SpringBoot自动装配
chenzw93 人气:0背景
众所周知,如下即可启动一个最简单的Spring应用。查看@SpringBootApplication注解的源码,发现这个注解上有一个重要的注解@EnableAutoConfiguration,而这个注解就是SpringBoot实现自动装配的基础
import org.springframework.boot.SpringApplication;
import org.springframework.boot.autoconfigure.SpringBootApplication;
@SpringBootApplication
public class DemoApplication {
public static void main(String[] args) {
SpringApplication.run(DemoApplication.class, args);
}
}@EnableAutoConfiguration
EnableAutoConfiguration注解上通过@Import引入了两个类,org.springframework.boot.autoconfigure.AutoConfigurationImportSelector及org.springframework.boot.autoconfigure.AutoConfigurationPackages.Registrar。通过@Import标注的类,会在解析@Import所在的配置类时,将标注类引入容器解析,并进行注册。
有众多的组件都是通过在配置类上加@EnableAutoConfiguration注解将组件引入的
ImportBeanDefinitionRegistrar实现了org.springframework.context.annotation.ImportBeanDefinitionRegistrar及org.springframework.boot.context.annotation.DeterminableImportsAutoConfigurationImportSelector实现了org.springframework.context.annotation.DeferredImportSelector
@Target(ElementType.TYPE)
@Retention(RetentionPolicy.RUNTIME)
@Documented
@Inherited
@AutoConfigurationPackage
@Import(AutoConfigurationImportSelector.class)
public @interface EnableAutoConfiguration {
....
}
@Target(ElementType.TYPE)
@Retention(RetentionPolicy.RUNTIME)
@Documented
@Inherited
@Import(AutoConfigurationPackages.Registrar.class)
public @interface AutoConfigurationPackage {
...
}解析
起始
通过BeanFactoryPostProcessor对需要注册的Bean进行解析。即org.springframework.context.support.AbstractApplicationContext#refresh,在AbstractApplicationContext#invokeBeanFactoryPostProcessors方法调用时,就开始了对服务配置bean的解析,为对象的生成做准备
@Override
public void refresh() throws BeansException, IllegalStateException {
synchronized (this.startupShutdownMonitor) {
...
try {
...
invokeBeanFactoryPostProcessors(beanFactory);
}
catch (BeansException ex) {
finally {
}
}具体解析
调用org.springframework.context.support.PostProcessorRegistrationDelegate#invokeBeanFactoryPostProcessors,通过获取到的BeanFactoryPostProcessor实现类对各种配置类进行解析,具体的BeanFactoryPostProcessor解析后面我们在具体分析。
这里有一个很重要的类org.springframework.context.annotation.ConfigurationClassPostProcessor,首先会调用postProcessBeanDefinitionRegistry方法
// ConfigurationClassPostProcessor类部门源码
/**
* Derive further bean definitions from the configuration classes in the registry.
*/
@Override
public void postProcessBeanDefinitionRegistry(BeanDefinitionRegistry registry) {
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)) {
"postProcessBeanFactory already called on this post-processor against " + registry);
this.registriesPostProcessed.add(registryId);
// 处理配置类
processConfigBeanDefinitions(registry);
}
* Build and validate a configuration model based on the registry of
* {@link Configuration} classes.
public void processConfigBeanDefinitions(BeanDefinitionRegistry registry) {
...
// Parse each @Configuration class
ConfigurationClassParser parser = new ConfigurationClassParser(
this.metadataReaderFactory, this.problemReporter, this.environment,
this.resourceLoader, this.componentScanBeanNameGenerator, registry);
// configCandidates为待解析的Configuration类,如配置了@SpringBootApplication的类
Set<BeanDefinitionHolder> candidates = new LinkedHashSet<>(configCandidates);
Set<ConfigurationClass> alreadyParsed = new HashSet<>(configCandidates.size());
do {
StartupStep processConfig = this.applicationStartup.start("spring.context.config-classes.parse");
// 开始解析
parser.parse(candidates);
parser.validate();
...
while (!candidates.isEmpty());通过源码可知,具体的解析操作是在org.springframework.context.annotation.ConfigurationClassParser类中
public void parse(Set<BeanDefinitionHolder> configCandidates) {
for (BeanDefinitionHolder holder : configCandidates) {
BeanDefinition bd = holder.getBeanDefinition();
try {
if (bd instanceof AnnotatedBeanDefinition) {
// 将配置类进行解析。以当前配置类为原配置类,解析@PropertySource、@ComponentScan、@Import、@ImportResource、
// @Bean等标注的类或方法,生成对应的
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());
}
...
}
// 解析通过@Import引入的配置类,自动配置类的解析也在于此
this.deferredImportSelectorHandler.process();
}
public void processGroupImports() {
for (DeferredImportSelectorGrouping grouping : this.groupings.values()) {
Predicate<String> exclusionFilter = grouping.getCandidateFilter();
// grouping.getImports()方法获取到了所有配置的可用自动配置类,然后遍历,以配置类原点又开始一轮解析。自动装配就是在此处
grouping.getImports().forEach(entry -> {
ConfigurationClass configurationClass = this.configurationClasses.get(entry.getMetadata());
try {
// import的解析
processImports(configurationClass, asSourceClass(configurationClass, exclusionFilter),
Collections.singleton(asSourceClass(entry.getImportClassName(), exclusionFilter)),
exclusionFilter, false);
}
catch (BeanDefinitionStoreException ex) {
throw ex;
catch (Throwable ex) {
throw new BeanDefinitionStoreException(
"Failed to process import candidates for configuration class [" +
configurationClass.getMetadata().getClassName() + "]", ex);
});通过DeferredImportSelectorGrouping.getImports()方法解析。在org.springframework.boot.autoconfigure.AutoConfigurationImportSelector#getAutoConfigurationEntry方法中开始了autoConfiguration的解析。
/**
* Return the {@link AutoConfigurationEntry} based on the {@link AnnotationMetadata}
* of the importing {@link Configuration @Configuration} class.
* @param annotationMetadata the annotation metadata of the configuration class
* @return the auto-configurations that should be imported
*/
protected AutoConfigurationEntry getAutoConfigurationEntry(AnnotationMetadata annotationMetadata) {
if (!isEnabled(annotationMetadata)) {
return EMPTY_ENTRY;
}
// 解析@EnableAutoConfiguration注解中的属性exclude、excludeName
AnnotationAttributes attributes = getAttributes(annotationMetadata);
// 使用SpringFactoriesLoader获取META-INF/spring.properties中配置的EnableAutoConfiguration实现类,获取所有配置的自动装配类
List<String> configurations = getCandidateConfigurations(annotationMetadata, attributes);
// 去重
configurations = removeDuplicates(configurations);
// 获取需要排除的自动装配类
Set<String> exclusions = getExclusions(annotationMetadata, attributes);
checkExcludedClasses(configurations, exclusions);
configurations.removeAll(exclusions);
//getConfigurationClassFilter()方法就是获取spring.factories中配置的AutoConfigurationImportFilter实现类。然后调用filter //法对自动装配类进行有效性校验
configurations = getConfigurationClassFilter().filter(configurations);
fireAutoConfigurationImportEvents(configurations, exclusions);
return new AutoConfigurationEntry(configurations, exclusions);
}再继续看org.springframework.boot.autoconfigure.AutoConfigurationImportSelector.ConfigurationClassFilter#filter
List<String> filter(List<String> configurations) {
long startTime = System.nanoTime();
String[] candidates = StringUtils.toStringArray(configurations);
boolean skipped = false;
for (AutoConfigurationImportFilter filter : this.filters) {
// autoConfigurationMetadata为通过META-INF/spring-autoconfigure-metadata.properties配置文件的内容
// 使用filter及autoConfigurationMetadata对candidates进行校验
boolean[] match = filter.match(candidates, this.autoConfigurationMetadata);
for (int i = 0; i < match.length; i++) {
if (!match[i]) {
candidates[i] = null;
skipped = true;
}
}
}
if (!skipped) {
return configurations;
}
...
return result;
}再继续看match方法,org.springframework.boot.autoconfigure.condition.FilteringSpringBootCondition#match
@Override
public boolean[] match(String[] autoConfigurationClasses, AutoConfigurationMetadata autoConfigurationMetadata) {
ConditionEvaluationReport report = ConditionEvaluationReport.find(this.beanFactory);
// 抽象方法,不同的filter进行不同的处理。这里会获取每一个自动装配类的条件判断情况
ConditionOutcome[] outcomes = getOutcomes(autoConfigurationClasses, autoConfigurationMetadata);
boolean[] match = new boolean[outcomes.length];
for (int i = 0; i < outcomes.length; i++) {
match[i] = (outcomes[i] == null || outcomes[i].isMatch());
if (!match[i] && outcomes[i] != null) {
logOutcome(autoConfigurationClasses[i], outcomes[i]);
if (report != null) {
report.recordConditionEvaluation(autoConfigurationClasses[i], this, outcomes[i]);
}
}
}
return match;
}通过match方法,经过多种filter的过滤,返回的就是每一个自动配置类是否可用
结论
SpringBoot项目有一个子项目org.springframework.boot:spring-boot-autoconfigure:xx,这个子项目主要就是做自动装配的。SpringBoot提前配置了众多已经实现自动配置功能的配置类(org.springframework.boot.autoconfigure.EnableAutoConfiguration接口的实现类)。当容器启动的时候,通过SpringFactoriesLoader将配置类加载进容器中- 启动中,容器通过
BeanFactoryPostProcessor接口解析、修改对象的定义。有一个很重要的配置解析实现类org.springframework.context.annotation.ConfigurationClassPostProcessor,用来解析项目中标注@Configuration的类 - 在进行配置类解析时(即解析配置了
@SpringBootApplication注解的类),需要经过解析类的@PropertySource、@ComponentScan、@Import、@ImportResource、@Bean、接口默认实现、父类等(org.springframework.context.annotation.ConfigurationClassParser#doProcessConfigurationClass)。对于自动装配来说,最重要的就是解析@Import - 通过
@Import引入了org.springframework.boot.autoconfigure.AutoConfigurationImportSelector,在进行解析@Import引入的配置类时,org.springframework.boot.autoconfigure.AutoConfigurationImportSelector#getAutoConfigurationEntry获取到所有配置的自动装配类(通过META-INF/spring.factories文件配置EnableAutoConfiguration实现类),通过org.springframework.context.annotation.Condition定义过滤器,判断自动装配置是否需要自动装配。默认的过滤器有OnClassCondition、OnWebApplicationCondition、OnBeanCondition,对应常见的condition注解ConditionalOnClass、ConditionalOnBean、@ConditionalOnWebApplication。 - 通过过滤判断,将需要自动配置的类进行configuration解析,从而将需要配置的类转换成对应的
BeanDefinition进行注册
备注
- SpringBoot将自动装配类及过滤条件通过配置文件的形式放在了
META-INF目录下,META-INF/spring.factories和META-INF/spring-autoconfigure-metadata.properties - 在
BeanFactoryPostProcessor进行调用时,有两种处理。首先是通过BeanDefinitionRegistryPostProcessor#postProcessBeanDefinitionRegistry解析更多的BeanDefinition,在这里就包含了所有标注类的扫描解析,自动装配类的解析,自动装配类引入类的解析。在进行BeanFactoryPostProcessor#postProcessBeanFactory调用,进行CGLIB-enhanced配置类。这里最重要的一个类就是org.springframework.context.annotation.ConfigurationClassPostProcessor,以下为此类的继承关系
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