Spring中注解方式的异步请求

一、Servlet3.0异步请求

@WebServlet(value = "/async", asyncSupported = true)
public class HelloAsyncServlet extends HttpServlet {

    @Override
    protected void doGet(HttpServletRequest req, HttpServletResponse resp) throws ServletException, IOException {
        //1、设置支持异步处理asyncSupported = true
        //2、开启异步模式
        System.out.println("主线程开始:" + Thread.currentThread() + "==>" + System.currentTimeMillis());
        AsyncContext startAsync = req.startAsync();
        //3、业务逻辑进行异步处理,开始异步处理
        startAsync.start(new Runnable() {
            @Override
            public void run() {
                try {
                    System.out.println("副线程开始:" + Thread.currentThread() + "==>" + System.currentTimeMillis());
                    sayHello();
                    //获取到异步的上下文
                    AsyncContext asyncContext = req.getAsyncContext();
                    startAsync.complete();
                    ServletResponse response = asyncContext.getResponse();
                    response.getWriter().write("hello async!");
                    System.out.println("副线程结束:" + Thread.currentThread() + "==>" + System.currentTimeMillis());
                } catch (Exception e) {
                    e.printStackTrace();
                }

            }
        });
        System.out.println("主线程结束:" + Thread.currentThread() + "==>" + System.currentTimeMillis());
    }

    public void sayHello() throws Exception {
        System.out.println(Thread.currentThread() + "processing...");
        Thread.sleep(3000);
    }
}

打印结果:

Spring中注解方式的异步请求_第1张图片

二、SpringMVC的异步请求

返回Callable

@Controller
public class AsyncController {

    @ResponseBody
    @RequestMapping("/async01")
    public Callable async01(){
        System.out.println("主线程开始:" + Thread.currentThread() + "==>" + System.currentTimeMillis());

        Callable callable = new Callable() {

            public String call() throws Exception {
                System.out.println("副线程开始:" + Thread.currentThread() + "==>" + System.currentTimeMillis());
                Thread.sleep(2000);
                System.out.println("副线程开始:" + Thread.currentThread() + "==>" + System.currentTimeMillis());

                return "async01";
            }
        };

        System.out.println("主线程结束:" + Thread.currentThread() + "==>" + System.currentTimeMillis());
        return callable;

    }
}
  • 控制器返回Callable
  • Spring进行异步处理,将Callable提交给TaskExecutor,使用一个隔离的线程进行执行
  • DispatcherServlet和所有的Filter退出Web容器的线程,但是response保持打开状态
  • Callable返回结果,SpreingMVC将请求重新派发给容器,恢复之前的处理,Callable返回值就是目标方法的返回值
  • 根据Callable返回的结果,SpringMVC继续进行视图渲染流程等(从收到请求到视图渲染)

输出结果:

在这里插入图片描述

返回DeferredResult

模拟一个消息中间件

public class DeferredResultQueue {

    private static Queue> queue = new ConcurrentLinkedDeque>();
    

    public static void save(DeferredResult deferredResult){
        queue.add(deferredResult);
    }
    
    public static DeferredResult get(){
        return queue.poll();
    }
}
 
  
 

/createOrder请求会暂时保存DeferredResultQueue中,/create请求会获取DeferredResultQueue中的请求,进行业务逻辑的处理并返回结果

@Controller
public class AsyncController {

    @ResponseBody
    @RequestMapping("/createOrder")
    public DeferredResult createOrder(){
        DeferredResult deferredResult = new DeferredResult((long)3000,"create fail");

        DeferredResultQueue.save(deferredResult);

        return deferredResult;
    }


    @ResponseBody
    @RequestMapping("/create")
    public String create(){

        String order = UUID.randomUUID().toString();
        DeferredResult deferredResult = DeferredResultQueue.get();
        deferredResult.setResult(order);
        return "success:" + order;
    }
}
 
  
 

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