BeanDefinition
AnnotatedBeanDefinition
注解相关Bean的定义信息
- 具有通用BeanDefinition
- 具有AnnotationMetadata(类和注解相关元信息)以及MethodMetadata(工厂方法元信息)
- AnnotationMetadata具有AnnotatedTypeMetadata,后者有包含了MergedAnnotations (MergedAnnotation的迭代器模式)
相关核心依赖类图如下,所以想深入了解注解驱动的元数据构造,则需要深入理解各个组件的作用,特别是MergedAnnotation
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MergedAnnotation
见名知意,这个接口表示合并的注解元信息。为什么是合并的呢?因为注解可以通过元标注的方式实现类似Class继承的操作。
代码演示场景
//自定义注解声明
@Target(ElementType.TYPE)
@Retention(RetentionPolicy.RUNTIME)
@Configuration
public @interface MyConfiguration {
@AliasFor(annotation = Configuration.class)
String value() default "";
@AliasFor(annotation = Configuration.class)
boolean proxyBeanMethods() default true;
}
//定义一个列声明自定义注解,扩展了@Configuration
@MyConfiguration(value = "z3", proxyBeanMethods = false)
public class MergedAnnotationDemo{}
判断是否存在相关API
在合并的元信息中判断某些注解是否存在
[图片上传失败...(image-c26b44-1608131856000)]
//注解依赖关系 MyConfiguration <- Configuration <- Component <- Indexed
//from静态方法用来构造合并的Annotations元信息
MergedAnnotations annotations = MergedAnnotations.from(MergedAnnotationDemo.class);
//1. 是否直接标注该注解,元标注的不算 ,这里 Indexed并不是直接标注在MyConfiguration上,所有返回false
displayApi("isDirectlyPresent", annotations.isDirectlyPresent(Indexed.class));
//2. 是否元标注或者直接标志该注解,Indexed是MyConfiguration的元标注注解,返回true
displayApi("isPresent", annotations.isPresent(Indexed.class));
//3. 是否是元标注注解,Indexed是元标注注解 ,返回true
displayApi("isMetaPresent", annotations.get(Configuration.class).isMetaPresent());
//output
isDirectlyPresent = false
isPresent = true
isMetaPresent = true
注解位置相关API
在合并注解元信息中找到指定注解和当前申明的AnnotatedElement的位置信息
//距离当前source(MergedAnnotationDemo.class)的位置信息
//1.Configuration有是元标注在MyConfiguration上,所有返回 1
displayApi("getDistance", annotations.get(Configuration.class).getDistance());
//2. 同理,MyConfiguration <- COnfiguration <- Component
// 当前MergedAnnotation和指定注解的距离。直接标注为0,元标注为1,依次向上叠加
displayApi("getDistance", annotations.get(Component.class).getDistance()); //2
displayApi("getDistance", annotations.get(Indexed.class).getDistance()); //3
//javadoc中声明 是在stream中排序时使用,missing的annotation返回 -1 , 直接标注、元标注返回0
displayApi("getAggregateIndex", annotations.get(Target.class).getAggregateIndex());
//output
getDistance = 1
getDistance = 2
getDistance = 3
getAggregateIndex = 0
获取特定注解相关元信息API
在合并注解元信息中获取相关注解或者对象信息
//获取注解/元注解资源
// 获取这个合并注解的源(无视层级)
displayApi("getSource", annotations.get(Indexed.class).getSource());
//获取元标注的源注解信息
displayApi("getMetaSource", annotations.get(Indexed.class).getMetaSource().getType());
//获取distance为0的元信息 -> MyConfiguration
displayApi("getRoot", annotations.get(Indexed.class).getRoot().getType());
//获取所有元标注的Class信息
displayApi("getMetaTypes", annotations.get(Indexed.class).getMetaTypes());
//output
getSource = class blog.spring.definition.MergedAnnotationDemo
getMetaSource = interface org.springframework.stereotype.Component
getRoot = interface blog.spring.anno.MyConfiguration
getMetaTypes = [interface blog.spring.anno.MyConfiguration, interface org.springframework.context.annotation.Configuration, interface org.springframework.stereotype.Component, interface org.springframework.stereotype.Indexed]
获取注解属性相关API
//AnnotationAttribute相关API
//1. 判断某属性是否有默认值
displayApi("hasNonDefaultValue", annotations.get(Component.class).hasNonDefaultValue("value"));
//2. 有获取注解属性的各种get方法,getString,getByte...
displayApi("getString", annotations.get(Configuration.class).getBoolean("proxyBeanMethods"));
//3. 通用获取方法,可以指定类型信息
displayApi("getValue", annotations.get(Configuration.class).getValue("proxyBeanMethods",Boolean.class));
//4. 可以过滤有默认值的属性
displayApi("filterDefaultValues", annotations.get(Configuration.class).filterDefaultValues().getDefaultValue("proxyBeanMethods", Boolean.class));
//5. 通过Predicate进行属性名称过滤
displayApi("filterAttributes", annotations.get(Configuration.class).filterAttributes(s -> s.equals("z3")).getDefaultValue("proxyBeanMethods", Boolean.class)); //过滤属性名称
//6. withNonMergedAttributes()方法只能获取当前注解的属性信息,元标注的信息将不会被运用
displayApi("withNonMergedAttributes", annotations.get(Configuration.class).withNonMergedAttributes().getValue("value"));
//6. 将注解属性信息转化成Map,AnnotationAttributes
displayApi("asAnnotationAttributes", annotations.get(MyConfiguration.class).asAnnotationAttributes().getString("value"));
displayApi("asMap", annotations.get(MyConfiguration.class).asMap(annotation -> new ConcurrentHashMap<>()).getClass().getSimpleName());
//7. 从合并注解元信息中获取合成的注解
Configuration configuration = annotations.get(Configuration.class).synthesize();
//8. 可以通过反射获取合并注解的相关属性,并可以在运行时动态修改注解属性值
System.out.println("before"+configuration.value());
displaySynthesizeInvocationHandler(configuration);
System.out.println("after"+configuration.value());
//解析合成的注解代理对象,注解代理信息
//默认注解会通过 AnnotationInvocationHandler进行代理处理
//Spring的MergedAnnotations则是通过 SynthesizedMergedAnnotationInvocationHandler来进行处理
//可以通过反射获取InvocationHandler中的被代理对象相关属性信息
private static void displaySynthesizeInvocationHandler(Configuration configuration) {
InvocationHandler synthesizeInvocationHandler = Proxy.getInvocationHandler(configuration);
ReflectionUtils.doWithFields(synthesizeInvocationHandler.getClass(), field -> {
field.setAccessible(true);
Object fieldVal = field.get(synthesizeInvocationHandler);
//这里的valueCache是SynthesizedMergedAnnotationInvocationHandler代理中缓存的所有合并的注解属性信息
if (field.getName().equals("valueCache")) {
Map<String, Object> annotationFieldVal = (Map<String, Object>) fieldVal;
annotationFieldVal.computeIfPresent("value", (k, v) -> v + "_proxy");
}
});
}
MergedAnnotations
是MergedAnnotation的迭代器模式,提供获取MergedAnnotations相关信息的工具类
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//from方法,构造成MergedAnnotations,可以从任意注解元素,并可以指定搜索方式和过滤来进行复杂注解信息查询
MergedAnnotations annotations = MergedAnnotations.from(MergedAnnotationDemo.class);
//可以通过get(String annotationType) 获取对应的MergedAnnotation信息。
MergedAnnotation annotation = MergedAnnotations.get(Configuration.class);
AnnotatedTypeMetadata
包含了MergedAnnotations,并提供了一些属性访问的工具方法,底层还是通过MergedAnnotations方法进行实现
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ClassMetadata和AnnotationMetadata
这两个相比上面的底层注解API来说更加出场率高,分别代表了我们的类元信息和注解元信息。其中AnnotationMetadata继承了ClassMetadata , 通过ASM的放射来加载相关元信息。是AnnotatedBeanDefinition的重要元数据来源。
ClassMetadata
类信息描述,提供获取类名称,和一系列类描述信息,比如是否是接口,是否抽象类,可以获取成员的类型信息..
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AnnotationMetadata
包含注解的类元信息,是ClassMetadata的子类。并提供获取/判断注解类型相关辅助方法
//获取所有直接声明的Annotation Name
public default java.util.Set org.springframework.core.type.AnnotationMetadata.getAnnotationTypes()
//获取所有元注解
public default java.util.Set org.springframework.core.type.AnnotationMetadata.getMetaAnnotationTypes(java.lang.String)
//判断是否有直接声明的Annotation
public default boolean org.springframework.core.type.AnnotationMetadata.hasAnnotation(java.lang.String)
// 判断是否有元注解
public default boolean org.springframework.core.type.AnnotationMetadata.hasMetaAnnotation(java.lang.String)
// 判断是否有注解标注的方法
public default boolean org.springframework.core.type.AnnotationMetadata.hasAnnotatedMethods(java.lang.String)
AnnotatedBeanDefinition
注解类型的BeanDefinition,一般有两部分信息,一是通过类元信息AnnotationMetdata , 或者通过工厂方法(@Bean) MethodMetadata构成。其实现有一下几种
- AnnotatedGenericBeanDefinition : 通用注解BeanDefinition,通用注解元信息,@Bean。。
- ConfigurationClassBeanDefinition :配置Class BeanDefinition,表示Configuration Class的注解元信息
- ScannedGenericBeanDefinition : 扫描的BeanDefinition,通过ComponentScan扫描的Bean的注解元信息
获取AnnotationMetadata的两种方式
使用类加载的方式
效率低,类加载需要使用ClassLoader加载字节码文件并在JVM中生成Class对象
AnnotationMetadata annotationMetadata = AnnotationMetadata.introspect(AnnotationMetadataDemo.class);
使用ASM直接读取字节码文件
直接使用字节码框架进行字节码文件读取,这里就是通过ASM的ClassReader来读取字节码资源
public class ClassReaderByASMDemo {
public static void main(String[] args) throws IOException {
//1. 创建MetadataReaderFactory
CachingMetadataReaderFactory readerFactory = new CachingMetadataReaderFactory();
//2. 使用ClassReader解析字节码获取MetadataReader对象
MetadataReader metadataReader = readerFactory.getMetadataReader("blog.spring.definition.AnnotationMetadataDemo");
//3. 从reader中获取注解元信息
AnnotationMetadata annotationMetadata = metadataReader.getAnnotationMetadata();
//4. 读取所有的注解属性信息
System.out.println(annotationMetadata.getAllAnnotationAttributes(MyConfiguration.class.getName()));
}
}
相关核心类图如下。
- 通过MetadataReaderFactory获取MetadataReader (
SimpleMetadataReader) -
SimpleMetadataReader通过SimpleAnnotationMetadataReadingVisitor和ASMClassReader来加载字节码文件 - 返回
AnnotationMetadata对象
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AbstractBeanDefinition
是BeanDefinition的一个抽象实现类,提供了基本接口方法实现,包含了构造器参数,属性参数,class相关信息,是否懒加载,primary等等..
GenericBeanDefinition
提供了层次性的BeanDefinition实现。可以设置Parent BeanDefinition
RootBeanDefinition
表示一个最顶层的BeanDefinition,所有的BeanDefinition经过MergeBeanDefinition阶段之后都是这个类型。
BeanDefinition的构造方式
直接new相关的实现类
public static void main(String[] args) {
//1. 直接new BeanDefinition相关实现类
// 通用BeanDefinition
GenericBeanDefinition beanDefinition = new GenericBeanDefinition();
// 注解式BeanDefinition
AnnotatedGenericBeanDefinition beanDefinitionWithAnnotated = new AnnotatedGenericBeanDefinition(User.class);
beanDefinition.setBeanClassName(User.class.getName());
MutablePropertyValues propertyValues = new MutablePropertyValues();
propertyValues.add("name", "lazylittle");
propertyValues.add("age", 11);
//设置属性
beanDefinition.setPropertyValues(propertyValues);
beanDefinitionWithAnnotated.setPropertyValues(propertyValues);
DefaultListableBeanFactory beanFactory = new DefaultListableBeanFactory();
//注册并查找
beanFactory.registerBeanDefinition("user", beanDefinition);
beanFactory.registerBeanDefinition("userWithAnnotated",beanDefinitionWithAnnotated);
System.out.println(beanFactory.getBeansOfType( User.class));
}
//output
{user=User(name=lazylittle, age=11), userWithAnnotated=User(name=lazylittle, age=11)}
使用BeanDefinitionBuilder进行构造
//1. 使用BeanDefinitionBuilder进行构造
AbstractBeanDefinition z3BeanDefinition = BeanDefinitionBuilder.rootBeanDefinition(User.class)
.addPropertyValue("name", "z3")
.addPropertyValue("age", 22)
.getBeanDefinition();
DefaultListableBeanFactory beanFactory = new DefaultListableBeanFactory();
//2. 使用工具类进行注册,底层就是调用BeanDefinitionRegistry#registerBeanDefinition()
BeanDefinitionReaderUtils.registerBeanDefinition(new BeanDefinitionHolder(z3BeanDefinition, "userZ3"), beanFactory);
System.out.println(beanFactory.getBeansOfType( User.class));
注册BeanDefinition的方式
命名式
BeanDefinitionRegistry/BeanDefinitionReaderUtils.registerBeanDefinition("user-1", BeanDefinitionBuilder.genericBeanDefinition(User.class).addPropertyValue("name", "z3").getBeanDefinition());
非命名式
BeanDefinitionReaderUtils.registerWithGeneratedName(
AbstractBeanDefinition definition, BeanDefinitionRegistry registry);
Spring容器加载BeanDefinition源码解析
Spring 容器是通过 xxxBeanDefinitionReader类来进行相关元信息的加载
Xml文件
核心方法入口 : XmlBeanDefinitionReader#loadBeanDefinitions()
相关类图如下
- EntityResolver : 用来加载
schemas文件 , 可以在本地配置META-INF/spring.schemas,配置相关schame文件和类路径的路径映射
https\://www.zzhujing.com/users/schema/users.xsd=spring/in/action/configuration/xml/user.xsd
-
XmlBeanDefinitionReader: 就是一个上下文对象,包含了解析,注册等,其中具体操作都委派给对象的类进行处理,比如委派给BeanDefinitionDocumentReader进行xml文件加载,委派给XmlReaderContext和BeanDefinitionparserDelegate进行xml文件内容解析并构造成BeanDefinition
protected void doRegisterBeanDefinitions(Element root) {
//1. 创建Delegate
BeanDefinitionParserDelegate parent = this.delegate;
this.delegate = createDelegate(getReaderContext(), root, parent);
if (this.delegate.isDefaultNamespace(root)) {
String profileSpec = root.getAttribute(PROFILE_ATTRIBUTE);
if (StringUtils.hasText(profileSpec)) {
String[] specifiedProfiles = StringUtils.tokenizeToStringArray(
profileSpec, BeanDefinitionParserDelegate.MULTI_VALUE_ATTRIBUTE_DELIMITERS);
// We cannot use Profiles.of(...) since profile expressions are not supported
// in XML config. See SPR-12458 for details.
if (!getReaderContext().getEnvironment().acceptsProfiles(specifiedProfiles)) {
if (logger.isDebugEnabled()) {
logger.debug("Skipped XML bean definition file due to specified profiles [" + profileSpec +
"] not matching: " + getReaderContext().getResource());
}
return;
}
}
}
preProcessXml(root);
//2. 委派给BeanDefinitionParserDelegate进行解析
parseBeanDefinitions(root, this.delegate);
postProcessXml(root);
this.delegate = parent;
}
-
NamespaceHandler和BeanDefinitionParser: 前者是名称空间处理,spring会将自定义扩展的Schema名称空间命名和解析器注册到一个Map中,在解析的时候根据不同的命名空间选择不同的BeanDefinitionParser进行解析。后者则将xml的元素解析生成BeanDefinition,随后使用BeanDefinitionRegistry注册到IOC容器中
public BeanDefinition parseCustomElement(Element ele, @Nullable BeanDefinition containingBd) {
String namespaceUri = getNamespaceURI(ele);
if (namespaceUri == null) {
return null;
}
//根据名称空间的uri获取NamespaceHandler , spring.handlers中 k-v配置
NamespaceHandler handler = this.readerContext.getNamespaceHandlerResolver().resolve(namespaceUri);
if (handler == null) {
error("Unable to locate Spring NamespaceHandler for XML schema namespace [" + namespaceUri + "]", ele);
return null;
}
//获取BeanDefinitionParser进行解析
return handler.parse(ele, new ParserContext(this.readerContext, this, containingBd));
}
其实上面的流程就是Spring的Extensible XML Authoring 扩展机制,我们常用的<aop:xxx>,<context:xx>都是这样加载的。
加载流程
- 加载Xml文件
protected int doLoadBeanDefinitions(InputSource inputSource, Resource resource)
throws BeanDefinitionStoreException {
try {
//1. xml解析为Document对象
Document doc = doLoadDocument(inputSource, resource);
//2. 解析Docuemnt -> BeanDefinition
int count = registerBeanDefinitions(doc, resource);
if (logger.isDebugEnabled()) {
logger.debug("Loaded " + count + " bean definitions from " + resource);
}
return count;
}
- 判断是解析默认命名空间还是自定义
protected void parseBeanDefinitions(Element root, BeanDefinitionParserDelegate delegate) {
//通过schema文件的名称空间url来判断是否是默认的名称空间,默认名称空间为 <bean>相关
if (delegate.isDefaultNamespace(root)) {
NodeList nl = root.getChildNodes();
for (int i = 0; i < nl.getLength(); i++) {
Node node = nl.item(i);
if (node instanceof Element) {
Element ele = (Element) node;
if (delegate.isDefaultNamespace(ele)) {
parseDefaultElement(ele, delegate);
}
else {
//2. 解析自定义标签
delegate.parseCustomElement(ele);
}
}
}
}
}
- 默认则解析对应标签并设置到BeanDefinition中
//1. 解析不同的默认标签
private void parseDefaultElement(Element ele, BeanDefinitionParserDelegate delegate) {
if (delegate.nodeNameEquals(ele, IMPORT_ELEMENT)) { //<import>
importBeanDefinitionResource(ele);
}
else if (delegate.nodeNameEquals(ele, ALIAS_ELEMENT)) { //<alias>
processAliasRegistration(ele);
}
else if (delegate.nodeNameEquals(ele, BEAN_ELEMENT)) { //<bean>
processBeanDefinition(ele, delegate);
}
else if (delegate.nodeNameEquals(ele, NESTED_BEANS_ELEMENT)) { //<beans>
// recurse
doRegisterBeanDefinitions(ele);
}
}
//2. <bean>标签解析流程
protected void processBeanDefinition(Element ele, BeanDefinitionParserDelegate delegate) {
//2.1 依次读取<bean>里面的属性构造成BeanDefinitionHolder
BeanDefinitionHolder bdHolder = delegate.parseBeanDefinitionElement(ele);
if (bdHolder != null) {
bdHolder = delegate.decorateBeanDefinitionIfRequired(ele, bdHolder);
try {
//2.2 注册到IOC容器中
BeanDefinitionReaderUtils.registerBeanDefinition(bdHolder, getReaderContext().getRegistry());
}
}
}
- 自定义标签则要通过NamespaceHandlerResolver获取到NamespaceHandler,然后获取对应前缀的BeanDefinitionParser解析出BeanDefinition
//1. 解析自定义标签
public BeanDefinition parseCustomElement(Element ele, @Nullable BeanDefinition containingBd) {
//1.1 获取当前元素的命名空间uri
String namespaceUri = getNamespaceURI(ele);
if (namespaceUri == null) {
return null;
}
//1.2 通过NamespaceHandlerResolver获取对应的spring.handlers中配置好的handler实现
NamespaceHandler handler = this.readerContext.getNamespaceHandlerResolver().resolve(namespaceUri);
if (handler == null) {
error("Unable to locate Spring NamespaceHandler for XML schema namespace [" + namespaceUri + "]", ele);
return null;
}
//委派给BeanDefinitionParser进行解析
return handler.parse(ele, new ParserContext(this.readerContext, this, containingBd));
}
//2. 最后都使用BeanDefinitionRegistry注册到IOC中
注解方式
AnnotationBeanDefinitionReader#register()
相关类图如下:
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核心类作用
- AnnotationBeanDefinitionReader : 注解BeanDefinition解析注册上下文对象
- ConditionEvaluator : 条件注解计算器,用来处理@Conditional相关注解
- ScopeMetadata : Bean的Scope元信息,包含当前Bean的Scope和生成代理对象的模式
- BeanNameGenerator : Bean名称生成器
- AnnotatedGenericBeanDefinition : 通用注解Bean定义信息
处理过程
//定位到 AnnotatedBeanDefinitionReader#doRegisterBean()
private <T> void doRegisterBean(Class<T> beanClass, @Nullable String name,
@Nullable Class<? extends Annotation>[] qualifiers, @Nullable Supplier<T> supplier,
@Nullable BeanDefinitionCustomizer[] customizers) {
//1. 创建BeanDefinition
AnnotatedGenericBeanDefinition abd = new AnnotatedGenericBeanDefinition(beanClass);
//2. 进行Conditional相关计算过滤
if (this.conditionEvaluator.shouldSkip(abd.getMetadata())) {
return;
}
//3. 设置实例工厂有的话,supplier在Bean的实例化的时候会优先于构造方法实例化
abd.setInstanceSupplier(supplier);
//4. 解析Scope元信息
ScopeMetadata scopeMetadata = this.scopeMetadataResolver.resolveScopeMetadata(abd);
abd.setScope(scopeMetadata.getScopeName());
//5. 生成BeanName
String beanName = (name != null ? name : this.beanNameGenerator.generateBeanName(abd, this.registry));
//6. 处理通用注解@Lazy ,@Primary ,@DepensOn...
AnnotationConfigUtils.processCommonDefinitionAnnotations(abd);
//..省略部分自定义扩展
BeanDefinitionHolder definitionHolder = new BeanDefinitionHolder(abd, beanName);
//7. 如果需要代理则会生成代理对象的BeanDefinition
definitionHolder = AnnotationConfigUtils.applyScopedProxyMode(scopeMetadata, definitionHolder, this.registry);
//8. 注册到IOC容器中
BeanDefinitionReaderUtils.registerBeanDefinition(definitionHolder, this.registry);
}
ConfigurationClassPostProcessor,注解驱动核心处理类
该类是一个
BeanDefinitionRegistryPostProcessor,在容器启动的时候会回调其后置处理器相关的方法,对Spring提供的一些列注解进行处理 , 比如模式注解@Component,以及其派生注解 ,@Import,@PropertySource,@ComponentScan等等。
下面我们来进行详细的源码解析,过程比较复杂。还望能耐心的研读!入口为ConfigurationClassPostProcessor#postProcessBeanDefinitionRegistry(BeanDefinitionRegistry registry)
public void postProcessBeanDefinitionRegistry(BeanDefinitionRegistry registry) {
//1. 唯一性检测
int registryId = System.identityHashCode(registry);
if (this.registriesPostProcessed.contains(registryId)) {
throw new IllegalStateException(
"postProcessBeanDefinitionRegistry already called on this post-processor against " + registry);
}
if (this.factoriesPostProcessed.contains(registryId)) {
throw new IllegalStateException(
"postProcessBeanFactory already called on this post-processor against " + registry);
}
this.registriesPostProcessed.add(registryId);
//2. 开始解析
processConfigBeanDefinitions(registry);
}
正式解析processConfigBeanDefinitions
public void processConfigBeanDefinitions(BeanDefinitionRegistry registry) {
List<BeanDefinitionHolder> configCandidates = new ArrayList<>();
String[] candidateNames = registry.getBeanDefinitionNames();
//1. 从IOC中获取所有获选的beanNames
for (String beanName : candidateNames) {
BeanDefinition beanDef = registry.getBeanDefinition(beanName);
//1.1 判断是否已经已经处理过了
if (beanDef.getAttribute(ConfigurationClassUtils.CONFIGURATION_CLASS_ATTRIBUTE) != null) {
if (logger.isDebugEnabled()) {
logger.debug("Bean definition has already been processed as a configuration class: " + beanDef);
}
}
//1.2 判断是否是候选的Configuration Class (Component | ComponentScan | Import | ImportSource | Bean) , 若是Configuration且ProxyBeanMethod属性为true,设置属性ConfigurationClassPostProcessor.configurationClass 为full,表示后序该Configuration Class需要被CGLIB增强,其他如Component,Import等为lite.不会被增强
else if (ConfigurationClassUtils.checkConfigurationClassCandidate(beanDef, this.metadataReaderFactory)) {
//1.3 添加到候选配置中
configCandidates.add(new BeanDefinitionHolder(beanDef, beanName));
}
}
// 若候选的配置类为空则直接返回
if (configCandidates.isEmpty()) {
return;
}
//2. 根据sort排序好所有的候选Bean
configCandidates.sort((bd1, bd2) -> {
int i1 = ConfigurationClassUtils.getOrder(bd1.getBeanDefinition());
int i2 = ConfigurationClassUtils.getOrder(bd2.getBeanDefinition());
return Integer.compare(i1, i2);
});
//3. 探测BeanNameGenerator
SingletonBeanRegistry sbr = null;
if (registry instanceof SingletonBeanRegistry) {
sbr = (SingletonBeanRegistry) registry;
if (!this.localBeanNameGeneratorSet) {
BeanNameGenerator generator = (BeanNameGenerator) sbr.getSingleton(
AnnotationConfigUtils.CONFIGURATION_BEAN_NAME_GENERATOR);
if (generator != null) {
this.componentScanBeanNameGenerator = generator;
this.importBeanNameGenerator = generator;
}
}
}
//初始化Environment对象
if (this.environment == null) {
this.environment = new StandardEnvironment();
}
//4. 解析所有的ConfigurationClass
ConfigurationClassParser parser = new ConfigurationClassParser(
this.metadataReaderFactory, this.problemReporter, this.environment,
this.resourceLoader, this.componentScanBeanNameGenerator, registry);
Set<BeanDefinitionHolder> candidates = new LinkedHashSet<>(configCandidates);
Set<ConfigurationClass> alreadyParsed = new HashSet<>(configCandidates.size());
do {
StartupStep processConfig = this.applicationStartup.start("spring.context.config-classes.parse");
//4.1 解析候选的BeanDefinition 为 Configuration Class
parser.parse(candidates);
parser.validate();
//4.2 读取所有探测到的Configuration Class
Set<ConfigurationClass> configClasses = new LinkedHashSet<>(parser.getConfigurationClasses());
configClasses.removeAll(alreadyParsed);
if (this.reader == null) {
this.reader = new ConfigurationClassBeanDefinitionReader(
registry, this.sourceExtractor, this.resourceLoader, this.environment,
this.importBeanNameGenerator, parser.getImportRegistry());
}
//4.3 加载Configuration Class
this.reader.loadBeanDefinitions(configClasses);
//4.4 放入已经解析的set集合中
alreadyParsed.addAll(configClasses);
processConfig.tag("classCount", () -> String.valueOf(configClasses.size())).end();
candidates.clear();
//4.5 判断IOC容器中是否新增了Bean数量(即parse方法过程有没有新增Bean)
if (registry.getBeanDefinitionCount() > candidateNames.length) {
String[] newCandidateNames = registry.getBeanDefinitionNames();
Set<String> oldCandidateNames = new HashSet<>(Arrays.asList(candidateNames));
Set<String> alreadyParsedClasses = new HashSet<>();
for (ConfigurationClass configurationClass : alreadyParsed) {
alreadyParsedClasses.add(configurationClass.getMetadata().getClassName());
}
//4.6 将新增的候选beanName添加到候选集合中继续递归处理
for (String candidateName : newCandidateNames) {
if (!oldCandidateNames.contains(candidateName)) {
BeanDefinition bd = registry.getBeanDefinition(candidateName);
if (ConfigurationClassUtils.checkConfigurationClassCandidate(bd, this.metadataReaderFactory) &&
!alreadyParsedClasses.contains(bd.getBeanClassName())) {
candidates.add(new BeanDefinitionHolder(bd, candidateName));
}
}
}
candidateNames = newCandidateNames;
}
}
while (!candidates.isEmpty());
//5. 将ImportRegistry注册为spring bean ,为了支持ImportAware接口回调将ImportClass的注解元信息传入
if (sbr != null && !sbr.containsSingleton(IMPORT_REGISTRY_BEAN_NAME)) {
sbr.registerSingleton(IMPORT_REGISTRY_BEAN_NAME, parser.getImportRegistry());
}
//6. 清空ASM中字节码缓存
if (this.metadataReaderFactory instanceof CachingMetadataReaderFactory) {
((CachingMetadataReaderFactory) this.metadataReaderFactory).clearCache();
}
}
核心步骤
- 获取当前IOC容器中所有的BeanDefinition
- 遍历所有的BeanDefinition , 并使用ConfigurationClassParser进行相关Bean的注解(
@Component,@ComponentScan,@Import,@PropertySource...)扫描并构造成Configuration Class - 使用
ConfigurationClassBeanDefinitionReader#loadBeanDefinition,将构造好的ConfigurationClass注册到IOC中
其中最为核心的是ConfigurationClassParser#parse()将候选的BeanDefinition解析为ConfigurationClass , so go on!
//ConfigurationClassParser#parse()
public void parse(Set<BeanDefinitionHolder> configCandidates) {
//1. 迭代所有候选的Configuration Class
for (BeanDefinitionHolder holder : configCandidates) {
BeanDefinition bd = holder.getBeanDefinition();
try {
if (bd instanceof AnnotatedBeanDefinition) {
parse(((AnnotatedBeanDefinition) bd).getMetadata(), holder.getBeanName());
}
else if (bd instanceof AbstractBeanDefinition && ((AbstractBeanDefinition) bd).hasBeanClass()) {
parse(((AbstractBeanDefinition) bd).getBeanClass(), holder.getBeanName());
}
else {
parse(bd.getBeanClassName(), holder.getBeanName());
}
}
catch (BeanDefinitionStoreException ex) {
throw ex;
}
catch (Throwable ex) {
throw new BeanDefinitionStoreException(
"Failed to parse configuration class [" + bd.getBeanClassName() + "]", ex);
}
}
//2. 最后处理 DeferredImportSelector
this.deferredImportSelectorHandler.process();
}
上面的各种不同入参的parse()方法,最后都会走到processConfigurationClass(ConfigurationClass,Predicate<String>)
protected void processConfigurationClass(ConfigurationClass configClass, Predicate<String> filter) throws IOException {
//1. 条件注解(@Condtional)判断
if (this.conditionEvaluator.shouldSkip(configClass.getMetadata(), ConfigurationPhase.PARSE_CONFIGURATION)) {
return;
}
//2. 缓存处理
ConfigurationClass existingClass = this.configurationClasses.get(configClass);
if (existingClass != null) {
//2.1 若当前Configuration Class已经被处理过了,这里直接合并Import
if (configClass.isImported()) {
if (existingClass.isImported()) {
existingClass.mergeImportedBy(configClass);
}
return;
}
else {
//2.2 移除之前处理过的Configuration Class
this.configurationClasses.remove(configClass);
this.knownSuperclasses.values().removeIf(configClass::equals);
}
}
//3. (核心)递归解析Configuration Class
// Recursively process the configuration class and its superclass hierarchy.
SourceClass sourceClass = asSourceClass(configClass, filter);
do {
sourceClass = doProcessConfigurationClass(configClass, sourceClass, filter);
}
while (sourceClass != null);
//4. 将当前ConfigurationClass设置到全局变量configurationClasses
this.configurationClasses.put(configClass, configClass);
}
doProcessConfigurationClass()终于来到了核心注解的处理方法
protected final SourceClass doProcessConfigurationClass(
ConfigurationClass configClass, SourceClass sourceClass, Predicate<String> filter)
throws IOException {
//1. 处理@Component
if (configClass.getMetadata().isAnnotated(Component.class.getName())) {
//1.1 将处理@Component的嵌套类。
processMemberClasses(configClass, sourceClass, filter);
}
//2. 处理@PropertySource,会创建一个PropertySource并添加到Environment中
for (AnnotationAttributes propertySource : AnnotationConfigUtils.attributesForRepeatable(
sourceClass.getMetadata(), PropertySources.class,
org.springframework.context.annotation.PropertySource.class)) {
if (this.environment instanceof ConfigurableEnvironment) {
processPropertySource(propertySource);
}
else {
logger.info("Ignoring @PropertySource annotation on [" + sourceClass.getMetadata().getClassName() +
"]. Reason: Environment must implement ConfigurableEnvironment");
}
}
//3. 处理ComponentScan以及其嵌套注解
Set<AnnotationAttributes> componentScans = AnnotationConfigUtils.attributesForRepeatable(
sourceClass.getMetadata(), ComponentScans.class, ComponentScan.class);
//3.1 如果有ComponentScan元信息,且 注册bean阶段的条件注解通过
if (!componentScans.isEmpty() &&
!this.conditionEvaluator.shouldSkip(sourceClass.getMetadata(), ConfigurationPhase.REGISTER_BEAN)) {
for (AnnotationAttributes componentScan : componentScans) {
//解析ComponentScan注解并直接进行scan扫描相关Bean然后注册到容器中
Set<BeanDefinitionHolder> scannedBeanDefinitions =
this.componentScanParser.parse(componentScan, sourceClass.getMetadata().getClassName());
for (BeanDefinitionHolder holder : scannedBeanDefinitions) {
BeanDefinition bdCand = holder.getBeanDefinition().getOriginatingBeanDefinition();
if (bdCand == null) {
bdCand = holder.getBeanDefinition();
}
//3.2 若扫描的BeanDefinition中有嵌套的Configuration Class则递归处理
if (ConfigurationClassUtils.checkConfigurationClassCandidate(bdCand, this.metadataReaderFactory)) {
parse(bdCand.getBeanClassName(), holder.getBeanName());
}
}
}
}
//4. 处理@Import注解
processImports(configClass, sourceClass, getImports(sourceClass), filter, true);
//5. 处理@ImportResource
AnnotationAttributes importResource =
AnnotationConfigUtils.attributesFor(sourceClass.getMetadata(), ImportResource.class);
if (importResource != null) {
String[] resources = importResource.getStringArray("locations");
Class<? extends BeanDefinitionReader> readerClass = importResource.getClass("reader");
for (String resource : resources) {
String resolvedResource = this.environment.resolveRequiredPlaceholders(resource);
configClass.addImportedResource(resolvedResource, readerClass);
}
}
//6. 处理@Bean
Set<MethodMetadata> beanMethods = retrieveBeanMethodMetadata(sourceClass);
for (MethodMetadata methodMetadata : beanMethods) {
configClass.addBeanMethod(new BeanMethod(methodMetadata, configClass));
}
// Process default methods on interfaces
//7. 处理接口中的@Bean方法 (java8中的 default方法)
processInterfaces(configClass, sourceClass);
//8. 递归处理父类
if (sourceClass.getMetadata().hasSuperClass()) {
String superclass = sourceClass.getMetadata().getSuperClassName();
if (superclass != null && !superclass.startsWith("java") &&
!this.knownSuperclasses.containsKey(superclass)) {
this.knownSuperclasses.put(superclass, configClass);
// Superclass found, return its annotation metadata and recurse
return sourceClass.getSuperClass();
}
}
// No superclass -> processing is complete
return null;
}
其中解析到这里大概流程就结束了。相关细节都大同小异。下面我们分布来看各个注解都是如何解析的
-
@Component: 其实很简单,就是使用ASM获取内置类信息,然后递归处理内置相关类
//1. 处理@Component
if (configClass.getMetadata().isAnnotated(Component.class.getName())) {
// Recursively process any member (nested) classes first
processMemberClasses(configClass, sourceClass, filter);
}
private void processMemberClasses(ConfigurationClass configClass, SourceClass sourceClass,
Predicate<String> filter) throws IOException {
//1. 获取所有的内置类
Collection<SourceClass> memberClasses = sourceClass.getMemberClasses();
if (!memberClasses.isEmpty()) {
List<SourceClass> candidates = new ArrayList<>(memberClasses.size());
for (SourceClass memberClass : memberClasses) {
if (ConfigurationClassUtils.isConfigurationCandidate(memberClass.getMetadata()) &&
!memberClass.getMetadata().getClassName().equals(configClass.getMetadata().getClassName())) {
candidates.add(memberClass);
}
}
OrderComparator.sort(candidates);
for (SourceClass candidate : candidates) {
//3. 若当前Import栈中有了这个Configuration Class则出现循环导入!记录异常
if (this.importStack.contains(configClass)) {
this.problemReporter.error(new CircularImportProblem(configClass, this.importStack));
}
else {
this.importStack.push(configClass);
try {
//2. 递归处理内置类
processConfigurationClass(candidate.asConfigClass(configClass), filter);
}
finally {
this.importStack.pop();
}
}
}
}
}
-
@PropertySource: 会读取@PropertySource注解 元信息,然后读取相关资源构造成一个外部化配置数据源并添加到Environment中
//2. 处理@PropertySource,会创建一个PropertySource并添加到Environment中
for (AnnotationAttributes propertySource : AnnotationConfigUtils.attributesForRepeatable(
sourceClass.getMetadata(), PropertySources.class,
org.springframework.context.annotation.PropertySource.class)) {
if (this.environment instanceof ConfigurableEnvironment) {
processPropertySource(propertySource);
}
}
private void processPropertySource(AnnotationAttributes propertySource) throws IOException {
//1. 解析PropertySource相关属性元信息,从AnnotatioAttributes中获取
String name = propertySource.getString("name");
if (!StringUtils.hasLength(name)) {
name = null;
}
String encoding = propertySource.getString("encoding");
if (!StringUtils.hasLength(encoding)) {
encoding = null;
}
String[] locations = propertySource.getStringArray("value");
Assert.isTrue(locations.length > 0, "At least one @PropertySource(value) location is required");
boolean ignoreResourceNotFound = propertySource.getBoolean("ignoreResourceNotFound");
Class<? extends PropertySourceFactory> factoryClass = propertySource.getClass("factory");
PropertySourceFactory factory = (factoryClass == PropertySourceFactory.class ?
DEFAULT_PROPERTY_SOURCE_FACTORY : BeanUtils.instantiateClass(factoryClass));
//2. 迭代location并获取资源构造成PropertySource属性源
for (String location : locations) {
try {
String resolvedLocation = this.environment.resolveRequiredPlaceholders(location);
Resource resource = this.resourceLoader.getResource(resolvedLocation);
addPropertySource(factory.createPropertySource(name, new EncodedResource(resource, encoding)));
}
catch (IllegalArgumentException | FileNotFoundException | UnknownHostException | SocketException ex) {
// Placeholders not resolvable or resource not found when trying to open it
if (ignoreResourceNotFound) {
if (logger.isInfoEnabled()) {
logger.info("Properties location [" + location + "] not resolvable: " + ex.getMessage());
}
}
else {
throw ex;
}
}
}
}
-
@ComponentScan: 也是解析相关注解属性信息,然后直接使用ClassPathBeanDefinitionScanner#doScan()扫描所有Component派生以及ManagedBean,Named等。然后注册到IOC中,并将扫描到的Bean递归进行配置解析
//3. 处理ComponentScan以及其嵌套注解
Set<AnnotationAttributes> componentScans = AnnotationConfigUtils.attributesForRepeatable(
sourceClass.getMetadata(), ComponentScans.class, ComponentScan.class);
//3.1 如果有ComponentScan元信息,且 注册bean阶段的条件注解通过
if (!componentScans.isEmpty() &&
!this.conditionEvaluator.shouldSkip(sourceClass.getMetadata(), ConfigurationPhase.REGISTER_BEAN)) {
for (AnnotationAttributes componentScan : componentScans) {
// The config class is annotated with @ComponentScan -> perform the scan immediately
Set<BeanDefinitionHolder> scannedBeanDefinitions =
this.componentScanParser.parse(componentScan, sourceClass.getMetadata().getClassName());
//3.2 若扫描的BeanDefinition中有嵌套的Configuration Class则递归处理
for (BeanDefinitionHolder holder : scannedBeanDefinitions) {
BeanDefinition bdCand = holder.getBeanDefinition().getOriginatingBeanDefinition();
if (bdCand == null) {
bdCand = holder.getBeanDefinition();
}
if (ConfigurationClassUtils.checkConfigurationClassCandidate(bdCand, this.metadataReaderFactory)) {
parse(bdCand.getBeanClassName(), holder.getBeanName());
}
}
}
}
//ComponentScanParser#parse()
public Set<BeanDefinitionHolder> parse(AnnotationAttributes componentScan, final String declaringClass) {
ClassPathBeanDefinitionScanner scanner = new ClassPathBeanDefinitionScanner(this.registry,
componentScan.getBoolean("useDefaultFilters"), this.environment, this.resourceLoader);
//省略大量读取ComponentScan属性元信息的代码..
//1. 使用ClassPathBeanDefinitionScanner进行扫描候选的组件
return scanner.doScan(StringUtils.toStringArray(basePackages));
}
protected Set<BeanDefinitionHolder> doScan(String... basePackages) {
Assert.notEmpty(basePackages, "At least one base package must be specified");
Set<BeanDefinitionHolder> beanDefinitions = new LinkedHashSet<>();
//1. 迭代扫描包
for (String basePackage : basePackages) {
//2. 查找包下的组件,直接通过ResourceLoader + ASM来读取字节码文件
Set<BeanDefinition> candidates = findCandidateComponents(basePackage);
//3. 迭代查找到的组件BeanDefinition
for (BeanDefinition candidate : candidates) {
//省略相关注解格外属性的处理..
// 将扫描到的组件注册到IOC中
registerBeanDefinition(definitionHolder, this.registry);
}
}
}
return beanDefinitions;
}
-
@Import,importSelector等相关处理
//4. 处理@Import注解
processImports(configClass, sourceClass, getImports(sourceClass), filter, true);
private void processImports(ConfigurationClass configClass, SourceClass currentSourceClass,
Collection<SourceClass> importCandidates, Predicate<String> exclusionFilter,
boolean checkForCircularImports) {
this.importStack.push(configClass);
try {
for (SourceClass candidate : importCandidates) {
//1.1 处理ImportSelector
if (candidate.isAssignable(ImportSelector.class)) {
//反射实例化ImportSelector并传入 Environment,ResourceLoader,BeanDefinitionReigstry
Class<?> candidateClass = candidate.loadClass();
ImportSelector selector = ParserStrategyUtils.instantiateClass(candidateClass, ImportSelector.class,
this.environment, this.resourceLoader, this.registry);
Predicate<String> selectorFilter = selector.getExclusionFilter();
if (selectorFilter != null) {
exclusionFilter = exclusionFilter.or(selectorFilter);
}
if (selector instanceof DeferredImportSelector) {
//暂存DeferredImportSelector,在最后面进行处理
this.deferredImportSelectorHandler.handle(configClass, (DeferredImportSelector) selector);
}
else {
String[] importClassNames = selector.selectImports(currentSourceClass.getMetadata());
Collection<SourceClass> importSourceClasses = asSourceClasses(importClassNames, exclusionFilter);
//递归处理ImportSelector导入的配置类
processImports(configClass, currentSourceClass, importSourceClasses, exclusionFilter, false);
}
}
else if (candidate.isAssignable(ImportBeanDefinitionRegistrar.class)) {
Class<?> candidateClass = candidate.loadClass();
ImportBeanDefinitionRegistrar registrar =
ParserStrategyUtils.instantiateClass(candidateClass, ImportBeanDefinitionRegistrar.class,
this.environment, this.resourceLoader, this.registry);
//处理ImportBeanDefinitionRegistrar
configClass.addImportBeanDefinitionRegistrar(registrar, currentSourceClass.getMetadata());
}
else {
//处理其他类型的Configuration Class , 并将其添加到imports列表中
this.importStack.registerImport(
currentSourceClass.getMetadata(), candidate.getMetadata().getClassName());
processConfigurationClass(candidate.asConfigClass(configClass), exclusionFilter);
}
}
}
catch (BeanDefinitionStoreException ex) {
throw ex;
}
catch (Throwable ex) {
throw new BeanDefinitionStoreException(
"Failed to process import candidates for configuration class [" +
configClass.getMetadata().getClassName() + "]", ex);
}
finally {
this.importStack.pop();
}
}
}
其中Import相关注解到后面都会被添加到ConfigurationClass相关的属性中缓存
final class ConfigurationClass {
private final AnnotationMetadata metadata;
private final Resource resource;
@Nullable
private String beanName;
//记录所有@Import导入的Configuration Class
private final Set<ConfigurationClass> importedBy = new LinkedHashSet<>(1);
//记录所有解析@Bean生成的BeanMethod
private final Set<BeanMethod> beanMethods = new LinkedHashSet<>();
//记录所有@ImportResource (k->resource v->BeanDefinitionReader)
private final Map<String, Class<? extends BeanDefinitionReader>> importedResources =
new LinkedHashMap<>();
//记录所有的ImportBeanDefinitionRegistrar (k -> ImportBeanDefinitionRegistrar ,v -> 声明类的注解元信息)
private final Map<ImportBeanDefinitionRegistrar, AnnotationMetadata> importBeanDefinitionRegistrars =
new LinkedHashMap<>();
- 后面还有
@ImportResource,@bean,接口等相关处理就不一一列举了。详细的可以看spring的具体实现,其中值得一提的是DeferredImportSelector相关实现会在最后进行Configuration Class的处理,SpringBoot的自动配置类的相关加载就是通过DeferredImportSelector来实现了,确保了在加载自动配置类之前,已经加载了其依赖配置,详细可以参考AutoConfigurationImportSelector
最后使用ConfigurationClassBeanDefinitionReader#loadBeanDefinitionForConfiguratinoClass()完成Configuration Class的加载
private void loadBeanDefinitionsForConfigurationClass(
ConfigurationClass configClass, TrackedConditionEvaluator trackedConditionEvaluator) {
//1. 条件注解过滤,若满足则移除该BeanDefinition
if (trackedConditionEvaluator.shouldSkip(configClass)) {
String beanName = configClass.getBeanName();
if (StringUtils.hasLength(beanName) && this.registry.containsBeanDefinition(beanName)) {
this.registry.removeBeanDefinition(beanName);
}
this.importRegistry.removeImportingClass(configClass.getMetadata().getClassName());
return;
}
//注册Configuration Class
if (configClass.isImported()) {
registerBeanDefinitionForImportedConfigurationClass(configClass);
}
//注册BeanMethod
for (BeanMethod beanMethod : configClass.getBeanMethods()) {
loadBeanDefinitionsForBeanMethod(beanMethod);
}
//处理ImportResource,使用对应BeanDefinitionReader加载BeanDefinition
loadBeanDefinitionsFromImportedResources(configClass.getImportedResources());
//处理ImportBeanDefinitionRegistrar
loadBeanDefinitionsFromRegistrars(configClass.getImportBeanDefinitionRegistrars());
}
写在最后
由于ConfigurationClassPostProcessor相关解析代码比较复杂,但是其核心还是在相关元信息(
AnnotationMetadata)的解析和BeanDefinition的解析(ClassPathBeanDefinitionScanner,BeanDefinitionReader等)和注册方法(BeanDefinitionRegistry#reigsterBeanDefinition)使用,尤其是注解元信息,以及注解属性元信息(AnnotationAttributes)的相关api使用尤为的重要。建议好好看看上面AnnotatedBeanDefinition和更底层的MergedAnnotation相关api。
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