io.opentelemetry.javaagent.tooling.field.FieldBackedImplementationInstaller Maven / Gradle / Ivy
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/*
* Copyright The OpenTelemetry Authors
* SPDX-License-Identifier: Apache-2.0
*/
package io.opentelemetry.javaagent.tooling.field;
import static io.opentelemetry.javaagent.extension.matcher.AgentElementMatchers.hasSuperType;
import static java.util.logging.Level.FINEST;
import static net.bytebuddy.matcher.ElementMatchers.isAbstract;
import static net.bytebuddy.matcher.ElementMatchers.named;
import static net.bytebuddy.matcher.ElementMatchers.not;
import com.google.errorprone.annotations.CanIgnoreReturnValue;
import io.opentelemetry.javaagent.bootstrap.InstrumentationHolder;
import io.opentelemetry.javaagent.bootstrap.VirtualFieldDetector;
import io.opentelemetry.javaagent.bootstrap.internal.InstrumentationConfig;
import io.opentelemetry.javaagent.tooling.HelperInjector;
import io.opentelemetry.javaagent.tooling.TransformSafeLogger;
import io.opentelemetry.javaagent.tooling.instrumentation.InstrumentationModuleInstaller;
import io.opentelemetry.javaagent.tooling.muzzle.VirtualFieldMappings;
import io.opentelemetry.javaagent.tooling.util.IgnoreFailedTypeMatcher;
import io.opentelemetry.javaagent.tooling.util.NamedMatcher;
import java.lang.instrument.Instrumentation;
import java.security.ProtectionDomain;
import java.util.Collection;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import net.bytebuddy.ByteBuddy;
import net.bytebuddy.agent.builder.AgentBuilder;
import net.bytebuddy.asm.AsmVisitorWrapper;
import net.bytebuddy.description.type.TypeDescription;
import net.bytebuddy.dynamic.DynamicType;
import net.bytebuddy.matcher.ElementMatcher;
import net.bytebuddy.utility.JavaModule;
/**
* A {@link VirtualFieldImplementationInstaller} which stores context in a field that is injected
* into a class and falls back to global map if field was not injected.
*
* This is accomplished by
*
*
* - Injecting a Dynamic Interface that provides getter and setter for context field
*
- Applying Dynamic Interface to a type needing context, implementing interface methods and
* adding context storage field
*
- Injecting a Dynamic Class created from {@link
* VirtualFieldImplementationsGenerator.VirtualFieldImplementationTemplate} to use injected
* field or fall back to a static map
*
- Rewriting calls to the context-store to access the specific dynamic {@link
* VirtualFieldImplementationsGenerator.VirtualFieldImplementationTemplate}
*
*
* Example:
* VirtualField.find(Runnable.class, RunnableState.class)
* is rewritten to:
* FieldBackedImplementation$VirtualField$Runnable$RunnableState12345.getVirtualField(Runnable.class,
* RunnableState.class)
*/
final class FieldBackedImplementationInstaller implements VirtualFieldImplementationInstaller {
private static final TransformSafeLogger logger =
TransformSafeLogger.getLogger(FieldBackedImplementationInstaller.class);
private static final boolean FIELD_INJECTION_ENABLED =
InstrumentationConfig.get()
.getBoolean("otel.javaagent.experimental.field-injection.enabled", true);
private final Class instrumenterClass;
private final VirtualFieldMappings virtualFieldMappings;
private final FieldAccessorInterfaces fieldAccessorInterfaces;
private final AgentBuilder.Transformer fieldAccessorInterfacesInjector;
private final VirtualFieldImplementations virtualFieldImplementations;
private final AgentBuilder.Transformer virtualFieldImplementationsInjector;
private final Instrumentation instrumentation;
public FieldBackedImplementationInstaller(
Class instrumenterClass, VirtualFieldMappings virtualFieldMappings) {
this.instrumenterClass = instrumenterClass;
this.virtualFieldMappings = virtualFieldMappings;
// This class is used only when running with javaagent, thus this calls is safe
this.instrumentation = InstrumentationHolder.getInstrumentation();
ByteBuddy byteBuddy = new ByteBuddy();
fieldAccessorInterfaces =
new FieldAccessorInterfacesGenerator(byteBuddy)
.generateFieldAccessorInterfaces(virtualFieldMappings);
fieldAccessorInterfacesInjector =
bootstrapHelperInjector(fieldAccessorInterfaces.getAllInterfaces());
virtualFieldImplementations =
new VirtualFieldImplementationsGenerator(byteBuddy)
.generateClasses(virtualFieldMappings, fieldAccessorInterfaces);
virtualFieldImplementationsInjector =
bootstrapHelperInjector(virtualFieldImplementations.getAllClasses());
}
@Override
public AgentBuilder.Identified.Extendable rewriteVirtualFieldsCalls(
AgentBuilder.Identified.Extendable builder) {
if (!virtualFieldMappings.isEmpty()) {
/*
* Install transformer that rewrites accesses to context store with specialized bytecode that
* invokes appropriate storage implementation.
*/
builder =
builder.transform(
getTransformerForAsmVisitor(
new VirtualFieldFindRewriter(
instrumenterClass, virtualFieldMappings, virtualFieldImplementations)));
}
return builder;
}
@Override
public AgentBuilder.Identified.Extendable injectHelperClasses(
AgentBuilder.Identified.Extendable builder) {
if (!virtualFieldMappings.isEmpty()) {
builder = injectHelpersIntoBootstrapClassloader(builder);
}
return builder;
}
private AgentBuilder.Identified.Extendable injectHelpersIntoBootstrapClassloader(
AgentBuilder.Identified.Extendable builder) {
/*
* We inject into the bootstrap class loader because field accessor interfaces are needed by
* virtual field implementations. Unfortunately this forces us to remove stored type checking
* because actual classes may not be available at this point.
*/
builder = builder.transform(fieldAccessorInterfacesInjector);
/*
* We inject virtual field implementations into the bootstrap class loader because same
* implementation may be used by different instrumentations and it has to use same static map in
* case of fallback to map-backed storage.
*/
builder = builder.transform(virtualFieldImplementationsInjector);
return builder;
}
/** Get transformer that forces helper injection onto bootstrap class loader. */
private AgentBuilder.Transformer bootstrapHelperInjector(
Collection> helpers) {
// TODO: Better to pass through the context of the Instrumenter
return new AgentBuilder.Transformer() {
final HelperInjector injector =
HelperInjector.forDynamicTypes(getClass().getSimpleName(), helpers, instrumentation);
@Override
public DynamicType.Builder transform(
DynamicType.Builder builder,
TypeDescription typeDescription,
ClassLoader classLoader,
JavaModule javaModule,
ProtectionDomain protectionDomain) {
return injector.transform(
builder,
typeDescription,
// virtual field implementation classes will always go to the bootstrap
null,
javaModule,
protectionDomain);
}
};
}
/*
Set of pairs (type name, field type name) for which we have matchers installed.
We use this to make sure we do not install matchers repeatedly for cases when same
context class is used by multiple instrumentations.
*/
private static final Set> INSTALLED_VIRTUAL_FIELD_MATCHERS =
new HashSet<>();
@Override
public AgentBuilder.Identified.Extendable injectFields(
AgentBuilder.Identified.Extendable builder) {
if (FIELD_INJECTION_ENABLED) {
for (Map.Entry entry : virtualFieldMappings.entrySet()) {
/*
* For each virtual field defined in a current instrumentation we create an agent builder
* that injects necessary fields.
* Note: this synchronization should not have any impact on performance
* since this is done when agent builder is being made, it doesn't affect actual
* class transformation.
*/
synchronized (INSTALLED_VIRTUAL_FIELD_MATCHERS) {
if (INSTALLED_VIRTUAL_FIELD_MATCHERS.contains(entry)) {
if (logger.isLoggable(FINEST)) {
logger.log(
FINEST,
"Skipping builder for {0} {1}",
new Object[] {instrumenterClass.getName(), entry});
}
continue;
}
if (logger.isLoggable(FINEST)) {
logger.log(
FINEST,
"Making builder for {0} {1}",
new Object[] {instrumenterClass.getName(), entry});
}
INSTALLED_VIRTUAL_FIELD_MATCHERS.add(entry);
/*
* For each virtual field defined in a current instrumentation we create an agent builder
* that injects necessary fields.
*/
ElementMatcher typeMatcher =
new NamedMatcher<>(
"VirtualField",
new IgnoreFailedTypeMatcher(
not(isAbstract()).and(hasSuperType(named(entry.getKey())))));
builder =
builder
.type(typeMatcher)
.and(safeToInjectFieldsMatcher())
.and(InstrumentationModuleInstaller.NOT_DECORATOR_MATCHER)
.transform(NoOpTransformer.INSTANCE);
/*
* We inject helpers here as well as when instrumentation is applied to ensure that
* helpers are present even if instrumented classes are not loaded, but classes with state
* fields added are loaded (e.g. sun.net.www.protocol.https.HttpsURLConnectionImpl).
*/
builder = injectHelpersIntoBootstrapClassloader(builder);
builder =
builder.transform(
getTransformerForAsmVisitor(
new RealFieldInjector(
fieldAccessorInterfaces, entry.getKey(), entry.getValue())));
}
}
}
return builder;
}
private static AgentBuilder.RawMatcher safeToInjectFieldsMatcher() {
return (typeDescription, classLoader, module, classBeingRedefined, protectionDomain) -> {
/*
* The idea here is that we can add fields if class is just being loaded
* (classBeingRedefined == null) and we have to add same fields again if class we added
* fields before is being transformed again.
*/
return classBeingRedefined == null
|| VirtualFieldDetector.hasVirtualFields(classBeingRedefined);
};
}
private static AgentBuilder.Transformer getTransformerForAsmVisitor(AsmVisitorWrapper visitor) {
return (builder, typeDescription, classLoader, javaModule, protectionDomain) ->
builder.visit(visitor);
}
// Originally found in AgentBuilder.Transformer.NoOp, but removed in 1.10.7
enum NoOpTransformer implements AgentBuilder.Transformer {
INSTANCE;
@Override
@CanIgnoreReturnValue
public DynamicType.Builder transform(
DynamicType.Builder builder,
TypeDescription typeDescription,
ClassLoader classLoader,
JavaModule javaModule,
ProtectionDomain protectionDomain) {
return builder;
}
}
}