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分布式apollo简介

Apollo(阿波罗)是携程框架部门研发的开源配置管理中心,能够集中化管理应用不同环境、不同集群的配置,配置修改后能够实时推送到应用端,并且具备规范的权限、流程治理等特性。

本文主要介绍如何使用apollo与springboot实现动态刷新配置,如果之前不了解apollo可以查看如下文档

https://github.com/ctripcorp/apollo

学习了解一下apollo,再来查看本文

正文

apollo与spring实现动态刷新配置本文主要演示2种刷新,一种基于普通字段刷新、一种基于bean上使用了@ConfigurationProperties刷新

1、普通字段刷新

a、pom.xml配置

        <dependency>
            <groupId>com.ctrip.framework.apollo</groupId>
            <artifactId>apollo-client</artifactId>
            <version>1.6.0</version>
        </dependency>

b、客户端配置AppId,Apollo Meta Server

此配置有多种方法,本示例直接在application.yml配置,配置内容如下

app:
  id: ${spring.application.name}
apollo:
  meta: http://192.168.88.128:8080,http://192.168.88.129:8080
  bootstrap:
    enabled: true
    eagerLoad:
      enabled: true

c、项目中启动类上加上@EnableApolloConfig注解,形如下

@SpringBootApplication
@EnableApolloConfig(value = {"application","user.properties","product.properties","order.properties"})
public class ApolloApplication {

	public static void main(String[] args) {

		SpringApplication.run(ApolloApplication.class, args);
	}

}

@EnableApolloConfig不一定要加在启动类上,加在被spring管理的类上即可

d、在需刷新的字段上配置@Value注解,形如

    @Value("${hello}")
    private String hello;

通过以上三步就可以实现普通字段的动态刷新

2.bean使用@ConfigurationProperties动态刷新

bean使用@ConfigurationProperties注解目前还不支持自动刷新,得编写一定的代码实现刷新。目前官方提供2种刷新方案

  • 基于RefreshScope实现刷新
  • 基于EnvironmentChangeEvent实现刷新
  • 本文再提供一种,当bean上如果使用了@ConditionalOnProperty如何实现刷新

a、基于RefreshScope实现刷新

1、pom.xml要额外引入

    <dependency>
            <groupId>org.springframework.cloud</groupId>
            <artifactId>spring-cloud-context</artifactId>
            <version>2.0.3.RELEASE</version>
        </dependency>

2、bean上使用@RefreshScope注解

@Component
@ConfigurationProperties(prefix = "product")
@Data
@AllArgsConstructor
@NoArgsConstructor
@Builder
@RefreshScope
public class Product {

    private Long id;

    private String productName;

    private BigDecimal price;

}

3、利用RefreshScope搭配@ApolloConfigChangeListener监听实现bean的动态刷新,其代码实现如下

 @ApolloConfigChangeListener(value="product.properties",interestedKeyPrefixes = {"product."})
    private void refresh(ConfigChangeEvent changeEvent){

        refreshScope.refresh("product");

        PrintChangeKeyUtils.printChange(changeEvent);
    }

b、基于EnvironmentChangeEvent实现刷新

利用spring的事件驱动配合@ApolloConfigChangeListener监听实现bean的动态刷新,其代码如下

@Component
@Slf4j
public class UserPropertiesRefresh implements ApplicationContextAware {

    private ApplicationContext applicationContext;

    @ApolloConfigChangeListener(value="user.properties",interestedKeyPrefixes = {"user."})
    private void refresh(ConfigChangeEvent changeEvent){
        applicationContext.publishEvent(new EnvironmentChangeEvent(changeEvent.changedKeys()));

        PrintChangeKeyUtils.printChange(changeEvent);
    }

    @Override
    public void setApplicationContext(ApplicationContext applicationContext) throws BeansException {
        this.applicationContext = applicationContext;
    }

}

c、当bean上有@ConditionalOnProperty如何实现刷新

当bean上有@ConditionalOnProperty注解时,上述的两种方案可以说失效了,因为@ConditionalOnProperty是一个条件注解,当不满足条件注解时,bean是没法注册到spring容器中的。如果我们要实现此种情况的下的动态刷新,我们就得自己手动注册或者销毁bean了。其实现流程如下

1、当满足条件注解时,则手动创建bean,然后配合@ApolloConfigChangeListener监听该bean的属性变化。当该bean属性有变化时,手动把属性注入bean。同时刷新依赖该bean的其他bean

2、当不满足条件注解时,则手动从spring容器中移除bean,同时刷新依赖该bean的其他bean

其刷新核心代码如下

public class OrderPropertiesRefresh implements ApplicationContextAware {

    private ApplicationContext applicationContext;

    @ApolloConfig(value = "order.properties")
    private Config config;

    @ApolloConfigChangeListener(value="order.properties",interestedKeyPrefixes = {"order."},interestedKeys = {"model.isShowOrder"})
    private void refresh(ConfigChangeEvent changeEvent){
        for (String basePackage : listBasePackages()) {
            Set<Class> conditionalClasses = ClassScannerUtils.scan(basePackage, ConditionalOnProperty.class);
            if(!CollectionUtils.isEmpty(conditionalClasses)){
                for (Class conditionalClass : conditionalClasses) {
                    ConditionalOnProperty conditionalOnProperty = (ConditionalOnProperty) conditionalClass.getAnnotation(ConditionalOnProperty.class);
                    String[] conditionalOnPropertyKeys = conditionalOnProperty.name();
                    String beanChangeCondition = this.getChangeKey(changeEvent,conditionalOnPropertyKeys);
                    String conditionalOnPropertyValue = conditionalOnProperty.havingValue();
                    boolean isChangeBean = this.changeBean(conditionalClass, beanChangeCondition, conditionalOnPropertyValue);
                    if(!isChangeBean){
                        // 更新相应的bean的属性值,主要是存在@ConfigurationProperties注解的bean
                        applicationContext.publishEvent(new EnvironmentChangeEvent(changeEvent.changedKeys()));
                    }
                }
            }
        }

        PrintChangeKeyUtils.printChange(changeEvent);
        printAllBeans();
    }

    /**
     * 根据条件对bean进行注册或者移除
     * @param conditionalClass
     * @param beanChangeCondition bean发生改变的条件
     * @param conditionalOnPropertyValue
     */
    private boolean changeBean(Class conditionalClass, String beanChangeCondition, String conditionalOnPropertyValue) {
        boolean isNeedRegisterBeanIfKeyChange = this.isNeedRegisterBeanIfKeyChange(beanChangeCondition,conditionalOnPropertyValue);
        boolean isNeedRemoveBeanIfKeyChange = this.isNeedRemoveBeanIfKeyChange(beanChangeCondition,conditionalOnPropertyValue);
        String beanName = StringUtils.uncapitalize(conditionalClass.getSimpleName());
        if(isNeedRegisterBeanIfKeyChange){
            boolean isAlreadyRegisterBean = this.isExistBean(beanName);
            if(!isAlreadyRegisterBean){
                this.registerBean(beanName,conditionalClass);
                return true;
            }
        }else if(isNeedRemoveBeanIfKeyChange){
            this.unregisterBean(beanName);
            return true;
        }
        return false;
    }

    /**
     * bean注册
     * @param beanName
     * @param beanClass
     */
    public void registerBean(String beanName,Class beanClass) {
        log.info("registerBean->beanName:{},beanClass:{}",beanName,beanClass);
        BeanDefinitionBuilder beanDefinitionBurinilder = BeanDefinitionBuilder.genericBeanDefinition(beanClass);
        BeanDefinition beanDefinition = beanDefinitionBurinilder.getBeanDefinition();
        setBeanField(beanClass, beanDefinition);
        getBeanDefinitionRegistry().registerBeanDefinition(beanName,beanDefinition);

    }

    /**
     * 设置bean字段值
     * @param beanClass
     * @param beanDefinition
     */
    private void setBeanField(Class beanClass, BeanDefinition beanDefinition) {
        ConfigurationProperties configurationProperties = (ConfigurationProperties) beanClass.getAnnotation(ConfigurationProperties.class);
        if(ObjectUtils.isNotEmpty(configurationProperties)){
            String prefix = configurationProperties.prefix();
            for (String propertyName : config.getPropertyNames()) {
                String fieldPrefix = prefix + ".";
                if(propertyName.startsWith(fieldPrefix)){
                    String fieldName = propertyName.substring(fieldPrefix.length());
                    String fieldVal = config.getProperty(propertyName,null);
                    log.info("setBeanField-->fieldName:{},fieldVal:{}",fieldName,fieldVal);
                    beanDefinition.getPropertyValues().add(fieldName,fieldVal);
                }
            }
        }
    }

    /**
     * bean移除
     * @param beanName
     */
    public void unregisterBean(String beanName){
        log.info("unregisterBean->beanName:{}",beanName);
        getBeanDefinitionRegistry().removeBeanDefinition(beanName);
    }

    public  <T> T getBean(String name) {
        return (T) applicationContext.getBean(name);
    }

    public  <T> T getBean(Class<T> clz) {
        return (T) applicationContext.getBean(clz);
    }

    public boolean isExistBean(String beanName){
        return applicationContext.containsBean(beanName);
    }

    public boolean isExistBean(Class clz){
        try {
            Object bean = applicationContext.getBean(clz);
            return true;
        } catch (BeansException e) {
            // log.error(e.getMessage(),e);
        }
        return false;
    }

    private boolean isNeedRegisterBeanIfKeyChange(String changeKey,String conditionalOnPropertyValue){
        if(StringUtils.isEmpty(changeKey)){
            return false;
        }
        String apolloConfigValue = config.getProperty(changeKey,null);
        return conditionalOnPropertyValue.equals(apolloConfigValue);
    }

    private boolean isNeedRemoveBeanIfKeyChange(String changeKey,String conditionalOnPropertyValue){
        if(!StringUtils.isEmpty(changeKey)){
            String apolloConfigValue = config.getProperty(changeKey,null);
            return !conditionalOnPropertyValue.equals(apolloConfigValue);
        }

        return false;

    }

    private boolean isChangeKey(ConfigChangeEvent changeEvent,String conditionalOnPropertyKey){
        Set<String> changeKeys = changeEvent.changedKeys();
        if(!CollectionUtils.isEmpty(changeKeys) && changeKeys.contains(conditionalOnPropertyKey)){
            return true;
        }
        return false;
    }

    private String getChangeKey(ConfigChangeEvent changeEvent, String[] conditionalOnPropertyKeys){
        if(ArrayUtils.isEmpty(conditionalOnPropertyKeys)){
            return null;
        }
        String changeKey = null;
        for (String conditionalOnPropertyKey : conditionalOnPropertyKeys) {
            if(isChangeKey(changeEvent,conditionalOnPropertyKey)){
                changeKey = conditionalOnPropertyKey;
                break;
            }
        }

        return changeKey;
    }

    private BeanDefinitionRegistry getBeanDefinitionRegistry(){
        ConfigurableApplicationContext configurableContext = (ConfigurableApplicationContext) applicationContext;
        BeanDefinitionRegistry beanDefinitionRegistry = (DefaultListableBeanFactory) configurableContext.getBeanFactory();
        return beanDefinitionRegistry;
    }

    private List<String> listBasePackages(){
        ConfigurableApplicationContext configurableContext = (ConfigurableApplicationContext) applicationContext;
        return AutoConfigurationPackages.get(configurableContext.getBeanFactory());
    }

    @Override
    public void setApplicationContext(ApplicationContext applicationContext) throws BeansException {
        this.applicationContext = applicationContext;
    }

    public  void printAllBeans() {
        String[] beans = applicationContext.getBeanDefinitionNames();
        Arrays.sort(beans);
        for (String beanName : beans) {
            Class<?> beanType = applicationContext.getType(beanName);
            System.out.println(beanType);
        }
    }

}

如果条件注解的值也是配置在apollo上,可能会出现依赖条件注解的bean的其他bean,在项目拉取apollo配置时,就已经注入spring容器中,此时就算条件注解满足条件,则引用该条件注解bean的其他bean,也会拿不到条件注解bean。此时有2种方法解决,一种是在依赖条件注解bean的其他bean注入之前,先手动注册条件注解bean到spring容器中,其核心代码如下

@Component
@Slf4j
public class RefreshBeanFactory implements BeanFactoryPostProcessor {

    @Override
    public void postProcessBeanFactory(ConfigurableListableBeanFactory configurableListableBeanFactory) throws BeansException {
        Config config = ConfigService.getConfig("order.properties");
        List<String> basePackages = AutoConfigurationPackages.get(configurableListableBeanFactory);
        for (String basePackage : basePackages) {
            Set<Class> conditionalClasses = ClassScannerUtils.scan(basePackage, ConditionalOnProperty.class);
            if(!CollectionUtils.isEmpty(conditionalClasses)){
                for (Class conditionalClass : conditionalClasses) {
                    ConditionalOnProperty conditionalOnProperty = (ConditionalOnProperty) conditionalClass.getAnnotation(ConditionalOnProperty.class);
                    String[] conditionalOnPropertyKeys = conditionalOnProperty.name();
                    String beanConditionKey = this.getConditionalOnPropertyKey(config,conditionalOnPropertyKeys);
                    String conditionalOnPropertyValue = conditionalOnProperty.havingValue();
                    this.registerBeanIfMatchCondition((DefaultListableBeanFactory)configurableListableBeanFactory,config,conditionalClass,beanConditionKey,conditionalOnPropertyValue);
                }
            }
        }

    }

    private void registerBeanIfMatchCondition(DefaultListableBeanFactory beanFactory,Config config,Class conditionalClass, String beanConditionKey, String conditionalOnPropertyValue) {
        boolean isNeedRegisterBean = this.isNeedRegisterBean(config,beanConditionKey,conditionalOnPropertyValue);
        String beanName = StringUtils.uncapitalize(conditionalClass.getSimpleName());
        if(isNeedRegisterBean){
                this.registerBean(config,beanFactory,beanName,conditionalClass);

        }

    }

    public void registerBean(Config config,DefaultListableBeanFactory beanFactory, String beanName, Class beanClass) {
        log.info("registerBean->beanName:{},beanClass:{}",beanName,beanClass);
        BeanDefinitionBuilder beanDefinitionBurinilder = BeanDefinitionBuilder.genericBeanDefinition(beanClass);
        BeanDefinition beanDefinition = beanDefinitionBurinilder.getBeanDefinition();
        setBeanField(config,beanClass, beanDefinition);
        beanFactory.registerBeanDefinition(beanName,beanDefinition);

    }

    private void setBeanField(Config config,Class beanClass, BeanDefinition beanDefinition) {
        ConfigurationProperties configurationProperties = (ConfigurationProperties) beanClass.getAnnotation(ConfigurationProperties.class);
        if(ObjectUtils.isNotEmpty(configurationProperties)){
            String prefix = configurationProperties.prefix();
            for (String propertyName : config.getPropertyNames()) {
                String fieldPrefix = prefix + ".";
                if(propertyName.startsWith(fieldPrefix)){
                    String fieldName = propertyName.substring(fieldPrefix.length());
                    String fieldVal = config.getProperty(propertyName,null);
                    log.info("setBeanField-->fieldName:{},fieldVal:{}",fieldName,fieldVal);
                    beanDefinition.getPropertyValues().add(fieldName,fieldVal);
                }
            }
        }
    }

    public boolean isNeedRegisterBean(Config config,String beanConditionKey,String conditionalOnPropertyValue){
        if(StringUtils.isEmpty(beanConditionKey)){
            return false;
        }
        String apolloConfigValue = config.getProperty(beanConditionKey,null);
        return conditionalOnPropertyValue.equals(apolloConfigValue);
    }

    private String getConditionalOnPropertyKey(Config config, String[] conditionalOnPropertyKeys){
        if(ArrayUtils.isEmpty(conditionalOnPropertyKeys)){
            return null;
        }
        String changeKey = null;
        for (String conditionalOnPropertyKey : conditionalOnPropertyKeys) {
            if(isConditionalOnPropertyKey(config,conditionalOnPropertyKey)){
                changeKey = conditionalOnPropertyKey;
                break;
            }
        }

        return changeKey;
    }

    private boolean isConditionalOnPropertyKey(Config config,String conditionalOnPropertyKey){
        Set<String> propertyNames = config.getPropertyNames();
        if(!CollectionUtils.isEmpty(propertyNames) && propertyNames.contains(conditionalOnPropertyKey)){
            return true;
        }
        return false;
    }

}

其次利用懒加载的思想,在使用条件注解bean时,使用形如下方法

Order order = (Order) SpringContextUtils.getBean("order");

总结

本文主要介绍了常用的动态刷新,但本文的代码示例实现的功能不局限于此,本文的代码还实现如何通过自定义注解与apollo整合来实现一些业务操作,同时也实现了基于hystrix注解与apollo整合,实现基于线程隔离的动态熔断,感兴趣的朋友可以复制文末链接到浏览器,进行查看

apollo基本上是能满足我们日常的业务开发要求,但是对于一些需求,比如动态刷新线上数据库资源啥,我们还是得做一定的量的改造,好在携程也提供了apollo-use-cases,在里面可以找到常用的使用场景以及示例代码,其链接如下

https://github.com/ctripcorp/apollo-use-cases

感兴趣的朋友,可以查看下。

思考与感悟


其实整个备考的过程中,心态也是很重要的一部分,就好像我们当年高考的时候,心态一定要好。可能同学们经过很长的时间备考,然后投递了很多简历却没有面试机会。

首先要看一下是不是简历写得不好,一般没有机会大部分都是因为这个原因,可以找一下师兄姐聊一下如何修改简历。然后重新投递试试。或者有了面试机会却没有下轮面试了,那就是可能因为你的技术不够扎实,好好准备自己的基础,我推荐你:

写技术博客

不用自己去搭建一个博客(要是可以就更好了),选择一个平台,CSDN或者掘金都是不错的平台,然后就可以开始你的表演了。可以写一些最近的学习心得,面试技巧以及黑科技工具的使用等等。写博客的好处有很多,不仅可以锻炼的表达逻辑,还可以巩固你的知识体系。两全其美,何乐而不为?

另外就是可以多逛一下技术社区,了解前端的动态,多关注最近出了什么新技术、新框架、新八卦等等。试着去帮别人解答一些问题,别人也很愿意去听,但是不要抬杠。乐于分享的心态比技术本身更重要。

写项目

找一个idea,把之前所学的知识点用一下,或者用新的知识来重构一下旧的项目,都是一种产出的方法。如果你担心知识不够牢固可以上一下github找一些优质开源项目,看别人是怎么写的。项目中要把用到技术的那一块注释出来,不然过一个月都不知道是你写的。

交流心得

要是可以的话,可以找同学一起交流最近的学习成果。技术学习的路上是枯燥的,找到相同的学习伙伴很重要,能够给你一种学下去的动力,两个相互切磋相互进步也是一种产出的方法。

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