- Mock testing leads to highly focused tests where every variable is controlled.
- Dependency Injection + well structured programs + Mock testing = super clean codebase.
The problem is, how does one Mock a String, Boolean, or other final type if those types are being Injected?
This Junit Extension allows you to inject Strings (or any other object) into your @InjectMocks targets [objects under test] without booting a Spring, Weld, CDI, Arquillian, EJB, or other container. It's super lightweight, over 100,000x faster than booting Arquillian, and easy to use.
Take this Spring Controller (or if you're using the far superior and modern CDI framework, think @AppplicationScoped instead of @Controller and @Inject instead of @Autowired)
@Controller
public class MyController {
@Value("securityEnabled")
private Boolean securityEnabled;
@Autowired
private Authenticator auther;
@Autowired
private Logger log;
public void doSomething() {
if (securityEnabled) {
auther.something();
} else {
log.warn("sec disabled");
}
}
}
If you wanted to write a true unit test* with no external dependencies, you'd probably want to use Mockito mock your dependencies:
@ExtendWith({ MockitoExtension.class })
class MyControllerTest {
@InjectMocks
private MyController myController;
@Mock
private Logger log;
@Mock
private Authenticator auther;
@Test
void testDoSomething() throws Exception {
myController.doSomething();
// results in NPE because myController.securityEnabled is null
}
}
- Testing a "unit" of code is a unit test. In Java, typically a class is the smallest unit of code. A static funciton can also be considered a unit of code, but static functions should not be tested using Mock testing for reasons beyond the scope of this document. See: http://misko.hevery.com/2008/12/15/static-methods-are-death-to-testability
This JUnit5 extension allows you to arbitrarily set any field on your @InjectMocks [class under test] target. The injections happen very late; they happen when you call any non-private method on the class under test.
import com.github.exabrial.junit5.injectmap.InjectionMap;
import com.github.exabrial.junit5.injectmap.InjectMapExtension;
@TestInstance(Lifecycle.PER_CLASS)
@ExtendWith({ MockitoExtension.class, InjectExtension.class })
class MyControllerTest {
@InjectMocks
private MyController myController;
@Mock
private Logger log;
@Mock
private Authenticator auther;
@InjectionSource
private Boolean securityEnabled;
@Test
void testDoSomething_secEnabled() throws Exception {
securityEnabled = Boolean.TRUE;
myController.doSomething();
// wahoo no NPE! Test the "if then" half of the branch
}
@Test
void testDoSomething_secDisabled() throws Exception {
securityEnabled = Boolean.FALSE;
myController.doSomething();
// wahoo no NPE! Test the "if else" half of branch
}
}
CDI and SpringFramework allow the use of @PostConstruct. This is like a constructor, except the method annotated will be invoked after dependency injection is complete. This extension can be commanded to invoke the method annotated with @PostConstruct like so:
@ApplicationScoped
public class MyController {
@Inject
private Logger log;
@PostConstruct
private void postConstruct() {
log.info("initializing myController...");
... some initialization code
}
}
@TestInstance(Lifecycle.PER_CLASS)
@ExtendWith({ MockitoExtension.class, InjectExtension.class })
class MyControllerTest {
@InjectMocks
@InvokePostConstruct
// The postConstruct on this controller will be invoked
private MyController myController;
@Test
void testSometing()
Ref: https://docs.oracle.com/javaee/7/api/javax/annotation/PostConstruct.html
The InjectExtension provides methods to turn on and off the behavior as well as query the status of injection.
InjectExtension.enable();
InjectExtension.bypass();
InjectExtension.status(); // returns true if enabled
It's recommended that if you're using the above APIs that you reset the Injector status between tests.
@AfterEach
void afterEach() {
InjectExtension.enable();
}
All files are licensed Apache Source License 2.0. Please consider contributing any improvements you make back to the project.
Maven Coordinates:
<dependency>
<groupId>org.junit.jupiter</groupId>
<artifactId>junit-jupiter-api</artifactId>
<version>5.8.2</version>
<scope>test</scope>
</dependency>
<dependency>
<groupId>org.mockito</groupId>
<artifactId>mockito-core</artifactId>
<version>4.6.1</version>
<scope>test</scope>
</dependency>
<dependency>
<groupId>com.github.exabrial</groupId>
<artifactId>mockito-object-injection</artifactId>
<version>2.2.1</version>
<scope>test</scope>
</dependency>
The final note is that it should extraordinarily obvious that multithreading on the same test instances will cause problems. Set your forking policies accordingly to avoid race conditions.