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Byte Buddy is a Java library for creating Java classes at run time. This artifact is a build of Byte Buddy with a remaining dependency onto ASM. You should never depend on this module without repackaging Byte Buddy and ASM into your own namespace.

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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.dynamic.loading;

import net.bytebuddy.build.HashCodeAndEqualsPlugin;
import net.bytebuddy.description.type.TypeDescription;
import net.bytebuddy.utility.nullability.AlwaysNull;
import net.bytebuddy.utility.nullability.MaybeNull;

import java.io.File;
import java.lang.instrument.Instrumentation;
import java.security.ProtectionDomain;
import java.util.Map;
import java.util.concurrent.Callable;

/**
 * A strategy for loading a collection of types.
 *
 * @param  The least specific type of class loader this strategy can apply to.
 */
public interface ClassLoadingStrategy {

    /**
     * A type-safe constant representing the bootstrap class loader which is represented by {@code null} within Java.
     */
    @AlwaysNull
    ClassLoader BOOTSTRAP_LOADER = null;

    /**
     * An undefined protection domain.
     */
    @AlwaysNull
    ProtectionDomain NO_PROTECTION_DOMAIN = null;

    /**
     * Loads a given collection of classes given their binary representation.
     *
     * @param classLoader The class loader to used for loading the classes.
     * @param types       Byte array representations of the types to be loaded mapped by their descriptions,
     *                    where an iteration order defines an order in which they are supposed to be loaded,
     *                    if relevant.
     * @return A collection of the loaded classes which will be initialized in the iteration order of the
     * returned collection.
     */
    Map> load(@MaybeNull T classLoader, Map types);

    /**
     * This class contains implementations of default class loading strategies.
     */
    enum Default implements Configurable {

        /**
         * This strategy creates a new {@link net.bytebuddy.dynamic.loading.ByteArrayClassLoader} with the given
         * class loader as its parent. The byte array class loader is aware of a any dynamically created type and can
         * natively load the given classes. This allows to load classes with cyclic load-time dependencies since the
         * byte array class loader is queried on each encountered unknown class. Due to the encapsulation of the
         * classes that were loaded by a byte array class loader, this strategy will lead to the unloading of these
         * classes once this class loader, its classes or any instances of these classes become unreachable.
         */
        WRAPPER(new WrappingDispatcher(ByteArrayClassLoader.PersistenceHandler.LATENT, WrappingDispatcher.PARENT_FIRST)),

        /**
         * The strategy is identical to {@link ClassLoadingStrategy.Default#WRAPPER} but exposes
         * the byte arrays that represent a class by {@link java.lang.ClassLoader#getResourceAsStream(String)}. For
         * this purpose, all class files are persisted as byte arrays withing the wrapping class loader.
         */
        WRAPPER_PERSISTENT(new WrappingDispatcher(ByteArrayClassLoader.PersistenceHandler.MANIFEST, WrappingDispatcher.PARENT_FIRST)),

        /**
         * 

* The child-first class loading strategy is a modified version of the * {@link ClassLoadingStrategy.Default#WRAPPER} where the dynamic types are given * priority over any types of a parent class loader with the same name. *

*

* Important: This does not replace a type of the same name, but it makes the type invisible by * the reach of this class loader. *

*/ CHILD_FIRST(new WrappingDispatcher(ByteArrayClassLoader.PersistenceHandler.LATENT, WrappingDispatcher.CHILD_FIRST)), /** * The strategy is identical to {@link ClassLoadingStrategy.Default#CHILD_FIRST} but * exposes the byte arrays that represent a class by {@link java.lang.ClassLoader#getResourceAsStream(String)}. * For this purpose, all class files are persisted as byte arrays withing the wrapping class loader. */ CHILD_FIRST_PERSISTENT(new WrappingDispatcher(ByteArrayClassLoader.PersistenceHandler.MANIFEST, WrappingDispatcher.CHILD_FIRST)), /** *

* This strategy does not create a new class loader but injects all classes into the given {@link java.lang.ClassLoader} * by reflective access. This prevents the loading of classes with cyclic load-time dependencies but avoids the * creation of an additional class loader. The advantage of this strategy is that the loaded classes will have * package-private access to other classes within their package of the class loader into which they are * injected what is not permitted when the wrapper class loader is used. This strategy is implemented using a * {@link net.bytebuddy.dynamic.loading.ClassInjector.UsingReflection}. Note that this strategy usually yields * a better runtime performance. *

*

* Important: Class injection requires access to JVM internal methods that are sealed by security managers and the * Java Platform module system. Since Java 11, access to these methods is no longer feasible unless those packages * are explicitly opened. *

*

* Note: This class loader does not define packages for injected classes by default. Therefore, calls to * {@link Class#getPackage()} might return {@code null}. Packages are only defined manually by a class loader prior to * Java 9. *

*/ INJECTION(new InjectionDispatcher()); /** * The default behavior when attempting to load a type that was already loaded. */ private static final boolean DEFAULT_FORBID_EXISTING = true; /** * The dispatcher to be used when loading a class. */ private final Configurable dispatcher; /** * Creates a new default class loading strategy. * * @param dispatcher The dispatcher to be used when loading a class. */ Default(Configurable dispatcher) { this.dispatcher = dispatcher; } /** * {@inheritDoc} */ public Map> load(@MaybeNull ClassLoader classLoader, Map types) { return dispatcher.load(classLoader, types); } /** * {@inheritDoc} */ public Configurable with(ProtectionDomain protectionDomain) { return dispatcher.with(protectionDomain); } /** * {@inheritDoc} */ public Configurable with(PackageDefinitionStrategy packageDefinitionStrategy) { return dispatcher.with(packageDefinitionStrategy); } /** * {@inheritDoc} */ public Configurable allowExistingTypes() { return dispatcher.allowExistingTypes(); } /** * {@inheritDoc} */ public Configurable opened() { return dispatcher.opened(); } /** *

* A class loading strategy which applies a class loader injection while applying a given {@link java.security.ProtectionDomain} on class injection. *

*

* Important: Class injection requires access to JVM internal methods that are sealed by security managers and the * Java Platform module system. Since Java 11, access to these methods is no longer feasible unless those packages * are explicitly opened. *

*/ @HashCodeAndEqualsPlugin.Enhance protected static class InjectionDispatcher implements ClassLoadingStrategy.Configurable { /** * The protection domain to apply or {@code null} if no protection domain is set. */ @MaybeNull @HashCodeAndEqualsPlugin.ValueHandling(HashCodeAndEqualsPlugin.ValueHandling.Sort.REVERSE_NULLABILITY) private final ProtectionDomain protectionDomain; /** * The package definer to be used for querying information on package information. */ private final PackageDefinitionStrategy packageDefinitionStrategy; /** * Determines if an exception should be thrown when attempting to load a type that already exists. */ private final boolean forbidExisting; /** * Creates a new injection dispatcher. */ protected InjectionDispatcher() { this(NO_PROTECTION_DOMAIN, PackageDefinitionStrategy.NoOp.INSTANCE, DEFAULT_FORBID_EXISTING); } /** * Creates a new injection dispatcher. * * @param protectionDomain The protection domain to apply or {@code null} if no protection domain is set. * @param packageDefinitionStrategy The package definer to be used for querying information on package information. * @param forbidExisting Determines if an exception should be thrown when attempting to load a type that already exists. */ private InjectionDispatcher(@MaybeNull ProtectionDomain protectionDomain, PackageDefinitionStrategy packageDefinitionStrategy, boolean forbidExisting) { this.protectionDomain = protectionDomain; this.packageDefinitionStrategy = packageDefinitionStrategy; this.forbidExisting = forbidExisting; } /** * {@inheritDoc} */ public Map> load(@MaybeNull ClassLoader classLoader, Map types) { if (classLoader == null) { throw new IllegalArgumentException("Cannot inject classes into the bootstrap class loader"); } return new ClassInjector.UsingReflection(classLoader, protectionDomain, packageDefinitionStrategy, forbidExisting).inject(types); } /** * {@inheritDoc} */ public Configurable with(ProtectionDomain protectionDomain) { return new InjectionDispatcher(protectionDomain, packageDefinitionStrategy, forbidExisting); } /** * {@inheritDoc} */ public Configurable with(PackageDefinitionStrategy packageDefinitionStrategy) { return new InjectionDispatcher(protectionDomain, packageDefinitionStrategy, forbidExisting); } /** * {@inheritDoc} */ public Configurable allowExistingTypes() { return new InjectionDispatcher(protectionDomain, packageDefinitionStrategy, false); } /** * {@inheritDoc} */ public Configurable opened() { return this; } } /** * A class loading strategy which creates a wrapping class loader while applying a given * {@link java.security.ProtectionDomain} on class loading. */ @HashCodeAndEqualsPlugin.Enhance protected static class WrappingDispatcher implements ClassLoadingStrategy.Configurable { /** * Indicates that a child first loading strategy should be attempted. */ private static final boolean CHILD_FIRST = true; /** * Indicates that a parent first loading strategy should be attempted. */ private static final boolean PARENT_FIRST = false; /** * The protection domain to apply or {@code null} if no protection domain is set. */ @MaybeNull @HashCodeAndEqualsPlugin.ValueHandling(HashCodeAndEqualsPlugin.ValueHandling.Sort.REVERSE_NULLABILITY) private final ProtectionDomain protectionDomain; /** * The persistence handler to apply. */ private final ByteArrayClassLoader.PersistenceHandler persistenceHandler; /** * The package definer to be used for querying information on package information. */ private final PackageDefinitionStrategy packageDefinitionStrategy; /** * {@code true} if the created class loader should apply child-first semantics. */ private final boolean childFirst; /** * Determines if an exception should be thrown when attempting to load a type that already exists. */ private final boolean forbidExisting; /** * {@code true} if the class loader should be sealed. */ private final boolean sealed; /** * Creates a new wrapping dispatcher with a default protection domain and a default access control context. * * @param persistenceHandler The persistence handler to apply. * @param childFirst {@code true} if the created class loader should apply child-first semantics. */ protected WrappingDispatcher(ByteArrayClassLoader.PersistenceHandler persistenceHandler, boolean childFirst) { this(NO_PROTECTION_DOMAIN, PackageDefinitionStrategy.Trivial.INSTANCE, persistenceHandler, childFirst, DEFAULT_FORBID_EXISTING, true); } /** * Creates a new protection domain specific class loading wrapper. * * @param protectionDomain The protection domain to apply or {@code null} if no protection domain is set. * @param packageDefinitionStrategy The package definer to be used for querying information on package information. * @param persistenceHandler The persistence handler to apply. * @param childFirst {@code true} if the created class loader should apply child-first semantics. * @param forbidExisting Determines if an exception should be thrown when attempting to load a type that already exists. * @param sealed {@code true} if the class loader should be sealed. */ private WrappingDispatcher(@MaybeNull ProtectionDomain protectionDomain, PackageDefinitionStrategy packageDefinitionStrategy, ByteArrayClassLoader.PersistenceHandler persistenceHandler, boolean childFirst, boolean forbidExisting, boolean sealed) { this.protectionDomain = protectionDomain; this.packageDefinitionStrategy = packageDefinitionStrategy; this.persistenceHandler = persistenceHandler; this.childFirst = childFirst; this.forbidExisting = forbidExisting; this.sealed = sealed; } /** * {@inheritDoc} */ public Map> load(@MaybeNull ClassLoader classLoader, Map types) { return childFirst ? ByteArrayClassLoader.ChildFirst.load(classLoader, types, protectionDomain, persistenceHandler, packageDefinitionStrategy, forbidExisting, sealed) : ByteArrayClassLoader.load(classLoader, types, protectionDomain, persistenceHandler, packageDefinitionStrategy, forbidExisting, sealed); } /** * {@inheritDoc} */ public Configurable with(ProtectionDomain protectionDomain) { return new WrappingDispatcher(protectionDomain, packageDefinitionStrategy, persistenceHandler, childFirst, forbidExisting, sealed); } /** * {@inheritDoc} */ public Configurable with(PackageDefinitionStrategy packageDefinitionStrategy) { return new WrappingDispatcher(protectionDomain, packageDefinitionStrategy, persistenceHandler, childFirst, forbidExisting, sealed); } /** * {@inheritDoc} */ public Configurable allowExistingTypes() { return new WrappingDispatcher(protectionDomain, packageDefinitionStrategy, persistenceHandler, childFirst, false, sealed); } /** * {@inheritDoc} */ public Configurable opened() { return new WrappingDispatcher(protectionDomain, packageDefinitionStrategy, persistenceHandler, childFirst, forbidExisting, false); } } } /** * A {@link ClassLoadingStrategy} that allows configuring the strategy's behavior. * * @param The least specific type of class loader this strategy can apply to. */ interface Configurable extends ClassLoadingStrategy { /** * Overrides the implicitly set default {@link java.security.ProtectionDomain} with an explicit one. * * @param protectionDomain The protection domain to apply or {@code null} if no protection domain is set. * @return This class loading strategy with an explicitly set {@link java.security.ProtectionDomain}. */ Configurable with(ProtectionDomain protectionDomain); /** * Defines the supplied package definition strategy to be used for defining packages. * * @param packageDefinitionStrategy The package definer to be used. * @return A version of this class loading strategy that applies the supplied package definition strategy. */ Configurable with(PackageDefinitionStrategy packageDefinitionStrategy); /** * Determines if this class loading strategy should not throw an exception when attempting to load a class that * was already loaded. In this case, the already loaded class is used instead of the generated class. * * @return A version of this class loading strategy that does not throw an exception when a class is already loaded. */ Configurable allowExistingTypes(); /** * With an opened class loading strategy, it is assured that types can be added to the class loader, either by * indirect injection using this strategy or by creating a class loader that explicitly supports injection. * * @return A version of this class loading strategy that opens for future injections into a class loader. */ Configurable opened(); } /** * A class loading strategy that uses a {@code java.lang.invoke.MethodHandles$Lookup} instance for defining types. * A lookup instance can define types only in the same class loader and in the same package as the type within which * it was created. The supplied lookup must have package privileges, i.e. it must not be a public lookup. */ @HashCodeAndEqualsPlugin.Enhance class UsingLookup implements ClassLoadingStrategy { /** * The class injector to use. */ private final ClassInjector classInjector; /** * Creates a new class loading strategy that uses a lookup type. * * @param classInjector The class injector to use. */ protected UsingLookup(ClassInjector classInjector) { this.classInjector = classInjector; } /** * Creates a new class loading strategy that uses a {@code java.lang.invoke.MethodHandles$Lookup} instance. * * @param lookup The lookup instance to use for defining new types. * @return A suitable class loading strategy. */ public static ClassLoadingStrategy of(Object lookup) { return new UsingLookup(ClassInjector.UsingLookup.of(lookup)); } /** * Resolves a class loading strategy using a lookup if available on the current JVM. If the current JVM supports method handles * lookups, a lookup instance will be used. Alternatively, unsafe class definition is used, if supported. If neither strategy is * supported, an exception is thrown. A common use case would be calling this method as in * {@code ClassLoadingStrategy.UsingLookup.withFallback(MethodHandles::lookup)}. Note that the invocation of * {@code MethodHandles.lookup()} is call site sensitive such that it cannot be invoked within Byte Buddy what requires this * external invocation. * * @param lookup A resolver for a lookup instance if the current JVM allows for lookup-based class injection. * @return An appropriate class loading strategy for the current JVM that uses a method handles lookup if available. */ public static ClassLoadingStrategy withFallback(Callable lookup) { return withFallback(lookup, false); } /** * Resolves a class loading strategy using a lookup if available on the current JVM. If the current JVM supports method handles * lookups, a lookup instance will be used. Alternatively, unsafe class definition is used, if supported. If neither strategy is * supported, an exception is thrown. A common use case would be calling this method as in * {@code ClassLoadingStrategy.UsingLookup.withFallback(MethodHandles::lookup)}. Note that the invocation of * {@code MethodHandles.lookup()} is call site sensitive such that it cannot be invoked within Byte Buddy what requires this * external invocation. * * @param lookup A resolver for a lookup instance if the current JVM allows for lookup-based class injection. * @param wrapper {@code true} if a {@link Default#WRAPPER} strategy should be used as a fallback in case that no injection strategy is available. * @return An appropriate class loading strategy for the current JVM that uses a method handles lookup if available. */ public static ClassLoadingStrategy withFallback(Callable lookup, boolean wrapper) { if (ClassInjector.UsingLookup.isAvailable()) { try { return of(lookup.call()); } catch (Exception exception) { throw new IllegalStateException(exception); } } else if (ClassInjector.UsingUnsafe.isAvailable()) { return new ClassLoadingStrategy.ForUnsafeInjection(); } else if (wrapper) { return Default.WRAPPER; } else { throw new IllegalStateException("Neither lookup or unsafe class injection is available"); } } /** * {@inheritDoc} */ public Map> load(@MaybeNull ClassLoader classLoader, Map types) { return classInjector.inject(types); } } /** * A class loading strategy which allows class injection into the bootstrap class loader if * appropriate. */ @HashCodeAndEqualsPlugin.Enhance class ForBootstrapInjection implements ClassLoadingStrategy { /** * The instrumentation to use. */ private final Instrumentation instrumentation; /** * The folder to save jar files in. */ private final File folder; /** * Creates a new injector which is capable of injecting classes into the bootstrap class loader. * * @param instrumentation The instrumentation to use. * @param folder The folder to save jar files in. */ public ForBootstrapInjection(Instrumentation instrumentation, File folder) { this.instrumentation = instrumentation; this.folder = folder; } /** * {@inheritDoc} */ public Map> load(@MaybeNull ClassLoader classLoader, Map types) { ClassInjector classInjector = classLoader == null ? ClassInjector.UsingInstrumentation.of(folder, ClassInjector.UsingInstrumentation.Target.BOOTSTRAP, instrumentation) : new ClassInjector.UsingReflection(classLoader); return classInjector.inject(types); } } /** * A class loading strategy that injects a class using {@code sun.misc.Unsafe} or {@code jdk.internal.misc.Unsafe}. */ @HashCodeAndEqualsPlugin.Enhance class ForUnsafeInjection implements ClassLoadingStrategy { /** * The protection domain to use or {@code null} if no protection domain is set. */ @MaybeNull @HashCodeAndEqualsPlugin.ValueHandling(HashCodeAndEqualsPlugin.ValueHandling.Sort.REVERSE_NULLABILITY) private final ProtectionDomain protectionDomain; /** * Creates a new class loading strategy for unsafe injection with a default protection domain. */ public ForUnsafeInjection() { this(NO_PROTECTION_DOMAIN); } /** * Creates a new class loading strategy for unsafe injection. * * @param protectionDomain The protection domain to use or {@code null} if no protection domain is set. */ public ForUnsafeInjection(@MaybeNull ProtectionDomain protectionDomain) { this.protectionDomain = protectionDomain; } /** * {@inheritDoc} */ public Map> load(@MaybeNull ClassLoader classLoader, Map types) { return new ClassInjector.UsingUnsafe(classLoader, protectionDomain).inject(types); } } /** * A class loading strategy that injects a class using JNA via the JNI DefineClass method. This strategy can * only be used if JNA is explicitly added as a dependency. Some JVM implementations might not support this strategy. */ @HashCodeAndEqualsPlugin.Enhance class ForJnaInjection implements ClassLoadingStrategy { /** * The protection domain to use or {@code null} if no protection domain is set. */ @MaybeNull @HashCodeAndEqualsPlugin.ValueHandling(HashCodeAndEqualsPlugin.ValueHandling.Sort.REVERSE_NULLABILITY) private final ProtectionDomain protectionDomain; /** * Creates a new class loading strategy for JNA-based injection with a default protection domain. */ public ForJnaInjection() { this(NO_PROTECTION_DOMAIN); } /** * Creates a new class loading strategy for JNA-based injection. * * @param protectionDomain The protection domain to use or {@code null} if no protection domain is set. */ public ForJnaInjection(@MaybeNull ProtectionDomain protectionDomain) { this.protectionDomain = protectionDomain; } /** * {@inheritDoc} */ public Map> load(@MaybeNull ClassLoader classLoader, Map types) { return new ClassInjector.UsingUnsafe(classLoader, protectionDomain).inject(types); } } }