mn create-app example.micronaut.micronautguide \
--features=microstream,serialization-jackson,micronaut-validation \
--build=maven
--lang=groovy
Using MicroStream persistence with Micronaut
Learn how to use MicroStream as a high-performance persistence layer.
Authors: Tim Yates
Micronaut Version: 3.9.2
1. Getting Started
In this guide, we will create a Micronaut application written in Groovy.
You will use MicroStream for persistence.
2. What you will need
To complete this guide, you will need the following:
-
Some time on your hands
-
A decent text editor or IDE
-
JDK 1.8 or greater installed with
JAVA_HOME
configured appropriately
3. Solution
We recommend that you follow the instructions in the next sections and create the application step by step. However, you can go right to the completed example.
-
Download and unzip the source
4. Writing the Application
Create an application using the Micronaut Command Line Interface or with Micronaut Launch.
If you don’t specify the --build argument, Gradle is used as the build tool. If you don’t specify the --lang argument, Java is used as the language.
|
The previous command creates a Micronaut application with the default package example.micronaut
in a directory named micronautguide
.
If you use Micronaut Launch, select Micronaut Application as application type and add microstream
, serialization-jackson
, and micronaut-validation
features.
If you have an existing Micronaut application and want to add the functionality described here, you can view the dependency and configuration changes from the specified features and apply those changes to your application. |
4.1. Dependencies
The microstream
features adds the following dependencies:
<dependency>
<groupId>io.micronaut.microstream</groupId>
<artifactId>micronaut-microstream-annotations</artifactId>
<scope>compile</scope>
</dependency>
<dependency>
<groupId>io.micronaut.microstream</groupId>
<artifactId>micronaut-microstream</artifactId>
<scope>compile</scope>
</dependency>
4.2. Domain object
Create a Fruit
class which will be used as the domain object.
package example.micronaut
import io.micronaut.core.annotation.NonNull
import io.micronaut.core.annotation.Nullable
import io.micronaut.serde.annotation.Serdeable;
import javax.validation.constraints.NotBlank
@Serdeable (1)
class Fruit {
@NonNull
@NotBlank (2)
final String name
@Nullable (3)
String description
Fruit(@NonNull String name, @Nullable String description) {
this.name = name
this.description = description
}
}
1 | Declare the @Serdeable annotation at the type level in your source code to allow the type to be serialized or deserialized. |
2 | Use javax.validation.constraints Constraints to ensure the data matches your expectations. |
3 | The description is allowed to be null. |
4.3. Root Object
Create a FruitContainer
POGO which will be used as the root of our object graph.
package example.micronaut
import io.micronaut.core.annotation.NonNull
import java.util.concurrent.ConcurrentHashMap
class FruitContainer {
@NonNull
final Map<String, Fruit> fruits = new ConcurrentHashMap<>()
}
4.4. Configuration
Add the following snippet to application.yml
to configure MicroStream.
microstream:
storage:
main:
root-class: 'example.micronaut.FruitContainer'
storage-directory: 'build/fruit-storage'
4.5. Command object
And a FruitCommand
class which will be used as the command object over HTTP.
package example.micronaut
import io.micronaut.core.annotation.Creator
import io.micronaut.core.annotation.NonNull
import io.micronaut.core.annotation.Nullable
import io.micronaut.serde.annotation.Serdeable;
import javax.validation.constraints.NotBlank
@Serdeable (1)
class FruitCommand {
@NonNull
@NotBlank (2)
final String name
@Nullable (3)
final String description
FruitCommand(@NonNull String name) {
this(name, null)
}
@Creator
FruitCommand(@NonNull String name, @Nullable String description) {
this.name = name
this.description = description
}
}
1 | Declare the @Serdeable annotation at the type level in your source code to allow the type to be serialized or deserialized. |
2 | Use javax.validation.constraints Constraints to ensure the data matches your expectations. |
3 | The description is allowed to be null. |
4.6. Repository
Create a repository interface to encapsulate the CRUD actions for Fruit
.
package example.micronaut
import io.micronaut.core.annotation.NonNull
import io.micronaut.core.annotation.Nullable
import javax.validation.Valid
import javax.validation.constraints.NotBlank
import javax.validation.constraints.NotNull
interface FruitRepository {
@NonNull
Collection<Fruit> list()
@NonNull
Fruit create(@NonNull @NotNull @Valid FruitCommand fruit) (1)
throws FruitDuplicateException
@Nullable
Fruit update(@NonNull @NotNull @Valid FruitCommand fruit) (1)
@Nullable
Fruit find(@NonNull @NotBlank String name)
void delete(@NonNull @NotNull @Valid FruitCommand fruit) (1)
}
1 | Add @Valid to any method parameter which requires validation. |
4.7. Error handling
In the event an attempt is made to create a duplicate fruit, we will catch the exception with a custom class.
package example.micronaut
class FruitDuplicateException extends RuntimeException{
FruitDuplicateException(String name) {
super("Fruit '" + name + "' already exists.")
}
}
This exception will be handled by a custom ExceptionHandler to return a 400 error with a sensible message.
package example.micronaut
import io.micronaut.http.HttpRequest
import io.micronaut.http.HttpResponse
import io.micronaut.http.annotation.Produces
import io.micronaut.http.server.exceptions.ExceptionHandler
import io.micronaut.http.server.exceptions.response.ErrorContext
import io.micronaut.http.server.exceptions.response.ErrorResponseProcessor
import jakarta.inject.Singleton
@Produces (1)
@Singleton (2)
class FruitDuplicateExceptionHandler implements ExceptionHandler<FruitDuplicateException, HttpResponse<?>> {
private final ErrorResponseProcessor<?> errorResponseProcessor
FruitDuplicateExceptionHandler(ErrorResponseProcessor<?> errorResponseProcessor) {
this.errorResponseProcessor = errorResponseProcessor
}
@Override
HttpResponse<?> handle(HttpRequest request, FruitDuplicateException exception) {
ErrorContext errorContext = ErrorContext.builder(request)
.cause(exception)
.errorMessage(exception.getMessage())
.build()
return errorResponseProcessor.processResponse(errorContext, HttpResponse.unprocessableEntity())
}
}
1 | Ensure the response content-type is set to application/json with the @Produces annotation. |
2 | Use jakarta.inject.Singleton to designate a class as a singleton. |
4.8. Repository implementation
Implement the FruitRepository
interface.
When an object in your graph changes, you need to persist the object that contains the change.
This can be achieved through the StoreParams
and StoreReturn
annotations
package example.micronaut
import io.micronaut.core.annotation.NonNull
import io.micronaut.core.annotation.Nullable
import io.micronaut.microstream.RootProvider
import io.micronaut.microstream.annotations.StoreParams
import io.micronaut.microstream.annotations.StoreReturn
import jakarta.inject.Singleton
import javax.validation.Valid
import javax.validation.constraints.NotBlank
import javax.validation.constraints.NotNull
@Singleton (1)
class FruitRepositoryImpl implements FruitRepository {
private final RootProvider<FruitContainer> rootProvider
FruitRepositoryImpl(RootProvider<FruitContainer> rootProvider) { (2)
this.rootProvider = rootProvider
}
@Override
@NonNull
Collection<Fruit> list() {
return rootProvider.root().fruits.values() (3)
}
@Override
@NonNull
Fruit create(@NonNull @NotNull @Valid FruitCommand fruit) {
Map<String, Fruit> fruits = rootProvider.root().fruits
if (fruits.containsKey(fruit.name)) {
throw new FruitDuplicateException(fruit.name)
}
return performCreate(fruits, fruit)
}
@StoreParams("fruits") (4)
protected Fruit performCreate(Map<String, Fruit> fruits, FruitCommand fruit) {
Fruit newFruit = new Fruit(fruit.name, fruit.description)
fruits.put(fruit.name, newFruit)
return newFruit
}
@Nullable
Fruit update(@NonNull @NotNull @Valid FruitCommand fruit) {
Map<String, Fruit> fruits = rootProvider.root().getFruits()
Fruit foundFruit = fruits.get(fruit.name)
if (foundFruit != null) {
return performUpdate(foundFruit, fruit)
}
return null
}
@StoreReturn (5)
protected Fruit performUpdate(@NonNull Fruit foundFruit, @NonNull FruitCommand fruit) {
foundFruit.setDescription(fruit.description)
return foundFruit
}
@Override
@Nullable
Fruit find(@NonNull @NotBlank String name) {
return rootProvider.root().fruits.get(name)
}
@Override
void delete(@NonNull @NotNull @Valid FruitCommand fruit) {
performDelete(fruit)
}
@StoreReturn (5)
protected Map<String, Fruit> performDelete(FruitCommand fruit) {
if (rootProvider.root().fruits.remove(fruit.name) != null) {
return rootProvider.root().fruits
}
return null
}
}
1 | Use jakarta.inject.Singleton to designate a class as a singleton. |
2 | Use constructor injection to inject a bean of type RootProvider . |
3 | Return all the values in the FruitContainer . |
4 | With @StoreParams , on successful completion of this method, the Map argument fruits will be persisted in MicroStream. |
5 | With @StoreReturn , on successful completion of this method, the return value will be persisted in MicroStream. |
4.9. Controller
Create FruitController
:
package example.micronaut
import io.micronaut.core.annotation.NonNull
import io.micronaut.http.HttpStatus
import io.micronaut.http.annotation.Body
import io.micronaut.http.annotation.Controller
import io.micronaut.http.annotation.Delete
import io.micronaut.http.annotation.Get
import io.micronaut.http.annotation.PathVariable
import io.micronaut.http.annotation.Post
import io.micronaut.http.annotation.Put
import io.micronaut.http.annotation.Status
import javax.validation.constraints.NotBlank
import static io.micronaut.scheduling.TaskExecutors.IO
import io.micronaut.scheduling.annotation.ExecuteOn
import javax.validation.Valid
import javax.validation.constraints.NotNull
@Controller("/fruits") (1)
class FruitController {
private final FruitRepository fruitRepository
FruitController(FruitRepository fruitRepository) { (2)
this.fruitRepository = fruitRepository
}
@Get (3)
Collection<Fruit> list() {
fruitRepository.list()
}
@ExecuteOn(IO)
@Post (4)
@Status(HttpStatus.CREATED) (5)
Fruit create(@NonNull @NotNull @Valid @Body FruitCommand fruit) { (6)
fruitRepository.create(fruit)
}
@ExecuteOn(IO)
@Put
Fruit update(@NonNull @NotNull @Valid @Body FruitCommand fruit) {
fruitRepository.update(fruit)
}
@Get("/{name}") (7)
Fruit find(@NonNull @NotBlank @PathVariable String name) {
fruitRepository.find(name)
}
@ExecuteOn(IO)
@Delete
@Status(HttpStatus.NO_CONTENT)
void delete(@NonNull @NotNull @Valid @Body FruitCommand fruit) {
fruitRepository.delete(fruit)
}
}
1 | The class is defined as a controller with the @Controller annotation mapped to the path /fruits . |
2 | Use constructor injection to inject a bean of type FruitRepository . |
3 | The @Get annotation maps the list method to an HTTP GET request on /fruits . |
4 | The @Post annotation maps the save method to an HTTP POST request on /fruits . |
5 | You can specify the HTTP status code via the @Status annotation. |
6 | Add @Valid to any method parameter which requires validation. |
7 | The @Get annotation maps the find method to an HTTP GET request on /fruits/{name} . |
4.10. Test
Create a test that verifies the validation of the FruitCommand
POJO when we invoke the FruitRepository
interface:
package example.micronaut
import io.micronaut.test.extensions.spock.annotation.MicronautTest
import jakarta.inject.Inject
import spock.lang.Specification
import javax.validation.ConstraintViolationException
@MicronautTest(startApplication = false) (1)
class FruitRepositorySpec extends Specification {
@Inject
FruitRepository fruitRepository
void "methods validate parameters"() {
when:
fruitRepository.create(new FruitCommand(""))
then:
thrown(ConstraintViolationException)
}
}
1 | Annotate the class with @MicronautTest so the Micronaut framework will initialize the application context and the embedded server. By default, each @Test method will be wrapped in a transaction that will be rolled back when the test finishes. This behaviour is is changed by setting transaction to false . |
Create a test that verifies the validation of the FruitCommand
POJO when we create a new entity via POST
:
package example.micronaut
import io.micronaut.http.HttpRequest
import io.micronaut.http.HttpStatus
import io.micronaut.http.client.HttpClient
import io.micronaut.http.client.annotation.Client
import io.micronaut.http.client.exceptions.HttpClientResponseException
import io.micronaut.test.extensions.spock.annotation.MicronautTest
import jakarta.inject.Inject
import spock.lang.Specification
@MicronautTest (1)
class FruitValidationControllerSpec extends Specification {
@Inject
@Client("/")
HttpClient httpClient (2)
void "fruit validation works as expected"() {
when:
httpClient.toBlocking().exchange(HttpRequest.POST("/fruits", new FruitCommand("", "")))
then:
def e = thrown(HttpClientResponseException.class)
e.status == HttpStatus.BAD_REQUEST
}
}
1 | Annotate the class with @MicronautTest so the Micronaut framework will initialize the application context and the embedded server. More info. |
2 | Inject the HttpClient bean and point it to the embedded server. |
We will use temporary directories to persist our data under test.
To facilitate this, create a base test class that handles the creation of a temporary folder, and configuring the application.
package example.micronaut
import io.micronaut.test.support.TestPropertyProvider
import spock.lang.Specification
import java.nio.file.Files
import java.nio.file.Path
import io.micronaut.core.annotation.NonNull
abstract class BaseSpec extends Specification implements TestPropertyProvider {
@Override
@NonNull
Map<String, String> getProperties() {
Path tempDir = Files.createTempDirectory('microstream')
["microstream.storage.main.storage-directory": tempDir.toString()]
}
}
Create a test which validate FruitDuplicateExceptionHandler
.
package example.micronaut
import io.micronaut.http.HttpRequest
import io.micronaut.http.HttpResponse
import io.micronaut.http.HttpStatus
import io.micronaut.http.client.HttpClient
import io.micronaut.http.client.annotation.Client
import io.micronaut.http.client.exceptions.HttpClientResponseException
import io.micronaut.test.extensions.spock.annotation.MicronautTest
import jakarta.inject.Inject
@MicronautTest (1)
class FruitDuplicationExceptionHandlerSpec extends BaseSpec {
@Inject
@Client("/")
HttpClient httpClient (2)
void "duplicated fruit returns 422"() {
when:
FruitCommand banana = new FruitCommand("Banana")
HttpRequest<?> request = HttpRequest.POST("/fruits", banana)
HttpResponse<?> response = httpClient.toBlocking().exchange(request)
then:
HttpStatus.CREATED == response.status()
when:
httpClient.toBlocking().exchange(request)
then:
HttpClientResponseException e = thrown()
HttpStatus.UNPROCESSABLE_ENTITY == e.status
when:
HttpRequest<?> deleteRequest = HttpRequest.DELETE("/fruits", banana)
HttpResponse<?> deleteResponse = httpClient.toBlocking().exchange(deleteRequest)
then:
HttpStatus.NO_CONTENT == deleteResponse.status()
}
}
1 | Annotate the class with @MicronautTest so the Micronaut framework will initialize the application context and the embedded server. More info. |
2 | Inject the HttpClient bean and point it to the embedded server. |
Add a Micronaut declarative HTTP Client to src/test
to ease the testing of the application’s API.
package example.micronaut
import io.micronaut.core.annotation.NonNull
import io.micronaut.http.HttpResponse
import io.micronaut.http.HttpStatus
import io.micronaut.http.annotation.Body
import io.micronaut.http.annotation.Delete
import io.micronaut.http.annotation.Get
import io.micronaut.http.annotation.PathVariable
import io.micronaut.http.annotation.Post
import io.micronaut.http.annotation.Put
import io.micronaut.http.client.annotation.Client
import javax.validation.Valid
import javax.validation.constraints.NotBlank
import javax.validation.constraints.NotNull
@Client("/fruits")
interface FruitClient {
@Get
Iterable<Fruit> list()
@Get("/{name}")
Optional<Fruit> find(@NonNull @NotBlank @PathVariable String name)
@Post
HttpResponse<Fruit> create(@NonNull @NotNull @Valid @Body FruitCommand fruit)
@Put
Optional<Fruit> update(@NonNull @NotNull @Valid @Body FruitCommand fruit)
@NonNull
@Delete
HttpStatus delete(@NonNull @Valid @Body FruitCommand fruit)
}
And finally, create a test that checks our controller works against MicroStream correctly:
package example.micronaut
import io.micronaut.context.ApplicationContext
import io.micronaut.http.HttpResponse
import io.micronaut.http.HttpStatus
import io.micronaut.runtime.server.EmbeddedServer
import java.util.stream.Collectors
import java.util.stream.Stream
import java.util.stream.StreamSupport
class FruitControllerSpec extends BaseSpec {
void "test interaction with the Controller"() {
given:
FruitCommand apple = new FruitCommand("apple", "Keeps the doctor away")
String bananaName = "banana"
String bananaDescription = "Yellow and curved"
Map<String, Object> properties = new HashMap<>(getProperties())
EmbeddedServer embeddedServer = ApplicationContext.run(EmbeddedServer, properties) (1)
FruitClient fruitClient = embeddedServer.getApplicationContext().getBean(FruitClient)
when:
HttpResponse<Fruit> response = fruitClient.create(new FruitCommand(bananaName))
then:
HttpStatus.CREATED == response.status
response.body.isPresent()
when:
Fruit banana = response.body.get()
List<Fruit> fruitList = fruitsList(fruitClient)
then:
1 == fruitList.size()
banana.name == fruitList.get(0).name
!fruitList.get(0).description
when:
Optional<Fruit> bananaOptional = fruitClient.update(apple)
then:
!bananaOptional.isPresent()
when:
response = fruitClient.create(apple)
then:
HttpStatus.CREATED == response.status
fruitsStream(fruitClient)
.anyMatch(f -> "Keeps the doctor away" == f.description)
when:
bananaOptional = fruitClient.update(new FruitCommand(bananaName, bananaDescription))
then:
bananaOptional.isPresent()
Stream.of("Keeps the doctor away", "Yellow and curved").collect(Collectors.toSet()) ==
fruitsStream(fruitClient)
.map(Fruit::getDescription)
.collect(Collectors.toSet())
when:
embeddedServer.close()
embeddedServer = ApplicationContext.run(EmbeddedServer, properties) (1)
fruitClient = embeddedServer.getApplicationContext().getBean(FruitClient)
then:
2 == numberOfFruits(fruitClient)
when:
fruitClient.delete(apple)
fruitClient.delete(new FruitCommand(bananaName, bananaDescription))
embeddedServer.close()
embeddedServer = ApplicationContext.run(EmbeddedServer, properties) (1)
fruitClient = embeddedServer.getApplicationContext().getBean(FruitClient)
then:
0 == numberOfFruits(fruitClient)
cleanup:
embeddedServer.close()
}
private int numberOfFruits(FruitClient fruitClient) {
return fruitsList(fruitClient).size()
}
private List<Fruit> fruitsList(FruitClient fruitClient) {
return fruitsStream(fruitClient)
.collect(Collectors.toList())
}
private Stream<Fruit> fruitsStream(FruitClient fruitClient) {
Iterable<Fruit> fruits = fruitClient.list()
return StreamSupport.stream(fruits.spliterator(), false)
}
}
1 | Start and stop application to verify the data is persisted to disk by MicroStream and can be retrieved after application restart. |
5. Testing the Application
To run the tests:
./mvnw test
6. Running the Application
To run the application, use the ./mvnw mn:run
command, which starts the application on port 8080.
curl -i -d '{"name":"Pear"}' \
-H "Content-Type: application/json" \
-X POST http://localhost:8080/fruits
HTTP/1.1 201 Created
date: Thu, 12 May 2022 13:45:56 GMT
Content-Type: application/json
content-length: 16
connection: keep-alive
{"name":"Pear"}
curl -i localhost:8080/fruits
HTTP/1.1 200 OK
date: Thu, 12 May 2022 13:46:54 GMT
Content-Type: application/json
content-length: 70
connection: keep-alive
[{"name":"Pear"}]
7. MicroStream REST and GUI
Often, during development is useful to see the data being saved by MicroStream. Micronaut MicroStream integration helps to do that.
Add the following dependency:
<dependency>
<groupId>io.micronaut.microstream</groupId>
<artifactId>micronaut-microstream-rest</artifactId>
<scope>developmentOnly</scope>
</dependency>
The above dependency provides several JSON endpoints which expose the contents of the MicroStream storage.
7.1. MicroStream Client GUI
Run the client and connect to the MicroStream REST API exposed by the Micronaut application:
You can visualize the data you saved via cURL.
8. Next steps
Explore more features with Micronaut Guides.
Read more about the Micronaut MicroStream integration. Read more about MicroStream for Java.
Read more about Micronaut Serialization.
9. Sponsors
MicroStream sponsored the creation of this Guide.