I've just found out MockServer and it looks awesome π€© so I wanted to check it out repeating the steps of my previous demo WireMock Testing which (as you can expect) uses WireMock, another fantastic tool to mock APIs.
So in this demo we will use first MockServer JUnit5 extension:
And then we will use MockServer Docker image and Testcontainers:
interface BarClient {
fun call(name: String): String
}
I will use a Ktor client for no other reason that I need an Http client and this seems interesting, as we are using Kotlin.
So a simple test with MockServerExtension for the BarKtorClient looks like:
@ExtendWith(MockServerExtension::class)
@TestInstance(PER_CLASS)
class BarKtorClientShould {
private val name = "Sue"
private lateinit var mockServerClient: MockServerClient
private lateinit var mockServerUrl: String
@BeforeAll
fun beforeAll(mockServerClient: MockServerClient) {
this.mockServerClient = mockServerClient
this.mockServerUrl = "http://localhost:${mockServerClient.port}"
}
@BeforeEach
fun beforeEach() {
mockServerClient.reset()
}
@Test
fun `call bar api`() {
mockServerClient
.`when`(request().withMethod("GET").withPath("/bar/${name}"))
.respond(response().withStatusCode(200).withBody("Hello $name I am Bar!"))
assertThat(BarKtorClient(mockServerUrl).call(name))
.isEqualTo("Hello $name I am Bar!")
}
@Test
fun `handle bar api server error`() {
mockServerClient
.`when`(request().withMethod("GET").withPath("/bar/.+"))
.respond(response().withStatusCode(503))
assertThat(BarKtorClient(mockServerUrl).call(name))
.startsWith("Bar api error: Server error")
}
}
Note that we can inject MockServerClient as a parameter in the test methods too.
In order to make the test pass π© we can implement the BarKtorClient this way:
class BarKtorClient(private val url: String) : BarClient {
private val client = HttpClient(CIO)
override fun call(name: String): String = runBlocking {
try {
client.get("$url/bar/$name")
} catch (e: Exception) {
"Bar api error: ${e.message}"
}
}
}
interface FooClient {
fun call(name: String): String
}
For this test we will use MockServer's Mustache templates:
@TestInstance(PER_CLASS)
class FooKtorClientShould {
private val name = "Joe"
private lateinit var mockServerClient: MockServerClient
private lateinit var mockServerUrl: String
@BeforeAll
fun beforeAll() {
mockServerClient = ClientAndServer()
mockServerUrl = "http://localhost:${mockServerClient.port}"
}
@BeforeEach
fun beforeEach() {
mockServerClient.reset()
}
@Test
fun `call foo api`() {
mockServerClient
.`when`(request().withMethod("GET").withPath("/foo").withQueryStringParameter("name", ".+"))
.respond(template(
MUSTACHE,
"""
{
statusCode: 200,
body: 'Hello {{ request.queryStringParameters.name.0 }} I am Foo!'
}
""".trimIndent()
))
assertThat(FooKtorClient(mockServerUrl).call(name)).isEqualTo("Hello $name I am Foo!")
}
@Test
fun `handle foo api server error`() {
mockServerClient
.`when`(request().withMethod("GET").withPath("/foo").withQueryStringParameter("name", ".+"))
.respond(response().withStatusCode(503))
assertThat(FooKtorClient(mockServerUrl).call(name)).startsWith("Foo api error: Server error")
}
}
Note that:
- As in the previous test we can inject MockServerClient as a parameter in the test methods too.
- MockServer provides also Velocity and Javascript templates that support more complex logic.
Same as before in order to make the test pass π© we can implement the FooKtorClient this way:
class FooKtorClient(private val url: String) : FooClient {
private val client = HttpClient(CIO)
override fun call(name: String): String = runBlocking {
try {
client.get("$url/foo") {
parameter("name", name)
}
} catch (e: Exception) {
"Foo api error: ${e.message}"
}
}
}
Now we have to implement AppUseCase, which will use a FooClient to call the Foo API and then a BarClient to call the Bar API.
As it is not MockServer related because we can test first the implementation just using MockK JUnit5 extension we can skip the details and you can review the source code of AppUseCaseShould and AppUseCase.
Let me introduce first the App implementation, as I will present later two different types of MockServer tests:
class App(
private val name: String,
private val fooApiUrl: String,
private val barApiUrl: String
) {
fun execute() = AppUseCase().execute(
name,
FooKtorClient(fooApiUrl),
BarKtorClient(barApiUrl)
)
}
Since in this example Foo API and Bar API do not have conflicting endpoints, we can use MockServerExtension to mock both APIs:
@ExtendWith(MockServerExtension::class)
class AppShouldWithOneMockServer {
private val name = "Ada"
@Test
fun `call foo and bar`(mockServerClient: MockServerClient) {
mockServerClient
.`when`(request().withMethod("GET").withPath("/foo").withQueryStringParameter("name", name))
.respond(response().withStatusCode(200).withBody("Hello ${name} I am Foo!"))
mockServerClient
.`when`(request().withMethod("GET").withPath("/bar/${name}"))
.respond(response().withStatusCode(200).withBody("Hello $name I am Bar!"))
val mockServerUrl = "http://localhost:${mockServerClient.port}"
val app = App(name, mockServerUrl, mockServerUrl)
assertThat(app.execute()).isEqualTo(
"""
Hi! I am $name
I called Foo and its response is Hello $name I am Foo!
I called Bar and its response is Hello $name I am Bar!
Bye!
""".trimIndent()
)
}
}
But imagine a real scenario where Foo API and Bar API do have conflicting endpoints, or you just want to mock them separatedly for any reason. In this case you can use two MockServers instead of using MockServerExtension:
@TestInstance(PER_CLASS)
class AppShouldWithTwoMockServers {
private val name = "Leo"
private val mockServerClientFoo = ClientAndServer()
private val mockServerClientBar = ClientAndServer()
@Test
fun `call foo and bar`() {
mockServerClientFoo
.`when`(request().withMethod("GET").withPath("/foo").withQueryStringParameter("name", name))
.respond(response().withStatusCode(200).withBody("Hello ${name} I am Foo!"))
mockServerClientBar
.`when`(request().withMethod("GET").withPath("/bar/${name}"))
.respond(response().withStatusCode(200).withBody("Hello $name I am Bar!"))
val mockServerFooUrl = "http://localhost:${mockServerClientFoo.port}"
val mockServerBarUrl = "http://localhost:${mockServerClientBar.port}"
val app = App(name, mockServerFooUrl, mockServerBarUrl)
assertThat(app.execute()).isEqualTo(
"""
Hi! I am $name
I called Foo and its response is Hello $name I am Foo!
I called Bar and its response is Hello $name I am Bar!
Bye!
""".trimIndent()
)
}
}
First we will use static stubs configured as json files:
In our docker-compose.yml:
- We configure two MockServer containers, one for Foo API and one for Bar API.
- We use dynamic ports for each container.
- We load persisted expectations at startup setting
MOCKSERVER_INITIALIZATION_JSON_PATH
variable. - We mount as volumes the directories containing the MockServer expectations: foo-api/mockserver.json and bar-api/mockserver.json.
Finally we test the App using Testcontainers JUnit5 extension:
@Testcontainers
@TestInstance(PER_CLASS)
class AppShouldWithMockServerDocker {
companion object {
private const val name = "Ivy"
private const val fooServiceName = "foo-api"
private const val fooServicePort = 8080
private const val barServiceName = "bar-api"
private const val barServicePort = 8080
private lateinit var fooApiHost: String
private var fooApiPort: Int = 0
private lateinit var barApiHost: String
private var barApiPort: Int = 0
val waitForMockServerLiveness = forHttp("/mockserver/status")
.withMethod("PUT")
.forStatusCode(200)
@Container
@JvmStatic
val container = ComposeContainer(File("docker-compose.yml"))
.withLocalCompose(true)
.withExposedService(fooServiceName, fooServicePort, waitForMockServerLiveness)
.withExposedService(barServiceName, barServicePort, waitForMockServerLiveness)
@BeforeAll
@JvmStatic
fun beforeAll() {
fooApiHost = container.getServiceHost(fooServiceName, fooServicePort)
fooApiPort = container.getServicePort(fooServiceName, fooServicePort)
barApiHost = container.getServiceHost(barServiceName, barServicePort)
barApiPort = container.getServicePort(barServiceName, barServicePort)
}
}
@Test
fun `call foo and bar`() {
val fooApiUrl = "http://${fooApiHost}:${fooApiPort}"
val barApiUrl = "http://${barApiHost}:${barApiPort}"
val app = App(name, fooApiUrl, barApiUrl)
assertThat(app.execute()).isEqualTo(
"""
Hi! I am $name
I called Foo and its response is Hello $name I am Foo!
I called Bar and its response is Hello $name I am Bar!
Bye!
""".trimIndent()
)
}
}
We can also configure our stubs programmatically using the MockServerClient and connect it to each one of the two MockServer containers:
@Test
fun `call foo an bar with dynamic stubs`() {
val fooApiUrl = "http://${fooApiHost}:${fooApiPort}/dynamic"
val barApiUrl = "http://${barApiHost}:${barApiPort}/dynamic"
MockServerClient(fooApiHost, fooApiPort)
.`when`(
request()
.withMethod("GET")
.withPath("/dynamic/foo")
.withQueryStringParameter("name", name)
)
.respond(
response()
.withStatusCode(200)
.withBody("Hi $name I am Foo, how are you?")
)
MockServerClient(barApiHost, barApiPort)
.`when`(
request()
.withMethod("GET")
.withPath("/dynamic/bar/$name")
).respond(
response()
.withStatusCode(200)
.withBody("Hi $name I am Bar, nice to meet you!")
)
val app = App(name, fooApiUrl, barApiUrl)
assertThat(app.execute()).isEqualTo(
"""
Hi! I am $name
I called Foo and its response is Hi $name I am Foo, how are you?
I called Bar and its response is Hi $name I am Bar, nice to meet you!
Bye!
""".trimIndent()
)
}
MockServer with Docker has a cool advantage, we can use the same docker-compose used by the test to start the application and run/debug it locally:
In this case we only need to use fixed ports, configuring them in docker-compose.override.yml. This override does not affect @Testcontainers.
That was a good one! Happy coding! π
./gradlew test
docker compose up -d
./gradlew run
docker compose down