Spring循環依賴的解決辦法,你真的懂了嗎
介紹
先說一下什么是循環依賴,循壞依賴即循環引用,兩個或多個bean相互引用,最終形成一個環。Spring在初始化A的時候需要注入B,而初始化B的時候需要注入A,在Spring啟動后這2個Bean都要被初始化完成
Spring的循環依賴有兩種場景
構造器的循環依賴 屬性的循環依賴構造器的循環依賴,可以在構造函數中使用@Lazy注解延遲加載。在注入依賴時,先注入代理對象,當首次使用時再創建對象完成注入
屬性的循環依賴主要是通過3個map來解決的
構造器的循環依賴
@Componentpublic class ConstructorA { private ConstructorB constructorB; @Autowired public ConstructorA(ConstructorB constructorB) { this.constructorB = constructorB; }}
@Componentpublic class ConstructorB { private ConstructorA constructorA; @Autowired public ConstructorB(ConstructorA constructorA) { this.constructorA = constructorA; }}
@Configuration@ComponentScan('com.javashitang.dependency.constructor')public class ConstructorConfig {}public class ConstructorMain { public static void main(String[] args) { AnnotationConfigApplicationContext context = new AnnotationConfigApplicationContext(ConstructorConfig.class); System.out.println(context.getBean(ConstructorA.class)); System.out.println(context.getBean(ConstructorB.class)); }}
運行ConstructorMain的main方法的時候會在第一行就報異常,說明Spring沒辦法初始化所有的Bean,即上面這種形式的循環依賴Spring無法解決。
我們可以在ConstructorA或者ConstructorB構造函數的參數上加上@Lazy注解就可以解決
@Autowiredpublic ConstructorB(@Lazy ConstructorA constructorA) {this.constructorA = constructorA;}
因為我們主要關注屬性的循環依賴,構造器的循環依賴就不做過多分析了
屬性的循環依賴
先演示一下什么是屬性的循環依賴
@Componentpublic class FieldA { @Autowired private FieldB fieldB;}
@Componentpublic class FieldB { @Autowired private FieldA fieldA;}
@Configuration@ComponentScan('com.javashitang.dependency.field')public class FieldConfig {}
public class FieldMain { public static void main(String[] args) { AnnotationConfigApplicationContext context = new AnnotationConfigApplicationContext(FieldConfig.class); // com.javashitang.dependency.field.FieldA@3aa9e816 System.out.println(context.getBean(FieldA.class)); // com.javashitang.dependency.field.FieldB@17d99928 System.out.println(context.getBean(FieldB.class)); }}
Spring容器正常啟動,能獲取到FieldA和FieldB這2個Bean
屬性的循環依賴在面試中還是經常被問到的。總體來說也不復雜,但是涉及到Spring Bean的初始化過程,所以感覺比較復雜,我寫個demo演示一下整個過程
Spring的Bean的初始化過程其實比較復雜,為了方便理解Demo,我就把Spring Bean的初始化過程分為2部分
bean的實例化過程,即調用構造函數將對象創建出來 bean的初始化過程,即填充bean的各種屬性bean初始化過程完畢,則bean就能被正常創建出來了
下面開始寫Demo,ObjectFactory接口用來生產Bean,和Spring中定義的接口一樣
public interface ObjectFactory<T> { T getObject();}
public class DependencyDemo { // 初始化完畢的Bean private final Map<String, Object> singletonObjects = new ConcurrentHashMap<>(256); // 正在初始化的Bean對應的工廠,此時對象已經被實例化 private final Map<String, ObjectFactory<?>> singletonFactories = new HashMap<>(16); // 存放正在初始化的Bean,對象還沒有被實例化之前就放進來了 private final Set<String> singletonsCurrentlyInCreation = Collections.newSetFromMap(new ConcurrentHashMap<>(16)); public <T> T getBean(Class<T> beanClass) throws Exception { // 類名為Bean的名字 String beanName = beanClass.getSimpleName(); // 已經初始化好了,或者正在初始化 Object initObj = getSingleton(beanName, true); if (initObj != null) { return (T) initObj; } // bean正在被初始化 singletonsCurrentlyInCreation.add(beanName); // 實例化bean Object object = beanClass.getDeclaredConstructor().newInstance(); singletonFactories.put(beanName, () -> { return object; }); // 開始初始化bean,即填充屬性 Field[] fields = object.getClass().getDeclaredFields(); for (Field field : fields) { field.setAccessible(true); // 獲取需要注入字段的class Class<?> fieldClass = field.getType(); field.set(object, getBean(fieldClass)); } // 初始化完畢 singletonObjects.put(beanName, object); singletonsCurrentlyInCreation.remove(beanName); return (T) object; } /** * allowEarlyReference參數的含義是Spring是否允許循環依賴,默認為true * 所以當allowEarlyReference設置為false的時候,當項目存在循環依賴,會啟動失敗 */ public Object getSingleton(String beanName, boolean allowEarlyReference) { Object singletonObject = this.singletonObjects.get(beanName); if (singletonObject == null && isSingletonCurrentlyInCreation(beanName)) { synchronized (this.singletonObjects) { if (singletonObject == null && allowEarlyReference) { ObjectFactory<?> singletonFactory = this.singletonFactories.get(beanName); if (singletonFactory != null) { singletonObject = singletonFactory.getObject(); } } } } return singletonObject; } /** * 判斷bean是否正在被初始化 */ public boolean isSingletonCurrentlyInCreation(String beanName) { return this.singletonsCurrentlyInCreation.contains(beanName); }}
測試一波
public static void main(String[] args) throws Exception {DependencyDemo dependencyDemo = new DependencyDemo();// 假裝掃描出來的對象Class[] classes = {A.class, B.class};// 假裝項目初始化所有beanfor (Class aClass : classes) {dependencyDemo.getBean(aClass);}// trueSystem.out.println(dependencyDemo.getBean(B.class).getA() == dependencyDemo.getBean(A.class));// trueSystem.out.println(dependencyDemo.getBean(A.class).getB() == dependencyDemo.getBean(B.class));}
是不是很簡單?我們只用了2個map就搞定了Spring的循環依賴
2個Map就能搞定循環依賴,那為什么Spring要用3個Map呢?
原因其實也很簡單,當我們從singletonFactories中根據BeanName獲取相應的ObjectFactory,然后調用getObject()這個方法返回對應的Bean。在我們的例子中ObjectFactory的實現很簡單哈,就是將實例化好的對象直接返回,但是在Spring中就沒有這么簡單了,執行過程比較復雜,為了避免每次拿到ObjectFactory然后調用getObject(),我們直接把ObjectFactory創建的對象緩存起來不就行了,這樣就能提高效率了
比如A依賴B和C,B和C又依賴A,如果不做緩存那么初始化B和C都會調用A對應的ObjectFactory的getObject()方法。如果做緩存只需要B或者C調用一次即可。
知道了思路,我們把上面的代碼改一波,加個緩存。
public class DependencyDemo {// 初始化完畢的Beanprivate final Map<String, Object> singletonObjects =new ConcurrentHashMap<>(256);// 正在初始化的Bean對應的工廠,此時對象已經被實例化private final Map<String, ObjectFactory<?>> singletonFactories =new HashMap<>(16);// 緩存Bean對應的工廠生產好的Beanprivate final Map<String, Object> earlySingletonObjects =new HashMap<>(16);// 存放正在初始化的Bean,對象還沒有被實例化之前就放進來了private final Set<String> singletonsCurrentlyInCreation =Collections.newSetFromMap(new ConcurrentHashMap<>(16));public <T> T getBean(Class<T> beanClass) throws Exception {// 類名為Bean的名字String beanName = beanClass.getSimpleName();// 已經初始化好了,或者正在初始化Object initObj = getSingleton(beanName, true);if (initObj != null) {return (T) initObj;}// bean正在被初始化singletonsCurrentlyInCreation.add(beanName);// 實例化beanObject object = beanClass.getDeclaredConstructor().newInstance();singletonFactories.put(beanName, () -> {return object;});// 開始初始化bean,即填充屬性Field[] fields = object.getClass().getDeclaredFields();for (Field field : fields) {field.setAccessible(true);// 獲取需要注入字段的classClass<?> fieldClass = field.getType();field.set(object, getBean(fieldClass));}singletonObjects.put(beanName, object);singletonsCurrentlyInCreation.remove(beanName);earlySingletonObjects.remove(beanName);return (T) object;}/** * allowEarlyReference參數的含義是Spring是否允許循環依賴,默認為true */public Object getSingleton(String beanName, boolean allowEarlyReference) {Object singletonObject = this.singletonObjects.get(beanName);if (singletonObject == null&& isSingletonCurrentlyInCreation(beanName)) {synchronized (this.singletonObjects) {singletonObject = this.earlySingletonObjects.get(beanName);if (singletonObject == null && allowEarlyReference) {ObjectFactory<?> singletonFactory =this.singletonFactories.get(beanName);if (singletonFactory != null) {singletonObject = singletonFactory.getObject();this.earlySingletonObjects.put(beanName, singletonObject);this.singletonFactories.remove(beanName);}}}}return singletonObject;}}
我們寫的getSingleton的實現和org.springframework.beans.factory.support.DefaultSingletonBeanRegistry#getSingleton(java.lang.String, boolean)的實現一模一樣,這個方法幾乎所有分析Spring循環依賴的文章都會提到,這次你明白工作原理是什么了把
總結一波
拿bean的時候先從singletonObjects(一級緩存)中獲取 如果獲取不到,并且對象正在創建中,就從earlySingletonObjects(二級緩存)中獲取 如果還是獲取不到就從singletonFactories(三級緩存)中獲取,然后將獲取到的對象放到earlySingletonObjects(二級緩存)中,并且將bean對應的singletonFactories(三級緩存)清除 bean初始化完畢,放到singletonObjects(一級緩存)中,將bean對應的earlySingletonObjects(二級緩存)清除參考博客
[1]https://mp.weixin.qq.com/s/gBr3UfC1HRcw4U-ZMmtRaQ[2]https://mp.weixin.qq.com/s/5mwkgJB7GyLdKDgzijyvXw比較詳細[1]https://zhuanlan.zhihu.com/p/84267654[2]https://juejin.im/post/5c98a7b4f265da60ee12e9b2
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