• 【一起学源码-微服务】Ribbon 源码三:Ribbon与Eureka整合原理分析


    前言

    前情回顾

    上一篇讲了Ribbon的初始化过程,从LoadBalancerAutoConfigurationRibbonAutoConfiguration 再到RibbonClientConfiguration,我们找到了ILoadBalancer默认初始化的对象等。

    本讲目录

    这一讲我们会进一步往下探究Ribbon和Eureka是如何结合的。

    通过上一讲ILoadBalancer 我们已经可以拿到一个服务所有的服务节点信息了,这里面是怎么把服务的名称转化为对应的具体host请求信息的呢?

    通过这一讲 我们来一探究竟

    目录如下:

    1. EurekaClientAutoConfiguration.getLoadBalancer()回顾
    2. 再次梳理Ribbon初始化过程
    3. ServerList实现类初始化过程
    4. getUpdatedListOfServers()获取注册表列表分析
    5. ribbon如何更新自己保存的注册表信息?

    说明

    原创不易,如若转载 请标明来源!

    博客地址:一枝花算不算浪漫
    微信公众号:壹枝花算不算浪漫

    源码阅读

    EurekaClientAutoConfiguration.getLoadBalancer()回顾

    上一讲我们已经深入的讲解过getLoadBalancer() 方法的实现,每个serviceName都对应一个自己的SpringContext上下文信息,然后通过ILoadBalancer.class从上下文信息中获取默认的LoadBalancer:ZoneAwareLoadBalancer, 我们看下这个类的构造函数:

    public ZoneAwareLoadBalancer(IClientConfig clientConfig, IRule rule,
                                 IPing ping, ServerList<T> serverList, ServerListFilter<T> filter,
                                 ServerListUpdater serverListUpdater) {
        super(clientConfig, rule, ping, serverList, filter, serverListUpdater);
    }
    

    继续跟父类DynamicServerListLoadBalancer的初始化方法:

    public class DynamicServerListLoadBalancer<T extends Server> extends BaseLoadBalancer {
    	volatile ServerList<T> serverListImpl;
    
    	volatile ServerListFilter<T> filter;
    
    	public DynamicServerListLoadBalancer(IClientConfig clientConfig, IRule rule, IPing ping,
    	                                     ServerList<T> serverList, ServerListFilter<T> filter,
    	                                     ServerListUpdater serverListUpdater) {
    	    super(clientConfig, rule, ping);
    	    this.serverListImpl = serverList;
    	    this.filter = filter;
    	    this.serverListUpdater = serverListUpdater;
    	    if (filter instanceof AbstractServerListFilter) {
    	        ((AbstractServerListFilter) filter).setLoadBalancerStats(getLoadBalancerStats());
    	    }
    	    restOfInit(clientConfig);
    	}
    
    	void restOfInit(IClientConfig clientConfig) {
    	    boolean primeConnection = this.isEnablePrimingConnections();
    	    // turn this off to avoid duplicated asynchronous priming done in BaseLoadBalancer.setServerList()
    	    this.setEnablePrimingConnections(false);
    	    enableAndInitLearnNewServersFeature();
    
    	    updateListOfServers();
    	    if (primeConnection && this.getPrimeConnections() != null) {
    	        this.getPrimeConnections()
    	                .primeConnections(getReachableServers());
    	    }
    	    this.setEnablePrimingConnections(primeConnection);
    	    LOGGER.info("DynamicServerListLoadBalancer for client {} initialized: {}", clientConfig.getClientName(), this.toString());
    	}
    
    	@VisibleForTesting
    	public void updateListOfServers() {
    	    List<T> servers = new ArrayList<T>();
    	    if (serverListImpl != null) {
    	        servers = serverListImpl.getUpdatedListOfServers();
    	        LOGGER.debug("List of Servers for {} obtained from Discovery client: {}",
    	                getIdentifier(), servers);
    
    	        if (filter != null) {
    	            servers = filter.getFilteredListOfServers(servers);
    	            LOGGER.debug("Filtered List of Servers for {} obtained from Discovery client: {}",
    	                    getIdentifier(), servers);
    	        }
    	    }
    	    updateAllServerList(servers);
    	}
    }
    

    构造方法中有个restOfInit()方法,进去后又会有updateListOfServers() 方法,看方法名就知道这个肯定是和server注册表相关的,继续往后看,servers = serverListImpl.getUpdatedListOfServers();,这里直接调用getUpdatedListOfServers()就获取到了所有的注册表信息。

    0.jpeg

    可以看到ServerList有四个实现类,这个到底是该调用哪个实现类的getUpdatedListOfServers()方法呢?接着往下看。

    再次梳理Ribbon初始化过程

    第二讲我们已经见过Ribbon的初始化过程,并画了图整理,这里针对于之前的图再更新一下:

    这里主要是增加了RibbonEurekaAutoConfigurationEurekaRibbonClientConfiguration两个配置类的初始化。

    ServerList实现类初始化过程

    上面已经梳理过 Ribbon初始化的过程,其中在EurekaRibbonClientConfiguration 会初始化RibbonServerList,代码如下:

    @Configuration
    	public class EurekaRibbonClientConfiguration {
    	@Bean
    	@ConditionalOnMissingBean
    	public ServerList<?> ribbonServerList(IClientConfig config, Provider<EurekaClient> eurekaClientProvider) {
    		if (this.propertiesFactory.isSet(ServerList.class, serviceId)) {
    			return this.propertiesFactory.get(ServerList.class, config, serviceId);
    		}
    		DiscoveryEnabledNIWSServerList discoveryServerList = new DiscoveryEnabledNIWSServerList(
    				config, eurekaClientProvider);
    		DomainExtractingServerList serverList = new DomainExtractingServerList(
    				discoveryServerList, config, this.approximateZoneFromHostname);
    		return serverList;
    	}
    }
    

    这里实际的ServerList实际就是DiscoveryEnabledNIWSServerList,我们看下这个类:

    public class DiscoveryEnabledNIWSServerList extends AbstractServerList<DiscoveryEnabledServer>{
    
    }
    
    public abstract class AbstractServerList<T extends Server> implements ServerList<T>, IClientConfigAware {
    
    }
    

    所以可以看出来ServerList 实际就是在这里进行初始化的,上面那个serverListImpl.getUpdatedListOfServers();即为调用DiscoveryEnabledNIWSServerList.getUpdatedListOfServers() 方法了,继续往下看。

    getUpdatedListOfServers()获取注册表分析

    直接看DiscoveryEnabledNIWSServerList.getUpdatedListOfServers()源代码:

    @Override
    public List<DiscoveryEnabledServer> getUpdatedListOfServers(){
        return obtainServersViaDiscovery();
    }
    
    private List<DiscoveryEnabledServer> obtainServersViaDiscovery() {
        List<DiscoveryEnabledServer> serverList = new ArrayList<DiscoveryEnabledServer>();
    
        if (eurekaClientProvider == null || eurekaClientProvider.get() == null) {
            logger.warn("EurekaClient has not been initialized yet, returning an empty list");
            return new ArrayList<DiscoveryEnabledServer>();
        }
    
        EurekaClient eurekaClient = eurekaClientProvider.get();
        if (vipAddresses!=null){
            for (String vipAddress : vipAddresses.split(",")) {
                // if targetRegion is null, it will be interpreted as the same region of client
                List<InstanceInfo> listOfInstanceInfo = eurekaClient.getInstancesByVipAddress(vipAddress, isSecure, targetRegion);
                for (InstanceInfo ii : listOfInstanceInfo) {
                    if (ii.getStatus().equals(InstanceStatus.UP)) {
    
                        if(shouldUseOverridePort){
                            if(logger.isDebugEnabled()){
                                logger.debug("Overriding port on client name: " + clientName + " to " + overridePort);
                            }
    
                            // copy is necessary since the InstanceInfo builder just uses the original reference,
                            // and we don't want to corrupt the global eureka copy of the object which may be
                            // used by other clients in our system
                            InstanceInfo copy = new InstanceInfo(ii);
    
                            if(isSecure){
                                ii = new InstanceInfo.Builder(copy).setSecurePort(overridePort).build();
                            }else{
                                ii = new InstanceInfo.Builder(copy).setPort(overridePort).build();
                            }
                        }
    
                        DiscoveryEnabledServer des = new DiscoveryEnabledServer(ii, isSecure, shouldUseIpAddr);
                        des.setZone(DiscoveryClient.getZone(ii));
                        serverList.add(des);
                    }
                }
                if (serverList.size()>0 && prioritizeVipAddressBasedServers){
                    break; // if the current vipAddress has servers, we dont use subsequent vipAddress based servers
                }
            }
        }
        return serverList;
    }
    

    看到这里代码就已经很明显了,我们来解读下这段代码:

    1. 通过eurekaClientProvider获取对应EurekaClient
    2. 通过vipAdress(实际就是serviceName)获取对应注册表集合信息
    3. 将注册信息组装成DiscoveryEnabledServer列表

    再回到DynamicServerListLoadBalancer.updateListOfServers() 中,这里获取到对应的DiscoveryEnabledServer list后调用updateAllServerList()方法,一路跟踪这里最终会调用BaseLoadBalancer.setServersList()

    public class BaseLoadBalancer extends AbstractLoadBalancer implements
            PrimeConnections.PrimeConnectionListener, IClientConfigAware {
    
    	@Monitor(name = PREFIX + "AllServerList", type = DataSourceType.INFORMATIONAL)
        protected volatile List<Server> allServerList = Collections
                .synchronizedList(new ArrayList<Server>());
                
    	public void setServersList(List lsrv) {
    	    Lock writeLock = allServerLock.writeLock();
    	    logger.debug("LoadBalancer [{}]: clearing server list (SET op)", name);
    	    
    	    ArrayList<Server> newServers = new ArrayList<Server>();
    	    writeLock.lock();
    	    try {
    	        ArrayList<Server> allServers = new ArrayList<Server>();
    	        for (Object server : lsrv) {
    	            if (server == null) {
    	                continue;
    	            }
    
    	            if (server instanceof String) {
    	                server = new Server((String) server);
    	            }
    
    	            if (server instanceof Server) {
    	                logger.debug("LoadBalancer [{}]:  addServer [{}]", name, ((Server) server).getId());
    	                allServers.add((Server) server);
    	            } else {
    	                throw new IllegalArgumentException(
    	                        "Type String or Server expected, instead found:"
    	                                + server.getClass());
    	            }
    
    	        }
    	        boolean listChanged = false;
    	        if (!allServerList.equals(allServers)) {
    	            listChanged = true;
    	            if (changeListeners != null && changeListeners.size() > 0) {
    	               List<Server> oldList = ImmutableList.copyOf(allServerList);
    	               List<Server> newList = ImmutableList.copyOf(allServers);                   
    	               for (ServerListChangeListener l: changeListeners) {
    	                   try {
    	                       l.serverListChanged(oldList, newList);
    	                   } catch (Exception e) {
    	                       logger.error("LoadBalancer [{}]: Error invoking server list change listener", name, e);
    	                   }
    	               }
    	            }
    	        }
    	        if (isEnablePrimingConnections()) {
    	            for (Server server : allServers) {
    	                if (!allServerList.contains(server)) {
    	                    server.setReadyToServe(false);
    	                    newServers.add((Server) server);
    	                }
    	            }
    	            if (primeConnections != null) {
    	                primeConnections.primeConnectionsAsync(newServers, this);
    	            }
    	        }
    	        // This will reset readyToServe flag to true on all servers
    	        // regardless whether
    	        // previous priming connections are success or not
    	        allServerList = allServers;
    	        if (canSkipPing()) {
    	            for (Server s : allServerList) {
    	                s.setAlive(true);
    	            }
    	            upServerList = allServerList;
    	        } else if (listChanged) {
    	            forceQuickPing();
    	        }
    	    } finally {
    	        writeLock.unlock();
    	    }
    	}
    }
    

    这个过程最后用一张图总结为:

    ribbon如何更新自己保存的注册表信息?

    上面已经讲了 Ribbon是如何通过serviceName拉取到注册表的,我们知道EurekaClient默认是30s拉取一次注册表信息的,因为Ribbon要关联注册表信息,那么Ribbon该如何更新自己存储的注册表信息呢?

    继续回到DynamicSeverListLoadBalancer.restOfInit()方法中:

    public class DynamicServerListLoadBalancer<T extends Server> extends BaseLoadBalancer {
    
    	protected volatile ServerListUpdater serverListUpdater;
    
    	void restOfInit(IClientConfig clientConfig) {
    	    boolean primeConnection = this.isEnablePrimingConnections();
    	    // turn this off to avoid duplicated asynchronous priming done in BaseLoadBalancer.setServerList()
    	    this.setEnablePrimingConnections(false);
    	    enableAndInitLearnNewServersFeature();
    
    	    updateListOfServers();
    	    if (primeConnection && this.getPrimeConnections() != null) {
    	        this.getPrimeConnections()
    	                .primeConnections(getReachableServers());
    	    }
    	    this.setEnablePrimingConnections(primeConnection);
    	    LOGGER.info("DynamicServerListLoadBalancer for client {} initialized: {}", clientConfig.getClientName(), this.toString());
    	}
    
    	public void enableAndInitLearnNewServersFeature() {
    	    LOGGER.info("Using serverListUpdater {}", serverListUpdater.getClass().getSimpleName());
    	    serverListUpdater.start(updateAction);
    	}
    }
    

    重点查看enableAndInitLearnNewServersFeature()方法,从名字我们就可以看出来这意思为激活和初始化学习新服务的功能,这里实际上就启动serverListUpdater中的一个线程。

    在最上面Ribbon初始化的过程中我们知道,在RibbonClientConfiguration中默认初始化的ServerListUpdaterPollingServreListUpdater,我们继续跟这个类的start方法:

    @Override
    public synchronized void start(final UpdateAction updateAction) {
        if (isActive.compareAndSet(false, true)) {
            final Runnable wrapperRunnable = new Runnable() {
                @Override
                public void run() {
                    if (!isActive.get()) {
                        if (scheduledFuture != null) {
                            scheduledFuture.cancel(true);
                        }
                        return;
                    }
                    try {
                        updateAction.doUpdate();
                        lastUpdated = System.currentTimeMillis();
                    } catch (Exception e) {
                        logger.warn("Failed one update cycle", e);
                    }
                }
            };
    
            scheduledFuture = getRefreshExecutor().scheduleWithFixedDelay(
                    wrapperRunnable,
                    initialDelayMs,
                    refreshIntervalMs,
                    TimeUnit.MILLISECONDS
            );
        } else {
            logger.info("Already active, no-op");
        }
    }
    

    这里只要是执行updateAction.doUpdate();,然后后面启动了一个调度任务,默认30s执行一次。

    继续往后跟doUpdate()方法:

    public class DynamicServerListLoadBalancer<T extends Server> extends BaseLoadBalancer {
    	protected final ServerListUpdater.UpdateAction updateAction = new ServerListUpdater.UpdateAction() {
    	    @Override
    	    public void doUpdate() {
    	        updateListOfServers();
    	    }
    	};
    }
    

    这里又调用了之前通过serviceName获取对应注册服务列表的方法了。

    总结到一张图如下:

    注册表服务

    总结

    本文主要是重新梳理了Ribbon的初始化过程,主要是几个Configure初始化的过程,然后是Ribbon与Eureka的整合,这里也涉及到了注册表的更新逻辑。

    看到这里真是被Spring的各种AutoConfigure绕晕了,哈哈,但是最后分析完 还是觉得挺清晰的,对于复杂的业务画张流程图还挺容易理解的。

    申明

    本文章首发自本人博客:https://www.cnblogs.com/wang-meng 和公众号:壹枝花算不算浪漫,如若转载请标明来源!

    感兴趣的小伙伴可关注个人公众号:壹枝花算不算浪漫

    22.jpg

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  • 原文地址:https://www.cnblogs.com/wang-meng/p/12159782.html
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