hystrix服务降级(3)
Hystrix使用fallback机制很简单,继承HystrixCommand
只需重写getFallback()
,继承HystrixObservableCommand
只需重写resumeWithFallback()
,比如上篇文章的HelloWorldHystrixCommand
加上下面代码片段:
@Override protected String getFallback() { return "fallback: " + name; }
fallback实际流程是当run()/construct()
被触发执行时或执行中发生错误时,将转向执行getFallback()/resumeWithFallback()
。
结合下图,4种情况(出现异常,超时,熔断,线程池已满)将触发fallback:
①run()方法中出现异常(非HystrixBadRequestException异常)或者出现超时()触发fallback()
public class HystrixFallbackNomal extends HystrixCommand<String>{ private final String name; public HystrixFallbackNomal(String name) { super(HystrixCommandGroupKey.Factory.asKey("ExampleGroup")); this.name = name; } @Override public String run() throws Exception { /*---------------会触发fallback的case-------------------*/ // 无限循环,实际上属于超时 /* int j = 0; while (true) { j++; }*/ Thread.sleep(1000); // 除零异常 // int i = 1/0; // 主动抛出异常 // throw new HystrixTimeoutException(); // throw new RuntimeException("this command will trigger fallback"); // throw new Exception("this command will trigger fallback"); // throw new HystrixRuntimeException(FailureType.BAD_REQUEST_EXCEPTION, commandClass, message, cause, fallbackException); /*---------------不会触发fallback的case-------------------*/ // 被捕获的异常不会触发fallback // try { // throw new RuntimeException("this command never trigger fallback"); // } catch(Exception e) { // e.printStackTrace(); // } // HystrixBadRequestException异常由非法参数或非系统错误引起,不会触发fallback,也不会被计入熔断器 //throw new HystrixBadRequestException("HystrixBadRequestException is never trigger fallback"); //return name; }
@Override protected String getFallback() { return "fallback: " + name; } }
}
②熔断触发fallback()
/** * 熔断机制相当于电路的跳闸功能,例如:我们可以配置熔断策略为当请求错误比例在10s内>50%时,该服务将进入熔断状态,后续请求都会进入fallback * CircuitBreakerRequestVolumeThreshold设置为3,意味着10s内请求超过3次就触发熔断器(10s这个时间暂时不可配置) * run()中无限循环使命令超时进入fallback,10s内请求超过3次,将被熔断,进入降级,即不进入run()而直接进入fallback * 如果未熔断,但是threadpool被打满,仍然会降级,即不进入run()而直接进入fallback */ public class HystrixFallbackCircuitBreaker extends HystrixCommand<String>{ private final String name; public HystrixFallbackCircuitBreaker(String name) { super(Setter.withGroupKey(HystrixCommandGroupKey.Factory.asKey("CircuitBreakerTestGroup")) .andCommandKey(HystrixCommandKey.Factory.asKey("CircuitBreakerTestKey")) .andThreadPoolKey(HystrixThreadPoolKey.Factory.asKey("CircuitBreakerTest")) .andThreadPoolPropertiesDefaults( // 配置线程池 HystrixThreadPoolProperties.Setter() .withCoreSize(200) // 配置线程池里的线程数,设置足够多线程,以防未熔断却打满threadpool ) .andCommandPropertiesDefaults( // 配置熔断器 HystrixCommandProperties.Setter() .withCircuitBreakerEnabled(true) .withCircuitBreakerRequestVolumeThreshold(3) .withCircuitBreakerErrorThresholdPercentage(80) // .withCircuitBreakerForceOpen(true) // 置为true时,所有请求都将被拒绝,直接到fallback // .withCircuitBreakerForceClosed(true) // 置为true时,将忽略错误 // .withExecutionIsolationStrategy(ExecutionIsolationStrategy.SEMAPHORE) // 信号量隔离 // .withExecutionTimeoutInMilliseconds(5000) ) ); this.name = name; } @Override protected String run() throws Exception { System.out.println("running run():" + name); int num = Integer.valueOf(name); if(num < 10) { // 直接返回 return name; } else { // 无限循环模拟超时 int j = 0; while (true) { j++; } } // return name; } @Override protected String getFallback() { return "CircuitBreaker fallback: " + name; }
}
@Test public void testFallbackCricuitBreaker() throws IOException { for(int i = 0; i < 50; i++) { try { System.out.println("===========" + new HystrixFallbackCircuitBreaker(String.valueOf(i)).execute()); } catch(Exception e) { System.out.println("run()抛出HystrixBadRequestException时,被捕获到这里" + e.getCause()); } } System.out.println("------开始打印现有线程---------"); Map<Thread, StackTraceElement[]> map=Thread.getAllStackTraces(); for (Thread thread : map.keySet()) { System.out.println(thread.getName()); } System.out.println("thread num: " + map.size()); System.in.read(); }
③线程池已满,触发fallback()
public class HystrixThreadPoolFallback extends HystrixCommand<String>{ private final String name; public HystrixThreadPoolFallback(String name) { super(Setter.withGroupKey(HystrixCommandGroupKey.Factory.asKey("ThreadPoolTestGroup")) .andCommandKey(HystrixCommandKey.Factory.asKey("testCommandKey")) .andThreadPoolKey(HystrixThreadPoolKey.Factory.asKey("ThreadPoolTest")) .andCommandPropertiesDefaults( HystrixCommandProperties.Setter() .withExecutionTimeoutInMilliseconds(5000) ) .andThreadPoolPropertiesDefaults( HystrixThreadPoolProperties.Setter() .withCoreSize(3) // 配置线程池里的线程数 ) ); this.name = name; } @Override protected String run() throws Exception { System.out.println(name); TimeUnit.MILLISECONDS.sleep(2000); return name; } @Override protected String getFallback() { return "fallback: " + name; } }
@Test public void testThreadPool() throws IOException { for(int i = 0; i < 10; i++) { try { Future<String> future = new HystrixThreadPoolFallback("Hlx"+i).queue(); } catch(Exception e) { System.out.println("run()抛出HystrixBadRequestException时,被捕获到这里" + e.getCause()); } } for(int i = 0; i < 20; i++) { try { System.out.println("===========" + new HystrixThreadPoolFallback("Hlx"+i).execute()); } catch(Exception e) { System.out.println("run()抛出HystrixBadRequestException时,被捕获到这里" + e.getCause()); } } try { TimeUnit.MILLISECONDS.sleep(2000); }catch(Exception e) {} System.out.println("------开始打印现有线程---------"); Map<Thread, StackTraceElement[]> map=Thread.getAllStackTraces(); for (Thread thread : map.keySet()) { System.out.println(thread.getName()); } System.out.println(map); System.out.println("thread num: " + map.size()); System.in.read(); }
参考文献:http://www.jianshu.com/p/b9af028efebb