giuseppe-trisciuoglio/graalvm-native-image

GraalVM Native Image for Java Applications

Expert skill for building high-performance native executables from Java applications using GraalVM Native Image, dramatically reducing startup time and memory consumption.

Overview

GraalVM Native Image compiles Java applications ahead-of-time (AOT) into standalone native executables. These executables start in milliseconds, require significantly less memory than JVM-based deployments, and are ideal for serverless functions, CLI tools, and microservices where fast startup and low resource usage are critical.

This skill provides a structured workflow to migrate JVM applications to native binaries, covering build tool configuration, framework-specific patterns, reflection metadata management, and an iterative approach to resolving native build failures.

When to Use

Use this skill when:

• Converting a JVM-based Java application to a GraalVM native executable
• Optimizing cold start times for serverless or containerized deployments
• Reducing memory footprint (RSS) of Java microservices
• Configuring Maven or Gradle with GraalVM Native Build Tools
• Resolving ClassNotFoundException, NoSuchMethodException, or missing resource errors in native builds
• Generating or editing reflect-config.json, resource-config.json, or other GraalVM metadata files
• Using the GraalVM tracing agent to collect reachability metadata
• Implementing RuntimeHints for Spring Boot native support
• Building native images with Quarkus or Micronaut

Instructions

1. Contextual Project Analysis

Before any configuration, analyze the project to determine the build tool, framework, and dependencies:

Detect the build tool:

# Check for Maven
if [ -f "pom.xml" ]; then
    echo "Build tool: Maven"
    # Check for Maven wrapper
    [ -f "mvnw" ] && echo "Maven wrapper available"
fi

# Check for Gradle
if [ -f "build.gradle" ] || [ -f "build.gradle.kts" ]; then
    echo "Build tool: Gradle"
    [ -f "build.gradle.kts" ] && echo "Kotlin DSL"
    [ -f "gradlew" ] && echo "Gradle wrapper available"
fi

Detect the framework by analyzing dependencies:

• Spring Boot: Look for spring-boot-starter-* in pom.xml or build.gradle
• Quarkus: Look for quarkus-* dependencies
• Micronaut: Look for micronaut-* dependencies
• Plain Java: No framework dependencies detected

Check the Java version:

java -version 2>&1
# GraalVM Native Image requires Java 17+ (recommended: Java 21+)

Identify potential native image challenges:

• Reflection-heavy libraries (Jackson, Hibernate, JAXB)
• Dynamic proxy usage (JDK proxies, CGLIB)
• Resource bundles and classpath resources
• JNI or native library dependencies
• Serialization requirements

2. Build Tool Configuration

Configure the appropriate build tool plugin based on the detected environment.

For Maven projects, add a dedicated native profile to keep the standard build clean. See the Maven Native Profile Reference for full configuration.

Key Maven setup:

<profiles>
  <profile>
    <id>native</id>
    <build>
      <plugins>
        <plugin>
          <groupId>org.graalvm.buildtools</groupId>
          <artifactId>native-maven-plugin</artifactId>
          <version>0.10.6</version>
          <extensions>true</extensions>
          <executions>
            <execution>
              <id>build-native</id>
              <goals>
                <goal>compile-no-fork</goal>
              </goals>
              <phase>package</phase>
            </execution>
          </executions>
          <configuration>
            <imageName>${project.artifactId}</imageName>
            <buildArgs>
              <buildArg>--no-fallback</buildArg>
            </buildArgs>
          </configuration>
        </plugin>
      </plugins>
    </build>
  </profile>
</profiles>

Build with: ./mvnw -Pnative package

For Gradle projects, apply the org.graalvm.buildtools.native plugin. See the Gradle Native Plugin Reference for full configuration.

Key Gradle setup (Kotlin DSL):

plugins {
    id("org.graalvm.buildtools.native") version "0.10.6"
}

graalvmNative {
    binaries {
        named("main") {
            imageName.set(project.name)
            buildArgs.add("--no-fallback")
        }
    }
}

Build with: ./gradlew nativeCompile

3. Framework-Specific Configuration

Each framework has its own AOT strategy. Apply the correct configuration based on the detected framework.

Spring Boot (3.x+): Spring Boot has built-in GraalVM support with AOT processing. See the Spring Boot Native Reference for patterns including RuntimeHints, @RegisterReflectionForBinding, and test support.

Key points:

• Use spring-boot-starter-parent 3.x+ which includes the native profile
• Register reflection hints via RuntimeHintsRegistrar
• Run AOT processing with process-aot goal
• Build with: ./mvnw -Pnative native:compile or ./gradlew nativeCompile

Quarkus and Micronaut: These frameworks are designed native-first and require minimal additional configuration. See the Quarkus & Micronaut Reference.

4. GraalVM Reachability Metadata

Native Image uses a closed-world assumption — all code paths must be known at build time. Dynamic features like reflection, resources, and proxies require explicit metadata configuration.

Metadata files are placed in META-INF/native-image/<group.id>/<artifact.id>/:

| File | Purpose | |------|---------| | reachability-metadata.json | Unified metadata (reflection, resources, JNI, proxies, bundles, serialization) | | reflect-config.json | Legacy: Reflection registration | | resource-config.json | Legacy: Resource inclusion patterns | | proxy-config.json | Legacy: Dynamic proxy interfaces | | serialization-config.json | Legacy: Serialization registration | | jni-config.json | Legacy: JNI access registration |

See the Reflection & Resource Config Reference for complete format and examples.

5. The Iterative Fix Engine

Native image builds often fail due to missing metadata. Follow this iterative approach:

Step 1 — Execute the native build:

# Maven
./mvnw -Pnative package 2>&1 | tee native-build.log

# Gradle
./gradlew nativeCompile 2>&1 | tee native-build.log

Step 2 — Parse build errors and identify the root cause:

Common error patterns and their fixes:

| Error Pattern | Cause | Fix | |---------------|-------|-----| | ClassNotFoundException: com.example.MyClass | Missing reflection metadata | Add to reflect-config.json or use @RegisterReflectionForBinding | | NoSuchMethodException | Method not registered for reflection | Add method to reflection config | | MissingResourceException | Resource not included in native image | Add to resource-config.json | | Proxy class not found | Dynamic proxy not registered | Add interface list to proxy-config.json | | UnsupportedFeatureException: Serialization | Missing serialization metadata | Add to serialization-config.json |

Step 3 — Apply fixes by updating the appropriate metadata file or using framework annotations.

Step 4 — Rebuild and verify. Repeat until the build succeeds.

Step 5 — If manual fixes are insufficient, use the GraalVM tracing agent to collect reachability metadata automatically. See the Tracing Agent Reference.

6. Validation and Benchmarking

Once the native build succeeds:

Verify the executable runs correctly:

# Run the native executable
./target/<app-name>

# For Spring Boot, verify the application context loads
curl http://localhost:8080/actuator/health

Measure startup time:

# Time the startup
time ./target/<app-name>

# For Spring Boot, check the startup log
./target/<app-name> 2>&1 | grep "Started .* in"

Measure memory footprint (RSS):

# On Linux
ps -o rss,vsz,comm -p $(pgrep <app-name>)

# On macOS
ps -o rss,vsz,comm -p $(pgrep <app-name>)

Compare with JVM baseline:

| Metric | JVM | Native | Improvement | |--------|-----|--------|-------------| | Startup time | ~2-5s | ~50-200ms | 10-100x | | Memory (RSS) | ~200-500MB | ~30-80MB | 3-10x | | Binary size | JRE + JARs | Single binary | Simplified |

7. Docker Integration

Build minimal container images with native executables:

# Multi-stage build
FROM ghcr.io/graalvm/native-image-community:21 AS builder
WORKDIR /app
COPY . .
RUN ./mvnw -Pnative package -DskipTests

# Minimal runtime image
FROM debian:bookworm-slim
COPY --from=builder /app/target/<app-name> /app/<app-name>
EXPOSE 8080
ENTRYPOINT ["/app/<app-name>"]

For Spring Boot applications, use paketobuildpacks/builder-jammy-tiny with Cloud Native Buildpacks:

./mvnw -Pnative spring-boot:build-image

Best Practices

1. Start with the tracing agent on complex projects to generate an initial metadata baseline
2. Use the native profile to keep native-specific config separate from standard builds
3. Prefer --no-fallback to ensure a true native build (no JVM fallback)
4. Test with nativeTest to run JUnit tests in native mode
5. Use GraalVM Reachability Metadata Repository for third-party library metadata
6. Minimize reflection — prefer constructor injection and compile-time DI where possible
7. Include resource patterns explicitly rather than relying on classpath scanning
8. Profile before and after — always measure startup and memory improvements
9. Use Java 21+ for the best GraalVM compatibility and performance
10. Keep GraalVM and Native Build Tools versions aligned

Examples

Example 1: Adding Native Support to a Spring Boot Maven Project

Scenario: You have a Spring Boot 3.x REST API and want to compile it to a native executable.

Step 1 — Add the native profile to pom.xml:

<profiles>
  <profile>
    <id>native</id>
    <build>
      <plugins>
        <plugin>
          <groupId>org.springframework.boot</groupId>
          <artifactId>spring-boot-maven-plugin</artifactId>
          <executions>
            <execution>
              <id>process-aot</id>
              <goals>
                <goal>process-aot</goal>
              </goals>
            </execution>
          </executions>
        </plugin>
        <plugin>
          <groupId>org.graalvm.buildtools</groupId>
          <artifactId>native-maven-plugin</artifactId>
        </plugin>
      </plugins>
    </build>
  </profile>
</profiles>

Step 2 — Register reflection hints for DTOs:

@RestController
@RegisterReflectionForBinding({UserDto.class, OrderDto.class})
public class UserController {

    @GetMapping("/users/{id}")
    public UserDto getUser(@PathVariable Long id) {
        return userService.findById(id);
    }
}

Step 3 — Build and run:

./mvnw -Pnative native:compile
./target/myapp
# Started MyApplication in 0.089 seconds

Example 2: Resolving a Reflection Error in Native Build

Scenario: Native build fails with ClassNotFoundException for a Jackson-serialized DTO.

Error output:

com.oracle.svm.core.jdk.UnsupportedFeatureError:
  Reflection registration missing for class com.example.dto.PaymentResponse

Fix — Add to src/main/resources/META-INF/native-image/reachability-metadata.json:

{
  "reflection": [
    {
      "type": "com.example.dto.PaymentResponse",
      "allDeclaredConstructors": true,
      "allDeclaredMethods": true,
      "allDeclaredFields": true
    }
  ]
}

Or use the Spring Boot annotation approach:

@RegisterReflectionForBinding(PaymentResponse.class)
@Service
public class PaymentService { /* ... */ }

Example 3: Using the Tracing Agent for a Complex Project

Scenario: A project with many third-party libraries needs comprehensive reachability metadata.

# 1. Build the JAR
./mvnw package -DskipTests

# 2. Run with the tracing agent
java -agentlib:native-image-agent=config-output-dir=src/main/resources/META-INF/native-image \
    -jar target/myapp.jar

# 3. Exercise all endpoints
curl http://localhost:8080/api/users
curl -X POST http://localhost:8080/api/orders -H 'Content-Type: application/json' -d '{"item":"test"}'
curl http://localhost:8080/actuator/health

# 4. Stop the application (Ctrl+C), then build native
./mvnw -Pnative native:compile

# 5. Verify
./target/myapp

Constraints and Warnings

Critical Constraints

• GraalVM Native Image requires Java 17+ (Java 21+ recommended for best compatibility)
• Closed-world assumption: All code paths must be known at build time — dynamic class loading, runtime bytecode generation, and MethodHandles.Lookup may not work
• Build time and memory: Native compilation is resource-intensive — expect 2-10 minutes and 4-8 GB RAM for typical projects
• Not all libraries are compatible: Libraries relying heavily on reflection, dynamic proxies, or CGLIB may require extensive metadata configuration
• AOT profiles are fixed at build time: Spring Boot @Profile and @ConditionalOnProperty are evaluated during AOT processing, not at runtime

Common Pitfalls

• Forgetting --no-fallback: Without this flag, the build may silently produce a JVM fallback image instead of a true native executable
• Incomplete tracing agent coverage: The agent only captures code paths exercised during the run — ensure all features are tested
• Version mismatches: Keep GraalVM JDK, Native Build Tools plugin, and framework versions aligned to avoid incompatibilities
• Classpath differences: The classpath at AOT/build time must match runtime — adding/removing JARs after native compilation causes failures

Security Considerations

• Native executables are harder to decompile than JARs, but are not tamper-proof
• Ensure secrets are not embedded in the native image at build time
• Use environment variables or external config for sensitive data

Troubleshooting

| Issue | Solution | |-------|----------| | Build runs out of memory | Increase build memory: -J-Xmx8g in buildArgs | | Build takes too long | Use build cache, reduce classpath, enable quick build mode for dev | | Application crashes at runtime | Missing reflection/resource metadata — run tracing agent | | Spring Boot context fails to load | Check @Conditional beans and profile-dependent config | | Third-party library not compatible | Check GraalVM Reachability Metadata repo or add manual hints |