Kotlin 使用 Spring WebFlux 实现响应式编程

Kotlin 使用 Spring WebFlux 实现响应式编程

IBM的研究称,整个人类文明所获得的全部数据中,有90%是过去两年内产生的。在此背景下,包括NoSQL,Hadoop, Spark, Storm, Kylin在内的大批新技术应运而生。其中以RxJava和Reactor为代表的响应式(Reactive)编程技术针对的就是经典的大数据

4V定义: Volume,Variety,Velocity,Value)

中的Velocity,即高并发问题,而在即将发布的Spring 5中,也引入了响应式编程的支持。在接下来的博客文章中,我会围绕响应式编程相关的主题与你分享我的学习心得。作为第一篇,首先从Spring 5 和 Spring WebFlux 谈起。

响应式宣言

响应式宣言和敏捷宣言一样,说起响应式编程,必先提到响应式宣言。

We want systems that are Responsive, Resilient, Elastic and Message Driven. We call these Reactive Systems. - The Reactive Manifesto

响应式宣言中也包含了4组关键词:

Responsive: 可响应的。要求系统尽可能做到在任何时候都能及时响应。
Resilient: 可恢复的。要求系统即使出错了,也能保持可响应性。
Elastic: 可伸缩的。要求系统在各种负载下都能保持可响应性。
Message Driven: 消息驱动的。要求系统通过异步消息连接各个组件。
可以看到,对于任何一个响应式系统,首先要保证的就是可响应性,否则就称不上是响应式系统。从这个意义上来说,动不动就蓝屏的Windows系统显然不是一个响应式系统。

Spring 5 响应式Web框架架构图

(https://docs.spring.io/spring...)

左侧是传统的基于Servlet的Spring Web MVC框架

右侧是5.0版本新引入的基于Reactive Streams的Spring WebFlux框架

从上到下依次是

  • Router Functions
  • WebFlux
  • Reactive Streams

三个新组件。

Router Functions:

对标@Controller,@RequestMapping等标准的Spring MVC注解,提供一套函数式风格的API,用于创建Router,Handler和Filter。

WebFlux: 核心组件

协调上下游各个组件提供响应式编程支持。

Reactive Streams

一种支持背压(Backpressure)的异步数据流处理标准,主流实现有RxJava和Reactor,Spring WebFlux默认集成的是Reactor。

在Web容器的选择上,Spring WebFlux既支持像Tomcat,Jetty这样的的传统容器(前提是支持Servlet 3.1 Non-Blocking IO API),又支持像Netty,Undertow那样的异步容器。不管是何种容器,Spring WebFlux都会将其输入输出流适配成Flux格式,以便进行统一处理。

值得一提的是,除了新的Router Functions接口,Spring WebFlux同时支持使用老的Spring MVC注解声明Reactive Controller。和传统的MVC Controller不同,Reactive Controller操作的是非阻塞的ServerHttpRequest和ServerHttpResponse,而不再是Spring MVC里的HttpServletRequest和HttpServletResponse。

下面是示例工程详解。

示例工程详解

工程目录结构

~/ak47/webflux$ tree
.
├── build.gradle
├── gradle
│   └── wrapper
│       ├── gradle-wrapper.jar
│       └── gradle-wrapper.properties
├── gradlew
├── gradlew.bat
├── src
│   ├── main
│   │   ├── java
│   │   ├── kotlin
│   │   │   └── com
│   │   │       └── easy
│   │   │           └── kotlin
│   │   │               └── webflux
│   │   │                   └── WebfluxApplication.kt
│   │   └── resources
│   │       └── application.properties
│   └── test
│       ├── java
│       ├── kotlin
│       │   └── com
│       │       └── easy
│       │           └── kotlin
│       │               └── webflux
│       │                   └── WebfluxApplicationTests.kt
│       └── resources
└── webflux.iml

19 directories, 11 files

项目依赖配置

buildscript {
    ext {
        kotlinVersion = '1.1.51'
        springBootVersion = '2.0.0.BUILD-SNAPSHOT'
    }
    repositories {
        mavenCentral()
        maven { url "https://repo.spring.io/snapshot" }
        maven { url "https://repo.spring.io/milestone" }
    }
    dependencies {
        classpath("org.springframework.boot:spring-boot-gradle-plugin:${springBootVersion}")
        classpath("org.jetbrains.kotlin:kotlin-gradle-plugin:${kotlinVersion}")
        classpath("org.jetbrains.kotlin:kotlin-allopen:${kotlinVersion}")
    }
}

apply plugin: 'kotlin'
apply plugin: 'kotlin-spring'
apply plugin: 'eclipse'
apply plugin: 'org.springframework.boot'
apply plugin: 'io.spring.dependency-management'

group = 'com.easy.kotlin'
version = '0.0.1-SNAPSHOT'
sourceCompatibility = 1.8
compileKotlin {
    kotlinOptions.jvmTarget = "1.8"
}
compileTestKotlin {
    kotlinOptions.jvmTarget = "1.8"
}

repositories {
    mavenCentral()
    maven { url "https://repo.spring.io/snapshot" }
    maven { url "https://repo.spring.io/milestone" }
}


dependencies {
    compile('org.springframework.boot:spring-boot-starter-webflux')
    compile("org.jetbrains.kotlin:kotlin-stdlib-jre8")
    compile("org.jetbrains.kotlin:kotlin-reflect")
    testCompile('org.springframework.boot:spring-boot-starter-test')
    testCompile('io.projectreactor:reactor-test')
}

这是 Spring Initializr 帮我们自动生成的样板工程。下面我们分别来加入 Model 、dao 、 service 、 handler 等模块的内容。

源码目录结构设计如下

├── src
│   ├── main
│   │   ├── java
│   │   ├── kotlin
│   │   │   └── com
│   │   │       └── easy
│   │   │           └── kotlin
│   │   │               └── webflux
│   │   │                   ├── WebfluxApplication.kt
│   │   │                   ├── dao
│   │   │                   │   └── PersonRepository.kt
│   │   │                   ├── handler
│   │   │                   │   └── PersonHandler.kt
│   │   │                   ├── model
│   │   │                   │   └── Person.kt
│   │   │                   ├── router
│   │   │                   │   └── RouterConfig.kt
│   │   │                   ├── server
│   │   │                   │   └── HttpServerConfig.kt
│   │   │                   └── service
│   │   │                       └── PersonService.kt
│   │   └── resources
│   │       └── application.properties

Person

package com.easy.kotlin.webflux.model

import com.fasterxml.jackson.annotation.JsonProperty

class Person(@JsonProperty("name") val name: String, @JsonProperty("age") val age: Int) {

    override fun toString(): String {
        return "Person{" +
                "name='" + name + '\'' +
                ", age=" + age +
                '}'
    }
}

PersonRepository

package com.easy.kotlin.webflux.dao

import com.easy.kotlin.webflux.model.Person
import reactor.core.publisher.Flux
import reactor.core.publisher.Mono


interface PersonRepository {

    fun getPerson(id: Int): Mono

    fun allPeople(): Flux

    fun savePerson(person: Mono): Mono
}


/*
 * Mono 和 Flux 是由 Project Reactor 提供的 Reactive 类型。
 * Springs 同时支持其他 Reactive 流实现,如 RXJava。
 * Mono 和 Flux 是由 Reactive 流的 Publisher 中实现的。
 * Mono 是一个用来发送 0 或者单值数据的发布器,
 * Flux 可以用来发送 0 到 N 个值。
 *
 * 这非常类似 Flowable 和 RxJava 中的 Observable 。它们表示在订阅这些发布服务时发送数值流。 */

PersonService

package com.easy.kotlin.webflux.service

import com.easy.kotlin.webflux.model.Person
import com.easy.kotlin.webflux.dao.PersonRepository
import org.springframework.stereotype.Service
import reactor.core.publisher.Flux
import reactor.core.publisher.Mono

@Service
class PersonService : PersonRepository {
    var persons: MutableMap = hashMapOf()

    constructor() {
        this.persons[1] = Person("Jack", 20)
        this.persons[2] = Person("Rose", 16)
    }


    override fun getPerson(id: Int): Mono {
        return Mono.justOrEmpty(this.persons[id])
    }

    override fun allPeople(): Flux {
        return Flux.fromIterable(this.persons.values)
    }

    override fun savePerson(person: Mono): Mono {
        return person.doOnNext {
            val id = this.persons.size + 1
            persons.put(id, it)
            println("Saved ${person} with ${id}")
        }.thenEmpty(Mono.empty())

    }
}

PersonHandler

package com.easy.kotlin.webflux.handler

import com.easy.kotlin.webflux.dao.PersonRepository
import com.easy.kotlin.webflux.model.Person
import org.springframework.beans.factory.annotation.Autowired
import reactor.core.publisher.Mono

import org.springframework.web.reactive.function.server.ServerRequest
import org.springframework.web.reactive.function.server.ServerResponse

import org.springframework.http.MediaType.APPLICATION_JSON
import org.springframework.stereotype.Service
import org.springframework.web.reactive.function.BodyInserters.fromObject


@Service
class PersonHandler {

    @Autowired lateinit var repository: PersonRepository


    fun getPerson(request: ServerRequest): Mono {
        val personId = Integer.valueOf(request.pathVariable("id"))!!
        val notFound = ServerResponse.notFound().build()
        val personMono = this.repository.getPerson(personId)
        return personMono
            .flatMap { person -> ServerResponse.ok().contentType(APPLICATION_JSON).body(fromObject(person)) }
            .switchIfEmpty(notFound)
    }


    fun createPerson(request: ServerRequest): Mono {
        val person = request.bodyToMono(Person::class.java)
        return ServerResponse.ok().build(this.repository.savePerson(person))
    }

    fun listPeople(request: ServerRequest): Mono {
        val people = this.repository.allPeople()
        return ServerResponse.ok().contentType(APPLICATION_JSON).body(people, Person::class.java)
    }


}

RouterConfig

package com.easy.kotlin.webflux.router


import com.easy.kotlin.webflux.handler.PersonHandler
import org.springframework.beans.factory.annotation.Autowired
import org.springframework.context.annotation.Bean
import org.springframework.context.annotation.Configuration
import org.springframework.http.MediaType.APPLICATION_JSON
import org.springframework.web.reactive.function.server.HandlerFunction
import org.springframework.web.reactive.function.server.RequestPredicates.GET
import org.springframework.web.reactive.function.server.RequestPredicates.accept
import org.springframework.web.reactive.function.server.RouterFunction
import org.springframework.web.reactive.function.server.RouterFunctions.route


@Configuration
class RouterConfig {

    @Autowired lateinit var personHandler: PersonHandler

    @Bean
    fun routerFunction(): RouterFunction<*> {
        return route(GET("/api/person").and(accept(APPLICATION_JSON)),
                HandlerFunction { personHandler.listPeople(it) })

            .and(route(GET("/api/person/{id}").and(accept(APPLICATION_JSON)),
                    HandlerFunction { personHandler.getPerson(it) }))
    }

}

HttpServerConfig

package com.easy.kotlin.webflux.server

import org.springframework.beans.factory.annotation.Autowired
import org.springframework.context.annotation.Bean
import org.springframework.context.annotation.Configuration
import org.springframework.core.env.Environment
import org.springframework.http.server.reactive.ReactorHttpHandlerAdapter
import org.springframework.web.reactive.function.server.RouterFunction
import org.springframework.web.reactive.function.server.RouterFunctions
import reactor.ipc.netty.http.server.HttpServer


@Configuration
class HttpServerConfig {
    @Autowired
    lateinit var environment: Environment

    @Bean
    fun httpServer(routerFunction: RouterFunction<*>): HttpServer {
        val httpHandler = RouterFunctions.toHttpHandler(routerFunction)
        val adapter = ReactorHttpHandlerAdapter(httpHandler)
        val server = HttpServer.create("localhost", environment.getProperty("server.port").toInt())
        server.newHandler(adapter)
        return server
    }

}

项目启动入口类 WebfluxApplication


package com.easy.kotlin.webflux

import org.springframework.boot.autoconfigure.SpringBootApplication
import org.springframework.boot.runApplication

@SpringBootApplication
class WebfluxApplication

fun main(args: Array) {
    runApplication(*args)
}

启动运行

注意到这行:

Mapped ((GET && /api/person) && Accept: [application/json]) -> com.easy.kotlin.webflux.router.RouterConfig$routerFunction$1@46292372
((GET && /api/person/{id}) && Accept: [application/json]) -> com.easy.kotlin.webflux.router.RouterConfig$routerFunction$2@126be319

完整启动日志


  .   ____          _            __ _ _
 /\\ / ___'_ __ _ _(_)_ __  __ _ \ \ \ \
( ( )\___ | '_ | '_| | '_ \/ _` | \ \ \ \
 \\/  ___)| |_)| | | | | || (_| |  ) ) ) )
  '  |____| .__|_| |_|_| |_\__, | / / / /
 =========|_|==============|___/=/_/_/_/
 :: Spring Boot ::  (v2.0.0.BUILD-SNAPSHOT)

2017-11-04 00:39:46.046  INFO 2884 --- [           main] c.e.kotlin.webflux.WebfluxApplicationKt  : Starting WebfluxApplicationKt on jacks-MacBook-Air.local with PID 2884 (/Users/jack/ak47/webflux/out/production/classes started by jack in /Users/jack/ak47/webflux)
2017-11-04 00:39:46.077  INFO 2884 --- [           main] c.e.kotlin.webflux.WebfluxApplicationKt  : No active profile set, falling back to default profiles: default
2017-11-04 00:39:46.247  INFO 2884 --- [           main] .r.c.ReactiveWebServerApplicationContext : Refreshing org.springframework.boot.web.reactive.context.ReactiveWebServerApplicationContext@4b0b0854: startup date [Sat Nov 04 00:39:46 CST 2017]; root of context hierarchy
2017-11-04 00:39:48.995  INFO 2884 --- [           main] o.s.w.r.f.s.s.RouterFunctionMapping      : Mapped ((GET && /api/person) && Accept: [application/json]) -> com.easy.kotlin.webflux.router.RouterConfig$routerFunction$1@46292372
((GET && /api/person/{id}) && Accept: [application/json]) -> com.easy.kotlin.webflux.router.RouterConfig$routerFunction$2@126be319
2017-11-04 00:39:49.017  INFO 2884 --- [           main] o.s.w.r.handler.SimpleUrlHandlerMapping  : Mapped URL path [/webjars/**] onto handler of type [class org.springframework.web.reactive.resource.ResourceWebHandler]
2017-11-04 00:39:49.017  INFO 2884 --- [           main] o.s.w.r.handler.SimpleUrlHandlerMapping  : Mapped URL path [/**] onto handler of type [class org.springframework.web.reactive.resource.ResourceWebHandler]
2017-11-04 00:39:49.215  INFO 2884 --- [           main] o.s.w.r.r.m.a.ControllerMethodResolver   : Looking for @ControllerAdvice: org.springframework.boot.web.reactive.context.ReactiveWebServerApplicationContext@4b0b0854: startup date [Sat Nov 04 00:39:46 CST 2017]; root of context hierarchy
2017-11-04 00:39:50.309  INFO 2884 --- [           main] o.s.j.e.a.AnnotationMBeanExporter        : Registering beans for JMX exposure on startup
2017-11-04 00:39:50.459  INFO 2884 --- [ctor-http-nio-1] r.ipc.netty.tcp.BlockingNettyContext     : Started HttpServer on /0:0:0:0:0:0:0:0:9000
2017-11-04 00:39:50.459  INFO 2884 --- [           main] o.s.b.web.embedded.netty.NettyWebServer  : Netty started on port(s): 9000
2017-11-04 00:39:50.466  INFO 2884 --- [           main] c.e.kotlin.webflux.WebfluxApplicationKt  : Started WebfluxApplicationKt in 5.047 seconds (JVM running for 6.276)

测试输出


$ curl http://127.0.0.1:9000/api/person
[{"name":"Jack","age":20},{"name":"Rose","age":16}]


$ curl http://127.0.0.1:9000/api/person/1
{"name":"Jack","age":20}



$ curl http://127.0.0.1:9000/api/person/2
{"name":"Rose","age":16}

小结

Spring Web 是一个命令式的编程框架,可以很方便的进行开发和调试。你需要根据实际情况去决定采用 Spring 5 Reactive 或者是 Spring Web 命令式框架。在很多情况下,命令式的编程风格就可以满足,但当你的应用需要高可伸缩性,那么 Reactive 非堵塞方式是最适合的。

本章工程源代码:https://github.com/EasyKotlin...

参考资料

参考书籍:

《 Kotlin + Spring Boot : K2EE 服务端开发实战 》

《 Kotlin 极简教程》

参考文章:
Spring Framework 5.0 M5 Update : https://spring.io/blog/2017/0...

https://github.com/poutsma/we...

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