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331 lines
8.4 KiB
331 lines
8.4 KiB
[[webtestclient]] |
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= WebTestClient |
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`WebTestClient` is a thin shell around <<web-reactive.adoc#webflux-client, WebClient>>, |
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using it to perform requests and exposing a dedicated, fluent API for verifying responses. |
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`WebTestClient` binds to a WebFlux application by using a |
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<<testing.adoc#mock-objects-web-reactive,mock request and response>>, or it can test any |
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web server over an HTTP connection. |
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TIP: Kotlin users: See <<languages.adoc#kotlin-webtestclient-issue,this section>> |
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related to use of the `WebTestClient`. |
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[[webtestclient-setup]] |
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== Setup |
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To create a `WebTestClient` you must choose one of several server setup options. |
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Effectively you're either configuring the WebFlux application to bind to, or using |
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a URL to connect to a running server. |
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[[webtestclient-controller-config]] |
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=== Bind to Controller |
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The following example shows how to create a server setup to test one `@Controller` at a time: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client = WebTestClient.bindToController(new TestController()).build(); |
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---- |
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==== |
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The preceding example loads the <<web-reactive.adoc#webflux-config,WebFlux Java configuration>> and |
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registers the given controller. The resulting WebFlux application is tested |
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without an HTTP server by using mock request and response objects. There are more methods |
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on the builder to customize the default WebFlux Java configuration. |
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[[webtestclient-fn-config]] |
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=== Bind to Router Function |
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The following example shows how to set up a server from a |
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<<web-reactive.adoc#webflux-fn,RouterFunction>>: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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RouterFunction<?> route = ... |
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client = WebTestClient.bindToRouterFunction(route).build(); |
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---- |
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==== |
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Internally, the configuration is passed to `RouterFunctions.toWebHandler`. |
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The resulting WebFlux application is tested without an HTTP server by using mock |
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request and response objects. |
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[[webtestclient-context-config]] |
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=== Bind to `ApplicationContext` |
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The following example shows how to setup a server from the Spring configuration of your application or |
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some subset of it: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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@RunWith(SpringRunner.class) |
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@ContextConfiguration(classes = WebConfig.class) // <1> |
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public class MyTests { |
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@Autowired |
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private ApplicationContext context; // <2> |
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private WebTestClient client; |
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@Before |
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public void setUp() { |
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client = WebTestClient.bindToApplicationContext(context).build(); // <3> |
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} |
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} |
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---- |
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<1> Specify the configuration to load |
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<2> Inject the configuration |
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<3> Create the `WebTestClient` |
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==== |
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Internally, the configuration is passed to `WebHttpHandlerBuilder` to set up |
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the request processing chain. See |
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<<web-reactive.adoc#webflux-web-handler-api,WebHandler API>> for more details. The |
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resulting WebFlux application is tested without an HTTP server by using mock request |
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and response objects. |
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[[webtestclient-server-config]] |
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=== Bind to Server |
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The following server setup option lets you connect to a running server: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client = WebTestClient.bindToServer().baseUrl("http://localhost:8080").build(); |
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---- |
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==== |
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[[webtestclient-client-config]] |
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=== Client Builder |
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In addition to the server setup options described earlier, you can also configure client |
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options, including base URL, default headers, client filters, and others. These options |
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are readily available following `bindToServer`. For all others, you need to use |
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`configureClient()` to transition from server to client configuration, as follows: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client = WebTestClient.bindToController(new TestController()) |
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.configureClient() |
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.baseUrl("/test") |
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.build(); |
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---- |
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==== |
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[[webtestclient-tests]] |
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== Writing Tests |
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`WebTestClient` provides an API identical to <<web-reactive.adoc#webflux-client,WebClient>> |
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up to the point of performing a request by using `exchange()`. What follows after |
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`exchange()` is a chained API workflow to verify responses. |
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Typically, you start by asserting the response status and headers, as follows: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client.get().uri("/persons/1") |
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.accept(MediaType.APPLICATION_JSON_UTF8) |
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.exchange() |
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.expectStatus().isOk() |
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.expectHeader().contentType(MediaType.APPLICATION_JSON_UTF8) |
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// ... |
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---- |
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==== |
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Then you specify how to decode and consume the response body: |
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* `expectBody(Class<T>)`: Decode to single object. |
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* `expectBodyList(Class<T>)`: Decode and collect objects to `List<T>`. |
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* `expectBody()`: Decode to `byte[]` for <<webtestclient-json>> or an empty body. |
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Then you can use built-in assertions for the body. The following example shows one way to do so: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client.get().uri("/persons") |
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.exchange() |
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.expectStatus().isOk() |
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.expectBodyList(Person.class).hasSize(3).contains(person); |
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---- |
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==== |
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You can also go beyond the built-in assertions and create your own, as the following example shows: |
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==== |
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---- |
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client.get().uri("/persons/1") |
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.exchange() |
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.expectStatus().isOk() |
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.expectBody(Person.class) |
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.consumeWith(result -> { |
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// custom assertions (e.g. AssertJ)... |
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}); |
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---- |
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==== |
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You can also exit the workflow and get a result, as follows: |
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==== |
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---- |
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EntityExchangeResult<Person> result = client.get().uri("/persons/1") |
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.exchange() |
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.expectStatus().isOk() |
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.expectBody(Person.class) |
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.returnResult(); |
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---- |
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==== |
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TIP: When you need to decode to a target type with generics, look for the overloaded methods |
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that accept |
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{api-spring-framework}/core/ParameterizedTypeReference.html[`ParameterizedTypeReference`] |
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instead of `Class<T>`. |
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[[webtestclient-no-content]] |
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=== No Content |
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If the response has no content (or you do not care if it does) use `Void.class`, which ensures |
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that resources are released. The following example shows how to do so: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client.get().uri("/persons/123") |
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.exchange() |
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.expectStatus().isNotFound() |
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.expectBody(Void.class); |
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---- |
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==== |
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Alternatively, if you want to assert there is no response content, you can use code similar to the following: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client.post().uri("/persons") |
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.body(personMono, Person.class) |
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.exchange() |
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.expectStatus().isCreated() |
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.expectBody().isEmpty(); |
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---- |
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==== |
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[[webtestclient-json]] |
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=== JSON Content |
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When you use `expectBody()`, the response is consumed as a `byte[]`. This is useful for |
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raw content assertions. For example, you can use |
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http://jsonassert.skyscreamer.org[JSONAssert] to verify JSON content, as follows: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client.get().uri("/persons/1") |
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.exchange() |
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.expectStatus().isOk() |
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.expectBody() |
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.json("{\"name\":\"Jane\"}") |
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---- |
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==== |
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You can also use https://github.com/jayway/JsonPath[JSONPath] expressions, as follows: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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client.get().uri("/persons") |
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.exchange() |
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.expectStatus().isOk() |
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.expectBody() |
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.jsonPath("$[0].name").isEqualTo("Jane") |
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.jsonPath("$[1].name").isEqualTo("Jason"); |
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---- |
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==== |
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[[webtestclient-stream]] |
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=== Streaming Responses |
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To test infinite streams (for example, `"text/event-stream"` or `"application/stream+json"`), |
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you need to exit the chained API (by using `returnResult`), immediately after the response status |
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and header assertions, as the following example shows: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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FluxExchangeResult<MyEvent> result = client.get().uri("/events") |
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.accept(TEXT_EVENT_STREAM) |
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.exchange() |
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.expectStatus().isOk() |
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.returnResult(MyEvent.class); |
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---- |
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==== |
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Now you can consume the `Flux<T>`, assert decoded objects as they come, and then |
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cancel at some point when test objectives are met. We recommend using the `StepVerifier` |
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from the `reactor-test` module to do that, as the following example shows: |
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==== |
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[source,java,intent=0] |
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[subs="verbatim,quotes"] |
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---- |
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Flux<Event> eventFux = result.getResponseBody(); |
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StepVerifier.create(eventFlux) |
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.expectNext(person) |
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.expectNextCount(4) |
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.consumeNextWith(p -> ...) |
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.thenCancel() |
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.verify(); |
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---- |
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==== |
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[[webtestclient-request-body]] |
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=== Request Body |
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When it comes to building requests, the `WebTestClient` offers an API identical to the |
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`WebClient`, and the implementation is mostly a simple pass-through. See |
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the <<web-reactive.adoc#webflux-client-body,WebClient documentation>> for examples on |
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how to prepare a request with a body, including submitting form data, multipart requests, |
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and more.
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