标签:代码 discover col 连接 ati 从服务器 stat src 下线。
什么是负载均衡器?假设有一个分布式系统,该系统由在不同计算机上运行的许多服务组成。但是,当用户数量很大时,通常会为服务创建多个副本。每个副本都在另一台计算机上运行。此时,出现 “Load Balancer(负载均衡器)”。它有助于在服务器之间平均分配传入流量。
传统上,Load Balancers(例如Nginx、F5)是放置在服务器端的组件。当请求来自 客户端 时,它们将转到负载均衡器,负载均衡器将为请求指定 服务器。负载均衡器使用的最简单的算法是随机指定。在这种情况下,大多数负载平衡器是用于控制负载平衡的硬件集成软件。
重点:
当负载均衡器位于 客户端 时,客户端得到可用的服务器列表然后按照特定的负载均衡策略,分发请求到不同的 服务器 。
重点:
Ribbon是Netflix公司开源的一个客户单负载均衡的项目,可以自动与 Eureka 进行交互。它提供下列特性:
实际应用中,通常将 RestTemplate 和 Ribbon 结合使用,例如:
@Configuration
public class RibbonConfig {
@Bean
@LoadBalanced
RestTemplate restTemplate() {
return new RestTemplate();
}
}
消费者调用服务接口:
@Service
public class RibbonService {
@Autowired
private RestTemplate restTemplate;
public String hi(String name) {
return restTemplate.getForObject("http://service-hi/hi?name="+name,String.class);
}
}
@LoadBalanced,通过源码可以发现这是一个标记注解:
/**
* Annotation to mark a RestTemplate bean to be configured to use a LoadBalancerClient
* @author Spencer Gibb
*/
@Target({ ElementType.FIELD, ElementType.PARAMETER, ElementType.METHOD })
@Retention(RetentionPolicy.RUNTIME)
@Documented
@Inherited
@Qualifier
public @interface LoadBalanced {
}
通过注释可以知道@LoadBalanced注解是用来给RestTemplate做标记,方便我们对RestTemplate添加一个LoadBalancerClient,以实现客户端负载均衡。
根据spring boot的自动配置原理,可以知道同包下的LoadBalancerAutoConfiguration,应该是实现客户端负载均衡器的自动化配置类。代码如下:
@Configuration
@ConditionalOnClass(RestTemplate.class)
@ConditionalOnBean(LoadBalancerClient.class)
@EnableConfigurationProperties(LoadBalancerRetryProperties.class)
public class LoadBalancerAutoConfiguration {
@LoadBalanced
@Autowired(required = false)
private List<RestTemplate> restTemplates = Collections.emptyList();
@Bean
public SmartInitializingSingleton loadBalancedRestTemplateInitializerDeprecated(
final ObjectProvider<List<RestTemplateCustomizer>> restTemplateCustomizers) {
return () -> restTemplateCustomizers.ifAvailable(customizers -> {
for (RestTemplate restTemplate : LoadBalancerAutoConfiguration.this.restTemplates) {
for (RestTemplateCustomizer customizer : customizers) {
customizer.customize(restTemplate);
}
}
});
}
@Autowired(required = false)
private List<LoadBalancerRequestTransformer> transformers = Collections.emptyList();
@Bean
@ConditionalOnMissingBean
public LoadBalancerRequestFactory loadBalancerRequestFactory(
LoadBalancerClient loadBalancerClient) {
return new LoadBalancerRequestFactory(loadBalancerClient, transformers);
}
@Configuration
@ConditionalOnMissingClass("org.springframework.retry.support.RetryTemplate")
static class LoadBalancerInterceptorConfig {
@Bean
public LoadBalancerInterceptor ribbonInterceptor(
LoadBalancerClient loadBalancerClient,
LoadBalancerRequestFactory requestFactory) {
return new LoadBalancerInterceptor(loadBalancerClient, requestFactory);
}
@Bean
@ConditionalOnMissingBean
public RestTemplateCustomizer restTemplateCustomizer(
final LoadBalancerInterceptor loadBalancerInterceptor) {
return restTemplate -> {
List<ClientHttpRequestInterceptor> list = new ArrayList<>(
restTemplate.getInterceptors());
list.add(loadBalancerInterceptor);
restTemplate.setInterceptors(list);
};
}
}
@Configuration
@ConditionalOnClass(RetryTemplate.class)
public static class RetryAutoConfiguration {
@Bean
@ConditionalOnMissingBean
public LoadBalancedRetryFactory loadBalancedRetryFactory() {
return new LoadBalancedRetryFactory() {};
}
}
@Configuration
@ConditionalOnClass(RetryTemplate.class)
public static class RetryInterceptorAutoConfiguration {
@Bean
@ConditionalOnMissingBean
public RetryLoadBalancerInterceptor ribbonInterceptor(
LoadBalancerClient loadBalancerClient, LoadBalancerRetryProperties properties,
LoadBalancerRequestFactory requestFactory,
LoadBalancedRetryFactory loadBalancedRetryFactory) {
return new RetryLoadBalancerInterceptor(loadBalancerClient, properties,
requestFactory, loadBalancedRetryFactory);
}
@Bean
@ConditionalOnMissingBean
public RestTemplateCustomizer restTemplateCustomizer(
final RetryLoadBalancerInterceptor loadBalancerInterceptor) {
return restTemplate -> {
List<ClientHttpRequestInterceptor> list = new ArrayList<>(
restTemplate.getInterceptors());
list.add(loadBalancerInterceptor);
restTemplate.setInterceptors(list);
};
}
}
}
从代码可以看出,这个类作用主要是使用RestTemplateCustomizer对所有标注了@LoadBalanced的RestTemplate Bean添加了一个LoadBalancerInterceptor拦截器,而这个拦截器的作用就是对请求的URI进行转换获取到具体应该请求哪个服务实例。
那再看看添加的拦截器LoadBalancerInterceptor的代码,如下:
public class LoadBalancerInterceptor implements ClientHttpRequestInterceptor {
private LoadBalancerClient loadBalancer;
private LoadBalancerRequestFactory requestFactory;
public LoadBalancerInterceptor(LoadBalancerClient loadBalancer, LoadBalancerRequestFactory requestFactory) {
this.loadBalancer = loadBalancer;
this.requestFactory = requestFactory;
}
public LoadBalancerInterceptor(LoadBalancerClient loadBalancer) {
// for backwards compatibility
this(loadBalancer, new LoadBalancerRequestFactory(loadBalancer));
}
@Override
public ClientHttpResponse intercept(final HttpRequest request, final byte[] body,
final ClientHttpRequestExecution execution) throws IOException {
final URI originalUri = request.getURI();
String serviceName = originalUri.getHost();
Assert.state(serviceName != null, "Request URI does not contain a valid hostname: " + originalUri);
return this.loadBalancer.execute(serviceName, requestFactory.createRequest(request, body, execution));
}
}
从代码可以看出 LoadBalancerInterceptor 拦截了请求后,通过LoadBalancerClient执行具体的请求发送。
打开LoadBalancerClient,发现它是一个接口:
public interface LoadBalancerClient {
ServiceInstance choose(String serviceId);
<T> T execute(String serviceId, LoadBalancerRequest<T> request) throws IOException;
<T> T execute(String serviceId, ServiceInstance serviceInstance, LoadBalancerRequest<T> request) throws IOException;
URI reconstructURI(ServiceInstance instance, URI original);
}
接口说明:
LoadBalancerClient 有一个唯一的实现类 RibbonLoadBalancerClient,关键代码如下:
public class RibbonLoadBalancerClient implements LoadBalancerClient {
public ServiceInstance choose(String serviceId) {
Server server = this.getServer(serviceId);
return server == null ? null : new RibbonLoadBalancerClient.RibbonServer(serviceId, server, this.isSecure(server, serviceId), this.serverIntrospector(serviceId).getMetadata(server));
}
public <T> T execute(String serviceId, LoadBalancerRequest<T> request) throws IOException {
ILoadBalancer loadBalancer = this.getLoadBalancer(serviceId);
Server server = this.getServer(loadBalancer);
if (server == null) {
throw new IllegalStateException("No instances available for " + serviceId);
} else {
RibbonLoadBalancerClient.RibbonServer ribbonServer = new RibbonLoadBalancerClient.RibbonServer(serviceId, server, this.isSecure(server, serviceId), this.serverIntrospector(serviceId).getMetadata(server));
return this.execute(serviceId, ribbonServer, request);
}
}
protected Server getServer(String serviceId) {
return this.getServer(this.getLoadBalancer(serviceId));
}
protected Server getServer(ILoadBalancer loadBalancer) {
return loadBalancer == null ? null : loadBalancer.chooseServer("default");
}
protected ILoadBalancer getLoadBalancer(String serviceId) {
return this.clientFactory.getLoadBalancer(serviceId);
}
//省略...
}
从 RibbonLoadBalancerClient 代码可以看出,实际负载均衡的是通过 ILoadBalancer 来实现的。
ILoadBalancer 接口代码如下:
public interface ILoadBalancer {
public void addServers(List<Server> newServers);
public Server chooseServer(Object key);
public void markServerDown(Server server);
public List<Server> getReachableServers();
public List<Server> getAllServers();
}
接口说明:
ILoadBalancer 的实现 依赖关系示意图如下:
那么在整合Ribbon的时候Spring Cloud默认采用了哪个具体实现呢?我们通过RibbonClientConfiguration配置类,可以知道在整合时默认采用了ZoneAwareLoadBalancer来实现负载均衡器。
@Bean
@ConditionalOnMissingBean
public ILoadBalancer ribbonLoadBalancer(IClientConfig config, ServerList<Server> serverList, ServerListFilter<Server> serverListFilter, IRule rule, IPing ping, ServerListUpdater serverListUpdater) {
return (ILoadBalancer)(this.propertiesFactory
.isSet(ILoadBalancer.class, this.name) ? (ILoadBalancer)this.propertiesFactory
.get(ILoadBalancer.class, config, this.name) : new ZoneAwareLoadBalancer(config, rule, ping, serverList, serverListFilter, serverListUpdater));
}
从这段代码 ,也可以看出,负载均衡器所需的主要配置项是IClientConfig, ServerList, ServerListFilter, IRule, IPing, ServerListUpdater。下面逐一分析他们。
IClientConfig 用于对客户端或者负载均衡的配置,它的默认实现类为 DefaultClientConfigImpl。
为LoadBalancer定义“负载均衡策略”的接口。
public interface IRule{
public Server choose(Object key);
public void setLoadBalancer(ILoadBalancer lb);
public ILoadBalancer getLoadBalancer();
}
IRule 的实现 依赖关系示意图如下:
定义如何 “ping” 服务器以检查其是否存活。
public interface IPing {
public boolean isAlive(Server server);
}
IPing 的实现 依赖关系示意图如下:
定义获取所有的服务实例清单。
public interface ServerList<T extends Server> {
public List<T> getInitialListOfServers();
public List<T> getUpdatedListOfServers();
}
ServerList 的实现 依赖关系示意图如下:
允许根据过滤配置动态获得的具有所需特性的候选服务器列表。
public interface ServerListFilter<T extends Server> {
public List<T> getFilteredListOfServers(List<T> servers);
}
ServerListFilter 的实现 依赖关系示意图如下:
用于执行动态服务器列表更新。
public interface ServerListUpdater {
public interface UpdateAction {
void doUpdate();
}
void start(UpdateAction updateAction);
void stop();
String getLastUpdate();
long getDurationSinceLastUpdateMs();
int getNumberMissedCycles();
int getCoreThreads();
}
ServerListUpdater 的实现 依赖关系示意图如下:
https://github.com/Netflix/ribbon/wiki
http://tech.lede.com/2018/01/11/rd/server/NetflixRibbon/
http://blog.didispace.com/springcloud-sourcecode-ribbon/
https://www.fangzhipeng.com/springcloud/2017/08/11/Ribbon-resources.html
https://blog.csdn.net/Tincox/article/details/79210309
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标签:代码 discover col 连接 ati 从服务器 stat src 下线。
原文地址:https://blog.51cto.com/13698036/2400071