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Context Configuration with Environment Profiles
The Spring Framework has first-class support for the notion of environments and profiles
(AKA "bean definition profiles"), and integration tests can be configured to activate
particular bean definition profiles for various testing scenarios. This is achieved by
annotating a test class with the @ActiveProfiles
annotation and supplying a list of
profiles that should be activated when loading the ApplicationContext
for the test.
You can use @ActiveProfiles with any implementation of the SmartContextLoader
SPI, but @ActiveProfiles is not supported with implementations of the older
ContextLoader SPI.
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Consider two examples with XML configuration and @Configuration
classes:
<!-- app-config.xml -->
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:jdbc="http://www.springframework.org/schema/jdbc"
xmlns:jee="http://www.springframework.org/schema/jee"
xsi:schemaLocation="...">
<bean id="transferService"
class="com.bank.service.internal.DefaultTransferService">
<constructor-arg ref="accountRepository"/>
<constructor-arg ref="feePolicy"/>
</bean>
<bean id="accountRepository"
class="com.bank.repository.internal.JdbcAccountRepository">
<constructor-arg ref="dataSource"/>
</bean>
<bean id="feePolicy"
class="com.bank.service.internal.ZeroFeePolicy"/>
<beans profile="dev">
<jdbc:embedded-database id="dataSource">
<jdbc:script
location="classpath:com/bank/config/sql/schema.sql"/>
<jdbc:script
location="classpath:com/bank/config/sql/test-data.sql"/>
</jdbc:embedded-database>
</beans>
<beans profile="production">
<jee:jndi-lookup id="dataSource" jndi-name="java:comp/env/jdbc/datasource"/>
</beans>
<beans profile="default">
<jdbc:embedded-database id="dataSource">
<jdbc:script
location="classpath:com/bank/config/sql/schema.sql"/>
</jdbc:embedded-database>
</beans>
</beans>
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Java
-
Kotlin
@ExtendWith(SpringExtension.class)
// ApplicationContext will be loaded from "classpath:/app-config.xml"
@ContextConfiguration("/app-config.xml")
@ActiveProfiles("dev")
class TransferServiceTest {
@Autowired
TransferService transferService;
@Test
void testTransferService() {
// test the transferService
}
}
@ExtendWith(SpringExtension::class)
// ApplicationContext will be loaded from "classpath:/app-config.xml"
@ContextConfiguration("/app-config.xml")
@ActiveProfiles("dev")
class TransferServiceTest {
@Autowired
lateinit var transferService: TransferService
@Test
fun testTransferService() {
// test the transferService
}
}
When TransferServiceTest
is run, its ApplicationContext
is loaded from the
app-config.xml
configuration file in the root of the classpath. If you inspect
app-config.xml
, you can see that the accountRepository
bean has a dependency on a
dataSource
bean. However, dataSource
is not defined as a top-level bean. Instead,
dataSource
is defined three times: in the production
profile, in the dev
profile,
and in the default
profile.
By annotating TransferServiceTest
with @ActiveProfiles("dev")
, we instruct the Spring
TestContext Framework to load the ApplicationContext
with the active profiles set to
{"dev"}
. As a result, an embedded database is created and populated with test data, and
the accountRepository
bean is wired with a reference to the development DataSource
.
That is likely what we want in an integration test.
It is sometimes useful to assign beans to a default
profile. Beans within the default
profile are included only when no other profile is specifically activated. You can use
this to define “fallback” beans to be used in the application’s default state. For
example, you may explicitly provide a data source for dev
and production
profiles,
but define an in-memory data source as a default when neither of these is active.
The following code listings demonstrate how to implement the same configuration and
integration test with @Configuration
classes instead of XML:
-
Java
-
Kotlin
@Configuration
@Profile("dev")
public class StandaloneDataConfig {
@Bean
public DataSource dataSource() {
return new EmbeddedDatabaseBuilder()
.setType(EmbeddedDatabaseType.HSQL)
.addScript("classpath:com/bank/config/sql/schema.sql")
.addScript("classpath:com/bank/config/sql/test-data.sql")
.build();
}
}
@Configuration
@Profile("dev")
class StandaloneDataConfig {
@Bean
fun dataSource(): DataSource {
return EmbeddedDatabaseBuilder()
.setType(EmbeddedDatabaseType.HSQL)
.addScript("classpath:com/bank/config/sql/schema.sql")
.addScript("classpath:com/bank/config/sql/test-data.sql")
.build()
}
}
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Java
-
Kotlin
@Configuration
@Profile("production")
public class JndiDataConfig {
@Bean(destroyMethod="")
public DataSource dataSource() throws Exception {
Context ctx = new InitialContext();
return (DataSource) ctx.lookup("java:comp/env/jdbc/datasource");
}
}
@Configuration
@Profile("production")
class JndiDataConfig {
@Bean(destroyMethod = "")
fun dataSource(): DataSource {
val ctx = InitialContext()
return ctx.lookup("java:comp/env/jdbc/datasource") as DataSource
}
}
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Java
-
Kotlin
@Configuration
@Profile("default")
public class DefaultDataConfig {
@Bean
public DataSource dataSource() {
return new EmbeddedDatabaseBuilder()
.setType(EmbeddedDatabaseType.HSQL)
.addScript("classpath:com/bank/config/sql/schema.sql")
.build();
}
}
@Configuration
@Profile("default")
class DefaultDataConfig {
@Bean
fun dataSource(): DataSource {
return EmbeddedDatabaseBuilder()
.setType(EmbeddedDatabaseType.HSQL)
.addScript("classpath:com/bank/config/sql/schema.sql")
.build()
}
}
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Java
-
Kotlin
@Configuration
public class TransferServiceConfig {
@Autowired DataSource dataSource;
@Bean
public TransferService transferService() {
return new DefaultTransferService(accountRepository(), feePolicy());
}
@Bean
public AccountRepository accountRepository() {
return new JdbcAccountRepository(dataSource);
}
@Bean
public FeePolicy feePolicy() {
return new ZeroFeePolicy();
}
}
@Configuration
class TransferServiceConfig {
@Autowired
lateinit var dataSource: DataSource
@Bean
fun transferService(): TransferService {
return DefaultTransferService(accountRepository(), feePolicy())
}
@Bean
fun accountRepository(): AccountRepository {
return JdbcAccountRepository(dataSource)
}
@Bean
fun feePolicy(): FeePolicy {
return ZeroFeePolicy()
}
}
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Java
-
Kotlin
@SpringJUnitConfig({
TransferServiceConfig.class,
StandaloneDataConfig.class,
JndiDataConfig.class,
DefaultDataConfig.class})
@ActiveProfiles("dev")
class TransferServiceTest {
@Autowired
TransferService transferService;
@Test
void testTransferService() {
// test the transferService
}
}
@SpringJUnitConfig(
TransferServiceConfig::class,
StandaloneDataConfig::class,
JndiDataConfig::class,
DefaultDataConfig::class)
@ActiveProfiles("dev")
class TransferServiceTest {
@Autowired
lateinit var transferService: TransferService
@Test
fun testTransferService() {
// test the transferService
}
}
In this variation, we have split the XML configuration into four independent
@Configuration
classes:
-
TransferServiceConfig
: Acquires adataSource
through dependency injection by using@Autowired
. -
StandaloneDataConfig
: Defines adataSource
for an embedded database suitable for developer tests. -
JndiDataConfig
: Defines adataSource
that is retrieved from JNDI in a production environment. -
DefaultDataConfig
: Defines adataSource
for a default embedded database, in case no profile is active.
As with the XML-based configuration example, we still annotate TransferServiceTest
with
@ActiveProfiles("dev")
, but this time we specify all four configuration classes by
using the @ContextConfiguration
annotation. The body of the test class itself remains
completely unchanged.
It is often the case that a single set of profiles is used across multiple test classes
within a given project. Thus, to avoid duplicate declarations of the @ActiveProfiles
annotation, you can declare @ActiveProfiles
once on a base class, and subclasses
automatically inherit the @ActiveProfiles
configuration from the base class. In the
following example, the declaration of @ActiveProfiles
(as well as other annotations)
has been moved to an abstract superclass, AbstractIntegrationTest
:
As of Spring Framework 5.3, test configuration may also be inherited from enclosing
classes. See @Nested test class configuration for details.
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-
Java
-
Kotlin
@SpringJUnitConfig({
TransferServiceConfig.class,
StandaloneDataConfig.class,
JndiDataConfig.class,
DefaultDataConfig.class})
@ActiveProfiles("dev")
abstract class AbstractIntegrationTest {
}
@SpringJUnitConfig(
TransferServiceConfig::class,
StandaloneDataConfig::class,
JndiDataConfig::class,
DefaultDataConfig::class)
@ActiveProfiles("dev")
abstract class AbstractIntegrationTest {
}
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Java
-
Kotlin
// "dev" profile inherited from superclass
class TransferServiceTest extends AbstractIntegrationTest {
@Autowired
TransferService transferService;
@Test
void testTransferService() {
// test the transferService
}
}
// "dev" profile inherited from superclass
class TransferServiceTest : AbstractIntegrationTest() {
@Autowired
lateinit var transferService: TransferService
@Test
fun testTransferService() {
// test the transferService
}
}
@ActiveProfiles
also supports an inheritProfiles
attribute that can be used to
disable the inheritance of active profiles, as the following example shows:
-
Java
-
Kotlin
// "dev" profile overridden with "production"
@ActiveProfiles(profiles = "production", inheritProfiles = false)
class ProductionTransferServiceTest extends AbstractIntegrationTest {
// test body
}
// "dev" profile overridden with "production"
@ActiveProfiles("production", inheritProfiles = false)
class ProductionTransferServiceTest : AbstractIntegrationTest() {
// test body
}
Furthermore, it is sometimes necessary to resolve active profiles for tests programmatically instead of declaratively — for example, based on:
-
The current operating system.
-
Whether tests are being run on a continuous integration build server.
-
The presence of certain environment variables.
-
The presence of custom class-level annotations.
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Other concerns.
To resolve active bean definition profiles programmatically, you can implement
a custom ActiveProfilesResolver
and register it by using the resolver
attribute of @ActiveProfiles
. For further information, see the corresponding
javadoc.
The following example demonstrates how to implement and register a custom
OperatingSystemActiveProfilesResolver
:
-
Java
-
Kotlin
// "dev" profile overridden programmatically via a custom resolver
@ActiveProfiles(
resolver = OperatingSystemActiveProfilesResolver.class,
inheritProfiles = false)
class TransferServiceTest extends AbstractIntegrationTest {
// test body
}
// "dev" profile overridden programmatically via a custom resolver
@ActiveProfiles(
resolver = OperatingSystemActiveProfilesResolver::class,
inheritProfiles = false)
class TransferServiceTest : AbstractIntegrationTest() {
// test body
}
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Java
-
Kotlin
public class OperatingSystemActiveProfilesResolver implements ActiveProfilesResolver {
@Override
public String[] resolve(Class<?> testClass) {
String profile = ...;
// determine the value of profile based on the operating system
return new String[] {profile};
}
}
class OperatingSystemActiveProfilesResolver : ActiveProfilesResolver {
override fun resolve(testClass: Class<*>): Array<String> {
val profile: String = ...
// determine the value of profile based on the operating system
return arrayOf(profile)
}
}