Mybaits 原始碼解析 (二)----- 根據配置檔案建立SqlSessionFactory(Configuration的建立過程)
阿新 • • 發佈:2019-10-28
我們使用mybatis操作資料庫都是通過SqlSession的API呼叫,而建立SqlSession是通過SqlSessionFactory。下面我們就看看SqlSessionFactory的建立過程。
配置檔案解析入口
我們看看第一篇文章中的測試方法
1 public static void main(String[] args) throws IOException {
2 String resource = "mybatis-config.xml";
3 InputStream inputStream = Resources.getResourceAsStream(resource);
4 SqlSessionFactory sqlSessionFactory = new SqlSessionFactoryBuilder().build(inputStream);
5 SqlSession sqlSession = sqlSessionFactory.openSession();
6 try {
7 Employee employeeMapper = sqlSession.getMapper(Employee.class);
8 List<Employee> all = employeeMapper.getAll();
9 for (Employee item : all)
10 System.out.println(item);
11 } finally {
12 sqlSession.close();
13 }
14 }首先,我們使用 MyBatis 提供的工具類 Resources 載入配置檔案,得到一個輸入流。然後再通過 SqlSessionFactoryBuilder 物件的build方法構建 SqlSessionFactory 物件。所以這裡的 build 方法是我們分析配置檔案解析過程的入口方法。我們看看build裡面是程式碼:
public SqlSessionFactory build(InputStream inputStream) {
// 呼叫過載方法
return build(inputStream, null, null);
}
public SqlSessionFactory build(InputStream inputStream, String environment, Properties properties) {
try {
// 建立配置檔案解析器
XMLConfigBuilder parser = new XMLConfigBuilder(inputStream, environment, properties);
// 呼叫 parser.parse() 方法解析配置檔案,生成 Configuration 物件
return build(parser.parse());
} catch (Exception e) {
throw ExceptionFactory.wrapException("Error building SqlSession.", e);
} finally {
ErrorContext.instance().reset();
try {
inputStream.close();
} catch (IOException e) {
// Intentionally ignore. Prefer previous error.
}
}
}
public SqlSessionFactory build(Configuration config) {
// 建立 DefaultSqlSessionFactory,將解析配置檔案後生成的Configuration傳入
return new DefaultSqlSessionFactory(config);
}SqlSessionFactory是通過SqlSessionFactoryBuilder的build方法建立的,build方法內部是通過一個XMLConfigBuilder物件解析mybatis-config.xml檔案生成一個Configuration物件。XMLConfigBuilder從名字可以看出是解析Mybatis配置檔案的,其實它是繼承了一個父類BaseBuilder,其每一個子類多是以XMLXXXXXBuilder命名的,也就是其子類都對應解析一種xml檔案或xml檔案中一種元素。
我們看看XMLConfigBuilder的構造方法:
private XMLConfigBuilder(XPathParser parser, String environment, Properties props) {
super(new Configuration());
ErrorContext.instance().resource("SQL Mapper Configuration");
this.configuration.setVariables(props);
this.parsed = false;
this.environment = environment;
this.parser = parser;
}可以看到呼叫了父類的構造方法,並傳入一個new Configuration()物件,這個物件也就是最終的Mybatis配置物件
我們先來看看其基類BaseBuilder
public abstract class BaseBuilder {
protected final Configuration configuration;
protected final TypeAliasRegistry typeAliasRegistry;
protected final TypeHandlerRegistry typeHandlerRegistry;
public BaseBuilder(Configuration configuration) {
this.configuration = configuration;
this.typeAliasRegistry = this.configuration.getTypeAliasRegistry();
this.typeHandlerRegistry = this.configuration.getTypeHandlerRegistry();
}
....
}
BaseBuilder中只有三個成員變數,而typeAliasRegistry和typeHandlerRegistry都是直接從Configuration的成員變數獲得的,接著我們看看Configuration這個類
Configuration類位於mybatis包的org.apache.ibatis.session目錄下,其屬性就是對應於mybatis的全域性配置檔案mybatis-config.xml的配置,將XML配置中的內容解析賦值到Configuration物件中。
由於XML配置項有很多,所以Configuration類的屬性也很多。先來看下Configuration對於的XML配置檔案示例:
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE configuration PUBLIC "-//mybatis.org//DTD Config 3.0//EN" "http://mybatis.org/dtd/mybatis-3-config.dtd">
<!-- 全域性配置頂級節點 -->
<configuration>
<!-- 屬性配置,讀取properties中的配置檔案 -->
<properties resource="db.propertis">
<property name="XXX" value="XXX"/>
</properties>
<!-- 類型別名 -->
<typeAliases>
<!-- 在用到User型別的時候,可以直接使用別名,不需要輸入User類的全部路徑 -->
<typeAlias type="com.luck.codehelp.entity.User" alias="user"/>
</typeAliases>
<!-- 型別處理器 -->
<typeHandlers>
<!-- 型別處理器的作用是完成JDBC型別和java型別的轉換,mybatis預設已經由了很多型別處理器,正常無需自定義-->
</typeHandlers>
<!-- 物件工廠 -->
<!-- mybatis建立結果物件的新例項時,會通過物件工廠來完成,mybatis有預設的物件工廠,正常無需配置 -->
<objectFactory type=""></objectFactory>
<!-- 外掛 -->
<plugins>
<!-- 可以自定義攔截器通過plugin標籤加入 -->
<plugin interceptor="com.lucky.interceptor.MyPlugin"></plugin>
</plugins>
<!-- 全域性配置引數 -->
<settings>
<setting name="cacheEnabled" value="false" />
<setting name="useGeneratedKeys" value="true" /><!-- 是否自動生成主鍵 -->
<setting name="defaultExecutorType" value="REUSE" />
<setting name="lazyLoadingEnabled" value="true"/><!-- 延遲載入標識 -->
<setting name="aggressiveLazyLoading" value="true"/><!--有延遲載入屬性的物件是否延遲載入 -->
<setting name="multipleResultSetsEnabled" value="true"/><!-- 是否允許單個語句返回多個結果集 -->
<setting name="useColumnLabel" value="true"/><!-- 使用列標籤而不是列名 -->
<setting name="autoMappingBehavior" value="PARTIAL"/><!-- 指定mybatis如何自動對映列到欄位屬性;NONE:自動對映;PARTIAL:只會對映結果沒有巢狀的結果;FULL:可以對映任何複雜的結果 -->
<setting name="defaultExecutorType" value="SIMPLE"/><!-- 預設執行器型別 -->
<setting name="defaultFetchSize" value=""/>
<setting name="defaultStatementTimeout" value="5"/><!-- 驅動等待資料庫相應的超時時間 ,單位是秒-->
<setting name="safeRowBoundsEnabled" value="false"/><!-- 是否允許使用巢狀語句RowBounds -->
<setting name="safeResultHandlerEnabled" value="true"/>
<setting name="mapUnderscoreToCamelCase" value="false"/><!-- 下劃線列名是否自動對映到駝峰屬性:如user_id對映到userId -->
<setting name="localCacheScope" value="SESSION"/><!-- 本地快取(session是會話級別) -->
<setting name="jdbcTypeForNull" value="OTHER"/><!-- 資料為空值時,沒有特定的JDBC型別的引數的JDBC型別 -->
<setting name="lazyLoadTriggerMethods" value="equals,clone,hashCode,toString"/><!-- 指定觸發延遲載入的物件的方法 -->
<setting name="callSettersOnNulls" value="false"/><!--如果setter方法或map的put方法,如果檢索到的值為null時,資料是否有用 -->
<setting name="logPrefix" value="XXXX"/><!-- mybatis日誌檔案字首字串 -->
<setting name="logImpl" value="SLF4J"/><!-- mybatis日誌的實現類 -->
<setting name="proxyFactory" value="CGLIB"/><!-- mybatis代理工具 -->
</settings>
<!-- 環境配置集合 -->
<environments default="development">
<environment id="development">
<transactionManager type="JDBC"/><!-- 事務管理器 -->
<dataSource type="POOLED"><!-- 資料庫連線池 -->
<property name="driver" value="com.mysql.jdbc.Driver" />
<property name="url" value="jdbc:mysql://localhost:3306/test?useUnicode=true&characterEncoding=UTF-8" />
<property name="username" value="root" />
<property name="password" value="root" />
</dataSource>
</environment>
</environments>
<!-- mapper檔案對映配置 -->
<mappers>
<mapper resource="com/luck/codehelp/mapper/UserMapper.xml"/>
</mappers>
</configuration>
而對於XML的配置,Configuration類的屬性是和XML配置對應的。Configuration類屬性如下:
public class Configuration {
protected Environment environment;//執行環境
protected boolean safeRowBoundsEnabled = false;
protected boolean safeResultHandlerEnabled = true;
protected boolean mapUnderscoreToCamelCase = false;
protected boolean aggressiveLazyLoading = true; //true:有延遲載入屬性的物件被呼叫時完全載入任意屬性;false:每個屬性按需要載入
protected boolean multipleResultSetsEnabled = true;//是否允許多種結果集從一個單獨的語句中返回
protected boolean useGeneratedKeys = false;//是否支援自動生成主鍵
protected boolean useColumnLabel = true;//是否使用列標籤
protected boolean cacheEnabled = true;//是否使用快取標識
protected boolean callSettersOnNulls = false;//
protected boolean useActualParamName = true;
protected String logPrefix;
protected Class <? extends Log> logImpl;
protected Class <? extends VFS> vfsImpl;
protected LocalCacheScope localCacheScope = LocalCacheScope.SESSION;
protected JdbcType jdbcTypeForNull = JdbcType.OTHER;
protected Set<String> lazyLoadTriggerMethods = new HashSet<String>(Arrays.asList(new String[] { "equals", "clone", "hashCode", "toString" }));
protected Integer defaultStatementTimeout;
protected Integer defaultFetchSize;
protected ExecutorType defaultExecutorType = ExecutorType.SIMPLE;
protected AutoMappingBehavior autoMappingBehavior = AutoMappingBehavior.PARTIAL;//指定mybatis如果自動對映列到欄位和屬性,PARTIAL會自動對映簡單的沒有巢狀的結果,FULL會自動對映任意複雜的結果
protected AutoMappingUnknownColumnBehavior autoMappingUnknownColumnBehavior = AutoMappingUnknownColumnBehavior.NONE;
protected Properties variables = new Properties();
protected ReflectorFactory reflectorFactory = new DefaultReflectorFactory();
protected ObjectFactory objectFactory = new DefaultObjectFactory();
protected ObjectWrapperFactory objectWrapperFactory = new DefaultObjectWrapperFactory();
protected boolean lazyLoadingEnabled = false;//是否延時載入,false則表示所有關聯物件即使載入,true表示延時載入
protected ProxyFactory proxyFactory = new JavassistProxyFactory(); // #224 Using internal Javassist instead of OGNL
protected String databaseId;
protected Class<?> configurationFactory;
protected final MapperRegistry mapperRegistry = new MapperRegistry(this);
protected final InterceptorChain interceptorChain = new InterceptorChain();
protected final TypeHandlerRegistry typeHandlerRegistry = new TypeHandlerRegistry();
protected final TypeAliasRegistry typeAliasRegistry = new TypeAliasRegistry();
protected final LanguageDriverRegistry languageRegistry = new LanguageDriverRegistry();
protected final Map<String, MappedStatement> mappedStatements = new StrictMap<MappedStatement>("Mapped Statements collection");
protected final Map<String, Cache> caches = new StrictMap<Cache>("Caches collection");
protected final Map<String, ResultMap> resultMaps = new StrictMap<ResultMap>("Result Maps collection");
protected final Map<String, ParameterMap> parameterMaps = new StrictMap<ParameterMap>("Parameter Maps collection");
protected final Map<String, KeyGenerator> keyGenerators = new StrictMap<KeyGenerator>("Key Generators collection");
protected final Set<String> loadedResources = new HashSet<String>(); //已經載入過的resource(mapper)
protected final Map<String, XNode> sqlFragments = new StrictMap<XNode>("XML fragments parsed from previous mappers");
protected final Collection<XMLStatementBuilder> incompleteStatements = new LinkedList<XMLStatementBuilder>();
protected final Collection<CacheRefResolver> incompleteCacheRefs = new LinkedList<CacheRefResolver>();
protected final Collection<ResultMapResolver> incompleteResultMaps = new LinkedList<ResultMapResolver>();
protected final Collection<MethodResolver> incompleteMethods = new LinkedList<MethodResolver>();
protected final Map<String, String> cacheRefMap = new HashMap<String, String>();
//其他方法略
}
載入的過程是SqlSessionFactoryBuilder根據xml配置的檔案流,通過XMLConfigBuilder的parse方法進行解析得到一個Configuration物件,我們再看看其建構函式
1 public Configuration() {
2 this.safeRowBoundsEnabled = false;
3 this.safeResultHandlerEnabled = true;
4 this.mapUnderscoreToCamelCase = false;
5 this.aggressiveLazyLoading = true;
6 this.multipleResultSetsEnabled = true;
7 this.useGeneratedKeys = false;
8 this.useColumnLabel = true;
9 this.cacheEnabled = true;
10 this.callSettersOnNulls = false;
11 this.localCacheScope = LocalCacheScope.SESSION;
12 this.jdbcTypeForNull = JdbcType.OTHER;
13 this.lazyLoadTriggerMethods = new HashSet(Arrays.asList("equals", "clone", "hashCode", "toString"));
14 this.defaultExecutorType = ExecutorType.SIMPLE;
15 this.autoMappingBehavior = AutoMappingBehavior.PARTIAL;
16 this.autoMappingUnknownColumnBehavior = AutoMappingUnknownColumnBehavior.NONE;
17 this.variables = new Properties();
18 this.reflectorFactory = new DefaultReflectorFactory();
19 this.objectFactory = new DefaultObjectFactory();
20 this.objectWrapperFactory = new DefaultObjectWrapperFactory();
21 this.mapperRegistry = new MapperRegistry(this);
22 this.lazyLoadingEnabled = false;
23 this.proxyFactory = new JavassistProxyFactory();
24 this.interceptorChain = new InterceptorChain();
25 this.typeHandlerRegistry = new TypeHandlerRegistry();
26 this.typeAliasRegistry = new TypeAliasRegistry();
27 this.languageRegistry = new LanguageDriverRegistry();
28 this.mappedStatements = new Configuration.StrictMap("Mapped Statements collection");
29 this.caches = new Configuration.StrictMap("Caches collection");
30 this.resultMaps = new Configuration.StrictMap("Result Maps collection");
31 this.parameterMaps = new Configuration.StrictMap("Parameter Maps collection");
32 this.keyGenerators = new Configuration.StrictMap("Key Generators collection");
33 this.loadedResources = new HashSet();
34 this.sqlFragments = new Configuration.StrictMap("XML fragments parsed from previous mappers");
35 this.incompleteStatements = new LinkedList();
36 this.incompleteCacheRefs = new LinkedList();
37 this.incompleteResultMaps = new LinkedList();
38 this.incompleteMethods = new LinkedList();
39 this.cacheRefMap = new HashMap();
40 this.typeAliasRegistry.registerAlias("JDBC", JdbcTransactionFactory.class);
41 this.typeAliasRegistry.registerAlias("MANAGED", ManagedTransactionFactory.class);
42 this.typeAliasRegistry.registerAlias("JNDI", JndiDataSourceFactory.class);
43 this.typeAliasRegistry.registerAlias("POOLED", PooledDataSourceFactory.class);
44 this.typeAliasRegistry.registerAlias("UNPOOLED", UnpooledDataSourceFactory.class);
45 this.typeAliasRegistry.registerAlias("PERPETUAL", PerpetualCache.class);
46 this.typeAliasRegistry.registerAlias("FIFO", FifoCache.class);
47 this.typeAliasRegistry.registerAlias("LRU", LruCache.class);
48 this.typeAliasRegistry.registerAlias("SOFT", SoftCache.class);
49 this.typeAliasRegistry.registerAlias("WEAK", WeakCache.class);
50 this.typeAliasRegistry.registerAlias("DB_VENDOR", VendorDatabaseIdProvider.class);
51 this.typeAliasRegistry.registerAlias("XML", XMLLanguageDriver.class);
52 this.typeAliasRegistry.registerAlias("RAW", RawLanguageDriver.class);
53 this.typeAliasRegistry.registerAlias("SLF4J", Slf4jImpl.class);
54 this.typeAliasRegistry.registerAlias("COMMONS_LOGGING", JakartaCommonsLoggingImpl.class);
55 this.typeAliasRegistry.registerAlias("LOG4J", Log4jImpl.class);
56 this.typeAliasRegistry.registerAlias("LOG4J2", Log4j2Impl.class);
57 this.typeAliasRegistry.registerAlias("JDK_LOGGING", Jdk14LoggingImpl.class);
58 this.typeAliasRegistry.registerAlias("STDOUT_LOGGING", StdOutImpl.class);
59 this.typeAliasRegistry.registerAlias("NO_LOGGING", NoLoggingImpl.class);
60 this.typeAliasRegistry.registerAlias("CGLIB", CglibProxyFactory.class);
61 this.typeAliasRegistry.registerAlias("JAVASSIST", JavassistProxyFactory.class);
62 this.languageRegistry.setDefaultDriverClass(XMLLanguageDriver.class);
63 this.languageRegistry.register(RawLanguageDriver.class);
64 }
我們看到第26行this.typeAliasRegistry = new TypeAliasRegistry();,並且第40到61行向 typeAliasRegistry 註冊了很多別名,我們看看TypeAliasRegistry
public class TypeAliasRegistry {
private final Map<String, Class<?>> TYPE_ALIASES = new HashMap();
public TypeAliasRegistry() {
this.registerAlias("string", String.class);
this.registerAlias("byte", Byte.class);
this.registerAlias("long", Long.class);
this.registerAlias("short", Short.class);
this.registerAlias("int", Integer.class);
this.registerAlias("integer", Integer.class);
this.registerAlias("double", Double.class);
this.registerAlias("float", Float.class);
this.registerAlias("boolean", Boolean.class);
this.registerAlias("byte[]", Byte[].class);
this.registerAlias("long[]", Long[].class);
this.registerAlias("short[]", Short[].class);
this.registerAlias("int[]", Integer[].class);
this.registerAlias("integer[]", Integer[].class);
this.registerAlias("double[]", Double[].class);
this.registerAlias("float[]", Float[].class);
this.registerAlias("boolean[]", Boolean[].class);
this.registerAlias("_byte", Byte.TYPE);
this.registerAlias("_long", Long.TYPE);
this.registerAlias("_short", Short.TYPE);
this.registerAlias("_int", Integer.TYPE);
this.registerAlias("_integer", Integer.TYPE);
this.registerAlias("_double", Double.TYPE);
this.registerAlias("_float", Float.TYPE);
this.registerAlias("_boolean", Boolean.TYPE);
this.registerAlias("_byte[]", byte[].class);
this.registerAlias("_long[]", long[].class);
this.registerAlias("_short[]", short[].class);
this.registerAlias("_int[]", int[].class);
this.registerAlias("_integer[]", int[].class);
this.registerAlias("_double[]", double[].class);
this.registerAlias("_float[]", float[].class);
this.registerAlias("_boolean[]", boolean[].class);
this.registerAlias("date", Date.class);
this.registerAlias("decimal", BigDecimal.class);
this.registerAlias("bigdecimal", BigDecimal.class);
this.registerAlias("biginteger", BigInteger.class);
this.registerAlias("object", Object.class);
this.registerAlias("date[]", Date[].class);
this.registerAlias("decimal[]", BigDecimal[].class);
this.registerAlias("bigdecimal[]", BigDecimal[].class);
this.registerAlias("biginteger[]", BigInteger[].class);
this.registerAlias("object[]", Object[].class);
this.registerAlias("map", Map.class);
this.registerAlias("hashmap", HashMap.class);
this.registerAlias("list", List.class);
this.registerAlias("arraylist", ArrayList.class);
this.registerAlias("collection", Collection.class);
this.registerAlias("iterator", Iterator.class);
this.registerAlias("ResultSet", ResultSet.class);
}
public void registerAliases(String packageName) {
this.registerAliases(packageName, Object.class);
}
//略
}
其實TypeAliasRegistry裡面有一個HashMap,並且在TypeAliasRegistry的構造器中註冊很多別名到這個hashMap中,好了,到現在我們只是建立了一個 XMLConfigBuilder,在其構造器中我們建立了一個 Configuration 物件,接下來我們看看將mybatis-config.xml解析成Configuration中對應的屬性,也就是parser.parse()方法:
XMLConfigBuilder
1 public Configuration parse() {
2 if (parsed) {
3 throw new BuilderException("Each XMLConfigBuilder can only be used once.");
4 }
5 parsed = true;
6 // 解析配置
7 parseConfiguration(parser.evalNode("/configuration"));
8 return configuration;
9 }
我們看看第7行,注意一個 xpath 表示式 - /configuration。這個表示式代表的是 MyBatis 的<configuration/>標籤,這裡選中這個標籤,並傳遞給parseConfiguration方法。我們繼續跟下去。
private void parseConfiguration(XNode root) {
try {
// 解析 properties 配置
propertiesElement(root.evalNode("properties"));
// 解析 settings 配置,並將其轉換為 Properties 物件
Properties settings = settingsAsProperties(root.evalNode("settings"));
// 載入 vfs
loadCustomVfs(settings);
// 解析 typeAliases 配置
typeAliasesElement(root.evalNode("typeAliases"));
// 解析 plugins 配置
pluginElement(root.evalNode("plugins"));
// 解析 objectFactory 配置
objectFactoryElement(root.evalNode("objectFactory"));
// 解析 objectWrapperFactory 配置
objectWrapperFactoryElement(root.evalNode("objectWrapperFactory"));
// 解析 reflectorFactory 配置
reflectorFactoryElement(root.evalNode("reflectorFactory"));
// settings 中的資訊設定到 Configuration 物件中
settingsElement(settings);
// 解析 environments 配置
environmentsElement(root.evalNode("environments"));
// 解析 databaseIdProvider,獲取並設定 databaseId 到 Configuration 物件
databaseIdProviderElement(root.evalNode("databaseIdProvider"));
// 解析 typeHandlers 配置
typeHandlerElement(root.evalNode("typeHandlers"));
// 解析 mappers 配置
mapperElement(root.evalNode("mappers"));
} catch (Exception e) {
throw new BuilderException("Error parsing SQL Mapper Configuration. Cause: " + e, e);
}
}
解析 properties 配置
先來看一下 properties 節點的配置內容。如下:
<properties resource="db.properties">
<property name="username" value="root"/>
<property name="password" value="123456"/>
</properties>
我為 properties 節點配置了一個 resource 屬性,以及兩個子節點。接著我們看看propertiesElement的邏輯
private void propertiesElement(XNode context) throws Exception {
if (context != null) {
// 解析 propertis 的子節點,並將這些節點內容轉換為屬性物件 Properties
Properties defaults = context.getChildrenAsProperties();
// 獲取 propertis 節點中的 resource 和 url 屬性值
String resource = context.getStringAttribute("resource");
String url = context.getStringAttribute("url");
// 兩者都不用空,則丟擲異常
if (resource != null && url != null) {
throw new BuilderException("The properties element cannot specify both a URL and a resource based property file reference. Please specify one or the other.");
}
if (resource != null) {
// 從檔案系統中載入並解析屬性檔案
defaults.putAll(Resources.getResourceAsProperties(resource));
} else if (url != null) {
// 通過 url 載入並解析屬性檔案
defaults.putAll(Resources.getUrlAsProperties(url));
}
Properties vars = configuration.getVariables();
if (vars != null) {
defaults.putAll(vars);
}
parser.setVariables(defaults);
// 將屬性值設定到 configuration 中
configuration.setVariables(defaults);
}
}
public Properties getChildrenAsProperties() {
//建立一個Properties物件
Properties properties = new Properties();
// 獲取並遍歷子節點
for (XNode child : getChildren()) {
// 獲取 property 節點的 name 和 value 屬性
String name = child.getStringAttribute("name");
String value = child.getStringAttribute("value");
if (name != null && value != null) {
// 設定屬性到屬性物件中
properties.setProperty(name, value);
}
}
return properties;
}
// -☆- XNode
public List<XNode> getChildren() {
List<XNode> children = new ArrayList<XNode>();
// 獲取子節點列表
NodeList nodeList = node.getChildNodes();
if (nodeList != null) {
for (int i = 0, n = nodeList.getLength(); i < n; i++) {
Node node = nodeList.item(i);
if (node.getNodeType() == Node.ELEMENT_NODE) {
children.add(new XNode(xpathParser, node, variables));
}
}
}
return children;
}
解析properties主要分三個步驟:
- 解析 properties 節點的子節點,並將解析結果設定到 Properties 物件中。
- 從檔案系統或通過網路讀取屬性配置,這取決於 properties 節點的 resource 和 url 是否為空。
- 將解析出的屬性物件設定到 XPathParser 和 Configuration 物件中。
需要注意的是,propertiesElement 方法是先解析 properties 節點的子節點內容,後再從檔案系統或者網路讀取屬性配置,並將所有的屬性及屬性值都放入到 defaults 屬性物件中。這就會存在同名屬性覆蓋的問題,也就是從檔案系統,或者網路上讀取到的屬性及屬性值會覆蓋掉 properties 子節點中同名的屬性和及值。
解析 settings 配置
settings 節點的解析過程
下面先來看一個settings比較簡單的配置,如下:
<settings>
<setting name="cacheEnabled" value="true"/>
<setting name="lazyLoadingEnabled" value="true"/>
<setting name="autoMappingBehavior" value="PARTIAL"/>
</settings>
接著來看看settingsAsProperties
private Properties settingsAsProperties(XNode context) {
if (context == null) {
return new Properties();
}
// 獲取 settings 子節點中的內容,解析成Properties,getChildrenAsProperties 方法前面已分析過
Properties props = context.getChildrenAsProperties();
// 建立 Configuration 類的“元資訊”物件
MetaClass metaConfig = MetaClass.forClass(Configuration.class, localReflectorFactory);
for (Object key : props.keySet()) {
// 檢測 Configuration 中是否存在相關屬性,不存在則丟擲異常
if (!metaConfig.hasSetter(String.valueOf(key))) {
throw new BuilderException("The setting " + key + " is not known. Make sure you spelled it correctly (case sensitive).");
}
}
return props;
}
設定 settings 配置到 Configuration 中
接著我們看看將 settings 配置設定到 Configuration 物件中的過程。如下:
private void settingsElement(Properties props) throws Exception {
// 設定 autoMappingBehavior 屬性,預設值為 PARTIAL
configuration.setAutoMappingBehavior(AutoMappingBehavior.valueOf(props.getProperty("autoMappingBehavior", "PARTIAL")));
configuration.setAutoMappingUnknownColumnBehavior(AutoMappingUnknownColumnBehavior.valueOf(props.getProperty("autoMappingUnknownColumnBehavior", "NONE")));
// 設定 cacheEnabled 屬性,預設值為 true
configuration.setCacheEnabled(booleanValueOf(props.getProperty("cacheEnabled"), true));
// 省略部分程式碼
// 解析預設的列舉處理器
Class<? extends TypeHandler> typeHandler = (Class<? extends TypeHandler>)resolveClass(props.getProperty("defaultEnumTypeHandler"));
// 設定預設列舉處理器
configuration.setDefaultEnumTypeHandler(typeHandler);
configuration.setCallSettersOnNulls(booleanValueOf(props.getProperty("callSettersOnNulls"), false));
configuration.setUseActualParamName(booleanValueOf(props.getProperty("useActualParamName"), true));
// 省略部分程式碼
}
上面程式碼處理呼叫 Configuration 的 setter 方法
解析 typeAliases 配置
在 MyBatis 中,可以為我們自己寫的有些類定義一個別名。這樣在使用的時候,我們只需要輸入別名即可,無需再把全限定的類名寫出來。在 MyBatis 中,我們有兩種方式進行別名配置。第一種是僅配置包名,讓 MyBatis 去掃描包中的型別,並根據型別得到相應的別名
<typeAliases>
<package name="com.mybatis.model"/>
</typeAliases>
第二種方式是通過手動的方式,明確為某個型別配置別名。這種方式的配置如下:
<typeAliases>
<typeAlias alias="employe" type="com.mybatis.model.Employe" />
<typeAlias type="com.mybatis.model.User" />
</typeAliases>
下面我們來看一下兩種不同的別名配置是怎樣解析的。程式碼如下:
XMLConfigBuilder
private void typeAliasesElement(XNode parent) {
if (parent != null) {
for (XNode child : parent.getChildren()) {
// 從指定的包中解析別名和型別的對映
if ("package".equals(child.getName())) {
String typeAliasPackage = child.getStringAttribute("name");
configuration.getTypeAliasRegistry().registerAliases(typeAliasPackage);
// 從 typeAlias 節點中解析別名和型別的對映
} else {
// 獲取 alias 和 type 屬性值,alias 不是必填項,可為空
String alias = child.getStringAttribute("alias");
String type = child.getStringAttribute("type");
try {
// 載入 type 對應的型別
Class<?> clazz = Resources.classForName(type);
// 註冊別名到型別的對映
if (alias == null) {
typeAliasRegistry.registerAlias(clazz);
} else {
typeAliasRegistry.registerAlias(alias, clazz);
}
} catch (ClassNotFoundException e) {
throw new BuilderException("Error registering typeAlias for '" + alias + "'. Cause: " + e, e);
}
}
}
}
}
我們看到通過包掃描和手動註冊時通過子節點名稱是否package來判斷的
從 typeAlias 節點中解析並註冊別名
在別名的配置中,type屬性是必須要配置的,而alias屬性則不是必須的。
private final Map<String, Class<?>> TYPE_ALIASES = new HashMap<String, Class<?>>();
public void registerAlias(Class<?> type) {
// 獲取全路徑類名的簡稱
String alias = type.getSimpleName();
Alias aliasAnnotation = type.getAnnotation(Alias.class);
if (aliasAnnotation != null) {
// 從註解中取出別名
alias = aliasAnnotation.value();
}
// 呼叫過載方法註冊別名和型別對映
registerAlias(alias, type);
}
public void registerAlias(String alias, Class<?> value) {
if (alias == null) {
throw new TypeException("The parameter alias cannot be null");
}
// 將別名轉成小寫
String key = alias.toLowerCase(Locale.ENGLISH);
/*
* 如果 TYPE_ALIASES 中存在了某個型別對映,這裡判斷當前型別與對映中的型別是否一致,
* 不一致則丟擲異常,不允許一個別名對應兩種型別
*/
if (TYPE_ALIASES.containsKey(key) && TYPE_ALIASES.get(key) != null && !TYPE_ALIASES.get(key).equals(value)) {
throw new TypeException(
"The alias '" + alias + "' is already mapped to the value '" + TYPE_ALIASES.get(key).getName() + "'.");
}
// 快取別名到型別對映
TYPE_ALIASES.put(key, value);
}
若使用者為明確配置 alias 屬性,MyBatis 會使用類名的小寫形式作為別名。比如,全限定類名com.mybatis.model.User的別名為user。若類中有@Alias註解,則從註解中取值作為別名。
從指定的包中解析並註冊別名
public void registerAliases(String packageName) {
registerAliases(packageName, Object.class);
}
public void registerAliases(String packageName, Class<?> superType) {
ResolverUtil<Class<?>> resolverUtil = new ResolverUtil<Class<?>>();
/*
* 查詢包下的父類為 Object.class 的類。
* 查詢完成後,查詢結果將會被快取到resolverUtil的內部集合中。
*/
resolverUtil.find(new ResolverUtil.IsA(superType), packageName);
// 獲取查詢結果
Set<Class<? extends Class<?>>> typeSet = resolverUtil.getClasses();
for (Class<?> type : typeSet) {
// 忽略匿名類,介面,內部類
if (!type.isAnonymousClass() && !type.isInterface() && !type.isMemberClass()) {
// 為型別註冊別名
registerAlias(type);
}
}
}
主要分為兩個步驟:
- 查詢指定包下的所有類
- 遍歷查詢到的型別集合,為每個型別註冊別名
我們看看查詢指定包下的所有類
private Set<Class<? extends T>> matches = new HashSet();
public ResolverUtil<T> find(ResolverUtil.Test test, String packageName) {
//將包名轉換成檔案路徑
String path = this.getPackagePath(packageName);
try {
//通過 VFS(虛擬檔案系統)獲取指定包下的所有檔案的路徑名,比如com/mybatis/model/Employe.class
List<String> children = VFS.getInstance().list(path);
Iterator i$ = children.iterator();
while(i$.hasNext()) {
String child = (String)i$.next();
//以.class結尾的檔案就加入到Set集合中
if (child.endsWith(".class")) {
this.addIfMatching(test, child);
}
}
} catch (IOException var7) {
log.error("Could not read package: " + packageName, var7);
}
return this;
}
protected String getPackagePath(String packageName) {
//將包名轉換成檔案路徑
return packageName == null ? null : packageName.replace('.', '/');
}
protected void addIfMatching(ResolverUtil.Test test, String fqn) {
try {
//將路徑名轉成全限定的類名,通過類載入器載入類名,比如com.mybatis.model.Employe.class
String externalName = fqn.substring(0, fqn.indexOf(46)).replace('/', '.');
ClassLoader loader = this.getClassLoader();
if (log.isDebugEnabled()) {
log.debug("Checking to see if class " + externalName + " matches criteria [" + test + "]");
}
Class<?> type = loader.loadClass(externalName);
if (test.matches(type)) {
//加入到matches集合中
this.matches.add(type);
}
} catch (Throwable var6) {
log.warn("Could not examine class '" + fqn + "'" + " due to a " + var6.getClass().getName() + " with message: " + var6.getMessage());
}
}
主要有以下幾步:
- 通過 VFS(虛擬檔案系統)獲取指定包下的所有檔案的路徑名,比如 com/mybatis/model/Employe.class
- 篩選以
.class結尾的檔名 - 將路徑名轉成全限定的類名,通過類載入器載入類名
- 對型別進行匹配,若符合匹配規則,則將其放入內部集合中
這裡我們要注意,在前面我們分析Configuration物件的建立時,就已經預設註冊了很多別名,可以回到文章開頭看看。
解析 plugins 配置
外掛是 MyBatis 提供的一個拓展機制,通過外掛機制我們可在 SQL 執行過程中的某些點上做一些自定義操作。比喻分頁外掛,在SQL執行之前動態拼接語句,我們後面會單獨來講外掛機制,先來了解外掛的配置。如下:
<plugins>
<plugin interceptor="com.github.pagehelper.PageInterceptor">
<property name="helperDialect" value="mysql"/>
</plugin>
</plugins>
解析過程分析如下:
private void pluginElement(XNode parent) throws Exception {
if (parent != null) {
for (XNode child : parent.getChildren()) {
String interceptor = child.getStringAttribute("interceptor");
// 獲取配置資訊
Properties properties = child.getChildrenAsProperties();
// 解析攔截器的型別,並建立攔截器
Interceptor interceptorInstance = (Interceptor) resolveClass(interceptor).newInstance();
// 設定屬性
interceptorInstance.setProperties(properties);
// 新增攔截器到 Configuration 中
configuration.addInterceptor(interceptorInstance);
}
}
}
首先是獲取配置,然後再解析攔截器型別,並例項化攔截器。最後向攔截器中設定屬性,並將攔截器新增到 Configuration 中。
private void pluginElement(XNode parent) throws Exception {
if (parent != null) {
for (XNode child : parent.getChildren()) {
String interceptor = child.getStringAttribute("interceptor");
// 獲取配置資訊
Properties properties = child.getChildrenAsProperties();
// 解析攔截器的型別,並例項化攔截器
Interceptor interceptorInstance = (Interceptor) resolveClass(interceptor).newInstance();
// 設定屬性
interceptorInstance.setProperties(properties);
// 新增攔截器到 Configuration 中
configuration.addInterceptor(interceptorInstance);
}
}
}
public void addInterceptor(Interceptor interceptor) {
//新增到Configuration的interceptorChain屬性中
this.interceptorChain.addInterceptor(interceptor);
}
我們來看看InterceptorChain
public class InterceptorChain {
private final List<Interceptor> interceptors = new ArrayList();
public InterceptorChain() {
}
public Object pluginAll(Object target) {
Interceptor interceptor;
for(Iterator i$ = this.interceptors.iterator(); i$.hasNext(); target = interceptor.plugin(target)) {
interceptor = (Interceptor)i$.next();
}
return target;
}
public void addInterceptor(Interceptor interceptor) {
this.interceptors.add(interceptor);
}
public List<Interceptor> getInterceptors() {
return Collections.unmodifiableList(this.interceptors);
}
}
實際上是一個 interceptors 集合,關於外掛的原理我們後面再講。
解析 environments 配置
在 MyBatis 中,事務管理器和資料來源是配置在 environments 中的。它們的配置大致如下:
<environments default="development">
<environment id="development">
<transactionManager type="JDBC"/>
<dataSource type="POOLED">
<property name="driver" value="${jdbc.driver}"/>
<property name="url" value="${jdbc.url}"/>
<property name="username" value="${jdbc.username}"/>
<property name="password" value="${jdbc.password}"/>
</dataSource>
</environment>
</environments>
我們來看看environmentsElement方法
private void environmentsElement(XNode context) throws Exception {
if (context != null) {
if (environment == null) {
// 獲取 default 屬性
environment = context.getStringAttribute("default");
}
for (XNode child : context.getChildren()) {
// 獲取 id 屬性
String id = child.getStringAttribute("id");
/*
* 檢測當前 environment 節點的 id 與其父節點 environments 的屬性 default
* 內容是否一致,一致則返回 true,否則返回 false
* 將其default屬性值與子元素environment的id屬性值相等的子元素設定為當前使用的Environment物件
*/
if (isSpecifiedEnvironment(id)) {
// 將environment中的transactionManager標籤轉換為TransactionFactory物件
TransactionFactory txFactory = transactionManagerElement(child.evalNode("transactionManager"));
// 將environment中的dataSource標籤轉換為DataSourceFactory物件
DataSourceFactory dsFactory = dataSourceElement(child.evalNode("dataSource"));
// 建立 DataSource 物件
DataSource dataSource = dsFactory.getDataSource();
Environment.Builder environmentBuilder = new Environment.Builder(id)
.transactionFactory(txFactory)
.dataSource(dataSource);
// 構建 Environment 物件,並設定到 configuration 中
configuration.setEnvironment(environmentBuilder.build());
}
}
}
}
看看TransactionFactory和 DataSourceFactory的獲取
private TransactionFactory transactionManagerElement(XNode context) throws Exception {
if (context != null) {
String type = context.getStringAttribute("type");
Properties props = context.getChildrenAsProperties();
//通過別名獲取Class,並例項化
TransactionFactory factory = (TransactionFactory)this.resolveClass(type).newInstance();
factory.setProperties(props);
return factory;
} else {
throw new BuilderException("Environment declaration requires a TransactionFactory.");
}
}
private DataSourceFactory dataSourceElement(XNode context) throws Exception {
if (context != null) {
String type = context.getStringAttribute("type");
//通過別名獲取Class,並例項化
Properties props = context.getChildrenAsProperties();
DataSourceFactory factory = (DataSourceFactory)this.resolveClass(type).newInstance();
factory.setProperties(props);
return factory;
} else {
throw new BuilderException("Environment declaration requires a DataSourceFactory.");
}
}
<transactionManager type="JDBC"/>中type有"JDBC"、"MANAGED"這兩種配置,而我們前面Configuration中預設註冊的別名中有對應的JdbcTransactionFactory.class、ManagedTransactionFactory.class這兩個TransactionFactory
<dataSource type="POOLED">中type有"JNDI"、"POOLED"、"UNPOOLED"這三種配置,預設註冊的別名中有對應的JndiDataSourceFactory.class、PooledDataSourceFactory.class、UnpooledDataSourceFactory.class這三個DataSourceFactory
而我們的environment配置中transactionManager type="JDBC"和dataSource type="POOLED",則生成的transactionManager為JdbcTransactionFactory,DataSourceFactory為PooledDataSourceFactory
我們來看看PooledDataSourceFactory和UnpooledDataSourceFactory
public class UnpooledDataSourceFactory implements DataSourceFactory {
private static final String DRIVER_PROPERTY_PREFIX = "driver.";
private static final int DRIVER_PROPERTY_PREFIX_LENGTH = "driver.".length();
//建立UnpooledDataSource例項
protected DataSource dataSource = new UnpooledDataSource();
public DataSource getDataSource() {
return this.dataSource;
}
//略
}
//繼承UnpooledDataSourceFactory
public class PooledDataSourceFactory extends UnpooledDataSourceFactory {
public PooledDataSourceFactory() {
//建立PooledDataSource例項
this.dataSource = new PooledDataSource();
}
}
我們發現 UnpooledDataSourceFactory 建立的dataSource是 UnpooledDataSource,PooledDataSourceFactory建立的 dataSource是PooledDataSource
解析 mappers 配置
mapperElement方法會將mapper標籤內的元素轉換成MapperProxyFactory產生的代理類,和與mapper.xml檔案的繫結,我們下一篇文章會詳解介紹這個方法
private void mapperElement(XNode parent) throws Exception {
if (parent != null) {
for (XNode child : parent.getChildren()) {
if ("package".equals(child.getName())) {
String mapperPackage = child.getStringAttribute("name");
configuration.addMappers(mapperPackage);
} else {
String resource = child.getStringAttribute("resource");
String url = child.getStringAttribute("url");
String mapperClass = child.getStringAttribute("class");
if (resource != null && url == null && mapperClass == null) {
ErrorContext.instance().resource(resource);
InputStream inputStream = Resources.getResourceAsStream(resource);
XMLMapperBuilder mapperParser = new XMLMapperBuilder(inputStream, configuration, resource, configuration.getSqlFragments());
mapperParser.parse();
} else if (resource == null && url != null && mapperClass == null) {
ErrorContext.instance().resource(url);
InputStream inputStream = Resources.getUrlAsStream(url);
XMLMapperBuilder mapperParser = new XMLMapperBuilder(inputStream, configuration, url, configuration.getSqlFragments());
mapperParser.parse();
} else if (resource == null && url == null && mapperClass != null) {
Class<?> mapperInterface = Resources.classForName(mapperClass);
configuration.addMapper(mapperInterface);
} else {
throw new BuilderException("A mapper element may only specify a url, resource or class, but not more than one.");
}
}
}
}
}
建立DefaultSqlSessionFactory
到此為止XMLConfigBuilder的parse方法中的重要步驟都過了一遍了,然後返回的就是一個完整的Configuration物件了,最後通過SqlSessionFactoryBuilder的build的過載方法建立了一個SqlSessionFactory例項DefaultSqlSessionFactory,我們來看看
public SqlSessionFactory build(Configuration config) {
//建立DefaultSqlSessionFactory例項
return new DefaultSqlSessionFactory(config);
}
public class DefaultSqlSessionFactory implements SqlSessionFactory {
private final Configuration configuration;
//只是將configuration設定為其屬性
public DefaultSqlSessionFactory(Configuration configuration) {
this.configuration = configuration;
}
//略
}
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