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Code Block
languagejava
titleJpaToscaProperty
linenumberstrue
import javax.persistence.Column;
import javax.persistence.ElementCollection;
import javax.persistence.EmbeddedId;
import javax.persistence.Entity;
import javax.persistence.Inheritance;
import javax.persistence.InheritanceType;
import javax.persistence.Table;


@Entity
@Table(name = "ToscaProperty")
@Inheritance(strategy = InheritanceType.TABLE_PER_CLASS)
@Data
@EqualsAndHashCode(callSuper = false)
public class JpaToscaProperty extends PfConcept implements PfAuthorative<ToscaProperty> {
    private static final long serialVersionUID = 1675770231921107988L;

    @EmbeddedId
    @VerifyKey
    @NotNull
    private PfReferenceKey key;

    @Column
    @VerifyKey
    @NotNull
    private PfConceptKey type;

    @Column
    @NotBlank
    private String description;

Spring Repository

Using With Spring Data JPA it needs , is a good choice to implement a repository for each modelrepositories.
The goal of Spring Data repository abstraction is to significantly reduce the amount of boilerplate code required to implement data access layers for various persistence stores.

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Code Block
languagejava
titleJpaToscaPropertyRepositoryTest
linenumberstrue
@ExtendWith(SpringExtension.class)
@DataJpaTest
@Import(value = ParticipantPolicyParameters.class)
@TestPropertySource(locations = {"classpath:application_test.properties"})
class JpaToscaPropertyRepositoryTest {

    @Autowired
    private JpaToscaPropertyRepository toscaPropertyRepository;

    @Test
    void test() {
        JpaToscaProperty toscaProperty = new JpaToscaProperty();
        PfReferenceKey key = toscaProperty.getKey();

        Map<String, String> metadata = new HashMap<>();
        metadata.put("Key", "Value");
        metadata.put("K", "V");

        List<JpaToscaConstraint> constraints = new ArrayList<>();
        String[] list = new String[] {"First", "Second"};
        constraints.add(new JpaToscaConstraintValidValues(Stream.of(list).collect(Collectors.toList())));

        toscaProperty.setDefaultValue("DefaultValue");
        toscaProperty.setDescription("Description");
        toscaProperty.setRequired(true);
        toscaProperty.setStatus(ToscaProperty.Status.EXPERIMENTAL);
        toscaProperty.setMetadata(metadata);
        toscaProperty.setConstraints(constraints);
        toscaPropertyRepository.save(toscaProperty);

        Optional<JpaToscaProperty> opt = toscaPropertyRepository.findById(key);
        assertThat(opt).isNotEmpty();
        JpaToscaProperty actual = opt.get();
        assertThat(actual.getDefaultValue()).isEqualTo(toscaProperty.getDefaultValue());
        assertThat(actual.getDescription()).isEqualTo(toscaProperty.getDescription());
        assertThat(actual.isRequired()).isEqualTo(toscaProperty.isRequired());
        assertThat(actual.getStatus()).isEqualTo(toscaProperty.getStatus());
        assertThat(actual.getType()).isEqualTo(toscaProperty.getType());
        assertThat(actual.getConstraints()).isEqualTo(toscaProperty.getConstraints());
    }
}

Using Dao

There Dao objects are already implemented in Policy Framework, and there is a way to use the whole Policy Framework implementation. them and avoid to create repositories, but It needs to create a new DefaultPfDao class that uses the Entity Manger with no "begin transaction" and no "commit".

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Code Block
languagejava
titleControlLoopInstantiationProvider
linenumberstrue
@Service
public class ControlLoopInstantiationProvider {
    private final ControlLoopProvider controlLoopProvider;
    private final CommissioningProvider commissioningProvider;

    /**
     * Create a instantiation provider.
     *
     * @param databaseProviderParameters the parameters for database access
     */
    public ControlLoopInstantiationProvider(ControlLoopProvider controlLoopProvider,
            CommissioningProvider commissioningProvider) {
        this.controlLoopProvider = controlLoopProvider;
        this.commissioningProvider = commissioningProvider;
    }

    @Transactional
    public InstantiationResponse createControlLoops(ControlLoops controlLoops) throws PfModelException {
        for (ControlLoop controlLoop : controlLoops.getControlLoopList()) {
            ControlLoop checkControlLoop = controlLoopProvider.getControlLoop(controlLoop.getKey().asIdentifier());
            if (checkControlLoop != null) {
                throw new PfModelException(Response.Status.BAD_REQUEST,
                        controlLoop.getKey().asIdentifier() + " already defined");
            }
        }
        BeanValidationResult validationResult = validateControlLoops(controlLoops);
        if (!validationResult.isValid()) {
            throw new PfModelException(Response.Status.BAD_REQUEST, validationResult.getResult());
        }
        controlLoopProvider.createControlLoops(controlLoops.getControlLoopList());

        InstantiationResponse response = new InstantiationResponse();
        response.setAffectedControlLoops(controlLoops.getControlLoopList().stream()
                .map(cl -> cl.getKey().asIdentifier()).collect(Collectors.toList()));

        return response;
    }

Transaction

Transaction Propagation in SpringBoot:

  • REQUIRED is the default propagation. Spring checks if there is an active transaction, then it creates a new one if nothing existed;
  • For SUPPORTS, Spring first checks if an active transaction exists. If a transaction exists, then the existing transaction will be used. If there isn't a transaction, it is executed non-transactional;
  • When the propagation is MANDATORY, if there is an active transaction, then it will be used. If there isn't an active transaction, then Spring throws an exception;
  • For transactional logic with NEVER propagation, Spring throws an exception if there's an active transaction;
  • NOT_SUPPORTED, Spring at first suspends the current transaction if it exists, then the business logic is executed without a transaction;
  • When the propagation is REQUIRES_NEW, Spring suspends the current transaction if it exists and then creates a new one.

Read only Transaction 

If the transaction is effectively read-only, it allows for corresponding optimizations at runtime. (https://stackoverflow.com/questions/1614139/spring-transactional-read-only-propagation)


NoteIn Spring, @Transactional works by creating a proxy of the class and intercepting the annotated method (AOP Proxies). This means that @Transactional doesn't work if you are calling the annotated method from another method of the same class. 

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