概述
一、简介
在微服务架构中,我们会有这样的需求,A服务调用B服务,B服务调用C服务,ABC服务都需要用到当前用户上下文信息(userId、orgId等),那么如何实现呢?
方案一: 拦截器加上ThreadLocal实现,但是如果在这次请求中创建了一个新的线程就拿不到了,也就是无法跨线程传递数据。
方案二: 使用拦截器加上 HystrixRequestContext 这个 request level 的 context实现,即保存到HystrixRequestContext中的数据在整个请求中都能访问。
二、使用
2.1代码示例
首先需要在pom文件引入依赖hystrix
<dependency>
<groupId>com.netflix.hystrix</groupId>
<artifactId>hystrix-core</artifactId>
<version>1.5.12</version>
</dependency>
保存上下文信息的对象ServiceContextHolder
package cn.sp.context;
import com.netflix.hystrix.strategy.concurrency.HystrixRequestContext;
import com.netflix.hystrix.strategy.concurrency.HystrixRequestVariableDefault;
/**
* Created by 2YSP on 2019/7/28.
*/
public class ServiceContextHolder {
private static final HystrixRequestVariableDefault<ServiceContext> context = new HystrixRequestVariableDefault<>();
public static ServiceContext getServiceContext() {
initServiceContext();
return context.get();
}
public static void setServiceContext(ServiceContext serviceContext) {
initServiceContext();
context.set(serviceContext);
}
private static void initServiceContext() {
if (!HystrixRequestContext.isCurrentThreadInitialized()) {
HystrixRequestContext.initializeContext();
}
}
public static void destroy() {
if (HystrixRequestContext.isCurrentThreadInitialized()) {
HystrixRequestContext.getContextForCurrentThread().shutdown();
}
}
}
ServiceContextInterceptor的作用是将请求头中的userId保存到上下文对象中。
@Slf4j
public class ServiceContextInterceptor extends HandlerInterceptorAdapter {
@Override
public boolean preHandle(HttpServletRequest request, HttpServletResponse response, Object handler)
throws Exception {
initServiceContext(request, request.getRequestURL().toString());
return true;
}
@Override
public void postHandle(HttpServletRequest request, HttpServletResponse response, Object handler,
@Nullable ModelAndView modelAndView) throws Exception {
ServiceContextHolder.destroy();
}
private void initServiceContext(HttpServletRequest request, String url) {
ServiceContext serviceContext = new ServiceContext();
String userId = request.getHeader("userId");
serviceContext.setUserId(Long.valueOf(userId));
ServiceContextHolder.setServiceContext(serviceContext);
}
}
添加拦截器配置
@Configuration
@EnableWebMvc
@Import(value = {RestResponseBodyAdvice.class})
public class MvcConfig implements WebMvcConfigurer {
@Bean
public ServiceContextInterceptor getServiceContextInterceptor() {
return new ServiceContextInterceptor();
}
@Override
public void addInterceptors(InterceptorRegistry registry) {
registry.addInterceptor(getServiceContextInterceptor()).addPathPatterns("/request-context/**");
}
}
用于测试的RequestContextTestController
@RestController
@RequestMapping("request-context")
@Slf4j
public class RequestContextTestController {
@RequestMapping(value = "test", method = RequestMethod.GET)
public String test() {
System.out.println("请求的用户id:" + ServiceContextHolder.getServiceContext().getUserId() + "");
HystrixContextRunnable runnable =
new HystrixContextRunnable(() -> {
//从新的线程中获取当前用户id
ServiceContext context = ServiceContextHolder.getServiceContext();
System.out.println("新线程的用户id:" + context.getUserId());
context.setUserId(110L);
});
new Thread(runnable).start();
try {
Thread.sleep(100);
} catch (InterruptedException e) {
e.printStackTrace();
}
return ServiceContextHolder.getServiceContext().getUserId() + "";
}
}
注意: 只有使用HystrixContextRunnable或HystrixContextCallable创建线程才能在线程间传递数据,JDK自带的是无效的。
2.2测试
使用postman发送请求
请求头中的userId是22,返回结果却变成110,说明在新线程中改变了ServiceContextHolder中保存的userId。
控制台日志如下:
请求的用户id:22
2019-08-31 14:25:29.787 [http-nio-80-exec-1] WARN
c.n.c.sources.URLConfigurationSource - No URLs will be polled as dynamic configuration sources.
2019-08-31 14:25:29.787 [http-nio-80-exec-1] INFO
c.n.c.sources.URLConfigurationSource - To enable URLs as dynamic configuration sources, define System property archaius.configurationSource.additionalUrls or make config.properties available on classpath.
2019-08-31 14:25:29.798 [http-nio-80-exec-1] INFO
c.n.config.DynamicPropertyFactory - DynamicPropertyFactory is initialized with configuration sources: com.netflix.config.ConcurrentCompositeConfiguration@a6f6807
新线程的用户id:22
说明新线程也能获取到ServiceContextHolder中的数据,这种又是怎么实现的呢?下面介绍原理。
三、原理
上下文信息其实是保存在HystrixRequestVariableDefault类型的变量中,所以先看看这个类的源码。
HystrixRequestVariableDefault是HystrixRequestVariable接口的实现类,HystrixRequestVariable接口表示request level的属性,仅提供了get()来获取属性。
public interface HystrixRequestVariable<T> extends HystrixRequestVariableLifecycle<T> {
public T get();
}
HystrixRequestVariableDefault和ThreadLocal一样,提供了 T get() 和 set(T value) 两个工具方法。
public class HystrixRequestVariableDefault<T> implements HystrixRequestVariable<T> {
static final Logger logger = LoggerFactory.getLogger(HystrixRequestVariableDefault.class);
@SuppressWarnings("unchecked")
public T get() {
if (HystrixRequestContext.getContextForCurrentThread() == null) {
throw new IllegalStateException(HystrixRequestContext.class.getSimpleName() + ".initializeContext() must be called at the beginning of each request before RequestVariable functionality can be used.");
}
// 拿到当前线程的存储结构,以自己为key索引数据
ConcurrentHashMap<HystrixRequestVariableDefault<?>, LazyInitializer<?>> variableMap = HystrixRequestContext.getContextForCurrentThread().state;
// short-circuit the synchronized path below if we already have the value in the ConcurrentHashMap
LazyInitializer<?> v = variableMap.get(this);
...
}
public void set(T value) {
// 拿到当前线程的存储结构,以自己为key来存储实际的数据。
HystrixRequestContext.getContextForCurrentThread().state.put(this, new LazyInitializer<T>(this, value));
}
}
set/get方法都调用了HystrixRequestContext的方法完成的,HystrixRequestContext的部分源码如下:
public class HystrixRequestContext implements Closeable {
//每个线程的ThreadLocal将保存HystrixRequestVariableState
private static ThreadLocal<HystrixRequestContext> requestVariables = new ThreadLocal<HystrixRequestContext>();
// 当前线程是否初始化了HystrixRequestContext
public static boolean isCurrentThreadInitialized() {
HystrixRequestContext context = requestVariables.get();
return context != null && context.state != null;
}
// 从当前线程获取HystrixRequestContext
public static HystrixRequestContext getContextForCurrentThread() {
HystrixRequestContext context = requestVariables.get();
if (context != null && context.state != null) {
return context;
} else {
return null;
}
}
public static void setContextOnCurrentThread(HystrixRequestContext state) {
requestVariables.set(state);
}
// 在每个请求开始的时候调用此方法,创建一个HystrixRequestContext,并与当前线程关联
public static HystrixRequestContext initializeContext() {
HystrixRequestContext state = new HystrixRequestContext();
requestVariables.set(state);
return state;
}
ConcurrentHashMap<HystrixRequestVariableDefault<?>, HystrixRequestVariableDefault.LazyInitializer<?>> state = new ConcurrentHashMap<HystrixRequestVariableDefault<?>, HystrixRequestVariableDefault.LazyInitializer<?>>();
}
可以看出实际数据是存储在state这个ConcurrentHashMap中的,每个线程关联一个HystrixRequestContext,每个HystrixRequestContext有个Map结构存储数据,key就是HystrixRequestVariableDefault。
如何实现request level context?
HystrixContextRunnable源码如下:
// HystrixContextRunnable是个Runnable,一个可用于执行的任务
public class HystrixContextRunnable implements Runnable {
private final Callable<Void> actual;
private final HystrixRequestContext parentThreadState;
public HystrixContextRunnable(Runnable actual) {
this(HystrixPlugins.getInstance().getConcurrencyStrategy(), actual);
}
public HystrixContextRunnable(HystrixConcurrencyStrategy concurrencyStrategy, final Runnable actual) {
// 获取当前线程的HystrixRequestContext
this(concurrencyStrategy, HystrixRequestContext.getContextForCurrentThread(), actual);
}
// 关键的构造器
public HystrixContextRunnable(final HystrixConcurrencyStrategy concurrencyStrategy, final HystrixRequestContext hystrixRequestContext, final Runnable actual) {
// 将原始任务Runnable包装成Callable, 创建了一个新的callable
this.actual = concurrencyStrategy.wrapCallable(new Callable<Void>() {
@Override
public Void call() throws Exception {
actual.run();
return null;
}
});
// 存储当前线程的hystrixRequestContext
this.parentThreadState = hystrixRequestContext;
}
@Override
public void run() {
// 运行实际的Runnable之前先保存当前线程已有的HystrixRequestContext
HystrixRequestContext existingState = HystrixRequestContext.getContextForCurrentThread();
try {
// 设置当前线程的HystrixRequestContext,来自上一级线程,因此两个线程是同一个HystrixRequestContext
HystrixRequestContext.setContextOnCurrentThread(parentThreadState);
try {
actual.call();
} catch (Exception e) {
throw new RuntimeException(e);
}
} finally {
// 还原当前线程的HystrixRequestContext
HystrixRequestContext.setContextOnCurrentThread(existingState);
}
}
}
代码地址
转载于:https://www.cnblogs.com/2YSP/p/11440700.html
最后
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