背景
从昨日的两篇文章:SpringCloud源码:客户端分析(一)- SpringBootApplication注解类加载流程、SpringCloud源码:客户端分析(二)- 客户端源码分析。
我们理解了客户端的初始化,其实跟SpringBootApplication初始化机制息息相关,也和自动化配置类有关。
现在我们一起来分析下服务端的初始化流程,开始之前,我们先梳理下几个常用的框架注解。
@Import注解
作用:
导入一个或多个Bean
导入@Configuration类
导入ImportSelector的实现类
导入ImportBeanDefinitionRegistrar的实现类
使用前提:@Import必须要在@controller、@Service、@Component、@Configuration、@Repository修饰的类下,并且要在springboot扫描范围内,这些注解修饰的类默认是必须和springboot启动类同包才会被扫描到,当然也可以手动指定扫描包。
@EnableConfigurationProperties注解
后面跟着的,就是一个活多个配置类了。
参考:https://www.cnblogs.com/JavaYuYin/p/18060520
@ConditionalOnBean注解
跟@ConditionalOnMissingBean相反,@ConditionalOnBean注解是,如果有容器中有类,就注入备用类,如果没有类就不注入。
其他个性化加载配置
源码分析
@EnableEurekaServer注解:修饰启动类
@EnableEurekaServer
@SpringBootApplication
public class EurekaApplication {
public static void main(String[] args) {
SpringApplication.run(EurekaApplication.class, args);
}
}@EnableEurekaServer是一个启动类注解
@Target(ElementType.TYPE)
@Retention(RetentionPolicy.RUNTIME)
@Documented
@Import(EurekaServerMarkerConfiguration.class)
public @interface EnableEurekaServer {
}分析:
@Import(EurekaServerMarkerConfiguration.class):引入了 EurekaServerMarkerConfiguration资源类
EurekaServerMarkerConfiguration是一个标识配置类
EurekaServerMarkerConfiguration
@Configuration(proxyBeanMethods = false)
public class EurekaServerMarkerConfiguration {
@Bean
public Marker eurekaServerMarkerBean() {
return new Marker();
}
class Marker {
// 空类,没有任何定义
}
}分析:
@Configuration 和 @Bean 结合使用,添加了Marker对象到容器里
而Marker是一个空类,它的作用如其名,只是起到标识作用;
留下问题:那么Marker类在哪里起作用呢?通过全局搜索,知道在EurekaServerAutoConfiguration 注册中心的自动配置类有匹配到。
EurekaServerAutoConfiguration:自动装配类
@Configuration(proxyBeanMethods = false)
@Import(EurekaServerInitializerConfiguration.class)
@ConditionalOnBean(EurekaServerMarkerConfiguration.Marker.class)
@EnableConfigurationProperties({ EurekaDashboardProperties.class,
InstanceRegistryProperties.class })
@PropertySource("classpath:/eureka/server.properties")
public class EurekaServerAutoConfiguration implements WebMvcConfigurer {
// ...
}分析:
@ConditionalOnBean:容器存在EurekaServerMarkerConfiguration.Marker时,则进行 EurekaServerAutoConfiguration 的自动初始化装配
@EnableConfigurationProperties:加载特定的@Configuration类(EurekaDashboardProperties 和 InstanceRegistryProperties)
EurekaDashboardProperties:
InstanceRegistryProperties:
@Configuration + @Import:资源加载EurekaServerInitializerConfiguration配置类
@PropertySource:读取资源配置文件
从EurekaServerAutoConfiguration,我们发现有两条初始化EurekaServer相关组件的路线:@Import资源加载 和 @Bean初始化。
两条初始化路线
@Import资源加载:加载EurekaServerInitializerConfiguration.class,并执行start方法
执行eurekaServerBootstrap.contextInitialized
新建了一个剔除无效服务任务,并给线程池周期性执行
@Bean初始化:新建DefaultEurekaServerContext,并在初始化bean之后,执行@PostConstruct修饰的initialize()方法:
scheduleRenewalThresholdUpdateTask(),新建了一个续约线程,并给线程池周期性执行
新建了一个taskExecutor(单线程池),更新注册表线程updatePeerEurekaNodes,并给线程池周期性执行
peerEurekaNodes.start();
registry.init(peerEurekaNodes);
下面我将按照流程图来讲解两条路线的源码
路线一:@Import资源加载
加载的资源是EurekaServerInitializerConfiguration。
初始化配置类的整体流程如下
EurekaServerInitializerConfiguration
->EurekaServerInitializerConfiguration#start
->EurekaServerBootstrap#contextInitialized
->EurekaServerBootstrap#initEurekaServerContext
->PeerAwareInstanceRegistryImpl#syncUp
->PeerAwareInstanceRegistryImpl#openForTraffic
->AbstractInstanceRegistry#postInit
1、EurekaServerInitializerConfiguration#start
由上面的资源加载@Import,可以知道实现了SmartLifecycle接口,即Lifecycle接口。
@Configuration(proxyBeanMethods = false)
public class EurekaServerInitializerConfiguration
implements ServletContextAware, SmartLifecycle, Ordered {
@Override
public void start() {
new Thread(() -> {
try {
eurekaServerBootstrap.contextInitialized(EurekaServerInitializerConfiguration.this.servletContext);
log.info("Started Eureka Server");
publish(new EurekaRegistryAvailableEvent(getEurekaServerConfig()));
EurekaServerInitializerConfiguration.this.running = true;
publish(new EurekaServerStartedEvent(getEurekaServerConfig()));
}
catch (Exception ex) {
// Help!
log.error("Could not initialize Eureka servlet context", ex);
}
}).start();
}
}分析:
EurekaServerInitializerConfiguration的start()方法,是start启动方法
该方法会在,新建线程里,被触发执行
2、EurekaServerBootstrap#contextInitialized
public void contextInitialized(ServletContext context) {
try {
initEurekaEnvironment();
initEurekaServerContext();
context.setAttribute(EurekaServerContext.class.getName(), this.serverContext);
}
catch (Throwable e) {
log.error("Cannot bootstrap eureka server :", e);
throw new RuntimeException("Cannot bootstrap eureka server :", e);
}
}分析:
initEurekaServerContext():
3、EurekaServerBootstrap#initEurekaServerContext
protected void initEurekaServerContext() throws Exception {
// For backward compatibility
JsonXStream.getInstance().registerConverter(new V1AwareInstanceInfoConverter(),
XStream.PRIORITY_VERY_HIGH);
XmlXStream.getInstance().registerConverter(new V1AwareInstanceInfoConverter(),
XStream.PRIORITY_VERY_HIGH);
if (isAws(this.applicationInfoManager.getInfo())) {
this.awsBinder = new AwsBinderDelegate(this.eurekaServerConfig,
this.eurekaClientConfig, this.registry, this.applicationInfoManager);
this.awsBinder.start();
}
EurekaServerContextHolder.initialize(this.serverContext);
log.info("Initialized server context");
// Copy registry from neighboring eureka node
int registryCount = this.registry.syncUp();
this.registry.openForTraffic(this.applicationInfoManager, registryCount);
// Register all monitoring statistics.
EurekaMonitors.registerAllStats();
}分析:
注册JSON和XML序列化转换器以保持向后兼容性。
如果应用信息表明运行在AWS环境中,则初始化并启动AWS绑定代理。
初始化Eureka服务器上下文。
从邻近Eureka节点同步注册表数据,并打开流量:registry.syncUp():
注册所有监控统计信息:registry.openForTraffic:
4、PeerAwareInstanceRegistryImpl.syncUp()
public int syncUp() {
// Copy entire entry from neighboring DS node
int count = 0;
// 【1】serverConfig获取配置项(注册重试次数)
for (int i = 0; ((i < serverConfig.getRegistrySyncRetries()) && (count == 0)); i++) {
if (i > 0) {
try {
// 【2】serverConfig获取配置项(重试间隔),进行休眠
Thread.sleep(serverConfig.getRegistrySyncRetryWaitMs());
} catch (InterruptedException e) {
logger.warn("Interrupted during registry transfer..");
break;
}
}
Applications apps = eurekaClient.getApplications();
for (Application app : apps.getRegisteredApplications()) {
for (InstanceInfo instance : app.getInstances()) {
try {
if (isRegisterable(instance)) {
register(instance, instance.getLeaseInfo().getDurationInSecs(), true);
count++;
}
} catch (Throwable t) {
logger.error("During DS init copy", t);
}
}
}
}
return count;
}5、PeerAwareInstanceRegistryImpl#openForTraffic
@Override
public void openForTraffic(ApplicationInfoManager applicationInfoManager, int count) {
// Renewals happen every 30 seconds and for a minute it should be a factor of 2.
this.expectedNumberOfClientsSendingRenews = count;
updateRenewsPerMinThreshold();
logger.info("Got {} instances from neighboring DS node", count);
logger.info("Renew threshold is: {}", numberOfRenewsPerMinThreshold);
this.startupTime = System.currentTimeMillis();
if (count > 0) {
this.peerInstancesTransferEmptyOnStartup = false;
}
DataCenterInfo.Name selfName = applicationInfoManager.getInfo().getDataCenterInfo().getName();
boolean isAws = Name.Amazon == selfName;
if (isAws && serverConfig.shouldPrimeAwsReplicaConnections()) {
logger.info("Priming AWS connections for all replicas..");
primeAwsReplicas(applicationInfoManager);
}
logger.info("Changing status to UP");
// 将当前的EurekaServer上线
applicationInfoManager.setInstanceStatus(InstanceStatus.UP);
super.postInit();
}6、AbstractInstanceRegistry#postInit
private Timer evictionTimer = new Timer("Eureka-EvictionTimer", true);
private final AtomicReference<EvictionTask> evictionTaskRef = new AtomicReference<EvictionTask>();
protected void postInit() {
renewsLastMin.start();
if (evictionTaskRef.get() != null) {
evictionTaskRef.get().cancel();
}
evictionTaskRef.set(new EvictionTask());
//【1】剔除任务执行
evictionTimer.schedule(evictionTaskRef.get(),
serverConfig.getEvictionIntervalTimerInMs(),
serverConfig.getEvictionIntervalTimerInMs());
}
class EvictionTask extends TimerTask {
private final AtomicLong lastExecutionNanosRef = new AtomicLong(0l);
@Override
public void run() {
try {
long compensationTimeMs = getCompensationTimeMs();
logger.info("Running the evict task with compensationTime {}ms", compensationTimeMs);
// 剔除任务
evict(compensationTimeMs);
} catch (Throwable e) {
logger.error("Could not run the evict task", e);
}
}
}
public void evict(long additionalLeaseMs) {
logger.debug("Running the evict task");
// 【1】判断是否进行剔除操作
if (!isLeaseExpirationEnabled()) {
logger.debug("DS: lease expiration is currently disabled.");
return;
}
// 【2】遍历注册服务列表
List<Lease<InstanceInfo>> expiredLeases = new ArrayList<>();
for (Entry<String, Map<String, Lease<InstanceInfo>>> groupEntry : registry.entrySet()) {
Map<String, Lease<InstanceInfo>> leaseMap = groupEntry.getValue();
if (leaseMap != null) {
for (Entry<String, Lease<InstanceInfo>> leaseEntry : leaseMap.entrySet()) {
Lease<InstanceInfo> lease = leaseEntry.getValue();
if (lease.isExpired(additionalLeaseMs) && lease.getHolder() != null) {
expiredLeases.add(lease);
}
}
}
}
int registrySize = (int) getLocalRegistrySize();
int registrySizeThreshold = (int) (registrySize * serverConfig.getRenewalPercentThreshold());
int evictionLimit = registrySize - registrySizeThreshold;
// 【3】从失效租约数量,和失效最大限制里,取最小值
int toEvict = Math.min(expiredLeases.size(), evictionLimit);
if (toEvict > 0) {
logger.info("Evicting {} items (expired={}, evictionLimit={})", toEvict, expiredLeases.size(), evictionLimit);
Random random = new Random(System.currentTimeMillis());
// 【4】循环剔除
for (int i = 0; i < toEvict; i++) {
// 【5】随机从expiredLeases里剔除
int next = i + random.nextInt(expiredLeases.size() - i);
Collections.swap(expiredLeases, i, next);
Lease<InstanceInfo> lease = expiredLeases.get(i);
String appName = lease.getHolder().getAppName();
String id = lease.getHolder().getId();
EXPIRED.increment();
logger.warn("DS: Registry: expired lease for {}/{}", appName, id);
// 【6】剔除服务名
internalCancel(appName, id, false);
}
}
}
protected boolean internalCancel(String appName, String id, boolean isReplication) {
read.lock();
try {
CANCEL.increment(isReplication);
// 【7】找到注册服务信息
Map<String, Lease<InstanceInfo>> gMap = registry.get(appName);
Lease<InstanceInfo> leaseToCancel = null;
if (gMap != null) {
// 【8】找到租约
leaseToCancel = gMap.remove(id);
}
//....
if (leaseToCancel == null) {
CANCEL_NOT_FOUND.increment(isReplication);
logger.warn("DS: Registry: cancel failed because Lease is not registered for: {}/{}", appName, id);
return false;
} else {
// 【9】租约取消
leaseToCancel.cancel();
// 【10】找到取消的实例信息
InstanceInfo instanceInfo = leaseToCancel.getHolder();
String vip = null;
String svip = null;
if (instanceInfo != null) {
instanceInfo.setActionType(ActionType.DELETED);
recentlyChangedQueue.add(new RecentlyChangedItem(leaseToCancel));
instanceInfo.setLastUpdatedTimestamp();
vip = instanceInfo.getVIPAddress();
svip = instanceInfo.getSecureVipAddress();
}
// 【11】取消实例信息、vip区域、svip区域
invalidateCache(appName, vip, svip);
logger.info("Cancelled instance {}/{} (replication={})", appName, id, isReplication);
}
} finally {
read.unlock();
}
synchronized (lock) {
if (this.expectedNumberOfClientsSendingRenews > 0) {
// Since the client wants to cancel it, reduce the number of clients to send renews.
this.expectedNumberOfClientsSendingRenews = this.expectedNumberOfClientsSendingRenews - 1;
updateRenewsPerMinThreshold();
}
}
return true;
}
protected boolean internalCancel(String appName, String id, boolean isReplication) {
read.lock();
try {
CANCEL.increment(isReplication);
Map<String, Lease<InstanceInfo>> gMap = registry.get(appName);
Lease<InstanceInfo> leaseToCancel = null;
if (gMap != null) {
leaseToCancel = gMap.remove(id);
}
recentCanceledQueue.add(new Pair<Long, String>(System.currentTimeMillis(), appName + "(" + id + ")"));
InstanceStatus instanceStatus = overriddenInstanceStatusMap.remove(id);
if (instanceStatus != null) {
logger.debug("Removed instance id {} from the overridden map which has value {}", id, instanceStatus.name());
}
if (leaseToCancel == null) {
CANCEL_NOT_FOUND.increment(isReplication);
logger.warn("DS: Registry: cancel failed because Lease is not registered for: {}/{}", appName, id);
return false;
} else {
leaseToCancel.cancel();
InstanceInfo instanceInfo = leaseToCancel.getHolder();
String vip = null;
String svip = null;
if (instanceInfo != null) {
instanceInfo.setActionType(ActionType.DELETED);
recentlyChangedQueue.add(new RecentlyChangedItem(leaseToCancel));
instanceInfo.setLastUpdatedTimestamp();
vip = instanceInfo.getVIPAddress();
svip = instanceInfo.getSecureVipAddress();
}
invalidateCache(appName, vip, svip);
logger.info("Cancelled instance {}/{} (replication={})", appName, id, isReplication);
}
} finally {
read.unlock();
}
synchronized (lock) {
if (this.expectedNumberOfClientsSendingRenews > 0) {
// Since the client wants to cancel it, reduce the number of clients to send renews.
this.expectedNumberOfClientsSendingRenews = this.expectedNumberOfClientsSendingRenews - 1;
updateRenewsPerMinThreshold();
}
}
return true;
}分析:
evictionTimer定时启动任务EvictionTask,即剔除任务
路线二:@Bean 初始化 DefaultEurekaServerContext
@Bean初始化:new DefaultEurekaServerContext
@Configuration(proxyBeanMethods = false)
@Import(EurekaServerInitializerConfiguration.class)
@ConditionalOnBean(EurekaServerMarkerConfiguration.Marker.class)
@EnableConfigurationProperties({ EurekaDashboardProperties.class,
InstanceRegistryProperties.class })
@PropertySource("classpath:/eureka/server.properties")
public class EurekaServerAutoConfiguration implements WebMvcConfigurer {
@Bean
@ConditionalOnMissingBean
public EurekaServerContext eurekaServerContext(ServerCodecs serverCodecs,
PeerAwareInstanceRegistry registry, PeerEurekaNodes peerEurekaNodes) {
return new DefaultEurekaServerContext(
this.eurekaServerConfig, serverCodecs, registry, peerEurekaNodes, this.applicationInfoManager);
}
}DefaultEurekaServerContext#initialize
在DefaultEurekaServerContext接口可以看到@PostConstruct修饰了initialize()方法,那么跟着初始化。
@PostConstruct
@Override
public void initialize() {
logger.info("Initializing ...");
peerEurekaNodes.start();
try {
registry.init(peerEurekaNodes);
} catch (Exception e) {
throw new RuntimeException(e);
}
logger.info("Initialized");
}代码分析:
- 步骤【1】peerEurekaNodes.start():启动peerEurekaNodes。
- 步骤【2】registry.init(peerEurekaNodes):尝试初始化registry,参数为peerEurekaNodes。
步骤【1】:PeerEurekaNodes#start
public void start() {
// 【1】初始化单线程池
taskExecutor = Executors.newSingleThreadScheduledExecutor(
new ThreadFactory() {
@Override
public Thread newThread(Runnable r) {
Thread thread = new Thread(r, "Eureka-PeerNodesUpdater");
thread.setDaemon(true);
return thread;
}
}
);
try {
updatePeerEurekaNodes(resolvePeerUrls());
// 【2】初始化任务
Runnable peersUpdateTask = new Runnable() {
@Override
public void run() {
try {
// 【2.1】任务的详情,就是更新Eureka节点信息
updatePeerEurekaNodes(resolvePeerUrls());
} catch (Throwable e) {
logger.error("Cannot update the replica Nodes", e);
}
}
};
// 【3】线程池执行任务
taskExecutor.scheduleWithFixedDelay(
peersUpdateTask,
serverConfig.getPeerEurekaNodesUpdateIntervalMs(),
serverConfig.getPeerEurekaNodesUpdateIntervalMs(),
TimeUnit.MILLISECONDS
);
} catch (Exception e) {
throw new IllegalStateException(e);
}
for (PeerEurekaNode node : peerEurekaNodes) {
logger.info("Replica node URL: {}", node.getServiceUrl());
}
}代码分析:
- 新建了一个定时任务,用单线程池周期性去执行。
步骤【2】:PeerAwareInstanceRegistryImpl#init
@Override
public void init(PeerEurekaNodes peerEurekaNodes) throws Exception {
this.numberOfReplicationsLastMin.start();
this.peerEurekaNodes = peerEurekaNodes;
//【1】
initializedResponseCache();
//【2】
scheduleRenewalThresholdUpdateTask();
//【3】
initRemoteRegionRegistry();
try {
Monitors.registerObject(this);
} catch (Throwable e) {
logger.warn("Cannot register the JMX monitor for the InstanceRegistry :", e);
}
}分析:
【1】缓存相关的初始化信息: initializedResponseCache();
【2】更新续约的阀值:scheduleRenewalThresholdUpdateTask();
【3】初始化远程区域注册表:initRemoteRegionRegistry();
[1]缓存相关的初始化信息 initializedResponseCache
@Override
public synchronized void initializedResponseCache() {
if (responseCache == null) {
responseCache = new ResponseCacheImpl(serverConfig, serverCodecs, this);
}
}分析:
最终new了一个ResponseCacheImpl类
查看一下ResponseCacheImpl的构造器
private final ConcurrentMap<Key, Value> readOnlyCacheMap = new ConcurrentHashMap<Key, Value>();
private final java.util.Timer timer = new java.util.Timer("Eureka-CacheFillTimer", true);
private final LoadingCache<Key, Value> readWriteCacheMap;
ResponseCacheImpl(EurekaServerConfig serverConfig, ServerCodecs serverCodecs, AbstractInstanceRegistry registry) {
// 【1】
this.serverConfig = serverConfig;
this.serverCodecs = serverCodecs;
this.shouldUseReadOnlyResponseCache = serverConfig.shouldUseReadOnlyResponseCache();
// 【2】
this.registry = registry;
long responseCacheUpdateIntervalMs = serverConfig.getResponseCacheUpdateIntervalMs();
// 【3】
this.readWriteCacheMap =
CacheBuilder.newBuilder()
.initialCapacity(serverConfig.getInitialCapacityOfResponseCache())
.expireAfterWrite(serverConfig.getResponseCacheAutoExpirationInSeconds(), TimeUnit.SECONDS)
.removalListener(new RemovalListener<Key, Value>() {
@Override
public void onRemoval(RemovalNotification<Key, Value> notification) {
Key removedKey = notification.getKey();
if (removedKey.hasRegions()) {
Key cloneWithNoRegions = removedKey.cloneWithoutRegions();
regionSpecificKeys.remove(cloneWithNoRegions, removedKey);
}
}
})
.build(new CacheLoader<Key, Value>() {
@Override
public Value load(Key key) throws Exception {
if (key.hasRegions()) {
Key cloneWithNoRegions = key.cloneWithoutRegions();
regionSpecificKeys.put(cloneWithNoRegions, key);
}
Value value = generatePayload(key);
return value;
}
});
// 【4】
if (shouldUseReadOnlyResponseCache) {
timer.schedule(getCacheUpdateTask(),
new Date(((System.currentTimeMillis() / responseCacheUpdateIntervalMs) * responseCacheUpdateIntervalMs)
+ responseCacheUpdateIntervalMs),
responseCacheUpdateIntervalMs);
}
try {
Monitors.registerObject(this);
} catch (Throwable e) {
logger.warn("Cannot register the JMX monitor for the InstanceRegistry", e);
}
}
private TimerTask getCacheUpdateTask() {
return new TimerTask() {
@Override
public void run() {
logger.debug("Updating the client cache from response cache");
for (Key key : readOnlyCacheMap.keySet()) {
if (logger.isDebugEnabled()) {
logger.debug("Updating the client cache from response cache for key : {} {} {} {}",
key.getEntityType(), key.getName(), key.getVersion(), key.getType());
}
try {
CurrentRequestVersion.set(key.getVersion());
Value cacheValue = readWriteCacheMap.get(key);
Value currentCacheValue = readOnlyCacheMap.get(key);
if (cacheValue != currentCacheValue) {
readOnlyCacheMap.put(key, cacheValue);
}
} catch (Throwable th) {
logger.error("Error while updating the client cache from response cache for key {}", key.toStringCompact(), th);
} finally {
CurrentRequestVersion.remove();
}
}
}
};
}分析:
【1】serverConfig:是配置类,专门读取“eureka.server”开头的配置项
useReadOnlyResponseCache:默认是true,是否开启缓存 配置参数:eureka.server.use-read-only-response-cache
responseCacheUpdateIntervalMs:默认30 * 1000ms,如果开启缓存,缓存多少时间同步一次。配置参数:eureka.server.response-cache-update-interval-ms
initialCapacityOfResponseCache:默认1000
responseCacheAutoExpirationInSeconds:默认180
【2】注册器赋值
【3】实例信息保存在LoadingCache里
【4】新建了一个定时任务,启动了一个名为Eureka-CacheFillTimer的定时更新缓存任务
[2]更新续约的阈值 initializedResponseCache
private void scheduleRenewalThresholdUpdateTask() {
timer.schedule(new TimerTask() {
@Override
public void run() {
updateRenewalThreshold();
}
}, serverConfig.getRenewalThresholdUpdateIntervalMs(),
serverConfig.getRenewalThresholdUpdateIntervalMs());
}
private void updateRenewalThreshold() {
try {
Applications apps = eurekaClient.getApplications();
int count = 0;
for (Application app : apps.getRegisteredApplications()) {
for (InstanceInfo instance : app.getInstances()) {
if (this.isRegisterable(instance)) {
++count;
}
}
}
synchronized (lock) {
// Update threshold only if the threshold is greater than the
// current expected threshold or if self preservation is disabled.
if ((count) > (serverConfig.getRenewalPercentThreshold() * expectedNumberOfClientsSendingRenews)
|| (!this.isSelfPreservationModeEnabled())) {
this.expectedNumberOfClientsSendingRenews = count;
updateRenewsPerMinThreshold();
}
}
logger.info("Current renewal threshold is : {}", numberOfRenewsPerMinThreshold);
} catch (Throwable e) {
logger.error("Cannot update renewal threshold", e);
}
}代码分析
新建了一个定时任务,并用定时器周期性去执行
获取所有注册的应用实例信息。
统计符合条件的可注册实例数量。
在同步锁内,若统计数量大于当前预期阈值或自我保护模式未启用,则更新预期发送心跳的客户端数量,并重新计算心跳阈值。
记录更新后的心跳阈值日志。
步骤【2】initializedResponseCache 最终启动了一个RenewalThresholdTask
小结
后台启动了三个Timer定时线程
EurekaServerInitializerConfiguration#start
启动一个定时任务:周期执行EvictionTask
功能:清理过期的注册信息。
DefaultEurekaServerContext的@Bean初始化过程
启动了一个定时任务:CacheUpdateTask
功能:自动过期缓存中的响应。(Eureka Server 维护了一个响应缓存,用于存储客户端请求的结果以提高性能。这个定时任务负责定期使缓存中的条目过期,以确保缓存数据的新鲜度)
启动了一个定时任务:RenewalThresholdTask
功能:更新续约阈值(这个阈值是基于最近一段时间内收到的续约请求数量动态计算的)
总结
Eureka Client的续约机制是确保服务注册信息准确性的关键,通过定时向Eureka Server发送续约请求,Eureka Client能够有效地维护其在服务注册表中的状态。
同时,Eureka Server通过监控续约情况,及时剔除不活跃的服务实例,保证了服务发现的可靠性。
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