handed to the method that is being invoked by this implementation. Any * value is stored within a field in order to preserve referential identity. As an exception, the {@code null} * value is not stored within a field. * * @param argument The arguments to provide to the method that is being called in their order. * @return A method call that hands the provided arguments to the invoked method. */ public MethodCall withReference(Object... argument) { List argumentLoaders = new ArrayList(argument.length); for (Object anArgument : argument) { argumentLoaders.add(anArgument == null ? ArgumentLoader.ForNullConstant.INSTANCE : new ArgumentLoader.ForInstance.Factory(anArgument)); } return with(argumentLoaders); } /** * Defines a number of arguments of the instrumented method by their parameter indices to be handed * to the invoked method as an argument. * * @param index The parameter indices of the instrumented method to be handed to the invoked method as an * argument in their order. The indices are zero-based. * @return A method call that hands the provided arguments to the invoked method. */ public MethodCall withArgument(int... index) { List argumentLoaders = new ArrayList(index.length); for (int anIndex : index) { if (anIndex < 0) { throw new IllegalArgumentException("Negative index: " + anIndex); } argumentLoaders.add(new ArgumentLoader.ForMethodParameter.Factory(anIndex)); } return with(argumentLoaders); } /** * Adds all arguments of the instrumented method as arguments to the invoked method to this method call. * * @return A method call that hands all arguments of the instrumented method to the invoked method. */ public MethodCall withAllArguments() { return with(ArgumentLoader.ForMethodParameter.OfInstrumentedMethod.INSTANCE); } /** * Adds an array containing all arguments of the instrumented method to this method call. * * @return A method call that adds an array containing all arguments of the instrumented method to the invoked method. */ public MethodCall withArgumentArray() { return with(ArgumentLoader.ForMethodParameterArray.ForInstrumentedMethod.INSTANCE); } /** *

* Creates a method call where the parameter with {@code index} is expected to be an array and where each element of the array * is expected to represent an argument for the method being invoked. *

*

* Note: This is typically used in combination with dynamic type assignments which is activated via * {@link MethodCall#withAssigner(Assigner, Assigner.Typing)} using a {@link Assigner.Typing#DYNAMIC}. *

* * @param index The index of the parameter. * @return A method call that loads {@code size} elements from the array handed to the instrumented method as argument {@code index}. */ public MethodCall withArgumentArrayElements(int index) { if (index < 0) { throw new IllegalArgumentException("A parameter index cannot be negative: " + index); } return with(new ArgumentLoader.ForMethodParameterArrayElement.OfInvokedMethod(index)); } /** *

* Creates a method call where the parameter with {@code index} is expected to be an array and where {@code size} elements are loaded * from the array as arguments for the invoked method. *

*

* Note: This is typically used in combination with dynamic type assignments which is activated via * {@link MethodCall#withAssigner(Assigner, Assigner.Typing)} using a {@link Assigner.Typing#DYNAMIC}. *

* * @param index The index of the parameter. * @param size The amount of elements to load from the array. * @return A method call that loads {@code size} elements from the array handed to the instrumented method as argument {@code index}. */ public MethodCall withArgumentArrayElements(int index, int size) { return withArgumentArrayElements(index, 0, size); } /** *

* Creates a method call where the parameter with {@code index} is expected to be an array and where {@code size} elements are loaded * from the array as arguments for the invoked method. The first element is loaded from index {@code start}. *

*

* Note: This is typically used in combination with dynamic type assignments which is activated via * {@link MethodCall#withAssigner(Assigner, Assigner.Typing)} using a {@link Assigner.Typing#DYNAMIC}. *

* * @param index The index of the parameter. * @param start The first array index to consider. * @param size The amount of elements to load from the array with increasing index from {@code start}. * @return A method call that loads {@code size} elements from the array handed to the instrumented method as argument {@code index}. */ public MethodCall withArgumentArrayElements(int index, int start, int size) { if (index < 0) { throw new IllegalArgumentException("A parameter index cannot be negative: " + index); } else if (start < 0) { throw new IllegalArgumentException("An array index cannot be negative: " + start); } else if (size == 0) { return this; } else if (size < 0) { throw new IllegalArgumentException("Size cannot be negative: " + size); } List argumentLoaders = new ArrayList(size); for (int position = 0; position < size; position++) { argumentLoaders.add(new ArgumentLoader.ForMethodParameterArrayElement.OfParameter(index, start + position)); } return with(argumentLoaders); } /** * Assigns the {@code this} reference to the next parameter. * * @return This method call where the next parameter is a assigned a reference to the {@code this} reference * of the instance of the intercepted method. */ public MethodCall withThis() { return with(ArgumentLoader.ForThisReference.Factory.INSTANCE); } /** * Assigns the {@link java.lang.Class} value of the instrumented type. * * @return This method call where the next parameter is a assigned a reference to the {@link java.lang.Class} * value of the instrumented type. */ public MethodCall withOwnType() { return with(ArgumentLoader.ForInstrumentedType.Factory.INSTANCE); } /** * Defines a method call which fetches a value from a list of existing fields. * * @param name The names of the fields. * @return A method call which assigns the next parameters to the values of the given fields. */ public MethodCall withField(String... name) { return withField(FieldLocator.ForClassHierarchy.Factory.INSTANCE, name); } /** * Defines a method call which fetches a value from a list of existing fields. * * @param fieldLocatorFactory The field locator factory to use. * @param name The names of the fields. * @return A method call which assigns the next parameters to the values of the given fields. */ public MethodCall withField(FieldLocator.Factory fieldLocatorFactory, String... name) { List argumentLoaders = new ArrayList(name.length); for (String aName : name) { argumentLoaders.add(new ArgumentLoader.ForField.Factory(aName, fieldLocatorFactory)); } return with(argumentLoaders); } /** * Defines a method call which fetches a value from a method call. * * @param methodCall The method call to use. * @return A method call which assigns the parameter to the result of the given method call. */ public MethodCall withMethodCall(MethodCall methodCall) { return with(new ArgumentLoader.ForMethodCall.Factory(methodCall)); } /** * Adds a stack manipulation as an assignment to the next parameter. * * @param stackManipulation The stack manipulation loading the value. * @param type The type of the argument being loaded. * @return A method call that adds the stack manipulation as the next argument to the invoked method. */ public MethodCall with(StackManipulation stackManipulation, Type type) { return with(stackManipulation, TypeDefinition.Sort.describe(type)); } /** * Adds a stack manipulation as an assignment to the next parameter. * * @param stackManipulation The stack manipulation loading the value. * @param typeDefinition The type of the argument being loaded. * @return A method call that adds the stack manipulation as the next argument to the invoked method. */ public MethodCall with(StackManipulation stackManipulation, TypeDefinition typeDefinition) { return with(new ArgumentLoader.ForStackManipulation(stackManipulation, typeDefinition)); } /** * Defines a method call that resolves arguments by the supplied argument loader factories. * * @param argumentLoader The argument loaders to apply to the subsequent arguments of the * @return A method call that adds the arguments of the supplied argument loaders to the invoked method. */ public MethodCall with(ArgumentLoader.Factory... argumentLoader) { return with(Arrays.asList(argumentLoader)); } /** * Defines a method call that resolves arguments by the supplied argument loader factories. * * @param argumentLoaders The argument loaders to apply to the subsequent arguments of the * @return A method call that adds the arguments of the supplied argument loaders to the invoked method. */ public MethodCall with(List argumentLoaders) { return new MethodCall(methodLocator, targetHandler, CompoundList.of(this.argumentLoaders, argumentLoaders), methodInvoker, terminationHandler, assigner, typing); } /** * Sets the result of the method call as a value of the specified field. If the instrumented method does not * return {@code void}, this instrumentation must be chained with another instrumentation. * * @param field The field to set. * @return A new instance of this method call that sets the resulting value as the specified field's value. */ public FieldSetting setsField(Field field) { return setsField(new FieldDescription.ForLoadedField(field)); } /** * Sets the result of the method call as a value of the specified field. If the instrumented method does not * return {@code void}, this instrumentation must be chained with another instrumentation. * * @param fieldDescription The field to set. * @return A new instance of this method call that sets the resulting value as the specified field's value. */ public FieldSetting setsField(FieldDescription fieldDescription) { return new FieldSetting(new MethodCall(methodLocator, targetHandler, argumentLoaders, methodInvoker, new TerminationHandler.FieldSetting.Explicit(fieldDescription), assigner, typing)); } /** * Sets the result of the method call as a value of the specified field. If the instrumented method does not * return {@code void}, this instrumentation must be chained with another instrumentation. * * @param matcher A matcher that locates a field in the instrumented type's hierarchy. * @return A new instance of this method call that sets the resulting value as the specified field's value. */ public FieldSetting setsField(ElementMatcher matcher) { return new FieldSetting(new MethodCall(methodLocator, targetHandler, argumentLoaders, methodInvoker, new TerminationHandler.FieldSetting.Implicit(matcher), assigner, typing)); } /** * Defines an assigner to be used for assigning values to the parameters of the invoked method. This assigner * is also used for assigning the invoked method's return value to the return type of the instrumented method, * if this method is not chained with * {@link net.bytebuddy.implementation.MethodCall#andThen(Implementation)} such * that a return value of this method call is discarded. * * @param assigner The assigner to use. * @param typing Indicates if dynamic type castings should be attempted for incompatible assignments. * @return This method call using the provided assigner. */ public Composable withAssigner(Assigner assigner, Assigner.Typing typing) { return new MethodCall(methodLocator, targetHandler, argumentLoaders, methodInvoker, terminationHandler, assigner, typing); } /** * {@inheritDoc} */ public Implementation andThen(Implementation implementation) { return new Implementation.Compound(new MethodCall(methodLocator, targetHandler, argumentLoaders, methodInvoker, TerminationHandler.Simple.DROPPING, assigner, typing), implementation); } /** * {@inheritDoc} */ public Composable andThen(Composable implementation) { return new Implementation.Compound.Composable(new MethodCall(methodLocator, targetHandler, argumentLoaders, methodInvoker, TerminationHandler.Simple.DROPPING, assigner, typing), implementation); } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { for (InstrumentedType.Prepareable prepareable : argumentLoaders) { instrumentedType = prepareable.prepare(instrumentedType); } return targetHandler.prepare(instrumentedType); } /** * {@inheritDoc} */ public ByteCodeAppender appender(Target implementationTarget) { return new Appender(implementationTarget, terminationHandler.make(implementationTarget.getInstrumentedType())); } /** * A method locator is responsible for identifying the method that is to be invoked * by a {@link net.bytebuddy.implementation.MethodCall}. */ public interface MethodLocator { /** * Resolves the method to be invoked. * * @param targetType The type the method is called on. * @param instrumentedMethod The method being instrumented. * @return The method to invoke. */ MethodDescription resolve(TypeDescription targetType, MethodDescription instrumentedMethod); /** * A factory for creating a method locator. */ interface Factory { /** * Creates a method locator for a given instrumented type. * * @param instrumentedType The instrumented type. * @return A suitable method locator. */ MethodLocator make(TypeDescription instrumentedType); } /** * A method locator that simply returns the intercepted method. */ enum ForInstrumentedMethod implements MethodLocator, Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public MethodLocator make(TypeDescription instrumentedType) { return this; } /** * {@inheritDoc} */ public MethodDescription resolve(TypeDescription targetType, MethodDescription instrumentedMethod) { return instrumentedMethod; } } /** * Invokes a given method. */ @HashCodeAndEqualsPlugin.Enhance class ForExplicitMethod implements MethodLocator, Factory { /** * The method to be invoked. */ private final MethodDescription methodDescription; /** * Creates a new method locator for a given method. * * @param methodDescription The method to be invoked. */ protected ForExplicitMethod(MethodDescription methodDescription) { this.methodDescription = methodDescription; } /** * {@inheritDoc} */ public MethodLocator make(TypeDescription instrumentedType) { return this; } /** * {@inheritDoc} */ public MethodDescription resolve(TypeDescription targetType, MethodDescription instrumentedMethod) { return methodDescription; } } /** * A method locator that identifies a unique virtual method. */ @HashCodeAndEqualsPlugin.Enhance class ForElementMatcher implements MethodLocator { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * The matcher to use. */ private final ElementMatcher matcher; /** * The method graph compiler to use. */ private final MethodGraph.Compiler methodGraphCompiler; /** * Creates a new method locator for an element matcher. * * @param instrumentedType The instrumented type. * @param matcher The matcher to use. * @param methodGraphCompiler The method graph compiler to use. */ protected ForElementMatcher(TypeDescription instrumentedType, ElementMatcher matcher, MethodGraph.Compiler methodGraphCompiler) { this.instrumentedType = instrumentedType; this.matcher = matcher; this.methodGraphCompiler = methodGraphCompiler; } /** * {@inheritDoc} */ public MethodDescription resolve(TypeDescription targetType, MethodDescription instrumentedMethod) { TypeDescription.Generic superClass = instrumentedType.getSuperClass(); List candidates = CompoundList.of( superClass == null ? Collections.emptyList() : superClass.getDeclaredMethods().filter(isConstructor().and(matcher)), instrumentedType.getDeclaredMethods().filter(not(ElementMatchers.isVirtual()).and(matcher)), methodGraphCompiler.compile((TypeDefinition) targetType, instrumentedType).listNodes().asMethodList().filter(matcher)); if (candidates.size() == 1) { return candidates.get(0); } else { throw new IllegalStateException(instrumentedType + " does not define exactly one virtual method or constructor for " + matcher + " but contained " + candidates.size() + " candidates: " + candidates); } } /** * A factory for a method locator that uses a matcher on the instrumented type's available methods for identifing a target method. */ @HashCodeAndEqualsPlugin.Enhance public static class Factory implements MethodLocator.Factory { /** * The matcher to use. */ private final ElementMatcher matcher; /** * The method graph compiler to use. */ private final MethodGraph.Compiler methodGraphCompiler; /** * Creates a factory for a method locator that identifies a method using a matcher. * * @param matcher The matcher to use. * @param methodGraphCompiler The method graph compiler to use. */ public Factory(ElementMatcher matcher, MethodGraph.Compiler methodGraphCompiler) { this.matcher = matcher; this.methodGraphCompiler = methodGraphCompiler; } /** * {@inheritDoc} */ public MethodLocator make(TypeDescription instrumentedType) { return new ForElementMatcher(instrumentedType, matcher, methodGraphCompiler); } } } } /** * An argument loader is responsible for loading an argument for an invoked method * onto the operand stack. */ public interface ArgumentLoader { /** * Loads the argument that is represented by this instance onto the operand stack. * * @param target The target parameter. * @param assigner The assigner to be used. * @param typing Indicates if dynamic type castings should be attempted for incompatible assignments. * @return The stack manipulation that loads the represented argument onto the stack. */ StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing); /** * An argument provider is responsible for providing an argument loader for each argument to supply to a method. */ interface ArgumentProvider { /** * Resolves this provider to an argument loader for each provided argument. * * @param instrumentedMethod The instrumented method. * @param invokedMethod The invoked method. * @return A list of provided argument loaders. */ List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod); } /** * A factory that produces {@link ArgumentLoader}s for a given instrumented method. */ interface Factory extends InstrumentedType.Prepareable { /** * Creates an argument provider for the supplied implementation target. * * @param implementationTarget The implementation target to use. * @return An appropriate argument provider. */ ArgumentProvider make(Implementation.Target implementationTarget); } /** * An argument loader that loads the {@code null} value onto the operand stack. */ enum ForNullConstant implements ArgumentLoader, ArgumentProvider, Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return this; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { return Collections.singletonList(this); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { if (target.getType().isPrimitive()) { throw new IllegalStateException("Cannot assign null to " + target); } return NullConstant.INSTANCE; } } /** * An argument loader that assigns the {@code this} reference to a parameter. */ @HashCodeAndEqualsPlugin.Enhance class ForThisReference implements ArgumentLoader, ArgumentProvider { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * Creates an argument loader that supplies the {@code this} instance as an argument. * * @param instrumentedType The instrumented type. */ public ForThisReference(TypeDescription instrumentedType) { this.instrumentedType = instrumentedType; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { if (instrumentedMethod.isStatic()) { throw new IllegalStateException(instrumentedMethod + " is static and cannot supply an invoker instance"); } return Collections.singletonList(this); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = new StackManipulation.Compound( MethodVariableAccess.loadThis(), assigner.assign(instrumentedType.asGenericType(), target.getType(), typing)); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot assign " + instrumentedType + " to " + target); } return stackManipulation; } /** * A factory for an argument loader that supplies the {@code this} value as an argument. */ public enum Factory implements ArgumentLoader.Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return new ForThisReference(implementationTarget.getInstrumentedType()); } } } /** * Loads the instrumented type onto the operand stack. */ @HashCodeAndEqualsPlugin.Enhance class ForInstrumentedType implements ArgumentLoader, ArgumentProvider { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * Creates an argument loader for supporting the instrumented type as a type constant as an argument. * * @param instrumentedType The instrumented type. */ public ForInstrumentedType(TypeDescription instrumentedType) { this.instrumentedType = instrumentedType; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { return Collections.singletonList(this); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = new StackManipulation.Compound( ClassConstant.of(instrumentedType), assigner.assign(TypeDescription.Generic.OfNonGenericType.ForLoadedType.of(Class.class), target.getType(), typing)); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot assign Class value to " + target); } return stackManipulation; } /** * A factory for an argument loader that supplies the instrumented type as an argument. */ public enum Factory implements ArgumentLoader.Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return new ForInstrumentedType(implementationTarget.getInstrumentedType()); } } } /** * Loads a parameter of the instrumented method onto the operand stack. */ @HashCodeAndEqualsPlugin.Enhance class ForMethodParameter implements ArgumentLoader { /** * The index of the parameter to be loaded onto the operand stack. */ private final int index; /** * The instrumented method. */ private final MethodDescription instrumentedMethod; /** * Creates an argument loader for a parameter of the instrumented method. * * @param index The index of the parameter to be loaded onto the operand stack. * @param instrumentedMethod The instrumented method. */ public ForMethodParameter(int index, MethodDescription instrumentedMethod) { this.index = index; this.instrumentedMethod = instrumentedMethod; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { ParameterDescription parameterDescription = instrumentedMethod.getParameters().get(index); StackManipulation stackManipulation = new StackManipulation.Compound( MethodVariableAccess.load(parameterDescription), assigner.assign(parameterDescription.getType(), target.getType(), typing)); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot assign " + parameterDescription + " to " + target + " for " + instrumentedMethod); } return stackManipulation; } /** * A factory for argument loaders that supplies all arguments of the instrumented method as arguments. */ protected enum OfInstrumentedMethod implements ArgumentLoader.Factory, ArgumentProvider { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return this; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { List argumentLoaders = new ArrayList(instrumentedMethod.getParameters().size()); for (ParameterDescription parameterDescription : instrumentedMethod.getParameters()) { argumentLoaders.add(new ForMethodParameter(parameterDescription.getIndex(), instrumentedMethod)); } return argumentLoaders; } } /** * A factory for an argument loader that supplies a method parameter as an argument. */ @HashCodeAndEqualsPlugin.Enhance public static class Factory implements ArgumentLoader.Factory, ArgumentProvider { /** * The index of the parameter to be loaded onto the operand stack. */ private final int index; /** * Creates a factory for an argument loader that supplies a method parameter as an argument. * * @param index The index of the parameter to supply. */ public Factory(int index) { this.index = index; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return this; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { if (index >= instrumentedMethod.getParameters().size()) { throw new IllegalStateException(instrumentedMethod + " does not have a parameter with index " + index + ", " + instrumentedMethod.getParameters().size() + " defined"); } return Collections.singletonList(new ForMethodParameter(index, instrumentedMethod)); } } } /** * Loads an array containing all arguments of a method. */ @HashCodeAndEqualsPlugin.Enhance class ForMethodParameterArray implements ArgumentLoader { /** * The parameters to load. */ private final ParameterList parameters; /** * Creates an argument loader that loads the supplied parameters onto the operand stack. * * @param parameters The parameters to load. */ public ForMethodParameterArray(ParameterList parameters) { this.parameters = parameters; } /** * {@inheritDoc} */ @SuppressFBWarnings(value = "NP_NULL_ON_SOME_PATH_FROM_RETURN_VALUE", justification = "Assuming component type for array type.") public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { TypeDescription.Generic componentType; if (target.getType().represents(Object.class)) { componentType = TypeDescription.Generic.OfNonGenericType.ForLoadedType.of(Object.class); } else if (target.getType().isArray()) { componentType = target.getType().getComponentType(); } else { throw new IllegalStateException("Cannot set method parameter array for non-array type: " + target); } List stackManipulations = new ArrayList(parameters.size()); for (ParameterDescription parameter : parameters) { StackManipulation stackManipulation = new StackManipulation.Compound( MethodVariableAccess.load(parameter), assigner.assign(parameter.getType(), componentType, typing) ); if (stackManipulation.isValid()) { stackManipulations.add(stackManipulation); } else { throw new IllegalStateException("Cannot assign " + parameter + " to " + componentType); } } return new StackManipulation.Compound(ArrayFactory.forType(componentType).withValues(stackManipulations)); } /** * A factory that creates an arguments loader that loads all parameters of the instrumented method contained in an array. */ public enum ForInstrumentedMethod implements Factory, ArgumentProvider { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return this; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { return Collections.singletonList(new ForMethodParameterArray(instrumentedMethod.getParameters())); } } } /** * An argument loader that loads an element of a parameter of an array type. */ @HashCodeAndEqualsPlugin.Enhance class ForMethodParameterArrayElement implements ArgumentLoader { /** * The parameter to load the array from. */ private final ParameterDescription parameterDescription; /** * The array index to load. */ private final int index; /** * Creates an argument loader for a parameter of the instrumented method where an array element is assigned to the invoked method. * * @param parameterDescription The parameter from which to load an array element. * @param index The array index to load. */ public ForMethodParameterArrayElement(ParameterDescription parameterDescription, int index) { this.parameterDescription = parameterDescription; this.index = index; } /** * {@inheritDoc} */ @SuppressFBWarnings(value = "NP_NULL_ON_SOME_PATH_FROM_RETURN_VALUE", justification = "Assuming component type for array type.") public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = new StackManipulation.Compound( MethodVariableAccess.load(parameterDescription), IntegerConstant.forValue(index), ArrayAccess.of(parameterDescription.getType().getComponentType()).load(), assigner.assign(parameterDescription.getType().getComponentType(), target.getType(), typing) ); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot assign " + parameterDescription.getType().getComponentType() + " to " + target); } return stackManipulation; } /** * Creates an argument loader for an array element that of a specific parameter. */ @HashCodeAndEqualsPlugin.Enhance public static class OfParameter implements ArgumentLoader.Factory, ArgumentProvider { /** * The parameter index. */ private final int index; /** * The array index to load. */ private final int arrayIndex; /** * Creates a factory for an argument loader that loads a given parameter's array value. * * @param index The index of the parameter. * @param arrayIndex The array index to load. */ public OfParameter(int index, int arrayIndex) { this.index = index; this.arrayIndex = arrayIndex; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return this; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { if (instrumentedMethod.getParameters().size() <= index) { throw new IllegalStateException(instrumentedMethod + " does not declare a parameter with index " + index + ", " + instrumentedMethod.getParameters().size() + " defined"); } else if (!instrumentedMethod.getParameters().get(index).getType().isArray()) { throw new IllegalStateException("Cannot access an item from non-array parameter " + instrumentedMethod.getParameters().get(index) + " at index " + index); } return Collections.singletonList(new ForMethodParameterArrayElement(instrumentedMethod.getParameters().get(index), arrayIndex)); } } /** * An argument loader factory that loads an array element from a parameter for each argument of the invoked method. */ @HashCodeAndEqualsPlugin.Enhance public static class OfInvokedMethod implements ArgumentLoader.Factory, ArgumentProvider { /** * The parameter index. */ private final int index; /** * Creates an argument loader factory for an invoked method. * * @param index The parameter index. */ public OfInvokedMethod(int index) { this.index = index; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return this; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { if (instrumentedMethod.getParameters().size() <= index) { throw new IllegalStateException(instrumentedMethod + " does not declare a parameter with index " + index + ", " + instrumentedMethod.getParameters().size() + " defined"); } else if (!instrumentedMethod.getParameters().get(index).getType().isArray()) { throw new IllegalStateException("Cannot access an item from non-array parameter " + instrumentedMethod.getParameters().get(index) + " at index " + index); } List argumentLoaders = new ArrayList(invokedMethod.getParameters().size()); for (int index = 0; index < invokedMethod.getParameters().size(); index++) { argumentLoaders.add(new ForMethodParameterArrayElement(instrumentedMethod.getParameters().get(this.index), index)); } return argumentLoaders; } } } /** * Loads a value onto the operand stack that is stored in a static field. */ @HashCodeAndEqualsPlugin.Enhance class ForInstance implements ArgumentLoader, ArgumentProvider { /** * The description of the field. */ private final FieldDescription fieldDescription; /** * Creates an argument loader that supplies the value of a static field as an argument. * * @param fieldDescription The description of the field. */ public ForInstance(FieldDescription fieldDescription) { this.fieldDescription = fieldDescription; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { return Collections.singletonList(this); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = new StackManipulation.Compound( FieldAccess.forField(fieldDescription).read(), assigner.assign(fieldDescription.getType(), target.getType(), typing)); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot assign " + fieldDescription.getType() + " to " + target); } return stackManipulation; } /** * A factory that supplies the value of a static field as an argument. */ @HashCodeAndEqualsPlugin.Enhance protected static class Factory implements ArgumentLoader.Factory { /** * The name prefix of the field to store the argument. */ private static final String FIELD_PREFIX = "methodCall"; /** * The value to be stored in the field. */ private final Object value; /** * The name of the field. */ @HashCodeAndEqualsPlugin.ValueHandling(HashCodeAndEqualsPlugin.ValueHandling.Sort.IGNORE) private final String name; /** * Creates a factory that loads the value of a static field as an argument. * * @param value The value to supply as an argument. */ public Factory(Object value) { this.value = value; name = FIELD_PREFIX + "$" + RandomString.hashOf(value); } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType.withAuxiliaryField(new FieldDescription.Token(name, Opcodes.ACC_SYNTHETIC | Opcodes.ACC_PUBLIC | Opcodes.ACC_STATIC, TypeDescription.Generic.OfNonGenericType.ForLoadedType.of(value.getClass())), value); } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return new ForInstance(implementationTarget.getInstrumentedType().getDeclaredFields().filter(named(name)).getOnly()); } } } /** * Loads the value of an existing field onto the operand stack. */ @HashCodeAndEqualsPlugin.Enhance class ForField implements ArgumentLoader { /** * The field containing the loaded value. */ private final FieldDescription fieldDescription; /** * The instrumented method. */ private final MethodDescription instrumentedMethod; /** * Creates a new argument loader for loading an existing field. * * @param fieldDescription The field containing the loaded value. * @param instrumentedMethod The instrumented method. */ public ForField(FieldDescription fieldDescription, MethodDescription instrumentedMethod) { this.fieldDescription = fieldDescription; this.instrumentedMethod = instrumentedMethod; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { if (!fieldDescription.isStatic() && instrumentedMethod.isStatic()) { throw new IllegalStateException("Cannot access non-static " + fieldDescription + " from " + instrumentedMethod); } StackManipulation stackManipulation = new StackManipulation.Compound( fieldDescription.isStatic() ? StackManipulation.Trivial.INSTANCE : MethodVariableAccess.loadThis(), FieldAccess.forField(fieldDescription).read(), assigner.assign(fieldDescription.getType(), target.getType(), typing) ); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot assign " + fieldDescription + " to " + target); } return stackManipulation; } /** * An argument provider for a field access. */ @HashCodeAndEqualsPlugin.Enhance protected static class ArgumentProvider implements ArgumentLoader.ArgumentProvider { /** * The field being accessed. */ private final FieldDescription fieldDescription; /** * Creates a new argument provider for a field access. * * @param fieldDescription The field being accessed. */ protected ArgumentProvider(FieldDescription fieldDescription) { this.fieldDescription = fieldDescription; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { return Collections.singletonList(new ForField(fieldDescription, instrumentedMethod)); } } /** * A factory for an argument loaded that loads the value of an existing field as an argument. */ @HashCodeAndEqualsPlugin.Enhance protected static class Factory implements ArgumentLoader.Factory { /** * The name of the field. */ private final String name; /** * The field locator to use. */ private final FieldLocator.Factory fieldLocatorFactory; /** * Creates a new argument loader for an existing field. * * @param name The name of the field. * @param fieldLocatorFactory The field locator to use. */ public Factory(String name, FieldLocator.Factory fieldLocatorFactory) { this.name = name; this.fieldLocatorFactory = fieldLocatorFactory; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentLoader.ArgumentProvider make(Implementation.Target implementationTarget) { FieldLocator.Resolution resolution = fieldLocatorFactory.make(implementationTarget.getInstrumentedType()).locate(name); if (!resolution.isResolved()) { throw new IllegalStateException("Could not locate field '" + name + "' on " + implementationTarget.getInstrumentedType()); } return new ArgumentProvider(resolution.getField()); } } } /** * Loads the return value of a method call onto the operand stack. */ @HashCodeAndEqualsPlugin.Enhance class ForMethodCall implements ArgumentLoader { /** * The method call's appender. */ private final Appender appender; /** * The invoked method. */ private final MethodDescription methodDescription; /** * The instrumented method. */ private final MethodDescription instrumentedMethod; /** * The resolved target handler to use. */ private final TargetHandler.Resolved targetHandler; /** * Creates a new argument loader for loading a method call's return value. * * @param appender The method call's appender. * @param methodDescription The invoked method. * @param instrumentedMethod The instrumented method. * @param targetHandler The resolved target handler to use. */ public ForMethodCall(Appender appender, MethodDescription methodDescription, MethodDescription instrumentedMethod, TargetHandler.Resolved targetHandler) { this.appender = appender; this.methodDescription = methodDescription; this.instrumentedMethod = instrumentedMethod; this.targetHandler = targetHandler; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = new StackManipulation.Compound( appender.toStackManipulation(instrumentedMethod, methodDescription, targetHandler), assigner.assign(methodDescription.isConstructor() ? methodDescription.getDeclaringType().asGenericType() : methodDescription.getReturnType(), target.getType(), typing) ); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot assign return type of " + methodDescription + " to " + target); } return stackManipulation; } /** * An argument provider for a method call. */ @HashCodeAndEqualsPlugin.Enhance protected static class ArgumentProvider implements ArgumentLoader.ArgumentProvider { /** * The method call's appender. */ private final Appender appender; /** * Creates a new argument provider for a method call. * * @param appender The method call's appender. */ protected ArgumentProvider(Appender appender) { this.appender = appender; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { TargetHandler.Resolved targetHandler = appender.targetHandler.resolve(instrumentedMethod); return Collections.singletonList(new ForMethodCall(appender, appender.toInvokedMethod(instrumentedMethod, targetHandler), instrumentedMethod, targetHandler)); } } /** * A factory for an argument loaded that loads the return value of a method call as an argument. */ @HashCodeAndEqualsPlugin.Enhance protected static class Factory implements ArgumentLoader.Factory { /** * The method call to use. */ private final MethodCall methodCall; /** * Creates a new argument loader for an existing method call. * * @param methodCall The method call to use. */ public Factory(MethodCall methodCall) { this.methodCall = methodCall; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return methodCall.prepare(instrumentedType); } /** * {@inheritDoc} */ public ArgumentLoader.ArgumentProvider make(Implementation.Target implementationTarget) { return new ArgumentProvider(methodCall.new Appender(implementationTarget, TerminationHandler.Simple.IGNORING)); } } } /** * Loads a stack manipulation resulting in a specific type as an argument. */ @HashCodeAndEqualsPlugin.Enhance class ForStackManipulation implements ArgumentLoader, ArgumentProvider, Factory { /** * The stack manipulation to load. */ private final StackManipulation stackManipulation; /** * The type of the resulting value. */ private final TypeDefinition typeDefinition; /** * Creates an argument loader that loads a stack manipulation as an argument. * * @param stackManipulation The stack manipulation to load. * @param type The type of the resulting value. */ public ForStackManipulation(StackManipulation stackManipulation, Type type) { this(stackManipulation, TypeDescription.Generic.Sort.describe(type)); } /** * Creates an argument loader that loads a stack manipulation as an argument. * * @param stackManipulation The stack manipulation to load. * @param typeDefinition The type of the resulting value. */ public ForStackManipulation(StackManipulation stackManipulation, TypeDefinition typeDefinition) { this.stackManipulation = stackManipulation; this.typeDefinition = typeDefinition; } /** * Creates an argument loader that loads the supplied value as a constant. If the value cannot be represented * in the constant pool, a field is created to store the value. * * @param value The value to load as an argument or {@code null}. * @return An appropriate argument loader. */ public static ArgumentLoader.Factory of(@MaybeNull Object value) { if (value == null) { return ForNullConstant.INSTANCE; } else { ConstantValue constant = ConstantValue.Simple.wrapOrNull(value); return constant == null ? new ForInstance.Factory(value) : new ForStackManipulation(constant.toStackManipulation(), constant.getTypeDescription()); } } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public ArgumentProvider make(Implementation.Target implementationTarget) { return this; } /** * {@inheritDoc} */ public List resolve(MethodDescription instrumentedMethod, MethodDescription invokedMethod) { return Collections.singletonList(this); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(ParameterDescription target, Assigner assigner, Assigner.Typing typing) { StackManipulation assignment = assigner.assign(typeDefinition.asGenericType(), target.getType(), typing); if (!assignment.isValid()) { throw new IllegalStateException("Cannot assign " + target + " to " + typeDefinition); } return new StackManipulation.Compound(stackManipulation, assignment); } } } /** * A target handler is responsible for invoking a method for a * {@link net.bytebuddy.implementation.MethodCall}. */ protected interface TargetHandler { /** * Resolves this target handler. * * @param instrumentedMethod The instrumented method. * @return The resolved target handler. */ Resolved resolve(MethodDescription instrumentedMethod); /** * A resolved target handler. */ interface Resolved { /** * Returns the target's type description. * * @return The target's type description. */ TypeDescription getTypeDescription(); /** * Creates a stack manipulation to represent this resolved target handler. * * @param invokedMethod The invoked method. * @param assigner The assigner to use. * @param typing The typing to apply. * @return A stack manipulation that implements this target handler. */ StackManipulation toStackManipulation(MethodDescription invokedMethod, Assigner assigner, Assigner.Typing typing); } /** * A factory for creating a target handler. */ interface Factory extends InstrumentedType.Prepareable { /** * Creates a target handler for a given implementation target. * * @param implementationTarget The implementation target to use. * @return The target handler to use. */ TargetHandler make(Implementation.Target implementationTarget); } /** * A simple target handler that applies a given stack manipulation. */ @HashCodeAndEqualsPlugin.Enhance class Simple implements TargetHandler, Factory, Resolved { /** * The type resolved by the stack manipulation. */ private final TypeDescription typeDescription; /** * The stack manipulation that loads a target for the method call. */ private final StackManipulation stackManipulation; /** * Creates a simple target handler. * * @param typeDescription The type resolved by the stack manipulation. * @param stackManipulation The stack manipulation that loads a target for the method call. */ protected Simple(TypeDescription typeDescription, StackManipulation stackManipulation) { this.typeDescription = typeDescription; this.stackManipulation = stackManipulation; } /** * {@inheritDoc} */ public TargetHandler make(Target implementationTarget) { return this; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public Resolved resolve(MethodDescription instrumentedMethod) { return this; } /** * {@inheritDoc} */ public TypeDescription getTypeDescription() { return typeDescription; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Assigner assigner, Assigner.Typing typing) { return stackManipulation; } } /** * A target handler that invokes a method either on the instance of the instrumented * type or as a static method. */ @HashCodeAndEqualsPlugin.Enhance class ForSelfOrStaticInvocation implements TargetHandler { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * Creates a new target handler for a static or self-declared invocation. * * @param instrumentedType The instrumented type. */ protected ForSelfOrStaticInvocation(TypeDescription instrumentedType) { this.instrumentedType = instrumentedType; } /** * {@inheritDoc} */ public TargetHandler.Resolved resolve(MethodDescription instrumentedMethod) { return new Resolved(instrumentedType, instrumentedMethod); } /** * A resolved target handler for a static or self-declared invocation. */ @HashCodeAndEqualsPlugin.Enhance protected static class Resolved implements TargetHandler.Resolved { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * The instrumented method. */ private final MethodDescription instrumentedMethod; /** * Creates a resolved target handler for a static or self-declared invocation. * * @param instrumentedType The instrumented type. * @param instrumentedMethod The instrumented method. */ protected Resolved(TypeDescription instrumentedType, MethodDescription instrumentedMethod) { this.instrumentedType = instrumentedType; this.instrumentedMethod = instrumentedMethod; } /** * {@inheritDoc} */ public TypeDescription getTypeDescription() { return instrumentedType; } /** * {@inheritDoc} */ @SuppressFBWarnings(value = "NP_NULL_ON_SOME_PATH_FROM_RETURN_VALUE", justification = "Assuming declaring type for type member.") public StackManipulation toStackManipulation(MethodDescription invokedMethod, Assigner assigner, Assigner.Typing typing) { if (instrumentedMethod.isStatic() && !invokedMethod.isStatic() && !invokedMethod.isConstructor()) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " from " + instrumentedMethod); } else if (invokedMethod.isConstructor() && (!instrumentedMethod.isConstructor() || !instrumentedType.equals(invokedMethod.getDeclaringType().asErasure()) && (instrumentedType.getSuperClass() == null || !instrumentedType.getSuperClass().asErasure().equals(invokedMethod.getDeclaringType().asErasure())))) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " from " + instrumentedMethod + " in " + instrumentedType); } return new StackManipulation.Compound( invokedMethod.isStatic() ? StackManipulation.Trivial.INSTANCE : MethodVariableAccess.loadThis(), invokedMethod.isConstructor() ? Duplication.SINGLE : StackManipulation.Trivial.INSTANCE ); } } /** * A factory for invoking a static method or a self-declared method. */ protected enum Factory implements TargetHandler.Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public TargetHandler make(Implementation.Target implementationTarget) { return new ForSelfOrStaticInvocation(implementationTarget.getInstrumentedType()); } } } /** * Invokes a method in order to construct a new instance. */ @HashCodeAndEqualsPlugin.Enhance class ForConstructingInvocation implements TargetHandler, Resolved { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * Creates a new target handle constructor invocation. * * @param instrumentedType The instrumented type. */ protected ForConstructingInvocation(TypeDescription instrumentedType) { this.instrumentedType = instrumentedType; } /** * {@inheritDoc} */ public Resolved resolve(MethodDescription instrumentedMethod) { return this; } /** * {@inheritDoc} */ public TypeDescription getTypeDescription() { return instrumentedType; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Assigner assigner, Assigner.Typing typing) { return new StackManipulation.Compound(TypeCreation.of(invokedMethod.getDeclaringType().asErasure()), Duplication.SINGLE); } /** * A target handler factory for a constructor invocation. */ enum Factory implements TargetHandler.Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public TargetHandler make(Implementation.Target implementationTarget) { return new ForConstructingInvocation(implementationTarget.getInstrumentedType()); } } } /** * A target handler that invokes a method on an instance that is stored in a static field. */ @HashCodeAndEqualsPlugin.Enhance class ForValue implements TargetHandler, Resolved { /** * A description of the field that contains the value. */ private final FieldDescription.InDefinedShape fieldDescription; /** * Creates a new target handler for a field value. * * @param fieldDescription A description of the field that contains the value. */ protected ForValue(FieldDescription.InDefinedShape fieldDescription) { this.fieldDescription = fieldDescription; } /** * {@inheritDoc} */ public Resolved resolve(MethodDescription instrumentedMethod) { return this; } /** * {@inheritDoc} */ public TypeDescription getTypeDescription() { return fieldDescription.getType().asErasure(); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = assigner.assign(fieldDescription.getType(), invokedMethod.getDeclaringType().asGenericType(), typing); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " on " + fieldDescription); } return new StackManipulation.Compound( FieldAccess.forField(fieldDescription).read(), stackManipulation ); } /** * A factory for a target handler that loads a specific value. */ @HashCodeAndEqualsPlugin.Enhance protected static class Factory implements TargetHandler.Factory { /** * The name prefix of the field to store the instance. */ private static final String FIELD_PREFIX = "invocationTarget"; /** * The target on which the method is to be invoked. */ private final Object target; /** * The type of the field. */ private final TypeDescription.Generic fieldType; /** * The name of the field to store the target. */ @HashCodeAndEqualsPlugin.ValueHandling(HashCodeAndEqualsPlugin.ValueHandling.Sort.IGNORE) private final String name; /** * Creates a new target handler for a static field. * * @param target The target on which the method is to be invoked. * @param fieldType The type of the field. */ protected Factory(Object target, TypeDescription.Generic fieldType) { this.target = target; this.fieldType = fieldType; name = FIELD_PREFIX + "$" + RandomString.hashOf(target); } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType.withAuxiliaryField(new FieldDescription.Token(name, Opcodes.ACC_PUBLIC | Opcodes.ACC_STATIC | Opcodes.ACC_VOLATILE | Opcodes.ACC_SYNTHETIC, fieldType), target); } /** * {@inheritDoc} */ public TargetHandler make(Implementation.Target implementationTarget) { return new ForValue(implementationTarget.getInstrumentedType().getDeclaredFields().filter(named(name)).getOnly()); } } } /** * Creates a target handler that stores the instance to invoke a method on in an instance field. */ @HashCodeAndEqualsPlugin.Enhance class ForField implements TargetHandler, Resolved { /** * A description of the field that is the target. */ private final FieldDescription fieldDescription; /** * Creates a new target handler for a field description. * * @param fieldDescription A description of the field that is the target. */ protected ForField(FieldDescription fieldDescription) { this.fieldDescription = fieldDescription; } /** * {@inheritDoc} */ public Resolved resolve(MethodDescription instrumentedMethod) { return this; } /** * {@inheritDoc} */ public TypeDescription getTypeDescription() { return fieldDescription.getType().asErasure(); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Assigner assigner, Assigner.Typing typing) { if (!invokedMethod.isMethod() || !invokedMethod.isVirtual() || !invokedMethod.isVisibleTo(fieldDescription.getType().asErasure())) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " on " + fieldDescription); } StackManipulation stackManipulation = assigner.assign(fieldDescription.getType(), invokedMethod.getDeclaringType().asGenericType(), typing); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " on " + fieldDescription); } return new StackManipulation.Compound(invokedMethod.isStatic() || fieldDescription.isStatic() ? StackManipulation.Trivial.INSTANCE : MethodVariableAccess.loadThis(), FieldAccess.forField(fieldDescription).read(), stackManipulation); } /** * A location of a field. */ protected interface Location { /** * Resolves the field to invoke the method upon. * * @param instrumentedType The instrumented type. * @return The field to invoke the method upon. */ FieldDescription resolve(TypeDescription instrumentedType); /** * An implicit field location. */ @HashCodeAndEqualsPlugin.Enhance class ForImplicitField implements Location { /** * The name of the field. */ private final String name; /** * The field locator factory to use. */ private final FieldLocator.Factory fieldLocatorFactory; /** * Creates an implicit field location. * * @param name The name of the field. * @param fieldLocatorFactory The field locator factory to use. */ protected ForImplicitField(String name, FieldLocator.Factory fieldLocatorFactory) { this.name = name; this.fieldLocatorFactory = fieldLocatorFactory; } /** * {@inheritDoc} */ public FieldDescription resolve(TypeDescription instrumentedType) { FieldLocator.Resolution resolution = fieldLocatorFactory.make(instrumentedType).locate(name); if (!resolution.isResolved()) { throw new IllegalStateException("Could not locate field name " + name + " on " + instrumentedType); } return resolution.getField(); } } /** * An explicit field location. */ @HashCodeAndEqualsPlugin.Enhance class ForExplicitField implements Location { /** * The field to resolve. */ private final FieldDescription fieldDescription; /** * Creates an explicit field location. * * @param fieldDescription The field to resolve. */ protected ForExplicitField(FieldDescription fieldDescription) { this.fieldDescription = fieldDescription; } /** * {@inheritDoc} */ public FieldDescription resolve(TypeDescription instrumentedType) { return fieldDescription; } } } /** * A factory for a field access. */ @HashCodeAndEqualsPlugin.Enhance protected static class Factory implements TargetHandler.Factory { /** * The field's location. */ private final Location location; /** * Creates a new target handler factory for a field location. * * @param location The field's location. */ protected Factory(Location location) { this.location = location; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ @SuppressFBWarnings(value = "NP_NULL_ON_SOME_PATH_FROM_RETURN_VALUE", justification = "Assuming declaring type for type member.") public TargetHandler make(Implementation.Target implementationTarget) { FieldDescription fieldDescription = location.resolve(implementationTarget.getInstrumentedType()); if (!fieldDescription.isStatic() && !implementationTarget.getInstrumentedType().isAssignableTo(fieldDescription.getDeclaringType().asErasure())) { throw new IllegalStateException("Cannot access " + fieldDescription + " from " + implementationTarget.getInstrumentedType()); } return new ForField(fieldDescription); } } } /** * A target handler that loads the parameter of the given index as the target object. */ @HashCodeAndEqualsPlugin.Enhance class ForMethodParameter implements TargetHandler, Factory { /** * The index of the instrumented method's parameter that is the target of the method invocation. */ private final int index; /** * Creates a new target handler for the instrumented method's argument. * * @param index The index of the instrumented method's parameter that is the target of the method invocation. */ protected ForMethodParameter(int index) { this.index = index; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return instrumentedType; } /** * {@inheritDoc} */ public TargetHandler make(Implementation.Target implementationTarget) { return this; } /** * {@inheritDoc} */ public TargetHandler.Resolved resolve(MethodDescription instrumentedMethod) { if (index >= instrumentedMethod.getParameters().size()) { throw new IllegalArgumentException(instrumentedMethod + " does not have a parameter with index " + index); } return new Resolved(instrumentedMethod.getParameters().get(index)); } /** * A resolved target handler for a method parameter. */ @HashCodeAndEqualsPlugin.Enhance protected static class Resolved implements TargetHandler.Resolved { /** * The parameter that is the target of the method call. */ private final ParameterDescription parameterDescription; /** * Creates a new resolved target handler for a parameter. * * @param parameterDescription The parameter that is the target of the method call. */ protected Resolved(ParameterDescription parameterDescription) { this.parameterDescription = parameterDescription; } /** * {@inheritDoc} */ public TypeDescription getTypeDescription() { return parameterDescription.getType().asErasure(); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = assigner.assign(parameterDescription.getType(), invokedMethod.getDeclaringType().asGenericType(), typing); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " on " + parameterDescription.getType()); } return new StackManipulation.Compound(MethodVariableAccess.load(parameterDescription), stackManipulation); } } } /** * A target handler that executes the method and uses it's return value as the target object. */ @HashCodeAndEqualsPlugin.Enhance class ForMethodCall implements TargetHandler { /** * The appender that is the target of the using method call. */ private final Appender appender; /** * Creates a new target handler for another method call. * * @param appender The appender that is the target of the using method call. */ protected ForMethodCall(Appender appender) { this.appender = appender; } /** * {@inheritDoc} */ public TargetHandler.Resolved resolve(MethodDescription instrumentedMethod) { TargetHandler.Resolved targetHandler = appender.targetHandler.resolve(instrumentedMethod); return new Resolved(appender, appender.toInvokedMethod(instrumentedMethod, targetHandler), instrumentedMethod, targetHandler); } /** * A resolved target handler for a method call. */ @HashCodeAndEqualsPlugin.Enhance protected static class Resolved implements TargetHandler.Resolved { /** * The appender to use. */ private final Appender appender; /** * The invoked method. */ private final MethodDescription methodDescription; /** * The instrumented method. */ private final MethodDescription instrumentedMethod; /** * The target handler to use. */ private final TargetHandler.Resolved targetHandler; /** * Creates a resolved target handler for a method call. * * @param appender The appender to use. * @param methodDescription The invoked method. * @param instrumentedMethod The instrumented method. * @param targetHandler The target handler to use. */ protected Resolved(Appender appender, MethodDescription methodDescription, MethodDescription instrumentedMethod, TargetHandler.Resolved targetHandler) { this.appender = appender; this.methodDescription = methodDescription; this.instrumentedMethod = instrumentedMethod; this.targetHandler = targetHandler; } /** * {@inheritDoc} */ public TypeDescription getTypeDescription() { return methodDescription.isConstructor() ? methodDescription.getDeclaringType().asErasure() : methodDescription.getReturnType().asErasure(); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = assigner.assign(methodDescription.isConstructor() ? methodDescription.getDeclaringType().asGenericType() : methodDescription.getReturnType(), invokedMethod.getDeclaringType().asGenericType(), typing); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " on " + (methodDescription.isConstructor() ? methodDescription.getDeclaringType() : methodDescription.getReturnType())); } return new StackManipulation.Compound(appender.toStackManipulation(instrumentedMethod, methodDescription, targetHandler), stackManipulation); } } /** * Creates a factory for invoking a method on the return type of another method. */ @HashCodeAndEqualsPlugin.Enhance protected static class Factory implements TargetHandler.Factory { /** * The method call to invoke. */ private final MethodCall methodCall; /** * Creates a new factory for invoking another method call as a method target. * * @param methodCall The method call to invoke. */ public Factory(MethodCall methodCall) { this.methodCall = methodCall; } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return methodCall.prepare(instrumentedType); } /** * {@inheritDoc} */ public TargetHandler make(Implementation.Target implementationTarget) { return new ForMethodCall(methodCall.new Appender(implementationTarget, TerminationHandler.Simple.IGNORING)); } } } } /** * A method invoker is responsible for creating a method invocation that is to be applied by a * {@link net.bytebuddy.implementation.MethodCall}. */ protected interface MethodInvoker { /** * Invokes the method. * * @param invokedMethod The method to be invoked. * @param implementationTarget The implementation target of the instrumented instance. * @return A stack manipulation that represents the method invocation. */ StackManipulation toStackManipulation(MethodDescription invokedMethod, Implementation.Target implementationTarget); /** * A factory for creating a method invoker. */ interface Factory { /** * Creates a method invoker. * * @param instrumentedType The instrumented type. * @return The method invoker to use. */ MethodInvoker make(TypeDescription instrumentedType); } /** * Applies a contextual invocation of the provided method, i.e. a static invocation for static methods, * a special invocation for constructors and private methods and a virtual invocation for any other method. */ @HashCodeAndEqualsPlugin.Enhance class ForContextualInvocation implements MethodInvoker { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * Creates a new method invoker for a contextual invocation. * * @param instrumentedType The instrumented type. */ protected ForContextualInvocation(TypeDescription instrumentedType) { this.instrumentedType = instrumentedType; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Implementation.Target implementationTarget) { if (invokedMethod.isVirtual() && !invokedMethod.isInvokableOn(instrumentedType)) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " on " + instrumentedType); } return invokedMethod.isVirtual() ? MethodInvocation.invoke(invokedMethod).virtual(instrumentedType) : MethodInvocation.invoke(invokedMethod); } /** * A factory for creating a contextual method invoker. */ enum Factory implements MethodInvoker.Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public MethodInvoker make(TypeDescription instrumentedType) { return new ForContextualInvocation(instrumentedType); } } } /** * Applies a virtual invocation on a given type. */ @HashCodeAndEqualsPlugin.Enhance class ForVirtualInvocation implements MethodInvoker { /** * The type description to virtually invoke the method upon. */ private final TypeDescription typeDescription; /** * Creates a new method invoking for a virtual method invocation. * * @param typeDescription The type description to virtually invoke the method upon. */ protected ForVirtualInvocation(TypeDescription typeDescription) { this.typeDescription = typeDescription; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Implementation.Target implementationTarget) { if (!invokedMethod.isInvokableOn(typeDescription)) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " on " + typeDescription); } return MethodInvocation.invoke(invokedMethod).virtual(typeDescription); } /** * A method invoker for a virtual method that uses an implicit target type. */ protected enum WithImplicitType implements MethodInvoker, MethodInvoker.Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public MethodInvoker make(TypeDescription instrumentedType) { return this; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Implementation.Target implementationTarget) { if (!invokedMethod.isAccessibleTo(implementationTarget.getInstrumentedType()) || !invokedMethod.isVirtual()) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " virtually"); } return MethodInvocation.invoke(invokedMethod); } } /** * A method invoker factory for a virtual method invocation. */ @HashCodeAndEqualsPlugin.Enhance protected static class Factory implements MethodInvoker.Factory { /** * The type on which the virtual method is invoked. */ private final TypeDescription typeDescription; /** * Creates a new method invoker factory for a virtual method call. * * @param typeDescription The type on which the virtual method is invoked. */ protected Factory(TypeDescription typeDescription) { this.typeDescription = typeDescription; } /** * {@inheritDoc} */ public MethodInvoker make(TypeDescription instrumentedType) { if (!typeDescription.asErasure().isAccessibleTo(instrumentedType)) { throw new IllegalStateException(typeDescription + " is not accessible to " + instrumentedType); } return new ForVirtualInvocation(typeDescription); } } } /** * Applies a super method invocation of the provided method. */ @HashCodeAndEqualsPlugin.Enhance class ForSuperMethodInvocation implements MethodInvoker { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * Creates a method invoker for a super method invocation. * * @param instrumentedType The instrumented type. */ protected ForSuperMethodInvocation(TypeDescription instrumentedType) { this.instrumentedType = instrumentedType; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Implementation.Target implementationTarget) { if (!invokedMethod.isInvokableOn(implementationTarget.getOriginType().asErasure())) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " as super method of " + instrumentedType); } StackManipulation stackManipulation = implementationTarget .invokeDominant(invokedMethod.asSignatureToken()) .withCheckedCompatibilityTo(invokedMethod.asTypeToken()); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " as a super method"); } return stackManipulation; } /** * A method invoker factory for a super method invocation. */ enum Factory implements MethodInvoker.Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public MethodInvoker make(TypeDescription instrumentedType) { if (instrumentedType.getSuperClass() == null) { throw new IllegalStateException("Cannot invoke super method for " + instrumentedType); } return new ForSuperMethodInvocation(instrumentedType); } } } /** * Invokes a method as a Java 8 default method. */ @HashCodeAndEqualsPlugin.Enhance class ForDefaultMethodInvocation implements MethodInvoker { /** * The instrumented type. */ private final TypeDescription instrumentedType; /** * Creates a new method invoker for a default method invocation. * * @param instrumentedType The instrumented type. */ protected ForDefaultMethodInvocation(TypeDescription instrumentedType) { this.instrumentedType = instrumentedType; } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, Implementation.Target implementationTarget) { if (!invokedMethod.isInvokableOn(instrumentedType)) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " as default method of " + instrumentedType); } StackManipulation stackManipulation = implementationTarget .invokeDefault(invokedMethod.asSignatureToken(), invokedMethod.getDeclaringType().asErasure()) .withCheckedCompatibilityTo(invokedMethod.asTypeToken()); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot invoke " + invokedMethod + " on " + instrumentedType); } return stackManipulation; } /** * A factory for creating a method invoker for a default method invocation. */ enum Factory implements MethodInvoker.Factory { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public MethodInvoker make(TypeDescription instrumentedType) { return new ForDefaultMethodInvocation(instrumentedType); } } } } /** * A termination handler is responsible to handle the return value of a method that is invoked via a * {@link net.bytebuddy.implementation.MethodCall}. */ protected interface TerminationHandler { /** * Returns a preparing stack manipulation to apply prior to the method call. * * @return The stack manipulation to apply prior to the method call. */ StackManipulation prepare(); /** * Returns a stack manipulation that handles the method return. * * @param invokedMethod The method that was invoked by the method call. * @param instrumentedMethod The method being intercepted. * @param assigner The assigner to be used. * @param typing Indicates if dynamic type castings should be attempted for incompatible assignments. * @return A stack manipulation that handles the method return. */ StackManipulation toStackManipulation(MethodDescription invokedMethod, MethodDescription instrumentedMethod, Assigner assigner, Assigner.Typing typing); /** * A factory for creating a termination handler. */ interface Factory { /** * Creates a termination handler for a given instrumented type. * * @param instrumentedType The instrumented type. * @return A termination handler to apply for the instrumented type. */ TerminationHandler make(TypeDescription instrumentedType); } /** * Simple termination handler implementations. */ enum Simple implements TerminationHandler, Factory { /** * A termination handler that returns the invoked method's return value. */ RETURNING { /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, MethodDescription instrumentedMethod, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = assigner.assign(invokedMethod.isConstructor() ? invokedMethod.getDeclaringType().asGenericType() : invokedMethod.getReturnType(), instrumentedMethod.getReturnType(), typing); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot return " + invokedMethod.getReturnType() + " from " + instrumentedMethod); } return new StackManipulation.Compound(stackManipulation, MethodReturn.of(instrumentedMethod.getReturnType())); } }, /** * A termination handler that drops the invoked method's return value. */ DROPPING { /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, MethodDescription instrumentedMethod, Assigner assigner, Assigner.Typing typing) { return Removal.of(invokedMethod.isConstructor() ? invokedMethod.getDeclaringType() : invokedMethod.getReturnType()); } }, /** * A termination handler that does not apply any change. */ IGNORING { /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, MethodDescription instrumentedMethod, Assigner assigner, Assigner.Typing typing) { return StackManipulation.Trivial.INSTANCE; } }; /** * {@inheritDoc} */ public TerminationHandler make(TypeDescription instrumentedType) { return this; } /** * {@inheritDoc} */ public StackManipulation prepare() { return StackManipulation.Trivial.INSTANCE; } } /** * A termination handler that sets a field. */ @HashCodeAndEqualsPlugin.Enhance class FieldSetting implements TerminationHandler { /** * The field to set. */ private final FieldDescription fieldDescription; /** * Creates a new field-setting termination handler. * * @param fieldDescription The field to set. */ protected FieldSetting(FieldDescription fieldDescription) { this.fieldDescription = fieldDescription; } /** * {@inheritDoc} */ public StackManipulation prepare() { return fieldDescription.isStatic() ? StackManipulation.Trivial.INSTANCE : MethodVariableAccess.loadThis(); } /** * {@inheritDoc} */ public StackManipulation toStackManipulation(MethodDescription invokedMethod, MethodDescription instrumentedMethod, Assigner assigner, Assigner.Typing typing) { StackManipulation stackManipulation = assigner.assign(invokedMethod.isConstructor() ? invokedMethod.getDeclaringType().asGenericType() : invokedMethod.getReturnType(), fieldDescription.getType(), typing); if (!stackManipulation.isValid()) { throw new IllegalStateException("Cannot assign result of " + invokedMethod + " to " + fieldDescription); } return new StackManipulation.Compound(stackManipulation, FieldAccess.forField(fieldDescription).write()); } /** * A factory for a field-setting termination handler that locates a given field. */ @HashCodeAndEqualsPlugin.Enhance protected static class Explicit implements TerminationHandler.Factory { /** * The matcher being used for locating a field. */ private final FieldDescription fieldDescription; /** * Creates a factory for a field-setting termination handler. * * @param fieldDescription The field to set. */ protected Explicit(FieldDescription fieldDescription) { this.fieldDescription = fieldDescription; } /** * {@inheritDoc} */ @SuppressFBWarnings(value = "NP_NULL_ON_SOME_PATH_FROM_RETURN_VALUE", justification = "Assuming declaring type for type member.") public TerminationHandler make(TypeDescription instrumentedType) { if (!fieldDescription.isStatic() && !instrumentedType.isAssignableTo(fieldDescription.getDeclaringType().asErasure())) { throw new IllegalStateException("Cannot set " + fieldDescription + " from " + instrumentedType); } else if (!fieldDescription.isVisibleTo(instrumentedType)) { throw new IllegalStateException("Cannot access " + fieldDescription + " from " + instrumentedType); } return new FieldSetting(fieldDescription); } } /** * A factory for a field-setting termination handler that uses a matcher to locate the target field on the insturmented type. */ @HashCodeAndEqualsPlugin.Enhance protected static class Implicit implements TerminationHandler.Factory { /** * The matcher being used for locating a field. */ private final ElementMatcher matcher; /** * Creates a factory for a field-setting termination handler. * * @param matcher The matcher being used for locating a field. */ protected Implicit(ElementMatcher matcher) { this.matcher = matcher; } /** * {@inheritDoc} */ public TerminationHandler make(TypeDescription instrumentedType) { TypeDefinition current = instrumentedType; do { FieldList candidates = current.getDeclaredFields().filter(isVisibleTo(instrumentedType).and(matcher)); if (candidates.size() == 1) { return new FieldSetting(candidates.getOnly()); } else if (candidates.size() == 2) { throw new IllegalStateException(matcher + " is ambiguous and resolved: " + candidates); } current = current.getSuperClass(); } while (current != null); throw new IllegalStateException(matcher + " does not locate any accessible fields for " + instrumentedType); } } } } /** * Represents a {@link net.bytebuddy.implementation.MethodCall} that invokes a method without specifying * an invocation method. Some methods can for example be invoked both virtually or as a super method invocation. * Similarly, interface methods can be invoked virtually or as an explicit invocation of a default method. If * no explicit invocation type is set, a method is always invoked virtually unless the method * represents a static methods or a constructor. */ public static class WithoutSpecifiedTarget extends MethodCall { /** * Creates a new method call without a specified target. * * @param methodLocator The method locator to use. */ protected WithoutSpecifiedTarget(MethodLocator.Factory methodLocator) { super(methodLocator, TargetHandler.ForSelfOrStaticInvocation.Factory.INSTANCE, Collections.emptyList(), MethodInvoker.ForContextualInvocation.Factory.INSTANCE, TerminationHandler.Simple.RETURNING, Assigner.DEFAULT, Assigner.Typing.STATIC); } /** * Invokes the specified method on the given instance. * * @param target The object on which the method is to be invoked upon. * @return A method call that invokes the provided method on the given object. */ @SuppressWarnings("unchecked") public MethodCall on(Object target) { return on(target, (Class) target.getClass()); } /** * Invokes the specified method on the given instance. * * @param target The object on which the method is to be invoked upon. * @param type The object's type. * @param The type of the object. * @return A method call that invokes the provided method on the given object. */ public MethodCall on(T target, Class type) { return new MethodCall(methodLocator, new TargetHandler.ForValue.Factory(target, TypeDescription.Generic.OfNonGenericType.ForLoadedType.of(type)), argumentLoaders, new MethodInvoker.ForVirtualInvocation.Factory(TypeDescription.ForLoadedType.of(type)), terminationHandler, assigner, typing); } /** * Invokes the specified method on an instance that is loaded by the provided stack manipulation. * * @param stackManipulation The stack manipulation that loads the instance that the method is invoked upon. * @param type The type of the loaded instance. * @return A method call that invokes the provided method on the value of the provided stack manipulation. */ public MethodCall on(StackManipulation stackManipulation, Class type) { return on(stackManipulation, TypeDescription.ForLoadedType.of(type)); } /** * Invokes the specified method on an instance that is loaded by the provided stack manipulation. * * @param stackManipulation The stack manipulation that loads the instance that the method is invoked upon. * @param typeDescription The type of the loaded instance. * @return A method call that invokes the provided method on the value of the provided stack manipulation. */ public MethodCall on(StackManipulation stackManipulation, TypeDescription typeDescription) { return new MethodCall(methodLocator, new TargetHandler.Simple(typeDescription, stackManipulation), argumentLoaders, new MethodInvoker.ForVirtualInvocation.Factory(typeDescription), terminationHandler, assigner, typing); } /** * Invokes the specified method on the instrumented method's argument of the given index. * * @param index The index of the method's argument on which the specified method should be invoked. * @return A method call that invokes the provided method on the given method argument. */ public MethodCall onArgument(int index) { if (index < 0) { throw new IllegalArgumentException("An argument index cannot be negative: " + index); } return new MethodCall(methodLocator, new TargetHandler.ForMethodParameter(index), argumentLoaders, MethodInvoker.ForVirtualInvocation.WithImplicitType.INSTANCE, terminationHandler, assigner, typing); } /** * Invokes a method on the object stored in the specified field. * * @param name The name of the field. * @return A method call that invokes the given method on an instance that is read from a field. */ public MethodCall onField(String name) { return onField(name, FieldLocator.ForClassHierarchy.Factory.INSTANCE); } /** * Invokes a method on the object stored in the specified field. * * @param name The name of the field. * @param fieldLocatorFactory The field locator factory to use for locating the field. * @return A method call that invokes the given method on an instance that is read from a field. */ public MethodCall onField(String name, FieldLocator.Factory fieldLocatorFactory) { return new MethodCall(methodLocator, new TargetHandler.ForField.Factory(new TargetHandler.ForField.Location.ForImplicitField(name, fieldLocatorFactory)), argumentLoaders, MethodInvoker.ForVirtualInvocation.WithImplicitType.INSTANCE, terminationHandler, assigner, typing); } /** * Invokes a method on the object stored in the specified field. * * @param field The field on which to invoke the method upon. * @return A method call that invokes the given method on an instance that is read from a field. */ public MethodCall onField(Field field) { return onField(new FieldDescription.ForLoadedField(field)); } /** * Invokes a method on the object stored in the specified field. * * @param fieldDescription The field on which to invoke the method upon. * @return A method call that invokes the given method on an instance that is read from a field. */ public MethodCall onField(FieldDescription fieldDescription) { return new MethodCall(methodLocator, new TargetHandler.ForField.Factory(new TargetHandler.ForField.Location.ForExplicitField(fieldDescription)), argumentLoaders, MethodInvoker.ForVirtualInvocation.WithImplicitType.INSTANCE, terminationHandler, assigner, typing); } /** * Invokes a method on the method call's return value. * * @param methodCall The method call that return's value is to be used in this method call * @return A method call that invokes the given method on an instance that is returned from a method call. */ public MethodCall onMethodCall(MethodCall methodCall) { return new MethodCall(methodLocator, new TargetHandler.ForMethodCall.Factory(methodCall), argumentLoaders, MethodInvoker.ForVirtualInvocation.WithImplicitType.INSTANCE, terminationHandler, assigner, typing); } /** * Invokes the given method by a super method invocation on the instance of the instrumented type. * Note that the super method is resolved depending on the type of implementation when this method is called. * In case that a subclass is created, the super type is invoked. If a type is rebased, the rebased method * is invoked if such a method exists. * * @return A method call where the given method is invoked as a super method invocation. */ public MethodCall onSuper() { return new MethodCall(methodLocator, TargetHandler.ForSelfOrStaticInvocation.Factory.INSTANCE, argumentLoaders, MethodInvoker.ForSuperMethodInvocation.Factory.INSTANCE, terminationHandler, assigner, typing); } /** * Invokes the given method by a Java 8 default method invocation on the instance of the instrumented type. * * @return A method call where the given method is invoked as a super method invocation. */ public MethodCall onDefault() { return new MethodCall(methodLocator, TargetHandler.ForSelfOrStaticInvocation.Factory.INSTANCE, argumentLoaders, MethodInvoker.ForDefaultMethodInvocation.Factory.INSTANCE, terminationHandler, assigner, typing); } } /** * A {@link MethodCall} that sets the call's result as the value of a field. */ @HashCodeAndEqualsPlugin.Enhance public static class FieldSetting implements Composable { /** * The represented method call. */ private final MethodCall methodCall; /** * Creates a new field setting method call. * * @param methodCall The represented method call. */ protected FieldSetting(MethodCall methodCall) { this.methodCall = methodCall; } /** * Defines an assigner to be used for assigning values to the parameters of the invoked method. This assigner * is also used for assigning the invoked method's return value to the field being set. * * @param assigner The assigner to use. * @param typing Indicates if dynamic type castings should be attempted for incompatible assignments. * @return This field-setting method call using the provided assigner. */ public Composable withAssigner(Assigner assigner, Assigner.Typing typing) { return new FieldSetting((MethodCall) methodCall.withAssigner(assigner, typing)); } /** * {@inheritDoc} */ public InstrumentedType prepare(InstrumentedType instrumentedType) { return methodCall.prepare(instrumentedType); } /** * {@inheritDoc} */ public ByteCodeAppender appender(Target implementationTarget) { return new ByteCodeAppender.Compound(methodCall.appender(implementationTarget), Appender.INSTANCE); } /** * {@inheritDoc} */ public Implementation andThen(Implementation implementation) { return new Compound(methodCall, implementation); } /** * {@inheritDoc} */ public Composable andThen(Composable implementation) { return new Compound.Composable(methodCall, implementation); } /** * A byte code appender to implement a field-setting method call. */ protected enum Appender implements ByteCodeAppender { /** * The singleton instance. */ INSTANCE; /** * {@inheritDoc} */ public Size apply(MethodVisitor methodVisitor, Context implementationContext, MethodDescription instrumentedMethod) { if (!instrumentedMethod.getReturnType().represents(void.class)) { throw new IllegalStateException("Instrumented method " + instrumentedMethod + " does not return void for field setting method call"); } return new Size(MethodReturn.VOID.apply(methodVisitor, implementationContext).getMaximalSize(), instrumentedMethod.getStackSize()); } } } /** * The appender being used to implement a {@link net.bytebuddy.implementation.MethodCall}. */ @HashCodeAndEqualsPlugin.Enhance(includeSyntheticFields = true) protected class Appender implements ByteCodeAppender { /** * The implementation target. */ private final Implementation.Target implementationTarget; /** * The method locator to use. */ private final MethodLocator methodLocator; /** * The argument providers to use. */ private final List argumentProviders; /** * The method invoker to use. */ private final MethodInvoker methodInvoker; /** * The target handler to use. */ private final TargetHandler targetHandler; /** * The termination handler to use. */ private final TerminationHandler terminationHandler; /** * Creates a new appender. * * @param implementationTarget The implementation target. * @param terminationHandler The termination handler to use. */ protected Appender(Target implementationTarget, TerminationHandler terminationHandler) { this.implementationTarget = implementationTarget; methodLocator = MethodCall.this.methodLocator.make(implementationTarget.getInstrumentedType()); argumentProviders = new ArrayList(argumentLoaders.size()); for (ArgumentLoader.Factory factory : argumentLoaders) { argumentProviders.add(factory.make(implementationTarget)); } methodInvoker = MethodCall.this.methodInvoker.make(implementationTarget.getInstrumentedType()); targetHandler = MethodCall.this.targetHandler.make(implementationTarget); this.terminationHandler = terminationHandler; } /** * {@inheritDoc} */ public Size apply(MethodVisitor methodVisitor, Context implementationContext, MethodDescription instrumentedMethod) { TargetHandler.Resolved targetHandler = this.targetHandler.resolve(instrumentedMethod); return new Size(new StackManipulation.Compound(terminationHandler.prepare(), toStackManipulation(instrumentedMethod, toInvokedMethod(instrumentedMethod, targetHandler), targetHandler)).apply(methodVisitor, implementationContext).getMaximalSize(), instrumentedMethod.getStackSize()); } /** * Resolves this appender to the method being invoked. * * @param instrumentedMethod The instrumented method. * @param targetHandler The resolved target handler to base the stack manipulation upon. * @return The invoked method. */ protected MethodDescription toInvokedMethod(MethodDescription instrumentedMethod, TargetHandler.Resolved targetHandler) { return methodLocator.resolve(targetHandler.getTypeDescription(), instrumentedMethod); } /** * Resolves this appender to a stack manipulation. * * @param instrumentedMethod The instrumented method. * @param invokedMethod The invoked method. * @param targetHandler The resolved target handler to base the stack manipulation upon. * @return A stack manipulation that represents this method call. */ protected StackManipulation toStackManipulation(MethodDescription instrumentedMethod, MethodDescription invokedMethod, TargetHandler.Resolved targetHandler) { List argumentLoaders = new ArrayList(); for (ArgumentLoader.ArgumentProvider argumentProvider : argumentProviders) { argumentLoaders.addAll(argumentProvider.resolve(instrumentedMethod, invokedMethod)); } ParameterList parameters = invokedMethod.getParameters(); if (parameters.size() != argumentLoaders.size()) { throw new IllegalStateException(invokedMethod + " does not accept " + argumentLoaders.size() + " arguments"); } Iterator parameterIterator = parameters.iterator(); List argumentInstructions = new ArrayList(argumentLoaders.size()); for (ArgumentLoader argumentLoader : argumentLoaders) { argumentInstructions.add(argumentLoader.toStackManipulation(parameterIterator.next(), assigner, typing)); } return new StackManipulation.Compound( targetHandler.toStackManipulation(invokedMethod, assigner, typing), new StackManipulation.Compound(argumentInstructions), methodInvoker.toStackManipulation(invokedMethod, implementationTarget), terminationHandler.toStackManipulation(invokedMethod, instrumentedMethod, assigner, typing) ); } } }




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