这篇文章给大家介绍Spring Cloud 超时和重试机制是什么,内容非常详细,感兴趣的小伙伴们可以参考借鉴,希望对大家能有所帮助。
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本文基于Spring Cloud Greenwich.SR2、Spring Boot 2.1.6.RELEASE
一、Feign的配置
1.1 超时时间
feign:
client:
config:
default:
connect-timeout: 2000
read-timeout: 2000
1.2 重试
Spring Cloud默认关闭了Feign的重试机制
//org.springframework.cloud.openfeign.FeignClientsConfiguration
@Bean
@ConditionalOnMissingBean
public Retryer feignRetryer() {
return Retryer.NEVER_RETRY;
}
//feign.Retryer
/**
* Implementation that never retries request. It propagates the RetryableException.
*/
Retryer NEVER_RETRY = new Retryer() {
@Override
public void continueOrPropagate(RetryableException e) {
throw e;
}
@Override
public Retryer clone() {
return this;
}
};如果想要开启的话,就自己声明一个bean
@Bean
public Retryer feignRetryer() {
return new Retryer.Default();
}二、Ribbon的配置
2.1 超时时间
#ribbon的超时时间
#如果ribbon和feign的超时时间都配置了,ribbon的配置会被覆盖
ribbon:
ReadTimeout: 3000
ConnectTimeout: 3000
2.2 重试
ribbon:
MaxAutoRetries: 1 #同一台实例最大重试次数,不包括首次调用
MaxAutoRetriesNextServer: 1 #重试负载均衡其他的实例最大重试次数,不包括首次调用
OkToRetryOnAllOperations: false #是否所有操作都重试
三、Hystrix的配置
3.1 超时时间
hystrix:
command:
default:
execution:
timeout:
enabled: true
isolation:
thread:
timeoutInMilliseconds: 1000
注意Hystrix的超时时间要超过ribbon的重试时间,否则ribbon重试过程中,就会先触发Hystrix的熔断
超时时间计算可以参考zuul中的AbstractRibbonCommand类的getRibbonTimeout()方法,
protected static int getRibbonTimeout(IClientConfig config, String commandKey) {
int ribbonTimeout;
// 这是比较异常的情况,不说
if (config == null) {
ribbonTimeout = RibbonClientConfiguration.DEFAULT_READ_TIMEOUT + RibbonClientConfiguration.DEFAULT_CONNECT_TIMEOUT;
} else {
// 这里获取了四个参数,ReadTimeout,ConnectTimeout,MaxAutoRetries, MaxAutoRetriesNextServer
int ribbonReadTimeout = getTimeout(config, commandKey, "ReadTimeout",
IClientConfigKey.Keys.ReadTimeout, RibbonClientConfiguration.DEFAULT_READ_TIMEOUT);
int ribbonConnectTimeout = getTimeout(config, commandKey, "ConnectTimeout",
IClientConfigKey.Keys.ConnectTimeout, RibbonClientConfiguration.DEFAULT_CONNECT_TIMEOUT);
int maxAutoRetries = getTimeout(config, commandKey, "MaxAutoRetries",
IClientConfigKey.Keys.MaxAutoRetries, DefaultClientConfigImpl.DEFAULT_MAX_AUTO_RETRIES);
int maxAutoRetriesNextServer = getTimeout(config, commandKey, "MaxAutoRetriesNextServer",
IClientConfigKey.Keys.MaxAutoRetriesNextServer, DefaultClientConfigImpl.DEFAULT_MAX_AUTO_RETRIES_NEXT_SERVER);
// ribbonTimeout的计算方法在这里,以上文的设置为例
// ribbonTimeout = (3000 + 3000) * (1 + 1) * (1 + 1) = 24000(毫秒)
ribbonTimeout = (ribbonReadTimeout + ribbonConnectTimeout) * (maxAutoRetries + 1) * (maxAutoRetriesNextServer + 1);
}
return ribbonTimeout;
}四、RestTemplate的配置
4.1 超时时间
RestTemplate默认超时时间是-1,即不会超时,如果想要设置的话,可以这么做
@Bean
@Primary
@LoadBalanced
public RestTemplate lbRestTemplate() {
SimpleClientHttpRequestFactory simpleClientHttpRequestFactory = new SimpleClientHttpRequestFactory();
simpleClientHttpRequestFactory.setConnectTimeout(1000);
simpleClientHttpRequestFactory.setReadTimeout(1000);
return new RestTemplate(simpleClientHttpRequestFactory);
}五、Feign调用流程源码分析
5.1 OKToRetryOnAllOperations参数意义
//AbstractLoadBalancerAwareClient.java
public T executeWithLoadBalancer(final S request, final IClientConfig requestConfig) throws ClientException {
LoadBalancerCommand command = buildLoadBalancerCommand(request, requestConfig);
//省略...
}
protected LoadBalancerCommand buildLoadBalancerCommand(final S request, final IClientConfig config) {
RequestSpecificRetryHandler handler = getRequestSpecificRetryHandler(request, config);
//省略...
}
//FeignLoadBalancer.java
//FeignLoadBalancer是AbstractLoadBalancerAwareClient的子类
@Override
public RequestSpecificRetryHandler getRequestSpecificRetryHandler(
RibbonRequest request, IClientConfig requestConfig) {
//如果isOkToRetryOnAllOperations参数为true
if (this.ribbon.isOkToRetryOnAllOperations()) {
return new RequestSpecificRetryHandler(true, true, this.getRetryHandler(), requestConfig);
}
if (!request.toRequest().httpMethod().name().equals("GET")) {
return new RequestSpecificRetryHandler(true, false, this.getRetryHandler(), requestConfig);
}
else {
return new RequestSpecificRetryHandler(true, true, this.getRetryHandler(), requestConfig);
}
}
//RequestSpecificRetryHandler.java
/**
* okToRetryOnConnectErrors:只对连接错误发起重试
* okToRetryOnAllErrors:对于所有错误都会发起重试
*/
public RequestSpecificRetryHandler(boolean okToRetryOnConnectErrors, boolean okToRetryOnAllErrors, RetryHandler baseRetryHandler, @Nullable IClientConfig requestConfig) {
Preconditions.checkNotNull(baseRetryHandler);
this.okToRetryOnConnectErrors = okToRetryOnConnectErrors;
this.okToRetryOnAllErrors = okToRetryOnAllErrors;
this.fallback = baseRetryHandler;
if (requestConfig != null) {
if (requestConfig.containsProperty(CommonClientConfigKey.MaxAutoRetries)) {
retrySameServer = requestConfig.get(CommonClientConfigKey.MaxAutoRetries);
}
if (requestConfig.containsProperty(CommonClientConfigKey.MaxAutoRetriesNextServer)) {
retryNextServer = requestConfig.get(CommonClientConfigKey.MaxAutoRetriesNextServer);
}
}
}可以看到如果设置了isOkToRetryOnAllOperations为true,就会对所有错误发起重试,否则的话就只对连接异常发起重试,判断是否重试的代码如下:
//RequestSpecificRetryHandler.java
@Override
public boolean isRetriableException(Throwable e, boolean sameServer) {
if (okToRetryOnAllErrors) {
return true;
}
else if (e instanceof ClientException) {
ClientException ce = (ClientException) e;
if (ce.getErrorType() == ClientException.ErrorType.SERVER_THROTTLED) {
return !sameServer;
} else {
return false;
}
}
else {
return okToRetryOnConnectErrors && isConnectionException(e);
}
}这里会有一个问题,如果你是新增/修改操作,系统处理时间过长导致超时,也会触发Feign的自动重试,如果你的幂等性做的不好,就会导致很严重的后果。
而如果是连接异常,此时请求还没有发送过去,所以是不会重复执行的。
当然了,在分布式系统中,还是建议做好每个接口的幂等性。
5.2 Feign重试逻辑
//SynchronousMethodHandler.java
@Override
public Object invoke(Object[] argv) throws Throwable {
RequestTemplate template = buildTemplateFromArgs.create(argv);
//这里我们假设你开启了Feign的重试,并且使用的是Retryer.Default这个类
Retryer retryer = this.retryer.clone();
while (true) {
try {
//这里会调用到5.3节executeWithLoadBalancer()方法
return executeAndDecode(template);
} catch (RetryableException e) {
try {
//在重试次数之内,会等待一段时间返回,继续while循环,否则会抛出异常跳出循环
retryer.continueOrPropagate(e);
} catch (RetryableException th) {
Throwable cause = th.getCause();
if (propagationPolicy == UNWRAP && cause != null) {
throw cause;
} else {
throw th;
}
}
if (logLevel != Logger.Level.NONE) {
logger.logRetry(metadata.configKey(), logLevel);
}
continue;
}
}
}5.3 Ribbon重试逻辑
//AbstractLoadBalancerAwareClient.java
public T executeWithLoadBalancer(final S request, final IClientConfig requestConfig) throws ClientException {
LoadBalancerCommand command = buildLoadBalancerCommand(request, requestConfig);
try {
return command.submit(
new ServerOperation() {
@Override
public Observable call(Server server) {
URI finalUri = reconstructURIWithServer(server, request.getUri());
S requestForServer = (S) request.replaceUri(finalUri);
try {
return Observable.just(AbstractLoadBalancerAwareClient.this.execute(requestForServer, requestConfig));
}
catch (Exception e) {
return Observable.error(e);
}
}
})
.toBlocking()
.single();
} catch (Exception e) {
Throwable t = e.getCause();
if (t instanceof ClientException) {
throw (ClientException) t;
} else {
throw new ClientException(e);
}
}
}上边是调用的入口,下边是重试执行的逻辑,由于的RxJava写的,暂时看不懂,先贴出来日后再说......
//LoadBalancerCommand.java
public Observable submit(final ServerOperation operation) {
final ExecutionInfoContext context = new ExecutionInfoContext();
if (listenerInvoker != null) {
try {
listenerInvoker.onExecutionStart();
} catch (AbortExecutionException e) {
return Observable.error(e);
}
}
final int maxRetrysSame = retryHandler.getMaxRetriesOnSameServer();
final int maxRetrysNext = retryHandler.getMaxRetriesOnNextServer();
// Use the load balancer
Observable o =
(server == null ? selectServer() : Observable.just(server))
.concatMap(new Func1>() {
@Override
// Called for each server being selected
public Observable call(Server server) {
context.setServer(server);
final ServerStats stats = loadBalancerContext.getServerStats(server);
// Called for each attempt and retry
Observable o = Observable
.just(server)
.concatMap(new Func1>() {
@Override
public Observable call(final Server server) {
context.incAttemptCount();
loadBalancerContext.noteOpenConnection(stats);
if (listenerInvoker != null) {
try {
listenerInvoker.onStartWithServer(context.toExecutionInfo());
} catch (AbortExecutionException e) {
return Observable.error(e);
}
}
final Stopwatch tracer = loadBalancerContext.getExecuteTracer().start();
return operation.call(server).doOnEach(new Observer() {
private T entity;
@Override
public void onCompleted() {
recordStats(tracer, stats, entity, null);
// TODO: What to do if onNext or onError are never called?
}
@Override
public void onError(Throwable e) {
recordStats(tracer, stats, null, e);
logger.debug("Got error {} when executed on server {}", e, server);
if (listenerInvoker != null) {
listenerInvoker.onExceptionWithServer(e, context.toExecutionInfo());
}
}
@Override
public void onNext(T entity) {
this.entity = entity;
if (listenerInvoker != null) {
listenerInvoker.onExecutionSuccess(entity, context.toExecutionInfo());
}
}
private void recordStats(Stopwatch tracer, ServerStats stats, Object entity, Throwable exception) {
tracer.stop();
loadBalancerContext.noteRequestCompletion(stats, entity, exception, tracer.getDuration(TimeUnit.MILLISECONDS), retryHandler);
}
});
}
});
if (maxRetrysSame > 0)
o = o.retry(retryPolicy(maxRetrysSame, true));
return o;
}
});
if (maxRetrysNext > 0 && server == null)
o = o.retry(retryPolicy(maxRetrysNext, false));
return o.onErrorResumeNext(new Func1>() {
@Override
public Observable call(Throwable e) {
if (context.getAttemptCount() > 0) {
if (maxRetrysNext > 0 && context.getServerAttemptCount() == (maxRetrysNext + 1)) {
e = new ClientException(ClientException.ErrorType.NUMBEROF_RETRIES_NEXTSERVER_EXCEEDED,
"Number of retries on next server exceeded max " + maxRetrysNext
+ " retries, while making a call for: " + context.getServer(), e);
}
else if (maxRetrysSame > 0 && context.getAttemptCount() == (maxRetrysSame + 1)) {
e = new ClientException(ClientException.ErrorType.NUMBEROF_RETRIES_EXEEDED,
"Number of retries exceeded max " + maxRetrysSame
+ " retries, while making a call for: " + context.getServer(), e);
}
}
if (listenerInvoker != null) {
listenerInvoker.onExecutionFailed(e, context.toFinalExecutionInfo());
}
return Observable.error(e);
}
});
}
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