创建 a 的最简单方法是通过 static 工厂方法之一:WebClient
-
WebClient.create()
-
WebClient.create(String baseUrl)
您还可以与更多选项一起使用:WebClient.builder()
-
uriBuilderFactory
:自定义以用作基本 URL。UriBuilderFactory
-
defaultUriVariables
:展开 URI 模板时使用的默认值。 -
defaultHeader
:每个请求的标头。 -
defaultCookie
:每个请求的 Cookie。 -
defaultRequest
:自定义每个请求。Consumer
-
filter
:每个请求的客户端筛选器。 -
exchangeStrategies
:HTTP 消息读取器/写入器自定义。 -
clientConnector
:HTTP 客户端库设置。 -
observationRegistry
:用于启用可观测性支持的注册表。 -
observationConvention
:一种可选的自定义约定,用于提取记录观测的元数据。
例如:
-
Java
-
Kotlin
WebClient client = WebClient.builder()
.codecs(configurer -> ... )
.build();
val webClient = WebClient.builder()
.codecs { configurer -> ... }
.build()
构建后, a 是不可变的。但是,您可以克隆它并构建一个
修改副本如下:WebClient
-
Java
-
Kotlin
WebClient client1 = WebClient.builder()
.filter(filterA).filter(filterB).build();
WebClient client2 = client1.mutate()
.filter(filterC).filter(filterD).build();
// client1 has filterA, filterB
// client2 has filterA, filterB, filterC, filterD
val client1 = WebClient.builder()
.filter(filterA).filter(filterB).build()
val client2 = client1.mutate()
.filter(filterC).filter(filterD).build()
// client1 has filterA, filterB
// client2 has filterA, filterB, filterC, filterD
最大内存大小
编解码器对 memory 以避免应用程序内存问题。默认情况下,这些设置为 256KB。 如果这还不够,您将收到以下错误:
org.springframework.core.io.buffer.DataBufferLimitException: Exceeded limit on max bytes to buffer
要更改默认编解码器的限制,请使用以下内容:
-
Java
-
Kotlin
WebClient webClient = WebClient.builder()
.codecs(configurer -> configurer.defaultCodecs().maxInMemorySize(2 * 1024 * 1024))
.build();
val webClient = WebClient.builder()
.codecs { configurer -> configurer.defaultCodecs().maxInMemorySize(2 * 1024 * 1024) }
.build()
Reactor Netty
要自定义 Reactor Netty 设置,请提供预配置的 :HttpClient
-
Java
-
Kotlin
HttpClient httpClient = HttpClient.create().secure(sslSpec -> ...);
WebClient webClient = WebClient.builder()
.clientConnector(new ReactorClientHttpConnector(httpClient))
.build();
val httpClient = HttpClient.create().secure { ... }
val webClient = WebClient.builder()
.clientConnector(ReactorClientHttpConnector(httpClient))
.build()
资源
默认情况下,参与 中保存的全局 Reactor Netty 资源,包括事件循环线程和连接池。
这是推荐的模式,因为固定的共享资源是事件循环的首选
并发。在此模式下,全局资源将保持活动状态,直到进程退出。HttpClient
reactor.netty.http.HttpResources
如果服务器与进程定时,则通常不需要显式
关闭。但是,如果服务器可以在进程内启动或停止(例如,Spring MVC
应用程序部署为 WAR),你可以声明一个类型为 with(默认值)的 Spring 管理的 bean,以确保 Reactor
当 Spring 关闭时,netty 全局资源会关闭,
如下例所示:ReactorResourceFactory
globalResources=true
ApplicationContext
-
Java
-
Kotlin
@Bean
public ReactorResourceFactory reactorResourceFactory() {
return new ReactorResourceFactory();
}
@Bean
fun reactorResourceFactory() = ReactorResourceFactory()
您也可以选择不参与全局 Reactor Netty 资源。然而 在这种模式下,您有责任确保所有 Reactor Netty 客户端和服务器 实例使用共享资源,如下例所示:
-
Java
-
Kotlin
@Bean
public ReactorResourceFactory resourceFactory() {
ReactorResourceFactory factory = new ReactorResourceFactory();
factory.setUseGlobalResources(false); (1)
return factory;
}
@Bean
public WebClient webClient() {
Function<HttpClient, HttpClient> mapper = client -> {
// Further customizations...
};
ClientHttpConnector connector =
new ReactorClientHttpConnector(resourceFactory(), mapper); (2)
return WebClient.builder().clientConnector(connector).build(); (3)
}
1 | 创建独立于全局资源的资源。 |
2 | 将构造函数与资源工厂一起使用。ReactorClientHttpConnector |
3 | 将连接器插入 。WebClient.Builder |
@Bean
fun resourceFactory() = ReactorResourceFactory().apply {
isUseGlobalResources = false (1)
}
@Bean
fun webClient(): WebClient {
val mapper: (HttpClient) -> HttpClient = {
// Further customizations...
}
val connector = ReactorClientHttpConnector(resourceFactory(), mapper) (2)
return WebClient.builder().clientConnector(connector).build() (3)
}
1 | 创建独立于全局资源的资源。 |
2 | 将构造函数与资源工厂一起使用。ReactorClientHttpConnector |
3 | 将连接器插入 。WebClient.Builder |
超时
要配置连接超时:
-
Java
-
Kotlin
import io.netty.channel.ChannelOption;
HttpClient httpClient = HttpClient.create()
.option(ChannelOption.CONNECT_TIMEOUT_MILLIS, 10000);
WebClient webClient = WebClient.builder()
.clientConnector(new ReactorClientHttpConnector(httpClient))
.build();
import io.netty.channel.ChannelOption
val httpClient = HttpClient.create()
.option(ChannelOption.CONNECT_TIMEOUT_MILLIS, 10000);
val webClient = WebClient.builder()
.clientConnector(ReactorClientHttpConnector(httpClient))
.build();
要配置读取或写入超时:
-
Java
-
Kotlin
import io.netty.handler.timeout.ReadTimeoutHandler;
import io.netty.handler.timeout.WriteTimeoutHandler;
HttpClient httpClient = HttpClient.create()
.doOnConnected(conn -> conn
.addHandlerLast(new ReadTimeoutHandler(10))
.addHandlerLast(new WriteTimeoutHandler(10)));
// Create WebClient...
import io.netty.handler.timeout.ReadTimeoutHandler
import io.netty.handler.timeout.WriteTimeoutHandler
val httpClient = HttpClient.create()
.doOnConnected { conn -> conn
.addHandlerLast(ReadTimeoutHandler(10))
.addHandlerLast(WriteTimeoutHandler(10))
}
// Create WebClient...
要为所有请求配置响应超时,请执行以下操作:
-
Java
-
Kotlin
HttpClient httpClient = HttpClient.create()
.responseTimeout(Duration.ofSeconds(2));
// Create WebClient...
val httpClient = HttpClient.create()
.responseTimeout(Duration.ofSeconds(2));
// Create WebClient...
要为特定请求配置响应超时,请执行以下操作:
-
Java
-
Kotlin
WebClient.create().get()
.uri("https://example.org/path")
.httpRequest(httpRequest -> {
HttpClientRequest reactorRequest = httpRequest.getNativeRequest();
reactorRequest.responseTimeout(Duration.ofSeconds(2));
})
.retrieve()
.bodyToMono(String.class);
WebClient.create().get()
.uri("https://example.org/path")
.httpRequest { httpRequest: ClientHttpRequest ->
val reactorRequest = httpRequest.getNativeRequest<HttpClientRequest>()
reactorRequest.responseTimeout(Duration.ofSeconds(2))
}
.retrieve()
.bodyToMono(String::class.java)
1 | 创建独立于全局资源的资源。 |
2 | 将构造函数与资源工厂一起使用。ReactorClientHttpConnector |
3 | 将连接器插入 。WebClient.Builder |
1 | 创建独立于全局资源的资源。 |
2 | 将构造函数与资源工厂一起使用。ReactorClientHttpConnector |
3 | 将连接器插入 。WebClient.Builder |
JDK HttpClient
以下示例显示如何自定义 JDK :HttpClient
-
Java
-
Kotlin
HttpClient httpClient = HttpClient.newBuilder()
.followRedirects(Redirect.NORMAL)
.connectTimeout(Duration.ofSeconds(20))
.build();
ClientHttpConnector connector =
new JdkClientHttpConnector(httpClient, new DefaultDataBufferFactory());
WebClient webClient = WebClient.builder().clientConnector(connector).build();
val httpClient = HttpClient.newBuilder()
.followRedirects(Redirect.NORMAL)
.connectTimeout(Duration.ofSeconds(20))
.build()
val connector = JdkClientHttpConnector(httpClient, DefaultDataBufferFactory())
val webClient = WebClient.builder().clientConnector(connector).build()
Jetty
以下示例显示如何自定义 Jetty 设置:HttpClient
-
Java
-
Kotlin
HttpClient httpClient = new HttpClient();
httpClient.setCookieStore(...);
WebClient webClient = WebClient.builder()
.clientConnector(new JettyClientHttpConnector(httpClient))
.build();
val httpClient = HttpClient()
httpClient.cookieStore = ...
val webClient = WebClient.builder()
.clientConnector(JettyClientHttpConnector(httpClient))
.build();
默认情况下,创建自己的资源 (、 、 )、
它们将保持活动状态,直到进程退出或被调用。HttpClient
Executor
ByteBufferPool
Scheduler
stop()
您可以在 Jetty 客户端(和服务器)的多个实例之间共享资源,并且
确保在 Spring 关闭时关闭资源
声明 Spring 管理的 bean 类型为 ,如下例所示
显示:ApplicationContext
JettyResourceFactory
-
Java
-
Kotlin
@Bean
public JettyResourceFactory resourceFactory() {
return new JettyResourceFactory();
}
@Bean
public WebClient webClient() {
HttpClient httpClient = new HttpClient();
// Further customizations...
ClientHttpConnector connector =
new JettyClientHttpConnector(httpClient, resourceFactory()); (1)
return WebClient.builder().clientConnector(connector).build(); (2)
}
1 | 将构造函数与资源工厂一起使用。JettyClientHttpConnector |
2 | 将连接器插入 。WebClient.Builder |
@Bean
fun resourceFactory() = JettyResourceFactory()
@Bean
fun webClient(): WebClient {
val httpClient = HttpClient()
// Further customizations...
val connector = JettyClientHttpConnector(httpClient, resourceFactory()) (1)
return WebClient.builder().clientConnector(connector).build() (2)
}
1 | 将构造函数与资源工厂一起使用。JettyClientHttpConnector |
2 | 将连接器插入 。WebClient.Builder |
1 | 将构造函数与资源工厂一起使用。JettyClientHttpConnector |
2 | 将连接器插入 。WebClient.Builder |
1 | 将构造函数与资源工厂一起使用。JettyClientHttpConnector |
2 | 将连接器插入 。WebClient.Builder |
HttpComponents 组件
以下示例显示如何自定义 Apache HttpComponents 设置:HttpClient
-
Java
-
Kotlin
HttpAsyncClientBuilder clientBuilder = HttpAsyncClients.custom();
clientBuilder.setDefaultRequestConfig(...);
CloseableHttpAsyncClient client = clientBuilder.build();
ClientHttpConnector connector = new HttpComponentsClientHttpConnector(client);
WebClient webClient = WebClient.builder().clientConnector(connector).build();
val client = HttpAsyncClients.custom().apply {
setDefaultRequestConfig(...)
}.build()
val connector = HttpComponentsClientHttpConnector(client)
val webClient = WebClient.builder().clientConnector(connector).build()