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Configure data sources in Quarkus

Use a unified configuration model to define data sources for Java Database Connectivity (JDBC) and Reactive drivers.

Applications use datasources to access relational databases. Quarkus provides a unified configuration model to define datasources for Java Database Connectivity (JDBC) and Reactive database drivers.

Quarkus uses Agroal and Vert.x to provide high-performance, scalable datasource connection pooling for JDBC and reactive drivers. The quarkus-jdbc-* and quarkus-reactive-*-client extensions provide build time optimizations and integrate configured datasources with Quarkus features like security, health checks, and metrics.

For more information about consuming and using a reactive datasource, see the Quarkus Reactive SQL clients guide.

Additionally, refer to the Quarkus Hibernate ORM guide for information on consuming and using a JDBC datasource.

Get started with configuring datasources in Quarkus

For users familiar with the fundamentals, this section provides an overview and code samples to set up datasources quickly.

For more advanced configuration with examples, see Referências.

Zero-config setup in development mode

Quarkus simplifies database configuration by offering the Dev Services feature, enabling zero-config database setup for testing or running in development (dev) mode. In dev mode, the suggested approach is to use DevServices and let Quarkus handle the database for you, whereas for production mode, you provide explicit database configuration details pointing to a database managed outside of Quarkus.

To use Dev Services, add the appropriate driver extension, such as jdbc-postgresql, for your desired database type to the pom.xml file. In dev mode, if you do not provide any explicit database connection details, Quarkus automatically handles the database setup and provides the wiring between the application and the database.

If you provide user credentials, the underlying database will be configured to use them. This is useful if you want to connect to the database with an external tool.

To use this feature, ensure a Docker or Podman container runtime is installed, depending on the database type. Certain databases, such as H2, operate in in-memory mode and do not require a container runtime.

Prefix the actual connection details for prod mode with %prod. to ensure they are not applied in dev mode. For more information, see the Profiles section of the "Configuration reference" guide.

For more information about Dev Services, see Dev Services overview.

For more details and optional configurations, see Dev Services for databases.

Configure a JDBC datasource

  1. Add the correct JDBC extension for the database of your choice.

    • quarkus-jdbc-db2

    • quarkus-jdbc-derby

    • quarkus-jdbc-h2

    • quarkus-jdbc-mariadb

    • quarkus-jdbc-mssql

    • quarkus-jdbc-mysql

    • quarkus-jdbc-oracle

    • quarkus-jdbc-postgresql

  2. Configure your JDBC datasource:

    quarkus.datasource.db-kind=postgresql (1)
    quarkus.datasource.username=<your username>
    quarkus.datasource.password=<your password>
    
    quarkus.datasource.jdbc.url=jdbc:postgresql://localhost:5432/hibernate_orm_test
    quarkus.datasource.jdbc.max-size=16
    1 This configuration value is only required if there is more than one database extension on the classpath.

If only one viable extension is available, Quarkus assumes this is the correct one. When you add a driver to the test scope, Quarkus automatically includes the specified driver in testing.

JDBC connection pool size adjustment

To protect your database from overloading during load peaks, size the pool adequately to throttle the database load. The optimal pool size depends on many factors, such as the number of parallel application users or the nature of the workload.

Be aware that setting the pool size too low might cause some requests to time out while waiting for a connection.

For more information about pool size adjustment properties, see the JDBC configuration reference section.

Configure a reactive datasource

  1. Add the correct reactive extension for the database of your choice.

    • quarkus-reactive-db2-client

    • quarkus-reactive-mssql-client

    • quarkus-reactive-mysql-client

    • quarkus-reactive-oracle-client

    • quarkus-reactive-pg-client

  2. Configure your reactive datasource:

    quarkus.datasource.db-kind=postgresql (1)
    quarkus.datasource.username=<your username>
    quarkus.datasource.password=<your password>
    
    quarkus.datasource.reactive.url=postgresql:///your_database
    quarkus.datasource.reactive.max-size=20
    1 This configuration value is only required if there is more than one Reactive driver extension on the classpath.

Configure datasources

The following section describes the configuration for single or multiple datasources. For simplicity, we will reference a single datasource as the default (unnamed) datasource.

Configure a single datasource

A datasource can be either a JDBC datasource, reactive, or both. This depends on the configuration and the selection of project extensions.

  1. Define a datasource with the following configuration property, where db-kind defines which database platform to connect to, for example, h2:

    quarkus.datasource.db-kind=h2

    Quarkus deduces the JDBC driver class it needs to use from the specified value of the db-kind database platform attribute.

    This step is required only if your application depends on multiple database drivers. If the application operates with a single driver, this driver is detected automatically.

    Quarkus currently includes the following built-in database kinds:

    • DB2: db2

    • Derby: derby

    • H2: h2

    • MariaDB: mariadb

    • Microsoft SQL Server: mssql

    • MySQL: mysql

    • Oracle: oracle

    • PostgreSQL: postgresql, pgsql or pg

    • To use a database kind that is not built-in, use other and define the JDBC driver explicitly

      You can use any JDBC driver in a Quarkus app in JVM mode as described in Custom databases and drivers. However, using a non-built-in database kind is unlikely to work when compiling your application to a native executable.

      For native executable builds, it is recommended to either use the available JDBC Quarkus extensions or contribute a custom extension for your specific driver.

  2. Configure the following properties to define credentials:

    quarkus.datasource.username=<your username>
    quarkus.datasource.password=<your password>

    You can also retrieve the password from Vault by using a credential provider for your datasource.

Until now, the configuration has been the same regardless of whether you are using a JDBC or a reactive driver. When you have defined the database kind and the credentials, the rest depends on what type of driver you are using. It is possible to use JDBC and a reactive driver simultaneously.

JDBC datasource

JDBC is the most common database connection pattern, typically needed when used in combination with non-reactive Hibernate ORM.

  1. To use a JDBC datasource, start with adding the necessary dependencies:

    1. For use with a built-in JDBC driver, choose and add the Quarkus extension for your relational database driver from the list below:

      • Derby - quarkus-jdbc-derby

      • H2 - quarkus-jdbc-h2

        H2 and Derby databases can be configured to run in "embedded mode"; however, the Derby extension does not support compiling the embedded database engine into native executables.

        Read Testing with in-memory databases for suggestions regarding integration testing.

      • DB2 - quarkus-jdbc-db2

      • MariaDB - quarkus-jdbc-mariadb

      • Microsoft SQL Server - quarkus-jdbc-mssql

      • MySQL - quarkus-jdbc-mysql

      • Oracle - quarkus-jdbc-oracle

      • PostgreSQL - quarkus-jdbc-postgresql

      • Other JDBC extensions, such as SQLite and its documentation, can be found in the Quarkiverse.

        For example, to add the PostgreSQL driver dependency:

        ./mvnw quarkus:add-extension -Dextensions="jdbc-postgresql"

        Using a built-in JDBC driver extension automatically includes the Agroal extension, which is the JDBC connection pool implementation applicable for custom and built-in JDBC drivers. However, for custom drivers, Agroal needs to be added explicitly.

    2. For use with a custom JDBC driver, add the quarkus-agroal dependency to your project alongside the extension for your relational database driver:

      ./mvnw quarkus:add-extension -Dextensions="agroal"

      To use a JDBC driver for another database, use a database with no built-in extension or with a different driver.

  2. Configure the JDBC connection by defining the JDBC URL property:

    quarkus.datasource.jdbc.url=jdbc:postgresql://localhost:5432/hibernate_orm_test

    Note the jdbc prefix in the property name. All the configuration properties specific to JDBC have the jdbc prefix. For reactive datasources, the prefix is reactive.

For more information about configuring JDBC, see JDBC URL format reference and Quarkus extensions and database drivers reference.

Custom databases and drivers

If you need to connect to a database for which Quarkus does not provide an extension with the JDBC driver, you can use a custom driver instead. For example, if you are using the OpenTelemetry JDBC driver in your project.

Without an extension, the driver will work correctly in any Quarkus app running in JVM mode. However, the driver is unlikely to work when compiling your application to a native executable. If you plan to make a native executable, use the existing JDBC Quarkus extensions, or contribute one for your driver.

An example for defining access to a database with no built-in support in JVM mode:
quarkus.datasource.db-kind=other
quarkus.datasource.jdbc.driver=oracle.jdbc.driver.OracleDriver
quarkus.datasource.jdbc.url=jdbc:oracle:thin:@192.168.1.12:1521/ORCL_SVC
quarkus.datasource.username=scott
quarkus.datasource.password=tiger

For all the details about the JDBC configuration options and configuring other aspects, such as the connection pool size, refer to the JDBC configuration reference section.

Consuming the datasource

With Hibernate ORM, the Hibernate layer automatically picks up the datasource and uses it.

For the in-code access to the datasource, obtain it as any other bean as follows:

@Inject
AgroalDataSource defaultDataSource;

In the above example, the type is AgroalDataSource, a javax.sql.DataSource subtype. Because of this, you can also use javax.sql.DataSource as the injected type.

Reactive datasource

Quarkus offers several reactive clients for use with a reactive datasource.

  1. Add the corresponding extension to your application:

    • DB2: quarkus-reactive-db2-client

    • MariaDB/MySQL: quarkus-reactive-mysql-client

    • Microsoft SQL Server: quarkus-reactive-mssql-client

    • Oracle: quarkus-reactive-oracle-client

    • PostgreSQL: quarkus-reactive-pg-client

      The installed extension must be consistent with the quarkus.datasource.db-kind you define in your datasource configuration.

  2. After adding the driver, configure the connection URL and define a proper size for your connection pool.

    quarkus.datasource.reactive.url=postgresql:///your_database
    quarkus.datasource.reactive.max-size=20
Reactive connection pool size adjustment

To protect your database from overloading during load peaks, size the pool adequately to throttle the database load. The proper size always depends on many factors, such as the number of parallel application users or the nature of the workload.

Be aware that setting the pool size too low might cause some requests to time out while waiting for a connection.

For more information about pool size adjustment properties, see the Reactive datasource configuration reference section.

JDBC and reactive datasources simultaneously

When both a JDBC extension and a reactive datasource extension for the same database kind are included, both JDBC and reactive datasources will be created by default.

  • To use the JDBC and reactive datasources simultaneously:

    %prod.quarkus.datasource.reactive.url=postgresql:///your_database
    %prod.quarkus.datasource.jdbc.url=jdbc:postgresql://localhost:5432/hibernate_orm_test

If you do not want to have both a JDBC datasource and a reactive datasource created, use the following configuration.

  • To disable the JDBC datasource explicitly:

    quarkus.datasource.jdbc=false
  • To disable the reactive datasource explicitly:

    quarkus.datasource.reactive=false

    In most cases, the configuration above will be optional as either a JDBC driver or a reactive datasource extension will be present, not both.

Configure multiple datasources

The Hibernate ORM extension supports defining persistence units by using configuration properties. For each persistence unit, point to the datasource of your choice.

Defining multiple datasources works like defining a single datasource, with one important change - you have to specify a name (configuration property) for each datasource.

The following example provides three different datasources:

  • the default one

  • a datasource named users

  • a datasource named inventory

Each with its configuration:

quarkus.datasource.db-kind=h2
quarkus.datasource.username=username-default
quarkus.datasource.jdbc.url=jdbc:h2:mem:default
quarkus.datasource.jdbc.max-size=13

quarkus.datasource.users.db-kind=h2
quarkus.datasource.users.username=username1
quarkus.datasource.users.jdbc.url=jdbc:h2:mem:users
quarkus.datasource.users.jdbc.max-size=11

quarkus.datasource.inventory.db-kind=h2
quarkus.datasource.inventory.username=username2
quarkus.datasource.inventory.jdbc.url=jdbc:h2:mem:inventory
quarkus.datasource.inventory.jdbc.max-size=12

Notice there is an extra section in the configuration property. The syntax is as follows: quarkus.datasource.[optional name.][datasource property].

Even when only one database extension is installed, named databases need to specify at least one build-time property so that Quarkus can detect them. Generally, this is the db-kind property, but you can also specify Dev Services properties to create named datasources according to the Dev Services for Databases guide.

Named datasource injection

When using multiple datasources, each DataSource also has the io.quarkus.agroal.DataSource qualifier with the name of the datasource as the value.

By using the properties mentioned in the previous section to configure three different datasources, inject each one of them as follows:

@Inject
AgroalDataSource defaultDataSource;

@Inject
@DataSource("users")
AgroalDataSource usersDataSource;

@Inject
@DataSource("inventory")
AgroalDataSource inventoryDataSource;

Activate or deactivate datasources

When a datasource is configured at build time and its URL is set at runtime, it is active by default. This means that Quarkus will start the corresponding JDBC connection pool or reactive client when the application starts.

To deactivate a datasource at runtime, either:

  • Do not set quarkus.datasource[.optional name].jdbc.url/quarkus.datasource[.optional name].reactive.url.

  • Or set quarkus.datasource[.optional name].active to false.

If a datasource is not active:

  • The datasource will not attempt to connect to the database during application startup.

  • The datasource will not contribute a health check.

  • Static CDI injection points involving the datasource (@Inject DataSource ds or @Inject Pool pool) will cause application startup to fail.

  • Dynamic retrieval of the datasource (e.g. through CDI.getBeanContainer()/Arc.instance(), or by injecting an Instance<DataSource>) will cause an exception to be thrown.

  • Other Quarkus extensions consuming the datasource may cause application startup to fail.

    In such a case, you will also need to deactivate those other extensions. For an example of this scenario, see this section of the Hibernate ORM guide.

This feature is especially useful when you need the application to select one datasource from a predefined set at runtime.

For example, with the following configuration:

quarkus.datasource."pg".db-kind=postgres
quarkus.datasource."pg".active=false
quarkus.datasource."pg".jdbc.url=jdbc:postgresql:///your_database

quarkus.datasource."oracle".db-kind=oracle
quarkus.datasource."oracle".active=false
quarkus.datasource."oracle".jdbc.url=jdbc:oracle:///your_database

Setting quarkus.datasource."pg".active=true at runtime will make only the PostgreSQL datasource available, and setting quarkus.datasource."oracle".active=true at runtime will make only the Oracle datasource available.

Custom configuration profiles can help simplify such a setup. By appending the following profile-specific configuration to the one above, you can select a persistence unit/datasource at runtime simply by setting quarkus.profile: quarkus.profile=prod,pg or quarkus.profile=prod,oracle.

%pg.quarkus.hibernate-orm."pg".active=true
%pg.quarkus.datasource."pg".active=true
# Add any pg-related runtime configuration here, prefixed with "%pg."

%oracle.quarkus.hibernate-orm."oracle".active=true
%oracle.quarkus.datasource."oracle".active=true
# Add any pg-related runtime configuration here, prefixed with "%pg."

With such a setup, you will need to take care to only ever access the active datasource. To do so, you can inject an InjectableInstance<DataSource> or InjectableInstance<Pool> with an @Any qualifier, and call getActive():

import io.quarkus.arc.InjectableInstance;
@ApplicationScoped
public class MyConsumer {
    @Inject
    @Any
    InjectableInstance<DataSource> dataSource;

    public void doSomething() {
        DataSource activeDataSource = dataSource.getActive();
        // ...
    }
}

Alternatively, you may define a CDI bean producer for the default datasource redirecting to the currently active named datasource, so that it can be injected directly, like this:

public class MyProducer {
    @Inject
    @DataSource("pg")
    InjectableInstance<DataSource> pgDataSourceBean; (1)

    @Inject
    @DataSource("oracle")
    InjectableInstance<DataSource> oracleDataSourceBean;

    @Produces (2)
    @ApplicationScoped
    public DataSource dataSource() {
        if (pgDataSourceBean.getHandle().getBean().isActive()) { (3)
            return pgDataSourceBean.get();
        } else if (oracleDataSourceBean.getHandle().getBean().isActive()) { (3)
            return oracleDataSourceBean.get();
        } else {
            throw new RuntimeException("No active datasource!");
        }
    }
}

@ApplicationScoped
public class MyConsumer {
    @Inject
    DataSource dataSource; (4)

    public void doSomething() {
        // .. just use the injected datasource ...
    }
}
1 Don’t inject a DataSource or AgroalDatasource directly, because that would lead to a failure on startup (can’t inject inactive beans). Instead, inject InjectableInstance<DataSource> or InjectableInstance<AgroalDataSource>.
2 Declare a CDI producer method that will define the default datasource as either PostgreSQL or Oracle, depending on what is active.
3 Check whether beans are active before retrieving them.
4 This will get injected with the (only) active datasource.

Use multiple datasources in a single transaction

By default, XA support on datasources is disabled. Therefore, a transaction may include no more than one datasource. Attempting to access multiple non-XA datasources in the same transaction results in an exception similar to the following:

...
Caused by: java.sql.SQLException: Exception in association of connection to existing transaction
        at io.agroal.narayana.NarayanaTransactionIntegration.associate(NarayanaTransactionIntegration.java:130)
        ...
Caused by: java.sql.SQLException: Failed to enlist. Check if a connection from another datasource is already enlisted to the same transaction
        at io.agroal.narayana.NarayanaTransactionIntegration.associate(NarayanaTransactionIntegration.java:121)
        ...

To allow using multiple JDBC datasources in the same transaction:

  1. Make sure your JDBC driver supports XA. All supported JDBC drivers do, but other JDBC drivers might not.

  2. Make sure your database server is configured to enable XA.

  3. Enable XA support explicitly for each relevant datasource by setting quarkus.datasource[.optional name].jdbc.transactions to xa.

Using XA, a rollback in one datasource will trigger a rollback in every other datasource enrolled in the transaction.

XA transactions on reactive datasources are not supported at the moment.

If your transaction involves non-datasource resources, be aware that they might not support XA transactions or might require additional configuration.

If XA cannot be enabled for one of your datasources:

If no other solution works, and to maintain compatibility with Quarkus 3.8 and earlier, set quarkus.transaction-manager.unsafe-multiple-last-resources to allow to enable unsafe transaction handling across multiple non-XA datasources.

With this property set to allow, it might happen that a transaction rollback will only be applied to the last non-XA datasource, while other non-XA datasources have already committed their changes, potentially leaving your overall system in an inconsistent state.

Alternatively, you can allow the same unsafe behavior, but with warnings when it takes effect:

  • Setting the property to warn-each results in logging a warning on each offending transaction.

  • Setting the property to warn-first results in logging a warning on the first offending transaction.

We do not recommend using this configuration property, and we plan to remove it in the future, so you should fix your application accordingly. If you think your use case of this feature is valid and this option should be kept around, open an issue in the Quarkus tracker explaining why.

Datasource integrations

Datasource health check

If you use the quarkus-smallrye-health extension, the quarkus-agroal and reactive client extensions automatically add a readiness health check to validate the datasource.

When you access your application’s health readiness endpoint, /q/health/ready by default, you receive information about the datasource validation status. If you have multiple datasources, all datasources are checked, and if a single datasource validation failure occurs, the status changes to DOWN.

This behavior can be disabled by using the quarkus.datasource.health.enabled property.

To exclude only a particular datasource from the health check:

quarkus.datasource."datasource-name".health-exclude=true

Datasource metrics

If you are using the quarkus-micrometer or quarkus-smallrye-metrics extension, quarkus-agroal can contribute some datasource-related metrics to the metric registry. This can be activated by setting the quarkus.datasource.metrics.enabled property to true.

For the exposed metrics to contain any actual values, a metric collection must be enabled internally by the Agroal mechanisms. By default, this metric collection mechanism is enabled for all datasources when a metrics extension is present, and metrics for the Agroal extension are enabled.

To disable metrics for a particular datasource, set quarkus.datasource.jdbc.enable-metrics to false, or apply quarkus.datasource.<datasource name>.jdbc.enable-metrics for a named datasource. This disables collecting the metrics and exposing them in the /q/metrics endpoint if the mechanism to collect them is disabled.

Conversely, setting quarkus.datasource.jdbc.enable-metrics to true, or quarkus.datasource.<datasource name>.jdbc.enable-metrics for a named datasource explicitly enables metrics collection even if a metrics extension is not in use. This can be useful if you need to access the collected metrics programmatically. They are available after calling dataSource.getMetrics() on an injected AgroalDataSource instance.

If the metrics collection for this datasource is disabled, all values result in zero.

Datasource tracing

To use tracing with a datasource, you need to add the quarkus-opentelemetry extension to your project.

You do not need to declare a different driver to enable tracing. If you use a JDBC driver, you need to follow the instructions in the OpenTelemetry extension.

Even with all the tracing infrastructure in place, the datasource tracing is not enabled by default, and you need to enable it by setting this property:

# enable tracing
quarkus.datasource.jdbc.telemetry=true

Narayana transaction manager integration

Integration is automatic if the Narayana JTA extension is also available.

You can override this by setting the transactions configuration property:

  • quarkus.datasource.jdbc.transactions for default unnamed datasource

  • quarkus.datasource.<datasource-name>.jdbc.transactions for named datasource

For more information, see the Configuration reference section below.

To facilitate the storage of transaction logs in a database by using JDBC, see Configuring transaction logs to be stored in a datasource section of the Using transactions in Quarkus guide.

Named datasources

When using Dev Services, the default datasource will always be created, but to specify a named datasource, you need to have at least one build time property so Quarkus can detect how to create the datasource.

You will usually specify the db-kind property or explicitly enable Dev Services by setting quarkus.datasource."name".devservices.enabled=true.

Testing with in-memory databases

Some databases like H2 and Derby are commonly used in the embedded mode as a facility to run integration tests quickly.

The recommended approach is to use the real database you intend to use in production, especially when Dev Services provide a zero-config database for testing, and running tests against a container is relatively quick and produces expected results on an actual environment. However, it is also possible to use JVM-powered databases for scenarios when the ability to run simple integration tests is required.

Support and limitations

Embedded databases (H2 and Derby) work in JVM mode. For native mode, the following limitations apply:

  • Derby cannot be embedded into the application in native mode. However, the Quarkus Derby extension allows native compilation of the Derby JDBC client, supporting remote connections.

  • Embedding H2 within your native image is not recommended. Consider using an alternative approach, for example, using a remote connection to a separate database instead.

Run an integration test

  1. Add a dependency on the artifacts providing the additional tools that are under the following Maven coordinates:

    • io.quarkus:quarkus-test-h2 for H2

    • io.quarkus:quarkus-test-derby for Derby

      This will allow you to test your application even when it is compiled into a native executable while the database will run as a JVM process.

  2. Add the following specific annotation on any class in your integration tests for running integration tests in both JVM or native executables:

    • @QuarkusTestResource(H2DatabaseTestResource.class)

    • @QuarkusTestResource(DerbyDatabaseTestResource.class)

      This ensures that the test suite starts and terminates the managed database in a separate process as required for test execution.

      H2 example
      package my.app.integrationtests.db;
      
      import io.quarkus.test.common.QuarkusTestResource;
      import io.quarkus.test.h2.H2DatabaseTestResource;
      
      @QuarkusTestResource(H2DatabaseTestResource.class)
      public class TestResources {
      }
  3. Configure the connection to the managed database:

    quarkus.datasource.db-kind=h2
    quarkus.datasource.jdbc.url=jdbc:h2:tcp://localhost/mem:test

Referências

Common datasource configuration reference

Propriedade de Configuração Fixa no Momento da Compilação - Todas as outras propriedades de configuração podem ser sobrepostas em tempo de execução.

Configuration property

Tipo

Padrão

Whether or not a health check is published in case the smallrye-health extension is present.

This is a global setting and is not specific to a datasource.

Environment variable: QUARKUS_DATASOURCE_HEALTH_ENABLED

Show more

boolean

true

Whether or not datasource metrics are published in case a metrics extension is present.

This is a global setting and is not specific to a datasource.

This is different from the "jdbc.enable-metrics" property that needs to be set on the JDBC datasource level to enable collection of metrics for that datasource.

Environment variable: QUARKUS_DATASOURCE_METRICS_ENABLED

Show more

boolean

false

quarkus.datasource."datasource-name".db-kind

The kind of database we will connect to (e.g. h2, postgresql…​).

Environment variable: QUARKUS_DATASOURCE_DB_KIND

Show more

string

quarkus.datasource."datasource-name".db-version

The version of the database we will connect to (e.g. '10.0').

The version number set here should follow the same numbering scheme as the string returned by java.sql.DatabaseMetaData#getDatabaseProductVersion() for your database’s JDBC driver. This numbering scheme may be different from the most popular one for your database; for example Microsoft SQL Server 2016 would be version 13.

As a rule, the version set here should be as high as possible, but must be lower than or equal to the version of any database your application will connect to.

A high version will allow better performance and using more features (e.g. Hibernate ORM may generate more efficient SQL, avoid workarounds and take advantage of more database features), but if it is higher than the version of the database you want to connect to, it may lead to runtime exceptions (e.g. Hibernate ORM may generate invalid SQL that your database will reject).

Some extensions (like the Hibernate ORM extension) will try to check this version against the actual database version on startup, leading to a startup failure when the actual version is lower or simply a warning in case the database cannot be reached.

The default for this property is specific to each extension; the Hibernate ORM extension will default to the oldest version it supports.

Environment variable: QUARKUS_DATASOURCE_DB_VERSION

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string

quarkus.datasource."datasource-name".health-exclude

Whether this particular data source should be excluded from the health check if the general health check for data sources is enabled.

By default, the health check includes all configured data sources (if it is enabled).

Environment variable: QUARKUS_DATASOURCE_HEALTH_EXCLUDE

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boolean

false

quarkus.datasource."datasource-name".active

Whether this datasource should be active at runtime.

Environment variable: QUARKUS_DATASOURCE_ACTIVE

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boolean

`true if the URL is set, false otherwise`

quarkus.datasource."datasource-name".username

The datasource username

Environment variable: QUARKUS_DATASOURCE_USERNAME

Show more

string

quarkus.datasource."datasource-name".password

The datasource password

Environment variable: QUARKUS_DATASOURCE_PASSWORD

Show more

string

quarkus.datasource."datasource-name".credentials-provider

The credentials provider name

Environment variable: QUARKUS_DATASOURCE_CREDENTIALS_PROVIDER

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string

quarkus.datasource."datasource-name".credentials-provider-name

The credentials provider bean name.

This is a bean name (as in @Named) of a bean that implements CredentialsProvider. It is used to select the credentials provider bean when multiple exist. This is unnecessary when there is only one credentials provider available.

For Vault, the credentials provider bean name is vault-credentials-provider.

Environment variable: QUARKUS_DATASOURCE_CREDENTIALS_PROVIDER_NAME

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string

Dev Services

Tipo

Padrão

quarkus.datasource."datasource-name".devservices.enabled

Whether this Dev Service should start with the application in dev mode or tests.

Dev Services are enabled by default unless connection configuration (e.g. the JDBC URL or reactive client URL) is set explicitly.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_ENABLED

Show more

boolean

quarkus.datasource."datasource-name".devservices.image-name

The container image name for container-based Dev Service providers.

This has no effect if the provider is not a container-based database, such as H2 or Derby.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_IMAGE_NAME

Show more

string

quarkus.datasource."datasource-name".devservices.container-env."environment-variable-name"

Environment variables that are passed to the container.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_CONTAINER_ENV__ENVIRONMENT_VARIABLE_NAME_

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Map<String,String>

quarkus.datasource."datasource-name".devservices.container-properties."property-key"

Generic properties that are passed for additional container configuration.

Properties defined here are database-specific and are interpreted specifically in each database dev service implementation.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_CONTAINER_PROPERTIES__PROPERTY_KEY_

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Map<String,String>

quarkus.datasource."datasource-name".devservices.properties."property-key"

Generic properties that are added to the database connection URL.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_PROPERTIES__PROPERTY_KEY_

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Map<String,String>

quarkus.datasource."datasource-name".devservices.port

Optional fixed port the dev service will listen to.

If not defined, the port will be chosen randomly.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_PORT

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int

quarkus.datasource."datasource-name".devservices.command

The container start command to use for container-based Dev Service providers.

This has no effect if the provider is not a container-based database, such as H2 or Derby.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_COMMAND

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string

quarkus.datasource."datasource-name".devservices.db-name

The database name to use if this Dev Service supports overriding it.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_DB_NAME

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string

quarkus.datasource."datasource-name".devservices.username

The username to use if this Dev Service supports overriding it.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_USERNAME

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string

quarkus.datasource."datasource-name".devservices.password

The password to use if this Dev Service supports overriding it.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_PASSWORD

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string

quarkus.datasource."datasource-name".devservices.init-script-path

The path to a SQL script to be loaded from the classpath and applied to the Dev Service database.

This has no effect if the provider is not a container-based database, such as H2 or Derby.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_INIT_SCRIPT_PATH

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string

quarkus.datasource."datasource-name".devservices.volumes."host-path"

The volumes to be mapped to the container.

The map key corresponds to the host location; the map value is the container location. If the host location starts with "classpath:", the mapping loads the resource from the classpath with read-only permission.

When using a file system location, the volume will be generated with read-write permission, potentially leading to data loss or modification in your file system.

This has no effect if the provider is not a container-based database, such as H2 or Derby.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_VOLUMES__HOST_PATH_

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Map<String,String>

quarkus.datasource."datasource-name".devservices.reuse

Whether to keep Dev Service containers running after a dev mode session or test suite execution to reuse them in the next dev mode session or test suite execution.

Within a dev mode session or test suite execution, Quarkus will always reuse Dev Services as long as their configuration (username, password, environment, port bindings, …​) did not change. This feature is specifically about keeping containers running when Quarkus is not running to reuse them across runs.

This feature needs to be enabled explicitly in testcontainers.properties, may require changes to how you configure data initialization in dev mode and tests, and may leave containers running indefinitely, forcing you to stop and remove them manually. See this section of the documentation for more information.

This configuration property is set to true by default, so it is mostly useful to disable reuse, if you enabled it in testcontainers.properties but only want to use it for some of your Quarkus applications or datasources.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_REUSE

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boolean

true

quarkus.datasource."datasource-name".devservices.show-logs

Whether the logs should be consumed by the JBoss logger.

This has no effect if the provider is not a container-based database, such as H2 or Derby.

Environment variable: QUARKUS_DATASOURCE_DEVSERVICES_SHOW_LOGS

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boolean

false

JDBC configuration reference

Configuration property fixed at build time - All other configuration properties are overridable at runtime

Configuration property

Tipo

Padrão

quarkus.datasource."datasource-name".jdbc

If we create a JDBC datasource for this datasource.

Environment variable: QUARKUS_DATASOURCE_JDBC

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boolean

true

quarkus.datasource."datasource-name".jdbc.driver

The datasource driver class name

Environment variable: QUARKUS_DATASOURCE_JDBC_DRIVER

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string

quarkus.datasource."datasource-name".jdbc.transactions

Whether we want to use regular JDBC transactions, XA, or disable all transactional capabilities.

When enabling XA you will need a driver implementing javax.sql.XADataSource.

Environment variable: QUARKUS_DATASOURCE_JDBC_TRANSACTIONS

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enabledIntegrate the JDBC Datasource with the JTA TransactionManager of Quarkus. This is the default., xaSimilarly to enabled, also enables integration with the JTA TransactionManager of Quarkus, but enabling XA transactions as well. Requires a JDBC driver implementing javax.sql.XADataSource, disabledDisables the Agroal integration with the Narayana TransactionManager. This is typically a bad idea, and is only useful in special cases\: make sure to not use this without having a deep understanding of the implications.

enabledIntegrate the JDBC Datasource with the JTA TransactionManager of Quarkus. This is the default.

quarkus.datasource."datasource-name".jdbc.enable-metrics

Enable datasource metrics collection. If unspecified, collecting metrics will be enabled by default if a metrics extension is active.

Environment variable: QUARKUS_DATASOURCE_JDBC_ENABLE_METRICS

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boolean

quarkus.datasource."datasource-name".jdbc.telemetry

Enable OpenTelemetry JDBC instrumentation.

Environment variable: QUARKUS_DATASOURCE_JDBC_TELEMETRY

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boolean

false

quarkus.datasource."datasource-name".jdbc.url

The datasource URL

Environment variable: QUARKUS_DATASOURCE_JDBC_URL

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string

quarkus.datasource."datasource-name".jdbc.initial-size

The initial size of the pool. Usually you will want to set the initial size to match at least the minimal size, but this is not enforced so to allow for architectures which prefer a lazy initialization of the connections on boot, while being able to sustain a minimal pool size after boot.

Environment variable: QUARKUS_DATASOURCE_JDBC_INITIAL_SIZE

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int

quarkus.datasource."datasource-name".jdbc.min-size

The datasource pool minimum size

Environment variable: QUARKUS_DATASOURCE_JDBC_MIN_SIZE

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int

0

quarkus.datasource."datasource-name".jdbc.max-size

The datasource pool maximum size

Environment variable: QUARKUS_DATASOURCE_JDBC_MAX_SIZE

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int

20

quarkus.datasource."datasource-name".jdbc.background-validation-interval

The interval at which we validate idle connections in the background.

Set to 0 to disable background validation.

Environment variable: QUARKUS_DATASOURCE_JDBC_BACKGROUND_VALIDATION_INTERVAL

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Duration 

2M

quarkus.datasource."datasource-name".jdbc.foreground-validation-interval

Perform foreground validation on connections that have been idle for longer than the specified interval.

Environment variable: QUARKUS_DATASOURCE_JDBC_FOREGROUND_VALIDATION_INTERVAL

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Duration 

quarkus.datasource."datasource-name".jdbc.acquisition-timeout

The timeout before cancelling the acquisition of a new connection

Environment variable: QUARKUS_DATASOURCE_JDBC_ACQUISITION_TIMEOUT

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Duration 

5S

quarkus.datasource."datasource-name".jdbc.leak-detection-interval

The interval at which we check for connection leaks.

Environment variable: QUARKUS_DATASOURCE_JDBC_LEAK_DETECTION_INTERVAL

Show more

Duration 

This feature is disabled by default.

quarkus.datasource."datasource-name".jdbc.idle-removal-interval

The interval at which we try to remove idle connections.

Environment variable: QUARKUS_DATASOURCE_JDBC_IDLE_REMOVAL_INTERVAL

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Duration 

5M

quarkus.datasource."datasource-name".jdbc.max-lifetime

The max lifetime of a connection.

Environment variable: QUARKUS_DATASOURCE_JDBC_MAX_LIFETIME

Show more

Duration 

By default, there is no restriction on the lifespan of a connection.

quarkus.datasource."datasource-name".jdbc.transaction-isolation-level

The transaction isolation level.

Environment variable: QUARKUS_DATASOURCE_JDBC_TRANSACTION_ISOLATION_LEVEL

Show more

undefined, none, read-uncommitted, read-committed, repeatable-read, serializable

quarkus.datasource."datasource-name".jdbc.extended-leak-report

Collect and display extra troubleshooting info on leaked connections.

Environment variable: QUARKUS_DATASOURCE_JDBC_EXTENDED_LEAK_REPORT

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boolean

false

quarkus.datasource."datasource-name".jdbc.flush-on-close

Allows connections to be flushed upon return to the pool. It’s not enabled by default.

Environment variable: QUARKUS_DATASOURCE_JDBC_FLUSH_ON_CLOSE

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boolean

false

quarkus.datasource."datasource-name".jdbc.detect-statement-leaks

When enabled, Agroal will be able to produce a warning when a connection is returned to the pool without the application having closed all open statements. This is unrelated with tracking of open connections. Disable for peak performance, but only when there’s high confidence that no leaks are happening.

Environment variable: QUARKUS_DATASOURCE_JDBC_DETECT_STATEMENT_LEAKS

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boolean

true

quarkus.datasource."datasource-name".jdbc.new-connection-sql

Query executed when first using a connection.

Environment variable: QUARKUS_DATASOURCE_JDBC_NEW_CONNECTION_SQL

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string

quarkus.datasource."datasource-name".jdbc.validation-query-sql

Query executed to validate a connection.

Environment variable: QUARKUS_DATASOURCE_JDBC_VALIDATION_QUERY_SQL

Show more

string

quarkus.datasource."datasource-name".jdbc.validate-on-borrow

Forces connection validation prior to acquisition (foreground validation) regardless of the idle status.

Because of the overhead of performing validation on every call, it’s recommended to rely on default idle validation instead, and to leave this to false.

Environment variable: QUARKUS_DATASOURCE_JDBC_VALIDATE_ON_BORROW

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boolean

false

quarkus.datasource."datasource-name".jdbc.pooling-enabled

Disable pooling to prevent reuse of Connections. Use this when an external pool manages the life-cycle of Connections.

Environment variable: QUARKUS_DATASOURCE_JDBC_POOLING_ENABLED

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boolean

true

quarkus.datasource."datasource-name".jdbc.transaction-requirement

Require an active transaction when acquiring a connection. Recommended for production. WARNING: Some extensions acquire connections without holding a transaction for things like schema updates and schema validation. Setting this setting to STRICT may lead to failures in those cases.

Environment variable: QUARKUS_DATASOURCE_JDBC_TRANSACTION_REQUIREMENT

Show more

off, warn, strict

quarkus.datasource."datasource-name".jdbc.additional-jdbc-properties."property-key"

Other unspecified properties to be passed to the JDBC driver when creating new connections.

Environment variable: QUARKUS_DATASOURCE_JDBC_ADDITIONAL_JDBC_PROPERTIES__PROPERTY_KEY_

Show more

Map<String,String>

quarkus.datasource."datasource-name".jdbc.telemetry.enabled

Enable OpenTelemetry JDBC instrumentation.

Environment variable: QUARKUS_DATASOURCE_JDBC_TELEMETRY_ENABLED

Show more

boolean

false if quarkus.datasource.jdbc.telemetry=false and true if quarkus.datasource.jdbc.telemetry=true

About the Duration format

To write duration values, use the standard java.time.Duration format. See the Duration#parse() Java API documentation for more information.

Você também pode usar um formato simplificado, começando com um número:

  • Se o valor for apenas um número, ele representará o tempo em segundos.

  • Se o valor for um número seguido de 'ms', ele representa o tempo em milissegundos.

Em outros casos, o formato simplificado é traduzido para o formato 'java.time.Duration' para análise:

  • Se o valor for um número seguido de 'h', 'm' ou 's', ele é prefixado com 'PT'.

  • Se o valor for um número seguido de 'd', ele é prefixado com 'P'.

JDBC URL reference

Each of the supported databases contains different JDBC URL configuration options. The following section gives an overview of each database URL and a link to the official documentation.

DB2

jdbc:db2://<serverName>[:<portNumber>]/<databaseName>[:<key1>=<value>;[<key2>=<value2>;]]

Exemplo

jdbc:db2://localhost:50000/MYDB:user=dbadm;password=dbadm;

For more information on URL syntax and additional supported options, see the official documentation.

Derby

jdbc:derby:[//serverName[:portNumber]/][memory:]databaseName[;property=value[;property=value]]

Exemplo

jdbc:derby://localhost:1527/myDB, jdbc:derby:memory:myDB;create=true

Derby is an embedded database that can run as a server, based on a file, or can run completely in memory. All of these options are available as listed above.

For more information, see the official documentation.

H2

jdbc:h2:{ {.|mem:}[name] | [file:]fileName | {tcp|ssl}:[//]server[:port][,server2[:port]]/name }[;key=value…​]

Exemplo

jdbc:h2:tcp://localhost/~/test, jdbc:h2:mem:myDB

H2 is a database that can run in embedded or server mode. It can use a file storage or run entirely in memory. All of these options are available as listed above.

For more information, see the official documentation.

MariaDB

jdbc:mariadb:[replication:|failover:|sequential:|aurora:]//<hostDescription>[,<hostDescription>…​]/[database][?<key1>=<value1>[&<key2>=<value2>]] hostDescription:: <host>[:<portnumber>] or address=(host=<host>)[(port=<portnumber>)][(type=(master|slave))]

Exemplo

jdbc:mariadb://localhost:3306/test

For more information, see the official documentation.

Microsoft SQL server

jdbc:sqlserver://[serverName[\instanceName][:portNumber]][;property=value[;property=value]]

Exemplo

jdbc:sqlserver://localhost:1433;databaseName=AdventureWorks

The Microsoft SQL Server JDBC driver works essentially the same as the others.

For more information, see the official documentation.

MySQL

jdbc:mysql:[replication:|failover:|sequential:|aurora:]//<hostDescription>[,<hostDescription>…​]/[database][?<key1>=<value1>[&<key2>=<value2>]] hostDescription:: <host>[:<portnumber>] or address=(host=<host>)[(port=<portnumber>)][(type=(master|slave))]

Exemplo

jdbc:mysql://localhost:3306/test

For more information, see the official documentation.

MySQL limitations

When compiling a Quarkus application to a native image, the MySQL support for JMX and Oracle Cloud Infrastructure (OCI) integrations are disabled as they are incompatible with GraalVM native images.

  • The lack of JMX support is a natural consequence of running in native mode and is unlikely to be resolved.

  • The integration with OCI is not supported.

Oracle

jdbc:oracle:driver_type:@database_specifier

Exemplo

jdbc:oracle:thin:@localhost:1521/ORCL_SVC

For more information, see the official documentation.

PostgreSQL

jdbc:postgresql:[//][host][:port][/database][?key=value…​]

Exemplo

jdbc:postgresql://localhost/test

The defaults for the different parts are as follows:

host

localhost

port

5432

database

same name as the username

For more information about additional parameters, see the official documentation.

Quarkus extensions and database drivers reference

The following tables list the built-in db-kind values, the corresponding Quarkus extensions, and the JDBC drivers used by those extensions.

When using one of the built-in datasource kinds, the JDBC and Reactive drivers are resolved automatically to match the values from these tables.

Table 1. Database platform kind to JDBC driver mapping
Database kind Quarkus extension Drivers

db2

quarkus-jdbc-db2

  • JDBC: com.ibm.db2.jcc.DB2Driver

  • XA: com.ibm.db2.jcc.DB2XADataSource

derby

quarkus-jdbc-derby

  • JDBC: org.apache.derby.jdbc.ClientDriver

  • XA: org.apache.derby.jdbc.ClientXADataSource

h2

quarkus-jdbc-h2

  • JDBC: org.h2.Driver

  • XA: org.h2.jdbcx.JdbcDataSource

mariadb

quarkus-jdbc-mariadb

  • JDBC: org.mariadb.jdbc.Driver

  • XA: org.mariadb.jdbc.MySQLDataSource

mssql

quarkus-jdbc-mssql

  • JDBC: com.microsoft.sqlserver.jdbc.SQLServerDriver

  • XA: com.microsoft.sqlserver.jdbc.SQLServerXADataSource

mysql

quarkus-jdbc-mysql

  • JDBC: com.mysql.cj.jdbc.Driver

  • XA: com.mysql.cj.jdbc.MysqlXADataSource

oracle

quarkus-jdbc-oracle

  • JDBC: oracle.jdbc.driver.OracleDriver

  • XA: oracle.jdbc.xa.client.OracleXADataSource

postgresql

quarkus-jdbc-postgresql

  • JDBC: org.postgresql.Driver

  • XA: org.postgresql.xa.PGXADataSource

Table 2. Database kind to Reactive driver mapping
Database kind Quarkus extension Driver

oracle

reactive-oracle-client

io.vertx.oracleclient.spi.OracleDriver

mysql

reactive-mysql-client

io.vertx.mysqlclient.spi.MySQLDriver

mssql

reactive-mssql-client

io.vertx.mssqlclient.spi.MSSQLDriver

postgresql

reactive-pg-client

io.vertx.pgclient.spi.PgDriver

db2

reactive-db2-client

io.vertx.db2client.spi.DB2Driver

This automatic resolution is applicable in most cases so that driver configuration is not needed.

Reactive datasource configuration reference

Configuration property fixed at build time - All other configuration properties are overridable at runtime

Configuration property

Tipo

Padrão

quarkus.datasource."datasource-name".reactive

If we create a Reactive datasource for this datasource.

Environment variable: QUARKUS_DATASOURCE_REACTIVE

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boolean

true

quarkus.datasource."datasource-name".reactive.cache-prepared-statements

Whether prepared statements should be cached on the client side.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_CACHE_PREPARED_STATEMENTS

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boolean

false

quarkus.datasource."datasource-name".reactive.url

The datasource URLs.

If multiple values are set, this datasource will create a pool with a list of servers instead of a single server. The pool uses round-robin load balancing for server selection during connection establishment. Note that certain drivers might not accommodate multiple values in this context.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_URL

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list of string

quarkus.datasource."datasource-name".reactive.max-size

The datasource pool maximum size.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MAX_SIZE

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int

20

quarkus.datasource."datasource-name".reactive.event-loop-size

When a new connection object is created, the pool assigns it an event loop.

When #event-loop-size is set to a strictly positive value, the pool assigns as many event loops as specified, in a round-robin fashion. By default, the number of event loops configured or calculated by Quarkus is used. If #event-loop-size is set to zero or a negative value, the pool assigns the current event loop to the new connection.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_EVENT_LOOP_SIZE

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int

quarkus.datasource."datasource-name".reactive.trust-all

Whether all server certificates should be trusted.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_ALL

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boolean

false

quarkus.datasource."datasource-name".reactive.trust-certificate-pem

PEM Trust config is disabled by default.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_CERTIFICATE_PEM

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boolean

false

quarkus.datasource."datasource-name".reactive.trust-certificate-pem.certs

Comma-separated list of the trust certificate files (Pem format).

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_CERTIFICATE_PEM_CERTS

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list of string

quarkus.datasource."datasource-name".reactive.trust-certificate-jks

JKS config is disabled by default.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_CERTIFICATE_JKS

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boolean

false

quarkus.datasource."datasource-name".reactive.trust-certificate-jks.path

Path of the key file (JKS format).

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_CERTIFICATE_JKS_PATH

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string

quarkus.datasource."datasource-name".reactive.trust-certificate-jks.password

Password of the key file.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_CERTIFICATE_JKS_PASSWORD

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string

quarkus.datasource."datasource-name".reactive.trust-certificate-pfx

PFX config is disabled by default.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_CERTIFICATE_PFX

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boolean

false

quarkus.datasource."datasource-name".reactive.trust-certificate-pfx.path

Path to the key file (PFX format).

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_CERTIFICATE_PFX_PATH

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string

quarkus.datasource."datasource-name".reactive.trust-certificate-pfx.password

Password of the key.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_TRUST_CERTIFICATE_PFX_PASSWORD

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string

quarkus.datasource."datasource-name".reactive.key-certificate-pem

PEM Key/cert config is disabled by default.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_PEM

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boolean

false

quarkus.datasource."datasource-name".reactive.key-certificate-pem.keys

Comma-separated list of the path to the key files (Pem format).

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_PEM_KEYS

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list of string

quarkus.datasource."datasource-name".reactive.key-certificate-pem.certs

Comma-separated list of the path to the certificate files (Pem format).

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_PEM_CERTS

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list of string

quarkus.datasource."datasource-name".reactive.key-certificate-jks

JKS config is disabled by default.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_JKS

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boolean

false

quarkus.datasource."datasource-name".reactive.key-certificate-jks.path

Path of the key file (JKS format).

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_JKS_PATH

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string

quarkus.datasource."datasource-name".reactive.key-certificate-jks.password

Password of the key file.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_JKS_PASSWORD

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string

quarkus.datasource."datasource-name".reactive.key-certificate-pfx

PFX config is disabled by default.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_PFX

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boolean

false

quarkus.datasource."datasource-name".reactive.key-certificate-pfx.path

Path to the key file (PFX format).

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_PFX_PATH

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string

quarkus.datasource."datasource-name".reactive.key-certificate-pfx.password

Password of the key.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_KEY_CERTIFICATE_PFX_PASSWORD

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string

quarkus.datasource."datasource-name".reactive.reconnect-attempts

The number of reconnection attempts when a pooled connection cannot be established on first try.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_RECONNECT_ATTEMPTS

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int

0

quarkus.datasource."datasource-name".reactive.reconnect-interval

The interval between reconnection attempts when a pooled connection cannot be established on first try.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_RECONNECT_INTERVAL

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Duration 

PT1S

quarkus.datasource."datasource-name".reactive.hostname-verification-algorithm

The hostname verification algorithm to use in case the server’s identity should be checked. Should be HTTPS, LDAPS or NONE. NONE is the default value and disables the verification.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_HOSTNAME_VERIFICATION_ALGORITHM

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string

NONE

quarkus.datasource."datasource-name".reactive.idle-timeout

The maximum time a connection remains unused in the pool before it is closed.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_IDLE_TIMEOUT

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Duration 

no timeout

quarkus.datasource."datasource-name".reactive.max-lifetime

The maximum time a connection remains in the pool, after which it will be closed upon return and replaced as necessary.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MAX_LIFETIME

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Duration 

no timeout

quarkus.datasource."datasource-name".reactive.shared

Set to true to share the pool among datasources. There can be multiple shared pools distinguished by name, when no specific name is set, the __vertx.DEFAULT name is used.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_SHARED

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boolean

false

quarkus.datasource."datasource-name".reactive.name

Set the pool name, used when the pool is shared among datasources, otherwise ignored.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_NAME

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string

quarkus.datasource."datasource-name".reactive.additional-properties."property-key"

Other unspecified properties to be passed through the Reactive SQL Client directly to the database when new connections are initiated.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_ADDITIONAL_PROPERTIES__PROPERTY_KEY_

Show more

Map<String,String>

About the Duration format

To write duration values, use the standard java.time.Duration format. See the Duration#parse() Java API documentation for more information.

Você também pode usar um formato simplificado, começando com um número:

  • Se o valor for apenas um número, ele representará o tempo em segundos.

  • Se o valor for um número seguido de 'ms', ele representa o tempo em milissegundos.

Em outros casos, o formato simplificado é traduzido para o formato 'java.time.Duration' para análise:

  • Se o valor for um número seguido de 'h', 'm' ou 's', ele é prefixado com 'PT'.

  • Se o valor for um número seguido de 'd', ele é prefixado com 'P'.

Reactive DB2 configuration

Configuration property fixed at build time - All other configuration properties are overridable at runtime

Configuration property

Tipo

Padrão

Datasources

Tipo

Padrão

quarkus.datasource."datasource-name".reactive.db2.ssl

Whether SSL/TLS is enabled.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_DB2_SSL

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boolean

false

Reactive MariaDB/MySQL specific configuration

Configuration property fixed at build time - All other configuration properties are overridable at runtime

Configuration property

Tipo

Padrão

Additional named datasources

Tipo

Padrão

quarkus.datasource."datasource-name".reactive.mysql.charset

Charset for connections.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MYSQL_CHARSET

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string

quarkus.datasource."datasource-name".reactive.mysql.collation

Collation for connections.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MYSQL_COLLATION

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string

quarkus.datasource."datasource-name".reactive.mysql.ssl-mode

Desired security state of the connection to the server.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MYSQL_SSL_MODE

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disabled, preferred, required, verify-ca, verify-identity

disabled

quarkus.datasource."datasource-name".reactive.mysql.connection-timeout

Connection timeout in seconds

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MYSQL_CONNECTION_TIMEOUT

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int

quarkus.datasource."datasource-name".reactive.mysql.authentication-plugin

The authentication plugin the client should use. By default, it uses the plugin name specified by the server in the initial handshake packet.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MYSQL_AUTHENTICATION_PLUGIN

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default, mysql-clear-password, mysql-native-password, sha256-password, caching-sha2-password

default

quarkus.datasource."datasource-name".reactive.mysql.pipelining-limit

The maximum number of inflight database commands that can be pipelined. By default, pipelining is disabled.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MYSQL_PIPELINING_LIMIT

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int

quarkus.datasource."datasource-name".reactive.mysql.use-affected-rows

Whether to return the number of rows matched by the WHERE clause in UPDATE statements, instead of the number of rows actually changed.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MYSQL_USE_AFFECTED_ROWS

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boolean

false

Reactive Microsoft SQL server-specific configuration

Configuration property fixed at build time - All other configuration properties are overridable at runtime

Configuration property

Tipo

Padrão

Datasources

Tipo

Padrão

quarkus.datasource."datasource-name".reactive.mssql.packet-size

The desired size (in bytes) for TDS packets.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MSSQL_PACKET_SIZE

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int

quarkus.datasource."datasource-name".reactive.mssql.ssl

Whether SSL/TLS is enabled.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_MSSQL_SSL

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boolean

false

Reactive Oracle-specific configuration

Configuration property fixed at build time - All other configuration properties are overridable at runtime

Configuration property

Tipo

Padrão

No configuration properties found.

Reactive PostgreSQL-specific configuration

Configuration property fixed at build time - All other configuration properties are overridable at runtime

Configuration property

Tipo

Padrão

Datasources

Tipo

Padrão

quarkus.datasource."datasource-name".reactive.postgresql.pipelining-limit

The maximum number of inflight database commands that can be pipelined.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_POSTGRESQL_PIPELINING_LIMIT

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int

quarkus.datasource."datasource-name".reactive.postgresql.ssl-mode

SSL operating mode of the client.

Environment variable: QUARKUS_DATASOURCE_REACTIVE_POSTGRESQL_SSL_MODE

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disable, allow, prefer, require, verify-ca, verify-full

disable

quarkus.datasource."datasource-name".reactive.postgresql.use-layer7-proxy

Level 7 proxies can load balance queries on several connections to the actual database. When it happens, the client can be confused by the lack of session affinity and unwanted errors can happen like ERROR: unnamed prepared statement does not exist (26000). See Using a level 7 proxy

Environment variable: QUARKUS_DATASOURCE_REACTIVE_POSTGRESQL_USE_LAYER7_PROXY

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boolean

false

Reactive datasource URL reference

DB2

db2://[user[:[password]]@]host[:port][/database][?<key1>=<value1>[&<key2>=<value2>]]

Exemplo

db2://dbuser:secretpassword@database.server.com:50000/mydb

Currently, the client supports the following parameter keys:

  • host

  • port

  • user

  • password

  • database

Configuring parameters in the connection URL overrides the default properties.

Microsoft SQL server

sqlserver://[user[:[password]]@]host[:port][/database][?<key1>=<value1>[&<key2>=<value2>]]

Exemplo

sqlserver://dbuser:secretpassword@database.server.com:1433/mydb

Currently, the client supports the following parameter keys:

  • host

  • port

  • user

  • password

  • database

Configuring parameters in the connection URL overrides the default properties.

MySQL / MariaDB

mysql://[user[:[password]]@]host[:port][/database][?<key1>=<value1>[&<key2>=<value2>]]

Exemplo

mysql://dbuser:secretpassword@database.server.com:3211/mydb

Currently, the client supports the following parameter keys (case-insensitive):

  • host

  • port

  • user

  • password

  • schema

  • socket

  • useAffectedRows

Configuring parameters in the connection URL overrides the default properties.

Oracle

EZConnect format

oracle:thin:@[[protocol:]//]host[:port][/service_name][:server_mode][/instance_name][?connection properties]

Exemplo

oracle:thin:@mydbhost1:5521/mydbservice?connect_timeout=10sec

TNS alias format

oracle:thin:@<alias_name>[?connection properties]

Exemplo

oracle:thin:@prod_db?TNS_ADMIN=/work/tns/

PostgreSQL

postgresql://[user[:[password]]@]host[:port][/database][?<key1>=<value1>[&<key2>=<value2>]]

Exemplo

postgresql://dbuser:secretpassword@database.server.com:5432/mydb

Currently, the client supports:

  • Following parameter keys:

    • host

    • port

    • user

    • password

    • dbname

    • sslmode

  • Additional properties, such as:

    • application_name

    • fallback_application_name

    • search_path

    • options

Configuring parameters in the connection URL overrides the default properties.

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