二十一.SpringCloud源码剖析-Hystrix的初始化

简介: ystrix不是停更了吗?你在这写什么?是,Hystrix是停止更新版本了,说不定后面又继续更新了呢?比如阿里的dubbo不也是停更一段时间后又继续更新了么。Hystrix只是停止开发新的版本,并不是完全停止维护,有Bug依然会修复,Hystrix已经是比较稳定的,很多项目依旧在使用它。再者说Hystrix是SpringCloud 第一代技术标准中的非常重要的一个组件,可以看做是我们学习SpringCloud全家桶的一个必不可少的过程。在实际项目中你当然可以使用Spring Cloud Alibaba 等更先进的技术来作为微服务架构,使用sentinel代替Hystrix,但是如果你只会使

前言

Hystrix不是停更了吗?你在这写什么?是,Hystrix是停止更新版本了,说不定后面又继续更新了呢?比如阿里的dubbo不也是停更一段时间后又继续更新了么。Hystrix只是停止开发新的版本,并不是完全停止维护,有Bug依然会修复,Hystrix已经是比较稳定的,很多项目依旧在使用它。

再者说Hystrix是SpringCloud 第一代技术标准中的非常重要的一个组件,可以看做是我们学习SpringCloud全家桶的一个必不可少的过程。在实际项目中你当然可以使用Spring Cloud Alibaba 等更先进的技术来作为微服务架构,使用sentinel代替Hystrix,但是如果你只会使用SpringCloudAlibaba,却不懂netflix技术体系,那我觉得你的技术栈是不完整的。即使你不使用Hystrix,那么它的一些思想和原理也是你需要掌握的,你觉得呢???

所以本着技术研究的态度,我还是写了这篇文章,Hystrix 源码剖析,对于Hystrix的使用请移步《熔断器Hystrix

1.回顾Hystrix使用

为了防止服务之间的调用异常造成的连锁反应,在SpringCloud中提供了Hystrix组件来实现服务调用异常的处理,或对高并发情况下的服务降级处理 。这里简单回顾一下Hystrix的使用:

1.要使用 Hystrix熔断机制处理引入它本身的依赖之外,我们需要在主程序配置类上贴 @EnableCircuitBreaker标签 开启Hystrix功能,如下

@EnableCircuitBreaker
@EnableEurekaClient
@SpringBootApplication
...
public class ConsumerApplication {
   
   

2.开启Hystrix熔断机制后,对方法进行熔断处理

@Service
public class HelloService {
   
   

    @Autowired
    private RestTemplate restTemplate;

    //该注解对该方法创建了熔断器的功能,并指定了fallbackMethod熔断方法
    @HystrixCommand(fallbackMethod = "hiError")
    public String hiService(String name){
   
   
        //调用接口进行消费
        String result = restTemplate.getForObject("http://PRODUCER/hello?name="+name,String.class);
        return result;
    }
    public String hiError(String name) {
   
   
        return "hi,"+name+"error!";
    }
}

当hiService方法第调用异常,会触发 fallbackMethod做降级处理,那么我们就沿着我们的使用方式来跟踪一下 @HystrixCommand注解的背后工作原理。

2.Hystrix的自动配置

首先我们看一下标签:@EnableCircuitBreaker ,他的作用从名字就能看出就是开启Hystrix ,我们看一下它的源码

/**
 * Annotation to enable a CircuitBreaker implementation.
 * http://martinfowler.com/bliki/CircuitBreaker.html
 * @author Spencer Gibb
 */
@Target(ElementType.TYPE)
@Retention(RetentionPolicy.RUNTIME)
@Documented
@Inherited
@Import(EnableCircuitBreakerImportSelector.class)
public @interface EnableCircuitBreaker {
   
   

}

@EnableCircuitBreaker标签引入了一个@Import(EnableCircuitBreakerImportSelector.class) 类,翻译类的名字就是 , 开启熔断器的导入选择器 ,导入什么东西呢?看源码

/**
 * Import a single circuit breaker implementation Configuration
 * @author Spencer Gibb
 */
@Order(Ordered.LOWEST_PRECEDENCE - 100)
public class EnableCircuitBreakerImportSelector extends
        SpringFactoryImportSelector<EnableCircuitBreaker> {
   
   

    @Override
    protected boolean isEnabled() {
   
   
        return getEnvironment().getProperty(
                "spring.cloud.circuit.breaker.enabled", Boolean.class, Boolean.TRUE);
    }

}

选择器中的isEnabled方法用来读取Hytrix配置,判断是否开启熔断支持,默认是true,
翻译类上的注释 “Import a single circuit breaker implementation Configuration”,其实EnableCircuitBreakerImportSelector的作用就是去导入熔断器的配置

这个就是走的SpringBoot自动配置了,其实Spring中也有类似于JAVA SPI 的加载机制, 即会自动加载 jar包 spring-cloud-netflix-core 中的META-INF/spring.factories 中的Hystrix相关的自动配置类
注:SPI : 通过将服务的接口与实现分离以实现解耦,提高程序拓展性的机制,达到插拔式的效果 。

image.png
HystrixCircuitBreakerConfiguration 就是针对于 Hystrix熔断器的配置

/**
 * @author Spencer Gibb
 * @author Christian Dupuis
 * @author Venil Noronha
 */
@Configuration
public class HystrixCircuitBreakerConfiguration {
   
   

    @Bean
    public HystrixCommandAspect hystrixCommandAspect() {
   
   
        return new HystrixCommandAspect();
    }

    @Bean
    public HystrixShutdownHook hystrixShutdownHook() {
   
   
        return new HystrixShutdownHook();
    }

    @Bean
    public HasFeatures hystrixFeature() {
   
   
        return HasFeatures.namedFeatures(new NamedFeature("Hystrix", HystrixCommandAspect.class));
    }
......

3.HystrixCommandAspect Aop切面类

在该配置类中创建了 HystrixCommandAspect ,它其实就是针对于@HystrixCommand的切面类,看一下源码:


/**
 * AspectJ aspect to process methods which annotated with {@link HystrixCommand} annotation.
 */
@Aspect
public class HystrixCommandAspect {
   
   

    private static final Map<HystrixPointcutType, MetaHolderFactory> META_HOLDER_FACTORY_MAP;

    static {
   
   
        META_HOLDER_FACTORY_MAP = ImmutableMap.<HystrixPointcutType, MetaHolderFactory>builder()
                .put(HystrixPointcutType.COMMAND, new CommandMetaHolderFactory())
                .put(HystrixPointcutType.COLLAPSER, new CollapserMetaHolderFactory())
                .build();
    }

    //定义切点,切到 @HystrixCommand标签所在的方法  
  @Pointcut("@annotation(com.netflix.hystrix.contrib.javanica.annotation.HystrixCommand)")
    public void hystrixCommandAnnotationPointcut() {
   
   
    }

    @Pointcut("@annotation(com.netflix.hystrix.contrib.javanica.annotation.HystrixCollapser)")
    public void hystrixCollapserAnnotationPointcut() {
   
   
    }
    //针对切点:@hystrixCommand切点的处理
    @Around("hystrixCommandAnnotationPointcut() || hystrixCollapserAnnotationPointcut()")
    public Object methodsAnnotatedWithHystrixCommand(final ProceedingJoinPoint joinPoint) throws Throwable {
   
   
    //获取到目标方法
  Method method = getMethodFromTarget(joinPoint);
        Validate.notNull(method, "failed to get method from joinPoint: %s", joinPoint);
        //判断方法上不能同时存在@HystrixCommand标签和HystrixCollapser标签
        if (method.isAnnotationPresent(HystrixCommand.class) && method.isAnnotationPresent(HystrixCollapser.class)) {
   
   
            throw new IllegalStateException("method cannot be annotated with HystrixCommand and HystrixCollapser " +
                    "annotations at the same time");
        }
        MetaHolderFactory metaHolderFactory = META_HOLDER_FACTORY_MAP.get(HystrixPointcutType.of(method));
        //获取到@HystrixCommand注解的元数据
        MetaHolder metaHolder = metaHolderFactory.create(joinPoint);
        //把方法封装成 HystrixInvokable ,HystrixInvokable就是调用代理
        HystrixInvokable invokable = HystrixCommandFactory.getInstance().create(metaHolder);
        //这里在判断方法上是否使用 @HystrixCollapser ,我们使用的是@HystrixCommand
        //所以这里的执行类型ExecutionType是 SYNCHRONOUS 同步的方式去调用
        ExecutionType executionType = metaHolder.isCollapserAnnotationPresent() ?
                metaHolder.getCollapserExecutionType() : metaHolder.getExecutionType();

        Object result;
        try {
   
   
        // 通过CommandExecutor来执行方法
            if (!metaHolder.isObservable()) {
   
   
                //没有isObservable,走这里
                result = CommandExecutor.execute(invokable, executionType, metaHolder);
            } else {
   
   

                result = executeObservable(invokable, executionType, metaHolder);
            }
        } catch (HystrixBadRequestException e) {
   
   
            throw e.getCause() != null ? e.getCause() : e;
        } catch (HystrixRuntimeException e) {
   
   
            throw hystrixRuntimeExceptionToThrowable(metaHolder, e);
        }
        return result;

HystrixCommandAspect 其实就是对 贴了@HystrixCommand标签的方法使用 Aop机制实现处理 。代码中通过把目标方法封装成 HystrixInvokable对象,通过CommandExecutor工具来执行目标方法。

3.1.HystrixCommand创建

HystrixInvokable 是HystrixCommand的父接口,HystrixCommand是hystrix的核心组件,Hystrix的初始化、执行、限流、熔断等都是在这个组件中完成的,具体在run()方法中执行具体业务逻辑,那么他是如何创建的我们看代码HystrixInvokable invokable = HystrixCommandFactory.getInstance().create(metaHolder);的create方法

   public HystrixInvokable create(MetaHolder metaHolder) {
   
   
        HystrixInvokable executable;
        ...省略代码...
            executable = new GenericCommand(HystrixCommandBuilderFactory.getInstance().create(metaHolder));
        }
        return executable;
    }

其实是new了一个 GenericCommand 对象,很明显他们是实现关系,我们看一下关系图
image.png
GenericCommand主要是通过AbstractCommand进行初始化,见:com.netflix.hystrix.AbstractCommand#AbstractCommand

protected AbstractCommand(HystrixCommandGroupKey group, HystrixCommandKey key, HystrixThreadPoolKey threadPoolKey, HystrixCircuitBreaker circuitBreaker, HystrixThreadPool threadPool,
            HystrixCommandProperties.Setter commandPropertiesDefaults, HystrixThreadPoolProperties.Setter threadPoolPropertiesDefaults,
            HystrixCommandMetrics metrics, TryableSemaphore fallbackSemaphore, TryableSemaphore executionSemaphore,
            HystrixPropertiesStrategy propertiesStrategy, HystrixCommandExecutionHook executionHook) {
   
   
        //各种初始化
        this.commandGroup = initGroupKey(group);
        this.commandKey = initCommandKey(key, getClass());
        this.properties = initCommandProperties(this.commandKey, propertiesStrategy, commandPropertiesDefaults);
        //初始化线程池
        this.threadPoolKey = initThreadPoolKey(threadPoolKey, this.commandGroup, this.properties.executionIsolationThreadPoolKeyOverride().get());
        this.metrics = initMetrics(metrics, this.commandGroup, this.threadPoolKey, this.commandKey, this.properties);
        //初始化熔断器
        this.circuitBreaker = initCircuitBreaker(this.properties.circuitBreakerEnabled().get(), circuitBreaker, this.commandGroup, this.commandKey, this.properties, this.metrics);
         //初始化线程池
        this.threadPool = initThreadPool(threadPool, this.threadPoolKey, threadPoolPropertiesDefaults);

        //Strategies from plugins
        this.eventNotifier = HystrixPlugins.getInstance().getEventNotifier();
        this.concurrencyStrategy = HystrixPlugins.getInstance().getConcurrencyStrategy();
        HystrixMetricsPublisherFactory.createOrRetrievePublisherForCommand(this.commandKey, this.commandGroup, this.metrics, this.circuitBreaker, this.properties);
        this.executionHook = initExecutionHook(executionHook);
        //初始化请求缓存
        this.requestCache = HystrixRequestCache.getInstance(this.commandKey, this.concurrencyStrategy);
        this.currentRequestLog = initRequestLog(this.properties.requestLogEnabled().get(), this.concurrencyStrategy);

        /* fallback semaphore override if applicable */
        this.fallbackSemaphoreOverride = fallbackSemaphore;

        /* execution semaphore override if applicable */
        this.executionSemaphoreOverride = executionSemaphore;
    }

3.2.熔断器的创建

HystrixCircuitBreaker是处理熔断业务的熔断器,跟一下 com.netflix.hystrix.AbstractCommand#initCircuitBreaker 方法,看一下熔断器是如何创建的

private static HystrixCircuitBreaker initCircuitBreaker(boolean enabled, HystrixCircuitBreaker fromConstructor,
                                                            HystrixCommandGroupKey groupKey, HystrixCommandKey commandKey,
                                                            HystrixCommandProperties properties, HystrixCommandMetrics metrics) {
   
   
        if (enabled) {
   
   
            if (fromConstructor == null) {
   
   
                // get the default implementation of HystrixCircuitBreaker
                return HystrixCircuitBreaker.Factory.getInstance(commandKey, groupKey, properties, metrics);
            } else {
   
   
                return fromConstructor;
            }
        } else {
   
   
            return new NoOpCircuitBreaker();
        }
    }
  • HystrixCommandKey:一个HystrixCommandKey一个HystrixCommand,服务熔断,监控都会用到这个key
  • HystrixCommandGroupKey:一组HystrixCommand可以用HystrixCommandGroupKey来配置
  • HystrixCommandProperties :读取和设置HystrixCommand配置的配置类
  • HystrixCommandMetrics :用于统计HystrixCommand的调用,包括成功、超时、异常、线程池队列/semaphore满、短路器打开等

这里使用 HystrixCircuitBreaker.Factory 来创建HystrixCircuitBreaker 熔断器,跟一下源码:

  class Factory {
   
   
        // String is HystrixCommandKey.name() (we can't use HystrixCommandKey directly as we can't guarantee it implements hashcode/equals correctly)
        //存放熔断器的容器ConcurrentHashMap
        private static ConcurrentHashMap<String, HystrixCircuitBreaker> circuitBreakersByCommand = new ConcurrentHashMap<String, HystrixCircuitBreaker>();
        public static HystrixCircuitBreaker getInstance(HystrixCommandKey key, HystrixCommandGroupKey group, HystrixCommandProperties properties, HystrixCommandMetrics metrics) {
   
   
            // this should find it for all but the first time
            HystrixCircuitBreaker previouslyCached = circuitBreakersByCommand.get(key.name());
            if (previouslyCached != null) {
   
   
                return previouslyCached;
            }

            // if we get here this is the first time so we need to initialize

            // Create and add to the map ... use putIfAbsent to atomically handle the possible race-condition of
            // 2 threads hitting this point at the same time and let ConcurrentHashMap provide us our thread-safety
            // If 2 threads hit here only one will get added and the other will get a non-null response instead.
            //熔断器使用的是HystrixCircuitBreakerImpl
            HystrixCircuitBreaker cbForCommand = circuitBreakersByCommand.putIfAbsent(key.name(), new HystrixCircuitBreakerImpl(key, group, properties, metrics));
            if (cbForCommand == null) {
   
   
                // this means the putIfAbsent step just created a new one so let's retrieve and return it
                return circuitBreakersByCommand.get(key.name());
            } else {
   
   
                // this means a race occurred and while attempting to 'put' another one got there before
                // and we instead retrieved it and will now return it
                return cbForCommand;
            }
        }

HystrixCircuitBreaker熔断器使用了ConcurrentHashMap来存储,具体的实现类是 HystrixCircuitBreakerImpl

3.3.线程池的创建

回到com.netflix.hystrix.AbstractCommand#initThreadPool方法看一下线程池是如何创建的


    private static HystrixThreadPool initThreadPool(HystrixThreadPool fromConstructor, HystrixThreadPoolKey threadPoolKey, HystrixThreadPoolProperties.Setter threadPoolPropertiesDefaults) {
   
   
        if (fromConstructor == null) {
   
   
            // get the default implementation of HystrixThreadPool
            return HystrixThreadPool.Factory.getInstance(threadPoolKey, threadPoolPropertiesDefaults);
        } else {
   
   
            return fromConstructor;
        }
    }
  • HystrixThreadPool : 对线程池进行统一管理,任务提交、队列限制等
  • HystrixThreadPoolKey:一个key对应着hystrix的一个HystrixThreadPool
  • HystrixThreadPoolProperties:读取线程池配置

这里使用HystrixThreadPool.Factory来创建HystrixThreadPool ,它其实和熔断器创建很相似:

static class Factory {
   
   
        /*
         * Use the String from HystrixThreadPoolKey.name() instead of the HystrixThreadPoolKey instance as it's just an interface and we can't ensure the object
         * we receive implements hashcode/equals correctly and do not want the default hashcode/equals which would create a new threadpool for every object we get even if the name is the same
         */
        /* package */final static ConcurrentHashMap<String, HystrixThreadPool> threadPools = new ConcurrentHashMap<String, HystrixThreadPool>();

        /**
         * Get the {@link HystrixThreadPool} instance for a given {@link HystrixThreadPoolKey}.
         * <p>
         * This is thread-safe and ensures only 1 {@link HystrixThreadPool} per {@link HystrixThreadPoolKey}.
         *
         * @return {@link HystrixThreadPool} instance
         */
        /* package */static HystrixThreadPool getInstance(HystrixThreadPoolKey threadPoolKey, HystrixThreadPoolProperties.Setter propertiesBuilder) {
   
   
            // get the key to use instead of using the object itself so that if people forget to implement equals/hashcode things will still work
            String key = threadPoolKey.name();

            // this should find it for all but the first time
            HystrixThreadPool previouslyCached = threadPools.get(key);
            if (previouslyCached != null) {
   
   
                return previouslyCached;
            }

            // if we get here this is the first time so we need to initialize
            synchronized (HystrixThreadPool.class) {
   
   
                if (!threadPools.containsKey(key)) {
   
   
                    threadPools.put(key, new HystrixThreadPoolDefault(threadPoolKey, propertiesBuilder));
                }
            }
            return threadPools.get(key);
        }

线程池使用的是HystrixThreadPoolDefault创建实例,然后使用一个ConcurrentHashMap进行存储的。

4. HystrixCommand的执行流程

回到 HystrixCommandAspect的methodsAnnotatedWithHystrixCommand方法中,我们看下 CommandExecutor.execute是如何执行的

public class CommandExecutor {
   
   
    public CommandExecutor() {
   
   
    }

    public static Object execute(HystrixInvokable invokable, ExecutionType executionType, MetaHolder metaHolder) throws RuntimeException {
   
   
        Validate.notNull(invokable);
        Validate.notNull(metaHolder);
        switch(executionType) {
   
   
            //异步
        case SYNCHRONOUS:
            return castToExecutable(invokable, executionType).execute();
        //同步
        case ASYNCHRONOUS:
            HystrixExecutable executable = castToExecutable(invokable, executionType);
            if (metaHolder.hasFallbackMethodCommand() && ExecutionType.ASYNCHRONOUS == metaHolder.getFallbackExecutionType()) {
   
   
                return new FutureDecorator(executable.queue());
            }

            return executable.queue();
        case OBSERVABLE:
            HystrixObservable observable = castToObservable(invokable);
            return ObservableExecutionMode.EAGER == metaHolder.getObservableExecutionMode() ? observable.observe() : observable.toObservable();
        default:
            throw new RuntimeException("unsupported execution type: " + executionType);
        }
    }

    private static HystrixExecutable castToExecutable(HystrixInvokable invokable, ExecutionType executionType) {
   
   
        if (invokable instanceof HystrixExecutable) {
   
   
            return (HystrixExecutable)invokable;
        } else {
   
   
            throw new RuntimeException("Command should implement " + HystrixExecutable.class.getCanonicalName() + " interface to execute in: " + executionType + " mode");
        }
    }

这里有两种执行方式 SYNCHRONOUS 异步 ,ASYNCHRONOUS同步 ,我们先看异步: castToExecutable(invokable, executionType).execute(); 这里代码把HystrixInvokable对象转成 HystrixExecutable并调用execute方法执行 ,跟踪execute方法进入HystrixCommand.execute方法中

 public R execute() {
   
   
        try {
   
   
            return queue().get();
        } catch (Exception e) {
   
   
            throw Exceptions.sneakyThrow(decomposeException(e));
        }
    }
--------------
 public Future<R> queue() {
   
   
        /*
         * The Future returned by Observable.toBlocking().toFuture() does not implement the
         * interruption of the execution thread when the "mayInterrupt" flag of Future.cancel(boolean) is set to true;
         * thus, to comply with the contract of Future, we must wrap around it.
         */
        final Future<R> delegate = toObservable().toBlocking().toFuture();

        final Future<R> f = new Future<R>() {
   
   

            @Override
            public boolean cancel(boolean mayInterruptIfRunning) {
   
   
                if (delegate.isCancelled()) {
   
   
                    return false;
                }

                if (HystrixCommand.this.getProperties().executionIsolationThreadInterruptOnFutureCancel().get()) {
   
   
                    /*
                     * The only valid transition here is false -> true. If there are two futures, say f1 and f2, created by this command
                     * (which is super-weird, but has never been prohibited), and calls to f1.cancel(true) and to f2.cancel(false) are
                     * issued by different threads, it's unclear about what value would be used by the time mayInterruptOnCancel is checked.
                     * The most consistent way to deal with this scenario is to say that if *any* cancellation is invoked with interruption,
                     * than that interruption request cannot be taken back.
                     */
                    interruptOnFutureCancel.compareAndSet(false, mayInterruptIfRunning);
                }

                final boolean res = delegate.cancel(interruptOnFutureCancel.get());

                if (!isExecutionComplete() && interruptOnFutureCancel.get()) {
   
   
                    final Thread t = executionThread.get();
                    if (t != null && !t.equals(Thread.currentThread())) {
   
   
                        t.interrupt();
                    }
                }

                return res;
            }
....省略...

在 HystrixCommand.execute方法中 其实是Future 来异步执行,调用过程中会触发 GenericCommand来完成调用,执行完成后调用 Future.get()方法拿到执行结果 。

文章就到这里吧,如果喜欢请给个好评哦!!!

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