Spring Data JPA: Difference between revisions
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* https://spring.io/projects/spring-data-jpa | * https://spring.io/projects/spring-data-jpa | ||
* Spring Data Core JavaDoc https://docs.spring.io/spring-data/commons/docs/current/api/ | |||
* Spring Data JPA JavaDoc https://docs.spring.io/spring-data/jpa/docs/current/api/ | |||
* Spring Data JPA Reference Documentation https://docs.spring.io/spring-data/jpa/docs/2.1.3.RELEASE/reference/html/ | |||
=Internal= | =Internal= | ||
Line 7: | Line 10: | ||
* [[Spring Data#Projects|Spring Data]] | * [[Spring Data#Projects|Spring Data]] | ||
* [[JPA]] | * [[JPA]] | ||
* [[QueryDSL]] | |||
=Overview= | =Overview= | ||
Spring Data JPA is a [[Spring Data]] project that assists with implementing JPA-based repositories, which persist data in relational databases. The approach | Spring Data JPA is a [[Spring Data]] project that assists with implementing JPA-based repositories, which persist data in relational databases. The approach requires only writing the repository interface, by extending [https://docs.spring.io/spring-data/commons/docs/current/api/org/springframework/data/repository/CrudRepository.html org.springframework.data.repository.CrudRepository] or [https://docs.spring.io/spring-data/jpa/docs/current/api/org/springframework/data/jpa/repository/JpaRepository.html org.springframework.data.jpa.repository.JpaRepository] and optionally including custom finder methods. Once this is done, Spring will provide the implementation automatically. | ||
=Spring Persistence Concepts= | =Spring Persistence Concepts= | ||
Line 16: | Line 20: | ||
{{Internal|Spring_Persistence_Concepts#Overview|Spring Persistence Concepts}} | {{Internal|Spring_Persistence_Concepts#Overview|Spring Persistence Concepts}} | ||
=Spring | =Spring Boot Support= | ||
==<span id='Playground_Example'></span>Playground Examples== | |||
Working examples for H2, and both H2 and PostgreSQL is available here: | |||
{{External|[https://github.com/ovidiuf/playground/tree/master/spring/jpa/h2 Playground Spring Data H2 JPA]}} | |||
{{External|[https://github.com/ovidiuf/playground/tree/master/spring/spring-in-action/cap3-jpa Playground Spring Data JPA H2 and PostgreSQL]}} | |||
==Spring Boot Starter Dependencies== | |||
To add support for Spring Data JPA to a [[Spring Boot]] project, add the following [[Spring_Boot_Concepts#Spring_Boot_Starter_Dependency|starter dependency]]: | |||
<syntaxhighlight lang='groovy'> | |||
dependencies { | |||
implementation('org.springframework.boot:spring-boot-starter-data-jpa') | |||
} | |||
</syntaxhighlight> | |||
This starter dependency also transitively includes Hibernate as the JPA implementation. | |||
==Add Specific Database Support== | |||
Spring Data JPA needs a database to work with. The database drivers should be bundled with the application and should be available on its classpath. Spring Boot does that if its build system is configured with the right dependencies, as shown below: | |||
* [[Spring_H2_Support#Dependencies|H2]] | |||
* [[Spring_PostgreSQL_Support#Dependencies|PostgreSQL]] | |||
==Configure Database Access== | |||
* [[Spring_H2_Support#Spring_Configuration|H2]] | |||
* [[Spring_PostgreSQL_Support#Spring_Configuration|PostgreSQL]] | |||
=Adding Persistence to an Application with Spring Data JPA= | |||
==Annotate Domain Objects with @Entity== | |||
Annotate your domain objects that require persistence with [[@Entity]]. JPA requires each entity class to expose a no-argument constructor, which can be coded manually, or it can be generated with Lombok's [[Lombok#.40NoArgsConstructor|@NoArgConstructor]]: | |||
<syntaxhighlight lang='java'> | <syntaxhighlight lang='java'> | ||
@NoArgConstructor(access=AccessLevel.PRIVATE, force=true) | |||
</syntaxhighlight> | </syntaxhighlight> | ||
From a project layout perspective, we conventionally maintain the classes in a "model" package. | |||
==Define Entity's ID== | |||
Designate the entity's primary key field with [[@Id]] and optionally with [[@GeneratedValue]]. | |||
==Entity Member Variable Conventions== | |||
* Camel-case member variables map by default on '_' separated column names. "createdAt" maps to a "created_at" column. | |||
==Define Relationships between Entities== | |||
[[@ManyToMany]], etc. | |||
==<span id='Spring_Data_JPA_Repository'></span>Declare the JPA Repositories== | |||
Entities are built, managed and exposed to the application by JPA repositories. JPA repositories are explicitly declared by the application. A Spring Data JPA repository is the embodiment of the Spring [[Spring_Persistence_Concepts#Repository|repository concept]] concept. Similarly to a [[JdbcTemplate#JdbcTemplate-Based_Repository|JdbcTemplate-based repository]], a JPA repository conceals low-level data access details from the application while exposing Entities to the application. With [[JdbcTemplate#JdbcTemplate-Based_Repository|JdbcTemplate-based repositories]] the developers need to explicitly declare and implement the methods that should be exposed by the repository, such as <tt>findOne(...)</tt>, <tt>findAll()</tt> and <tt>save(...)</tt>. With Spring Data JPA repositories, it is sufficient to extend the [[#CrudRepository|CrudRepository]] or [[#JpaRepository|JpaRepository]] interface, which already comes with essential methods. Note that similarly to the [[JdbcTemplate#JdbcTemplate-Based_Repository|JdbcTemplate-based repository]], it is a good idea to define the repository as an [[Spring Persistence Concepts#Interface_in_Application_Domain|interface in the application domain]]: | |||
<syntaxhighlight lang='java'> | |||
public interface IngredientRepository extends CrudRepository<Ingredient, String> { | |||
} | |||
</syntaxhighlight> | |||
or | |||
<syntaxhighlight lang='java'> | |||
public interface IngredientRepository extends JpaRepository<Ingredient, String> { | |||
} | |||
</syntaxhighlight> | |||
Unlike [[JdbcTemplate#JdbcTemplate-Based_Repository|JdbcTemplate-based repositories]], the developer does NOT need to provide an implementation of the repository interface. Spring Data JPA automatically generates an implementation. All that is needed to be done is to inject the repositories into controllers and other components that need them. | |||
If the default methods are not sufficient, JPA repositories can be [[#Customizing_JPA_Repositories|customized]]. | |||
From a project layout perspective, we conventionally maintain the repository interfaces in a "repository" package. | |||
===CrudRepository=== | |||
{{External|[https://docs.spring.io/spring-data/commons/docs/current/api/org/springframework/data/repository/CrudRepository.html org.springframework.data.repository.CrudRepository JavaDoc]}} | |||
<tt>CrudRepository</tt> declares about a dozen methods for CRUD (create, read, update, delete) operations. It is type-parameterized, with the first parameter being the entity type of the repository, and the second parameter being the type of the entity ID property. | |||
<syntaxhighlight lang='java'> | |||
public interface CrudRepository<T, ID> extends Repository<T, ID> { | |||
<S extends T> S save(S entity); | |||
<S extends T> Iterable<S> saveAll(Iterable<S> entities); | |||
Optional<T> findById(ID id); | |||
boolean existsById(ID id); | |||
Iterable<T> findAll(); | |||
Iterable<T> findAllById(Iterable<ID> ids); | |||
long count(); | |||
void deleteById(ID id); | |||
void delete(T entity); | |||
void deleteAll(Iterable<? extends T> entities); | |||
void deleteAll(); | |||
} | |||
</syntaxhighlight> | |||
===JpaRepository=== | |||
{{External|[https://docs.spring.io/spring-data/jpa/docs/current/api/org/springframework/data/jpa/repository/JpaRepository.html org.springframework.data.jpa.repository.JpaRepository JavaDoc]}} | |||
{{External|[https://github.com/ovidiuf/playground/tree/master/spring/jpa/03-spring-boot-jpa-repository Playground JpaRepository Example]}} | |||
<syntaxhighlight lang='java'> | |||
package org.springframework.data.jpa.repository; | |||
@NoRepositoryBean | |||
public interface JpaRepository<T, ID> extends PagingAndSortingRepository<T, ID>, QueryByExampleExecutor<T> { | |||
List<T> findAll(); | |||
List<T> findAll(Sort sort); | |||
List<T> findAllById(Iterable<ID> ids); | |||
<S extends T> List<S> saveAll(Iterable<S> entities); | |||
void flush(); | |||
<S extends T> S saveAndFlush(S entity); | |||
void deleteInBatch(Iterable<T> entities); | |||
void deleteAllInBatch(); | |||
T getOne(ID id); | |||
@Override | |||
<S extends T> List<S> findAll(Example<S> example); | |||
@Override | |||
<S extends T> List<S> findAll(Example<S> example, Sort sort); | |||
} | |||
</syntaxhighlight> | |||
===Difference between CrudRepository and JpaRepository=== | |||
<font color=darkgray>TODO</font> | <font color=darkgray>TODO</font> | ||
===Customizing JPA Repositories=== | |||
{{External|[https://docs.spring.io/spring-data/jpa/docs/current/reference/html/#repository-query-keywords Repository Query Keywords - Reference Documentation]}} | |||
{{External|[https://github.com/ovidiuf/playground/tree/master/spring/jpa/03-spring-boot-jpa-repository Playground JpaRepository Custom Query Method Example]}} | |||
Additional methods can be added to the [[#Declare_the_JPA_Repositories|Spring Data JPA repository interface]]. Spring Data examines any method in the repository interface, parses the method name and attempts to understand the method's purpose in the context of the persisted entity. In essence, Spring Data understands a meta-domain-specific language (DSL) where persistence details are expressed in repository method signatures. | |||
In order to be interpretable, repository methods must be composed of a verb, an optional subject, the word "By", and a predicate. If the subject is not specified, it is implied to be the entity associated with the repository. To fetch one or more entities, use "get", "find" or "read" as verb. To count, use "count". The subject, if it specified and it is not the type the repository is parameterized with, will be ignored. | |||
The predicate signature may include any of these operators: | |||
* IsAfter, After, IsGreaterThan, GreaterThan | |||
* IsGreaterThanEqual, GreaterThanEqual | |||
* IsBefore, Before, IsLessThan, LessThan | |||
* IsLessThanEqual, LessThanEqual | |||
* IsBetween, Between | |||
<syntaxhighlight lang='java'> | |||
List<Item> getItemByCreatedBetween(Date from, Date to); | |||
</syntaxhighlight> | |||
* IsNull, Null | |||
* IsNotNull, NotNull | |||
* IsIn, In | |||
* IsNotIn, NotIn | |||
* IsStartingWith, StartingWith, StartsWith | |||
* IsEndingWith, EndingWith, EndsWith | |||
* IsContaining, Containing, Contains | |||
* IsLike, Like | |||
* IsNotLike, NotLike | |||
* IsTrue, True | |||
* IsFalse, False | |||
* Is, Equals | |||
* IsNot, Not | |||
* IgnoringCase, IgnoresCase | |||
As alternatives for "IgnoringCase" and "IgnoresCase", "AllIgnoringCase" or "AllIgnoresCase" can be placed in the method name to ignore case for all String comparisons. | |||
"OrderBy" can be placed at the end of the method name to sort the results by a specified column. | |||
Also see: {{Internal|QueryDSL|QueryDSL}} | |||
Complex queries can be added with the @Qyery annotation, but this approach has the disadvantage that it hardcodes support for a specific database: the query runs the risk of working with the database it was designed with, but not with others: | |||
<syntaxhighlight lang='java'> | |||
@Query("Something s where o.name='blah'") | |||
List<Something> getSomeSomethings(); | |||
</syntaxhighlight> | |||
Paging example: [[SIA]] page 122. | |||
====Queries that Do Not Match Anything==== | |||
Queries that do not match anything conventionally return empty lists or nulls. They do not throw exceptions. | |||
=Database Access Configuration= | |||
<font color=darkgray>TODO | |||
* https://docs.spring.io/spring-boot/docs/current/reference/html/howto-data-access.html#howto-configure-jpa-properties | |||
* https://docs.spring.io/spring-boot/docs/current/reference/html/howto-database-initialization.html | |||
</font> | |||
Concrete Examples: | |||
* [[Spring_H2_Support#Database_Access_Configuration|H2 Database Access Configuration]] | |||
Also see: {{Internal|Spring_Boot_DataSource_Autoconfiguration|Spring Boot DataSource Autoconfiguration}} | |||
spring.jpa.generate-ddl=true | |||
spring.jpa.show-sql=true | |||
spring.jpa.database-platform=org.hibernate.dialect.PostgreSQL9Dialect | |||
spring.jpa.database= | |||
spring.jpa.hibernate.ddl-auto=none | |||
spring.jpa.properties.hibernate.temp.use_jdbc_metadata_defaults=false | |||
spring.jpa.generate-ddl=true|false | |||
Is a vendor-independent configuration that switches the DDL generation on and off. | |||
spring.jpa.hibernate.ddl-auto=none|validate|update|create|create-drop | |||
Is a Hibernate feature (the Spring property is passed to Hibernate as "hibernate.hbm2ddl.auto") that controls the DDL creation in a more fine-grained way. Spring Boot chooses a default value based on whether it thinks your database is embedded. It defaults to create-drop if no schema manager has been detected or none in all other cases. | |||
Embedded databases: 'hsqldb', 'h2', and 'derby'. | |||
Verified: even in the presence of a schema manager like Flyway, setting spring.jpa.hibernate.ddl-auto to "create-drop" is honored. | |||
spring.jpa.properties.hibernate.temp.use_jdbc_metadata_defaults=false | |||
makes the following to away: | |||
<syntaxhighlight lang='java'> | |||
2018-12-04 14:20:33.266 INFO 64943 --- [ main] o.h.e.j.e.i.LobCreatorBuilderImpl : HHH000424: Disabling contextual LOB creation as createClob() method threw error : java.lang.reflect.InvocationTargetException | |||
... | |||
Caused by: java.sql.SQLFeatureNotSupportedException: Method org.postgresql.jdbc.PgConnection.createClob() is not yet implemented. | |||
at org.postgresql.Driver.notImplemented(Driver.java:688) ~[postgresql-42.2.5.jar!/:42.2.5] | |||
at org.postgresql.jdbc.PgConnection.createClob(PgConnection.java:1269) ~[postgresql-42.2.5.jar!/:42.2.5] | |||
... 52 common frames omitted | |||
</syntaxhighlight> | |||
=Database Initialization= | |||
{{Internal|Spring_Persistence_Concepts#Database_Initialization|Spring Persistence Concepts - Database Initialization}} | |||
Note that for initialization to work, the database access has to be configured as described above in [[#Database_Access_Configuration|Database Access Configuration]]. | |||
==Generic JPA Database Initialization== | |||
JPA can generate DDL in the database at startup. The feature is controlled by the configuration property <tt>spring.jpa.generate-ddl</tt> (true or false), which switches the feature on and off and it is vendor independent. The configuration property is conventionally placed in [[application.properties]] or [[application.yml]]. This was tested and proven to work with H2. | |||
==Database Initialization Using Hibernate== | |||
{{External|https://docs.spring.io/spring-boot/docs/current/reference/html/howto-database-initialization.html#howto-initialize-a-database-using-hibernate}} | |||
Controlled by <tt>spring.jpa.hibernate.ddl-auto</tt>. Can be "none", "validate", "update", "create" and "create-drop". | |||
If Hibernate creates the schema from scratch and finds a file named <tt>import.sql</tt> in the root of the classpath, it will execute it against the database. | |||
The configuration property is conventionally placed in [[application.properties]] or [[application.yml]]. | |||
=Configuration= | |||
spring.jpa.show-sql=true | |||
=TODO= | =TODO= |
Latest revision as of 19:36, 14 January 2019
External
- https://spring.io/projects/spring-data-jpa
- Spring Data Core JavaDoc https://docs.spring.io/spring-data/commons/docs/current/api/
- Spring Data JPA JavaDoc https://docs.spring.io/spring-data/jpa/docs/current/api/
- Spring Data JPA Reference Documentation https://docs.spring.io/spring-data/jpa/docs/2.1.3.RELEASE/reference/html/
Internal
Overview
Spring Data JPA is a Spring Data project that assists with implementing JPA-based repositories, which persist data in relational databases. The approach requires only writing the repository interface, by extending org.springframework.data.repository.CrudRepository or org.springframework.data.jpa.repository.JpaRepository and optionally including custom finder methods. Once this is done, Spring will provide the implementation automatically.
Spring Persistence Concepts
Spring Boot Support
Playground Examples
Working examples for H2, and both H2 and PostgreSQL is available here:
Spring Boot Starter Dependencies
To add support for Spring Data JPA to a Spring Boot project, add the following starter dependency:
dependencies {
implementation('org.springframework.boot:spring-boot-starter-data-jpa')
}
This starter dependency also transitively includes Hibernate as the JPA implementation.
Add Specific Database Support
Spring Data JPA needs a database to work with. The database drivers should be bundled with the application and should be available on its classpath. Spring Boot does that if its build system is configured with the right dependencies, as shown below:
Configure Database Access
Adding Persistence to an Application with Spring Data JPA
Annotate Domain Objects with @Entity
Annotate your domain objects that require persistence with @Entity. JPA requires each entity class to expose a no-argument constructor, which can be coded manually, or it can be generated with Lombok's @NoArgConstructor:
@NoArgConstructor(access=AccessLevel.PRIVATE, force=true)
From a project layout perspective, we conventionally maintain the classes in a "model" package.
Define Entity's ID
Designate the entity's primary key field with @Id and optionally with @GeneratedValue.
Entity Member Variable Conventions
- Camel-case member variables map by default on '_' separated column names. "createdAt" maps to a "created_at" column.
Define Relationships between Entities
@ManyToMany, etc.
Declare the JPA Repositories
Entities are built, managed and exposed to the application by JPA repositories. JPA repositories are explicitly declared by the application. A Spring Data JPA repository is the embodiment of the Spring repository concept concept. Similarly to a JdbcTemplate-based repository, a JPA repository conceals low-level data access details from the application while exposing Entities to the application. With JdbcTemplate-based repositories the developers need to explicitly declare and implement the methods that should be exposed by the repository, such as findOne(...), findAll() and save(...). With Spring Data JPA repositories, it is sufficient to extend the CrudRepository or JpaRepository interface, which already comes with essential methods. Note that similarly to the JdbcTemplate-based repository, it is a good idea to define the repository as an interface in the application domain:
public interface IngredientRepository extends CrudRepository<Ingredient, String> {
}
or
public interface IngredientRepository extends JpaRepository<Ingredient, String> {
}
Unlike JdbcTemplate-based repositories, the developer does NOT need to provide an implementation of the repository interface. Spring Data JPA automatically generates an implementation. All that is needed to be done is to inject the repositories into controllers and other components that need them.
If the default methods are not sufficient, JPA repositories can be customized.
From a project layout perspective, we conventionally maintain the repository interfaces in a "repository" package.
CrudRepository
CrudRepository declares about a dozen methods for CRUD (create, read, update, delete) operations. It is type-parameterized, with the first parameter being the entity type of the repository, and the second parameter being the type of the entity ID property.
public interface CrudRepository<T, ID> extends Repository<T, ID> {
<S extends T> S save(S entity);
<S extends T> Iterable<S> saveAll(Iterable<S> entities);
Optional<T> findById(ID id);
boolean existsById(ID id);
Iterable<T> findAll();
Iterable<T> findAllById(Iterable<ID> ids);
long count();
void deleteById(ID id);
void delete(T entity);
void deleteAll(Iterable<? extends T> entities);
void deleteAll();
}
JpaRepository
package org.springframework.data.jpa.repository;
@NoRepositoryBean
public interface JpaRepository<T, ID> extends PagingAndSortingRepository<T, ID>, QueryByExampleExecutor<T> {
List<T> findAll();
List<T> findAll(Sort sort);
List<T> findAllById(Iterable<ID> ids);
<S extends T> List<S> saveAll(Iterable<S> entities);
void flush();
<S extends T> S saveAndFlush(S entity);
void deleteInBatch(Iterable<T> entities);
void deleteAllInBatch();
T getOne(ID id);
@Override
<S extends T> List<S> findAll(Example<S> example);
@Override
<S extends T> List<S> findAll(Example<S> example, Sort sort);
}
Difference between CrudRepository and JpaRepository
TODO
Customizing JPA Repositories
Additional methods can be added to the Spring Data JPA repository interface. Spring Data examines any method in the repository interface, parses the method name and attempts to understand the method's purpose in the context of the persisted entity. In essence, Spring Data understands a meta-domain-specific language (DSL) where persistence details are expressed in repository method signatures.
In order to be interpretable, repository methods must be composed of a verb, an optional subject, the word "By", and a predicate. If the subject is not specified, it is implied to be the entity associated with the repository. To fetch one or more entities, use "get", "find" or "read" as verb. To count, use "count". The subject, if it specified and it is not the type the repository is parameterized with, will be ignored.
The predicate signature may include any of these operators:
- IsAfter, After, IsGreaterThan, GreaterThan
- IsGreaterThanEqual, GreaterThanEqual
- IsBefore, Before, IsLessThan, LessThan
- IsLessThanEqual, LessThanEqual
- IsBetween, Between
List<Item> getItemByCreatedBetween(Date from, Date to);
- IsNull, Null
- IsNotNull, NotNull
- IsIn, In
- IsNotIn, NotIn
- IsStartingWith, StartingWith, StartsWith
- IsEndingWith, EndingWith, EndsWith
- IsContaining, Containing, Contains
- IsLike, Like
- IsNotLike, NotLike
- IsTrue, True
- IsFalse, False
- Is, Equals
- IsNot, Not
- IgnoringCase, IgnoresCase
As alternatives for "IgnoringCase" and "IgnoresCase", "AllIgnoringCase" or "AllIgnoresCase" can be placed in the method name to ignore case for all String comparisons.
"OrderBy" can be placed at the end of the method name to sort the results by a specified column.
Also see:
Complex queries can be added with the @Qyery annotation, but this approach has the disadvantage that it hardcodes support for a specific database: the query runs the risk of working with the database it was designed with, but not with others:
@Query("Something s where o.name='blah'")
List<Something> getSomeSomethings();
Paging example: SIA page 122.
Queries that Do Not Match Anything
Queries that do not match anything conventionally return empty lists or nulls. They do not throw exceptions.
Database Access Configuration
TODO
- https://docs.spring.io/spring-boot/docs/current/reference/html/howto-data-access.html#howto-configure-jpa-properties
- https://docs.spring.io/spring-boot/docs/current/reference/html/howto-database-initialization.html
Concrete Examples:
Also see:
spring.jpa.generate-ddl=true spring.jpa.show-sql=true spring.jpa.database-platform=org.hibernate.dialect.PostgreSQL9Dialect spring.jpa.database= spring.jpa.hibernate.ddl-auto=none spring.jpa.properties.hibernate.temp.use_jdbc_metadata_defaults=false
spring.jpa.generate-ddl=true|false
Is a vendor-independent configuration that switches the DDL generation on and off.
spring.jpa.hibernate.ddl-auto=none|validate|update|create|create-drop
Is a Hibernate feature (the Spring property is passed to Hibernate as "hibernate.hbm2ddl.auto") that controls the DDL creation in a more fine-grained way. Spring Boot chooses a default value based on whether it thinks your database is embedded. It defaults to create-drop if no schema manager has been detected or none in all other cases.
Embedded databases: 'hsqldb', 'h2', and 'derby'.
Verified: even in the presence of a schema manager like Flyway, setting spring.jpa.hibernate.ddl-auto to "create-drop" is honored.
spring.jpa.properties.hibernate.temp.use_jdbc_metadata_defaults=false
makes the following to away:
2018-12-04 14:20:33.266 INFO 64943 --- [ main] o.h.e.j.e.i.LobCreatorBuilderImpl : HHH000424: Disabling contextual LOB creation as createClob() method threw error : java.lang.reflect.InvocationTargetException
...
Caused by: java.sql.SQLFeatureNotSupportedException: Method org.postgresql.jdbc.PgConnection.createClob() is not yet implemented.
at org.postgresql.Driver.notImplemented(Driver.java:688) ~[postgresql-42.2.5.jar!/:42.2.5]
at org.postgresql.jdbc.PgConnection.createClob(PgConnection.java:1269) ~[postgresql-42.2.5.jar!/:42.2.5]
... 52 common frames omitted
Database Initialization
Note that for initialization to work, the database access has to be configured as described above in Database Access Configuration.
Generic JPA Database Initialization
JPA can generate DDL in the database at startup. The feature is controlled by the configuration property spring.jpa.generate-ddl (true or false), which switches the feature on and off and it is vendor independent. The configuration property is conventionally placed in application.properties or application.yml. This was tested and proven to work with H2.
Database Initialization Using Hibernate
Controlled by spring.jpa.hibernate.ddl-auto. Can be "none", "validate", "update", "create" and "create-drop".
If Hibernate creates the schema from scratch and finds a file named import.sql in the root of the classpath, it will execute it against the database.
The configuration property is conventionally placed in application.properties or application.yml.
Configuration
spring.jpa.show-sql=true
TODO
- How to tell that a JPA repository should use a specific database. How is that configured?
- @EnableJpaRepositories(basePackages = "com.example.dev.myproject.driver.repo")