Spring Cloud Contract Verifier Messaging
Spring Cloud Contract Verifier lets you verify applications that use messaging as a means of communication. All of the integrations shown in this document work with Spring, but you can also create one of your own and use that.
Integrations
You can use one of the following four integration configurations:
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Apache Camel
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Spring Integration
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Spring Cloud Stream
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Spring AMQP
Since we use Spring Boot, if you have added one of these libraries to the classpath, all the messaging configuration is automatically set up.
Remember to put @AutoConfigureMessageVerifier on the base class of your
generated tests. Otherwise, messaging part of Spring Cloud Contract Verifier does not
work.
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If you want to use Spring Cloud Stream, remember to add a dependency on
org.springframework.cloud:spring-cloud-stream-test-support, as shown here:
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<dependency>
<groupId>org.springframework.cloud</groupId>
<artifactId>spring-cloud-stream-test-support</artifactId>
<scope>test</scope>
</dependency>
testCompile "org.springframework.cloud:spring-cloud-stream-test-support"
Manual Integration Testing
The main interface used by the tests is
org.springframework.cloud.contract.verifier.messaging.MessageVerifier.
It defines how to send and receive messages. You can create your own implementation to
achieve the same goal.
In a test, you can inject a ContractVerifierMessageExchange to send and receive
messages that follow the contract. Then add @AutoConfigureMessageVerifier to your test.
Here’s an example:
@RunWith(SpringTestRunner.class)
@SpringBootTest
@AutoConfigureMessageVerifier
public static class MessagingContractTests {
@Autowired
private MessageVerifier verifier;
...
}
If your tests require stubs as well, then @AutoConfigureStubRunner includes the
messaging configuration, so you only need the one annotation.
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Publisher-Side Test Generation
Having the input or outputMessage sections in your DSL results in creation of tests
on the publisher’s side. By default, JUnit 4 tests are created. However, there is also a
possibility to create JUnit 5, TestNG or Spock tests.
There are 3 main scenarios that we should take into consideration:
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Scenario 1: There is no input message that produces an output message. The output message is triggered by a component inside the application (for example, scheduler).
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Scenario 2: The input message triggers an output message.
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Scenario 3: The input message is consumed and there is no output message.
The destination passed to messageFrom or sentTo can have different
meanings for different messaging implementations. For Stream and Integration it is
first resolved as a destination of a channel. Then, if there is no such destination
it is resolved as a channel name. For Camel, that’s a certain component (for example,
jms).
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Scenario 1: No Input Message
For the given contract:
The following JUnit test is created:
And the following Spock test would be created:
Scenario 2: Output Triggered by Input
For the given contract:
The following JUnit test is created:
And the following Spock test would be created:
Scenario 3: No Output Message
For the given contract:
The following JUnit test is created:
And the following Spock test would be created:
Consumer Stub Generation
Unlike the HTTP part, in messaging, we need to publish the Groovy DSL inside the JAR with a stub. Then it is parsed on the consumer side and proper stubbed routes are created.
For more information, see [stub-runner-for-messaging] section.