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source-code-hunter/docs/Mybatis/基础支持层/2、DataSource及Transaction模块.md

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对mybatis中的Transaction进行简单的解析
5 years ago
在数据持久层数据源和事务是两个非常重要的组件对数据持久层的影响很大在实际开发中一般会使用mybatis集成第三方数据源组件c3p0、Druid另外mybatis也提供了自己的数据库连接池实现本文会通过mybatis的源码实现来了解数据库连接池的设计。而事务方面一般使用spring进行事务的管理这里不做详细分析。下面我们看一下mybatis是如何对这两部分进行封装的。
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## 1 DataSource
常见的数据源都会实现javax.sql.DataSource接口mybatis中提供了两个该接口的实现类分别是PooledDataSource和UnpooledDataSource并使用不同的工厂类分别管理这两个类的对象。
### 1.1 DataSourceFactory
DataSourceFactory系列类的设计比较简单DataSourceFactory作为顶级接口UnpooledDataSourceFactory实现了该接口PooledDataSourceFactory又继承了UnpooledDataSourceFactory。
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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```java
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public interface DataSourceFactory {
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// 设置DataSource的属性一般紧跟在DataSource初始化之后
void setProperties(Properties props);
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// 获取DataSource对象
DataSource getDataSource();
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}
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public class UnpooledDataSourceFactory implements DataSourceFactory {
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private static final String DRIVER_PROPERTY_PREFIX = "driver.";
private static final int DRIVER_PROPERTY_PREFIX_LENGTH = DRIVER_PROPERTY_PREFIX.length();
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protected DataSource dataSource;
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// 在实例化该工厂时就完成了DataSource的实例化
public UnpooledDataSourceFactory() {
this.dataSource = new UnpooledDataSource();
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}
@Override
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public void setProperties(Properties properties) {
Properties driverProperties = new Properties();
// 创建dataSource对应的MetaObject
MetaObject metaDataSource = SystemMetaObject.forObject(dataSource);
// 处理properties中配置的数据源信息
for (Object key : properties.keySet()) {
String propertyName = (String) key;
if (propertyName.startsWith(DRIVER_PROPERTY_PREFIX)) {
// 以"driver."开头的配置项是对DataSource的配置将其记录到driverProperties中
String value = properties.getProperty(propertyName);
driverProperties.setProperty(propertyName.substring(DRIVER_PROPERTY_PREFIX_LENGTH), value);
} else if (metaDataSource.hasSetter(propertyName)) {
String value = (String) properties.get(propertyName);
Object convertedValue = convertValue(metaDataSource, propertyName, value);
metaDataSource.setValue(propertyName, convertedValue);
} else {
throw new DataSourceException("Unknown DataSource property: " + propertyName);
}
}
if (driverProperties.size() > 0) {
// 设置数据源UnpooledDataSource的driverProperties属性
// PooledDataSource中持有UnpooledDataSource对象
metaDataSource.setValue("driverProperties", driverProperties);
}
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}
@Override
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public DataSource getDataSource() {
return dataSource;
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}
}
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public class PooledDataSourceFactory extends UnpooledDataSourceFactory {
// 与UnpooledDataSourceFactory的不同之处是其初始化的DataSource为PooledDataSource
public PooledDataSourceFactory() {
this.dataSource = new PooledDataSource();
}
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}
```
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### 1.2 UnpooledDataSource
本实现类实现了DataSource接口中的getConnection()及其重载方法,用于获取数据库连接。其中的主要属性及方法如下:
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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```java
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public class UnpooledDataSource implements DataSource {
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// 加载Driver驱动类的 类加载器
private ClassLoader driverClassLoader;
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// 数据库连接驱动的相关配置通过UnpooledDataSourceFactory的setProperties()方法设置进来的
private Properties driverProperties;
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// 缓存所有已注册的数据库连接驱动Driver
private static Map<String, Driver> registeredDrivers = new ConcurrentHashMap<>();
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// 数据库连接驱动名称
private String driver;
// 数据库url
private String url;
// 用户名
private String username;
// 密码
private String password;
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// 是否自动提交事务
private Boolean autoCommit;
// 默认的事务隔离级别
private Integer defaultTransactionIsolationLevel;
// 默认的网络连接超时时间
private Integer defaultNetworkTimeout;
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/**
* UnpooledDataSource被加载时会通过该静态代码块将已经在DriverManager
* 中注册JDBC Driver复制一份到registeredDrivers
*/
static {
Enumeration<Driver> drivers = DriverManager.getDrivers();
while (drivers.hasMoreElements()) {
Driver driver = drivers.nextElement();
registeredDrivers.put(driver.getClass().getName(), driver);
}
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}
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// getConnection()及其重载方法、doGetConnection(String username, String password)方法
// 最终都会调用本方法
private Connection doGetConnection(Properties properties) throws SQLException {
// 初始化数据库驱动该方法会创建配置中指定的Driver对象
// 并将其注册到DriverManager和registeredDrivers中
initializeDriver();
Connection connection = DriverManager.getConnection(url, properties);
// 配置数据库连接属性,如:连接超时时间、是否自动提交事务、事务隔离级别
configureConnection(connection);
return connection;
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}
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private synchronized void initializeDriver() throws SQLException {
// 判断驱动是否已注册
if (!registeredDrivers.containsKey(driver)) {
Class<?> driverType;
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try {
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if (driverClassLoader != null) {
// 注册驱动
driverType = Class.forName(driver, true, driverClassLoader);
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} else {
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driverType = Resources.classForName(driver);
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}
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// 通过反射 获取Driver实例对象
Driver driverInstance = (Driver)driverType.newInstance();
// 注册驱动到DriverManagerDriverProxy是UnpooledDataSource的内部类
// 也是Driver的静态代理类
DriverManager.registerDriver(new DriverProxy(driverInstance));
// 将driver缓存到registeredDrivers
registeredDrivers.put(driver, driverInstance);
} catch (Exception e) {
throw new SQLException("Error setting driver on UnpooledDataSource. Cause: " + e);
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}
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}
}
private void configureConnection(Connection conn) throws SQLException {
// 连接超时时间
if (defaultNetworkTimeout != null) {
conn.setNetworkTimeout(Executors.newSingleThreadExecutor(), defaultNetworkTimeout);
}
// 是否自动提交事务
if (autoCommit != null && autoCommit != conn.getAutoCommit()) {
conn.setAutoCommit(autoCommit);
}
// 事务隔离级别
if (defaultTransactionIsolationLevel != null) {
conn.setTransactionIsolation(defaultTransactionIsolationLevel);
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}
}
}
```
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### 1.3 PooledDataSource
数据库建立连接是非常耗时的,且并发的连接数也非常有限。而数据库连接池可以实现数据库的重用、提高响应速度、防止数据库因连接过多而假死等。
数据库连接池的设计思路一般为:
1. 连接池初始化时创建一定数量的连接,并添加到连接池中备用;
2. 当程序需要使用数据库连接时,从连接池中请求,用完后会将其返还给连接池,而不是直接关闭;
3. 连接池会控制总连接上限及空闲连接上线,如果连接池中的连接总数已达上限,且都被占用,后续的连接请求会进入阻塞队列等待,直到有连接可用;
4. 如果连接池中空闲连接较多,已达到空闲连接上限,则返回的连接会被关闭掉,以降低系统开销。
PooledDataSource实现了简易的数据库连接池功能其创建数据库连接的功能依赖了上面的UnpooledDataSource。
#### 1.3.1 PooledConnection
PooledDataSource通过管理PooledConnection来实现对java.sql.Connection的管理。PooledConnection封装了java.sql.Connection数据库连接对象及其代理对象JDK动态代理生成的。PooledConnection继承了JDK动态代理的InvocationHandler接口。
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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```java
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class PooledConnection implements InvocationHandler {
// 记录当前PooledConnection对象所属的PooledDataSource对象
// 当调用close()方法时会将PooledConnection放回该PooledDataSource
private final PooledDataSource dataSource;
// 真正的数据库连接对象
private final Connection realConnection;
// 代理连接对象
private final Connection proxyConnection;
// 从连接池中取出该连接时的时间戳
private long checkoutTimestamp;
// 创建该连接时的时间戳
private long createdTimestamp;
// 最后一次使用的 时间戳
private long lastUsedTimestamp;
// 由 数据库URL、用户名、密码 计算出来的hash值可用于标识该连接所在的连接池
private int connectionTypeCode;
// 检测当前PooledConnection连接池连接对象是否有效主要用于 防止程序通过close()方法将
// 连接还给连接池之后,依然通过该连接操作数据库
private boolean valid;
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/**
* invoke()方法是本类的重点实现也是proxyConnection代理连接对象的代理逻辑实现
* 它会对close()方法的调用进行处理并在调用realConnection的方法之前进行校验
*/
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
String methodName = method.getName();
// 如果调用的是close()方法,则将其放进连接池,而不是真的关闭连接
if (CLOSE.hashCode() == methodName.hashCode() && CLOSE.equals(methodName)) {
dataSource.pushConnection(this);
return null;
}
try {
if (!Object.class.equals(method.getDeclaringClass())) {
// 通过上面的valid字段 校验连接是否有效
checkConnection();
}
// 调用realConnection的对应方法
return method.invoke(realConnection, args);
} catch (Throwable t) {
throw ExceptionUtil.unwrapThrowable(t);
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}
}
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private void checkConnection() throws SQLException {
if (!valid) {
throw new SQLException("Error accessing PooledConnection. Connection is invalid.");
}
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}
}
```
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#### 1.3.2 PoolState
PoolState主要用于管理PooledConnection对象状态其通过持有两个List&lt;PooledConnection&gt;集合分别管理空闲状态的连接 和 活跃状态的连接。另外PoolState还定义了一系列用于统计的字段。
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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```java
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public class PoolState {
// 所属的连接池对象
protected PooledDataSource dataSource;
// 空闲的连接
protected final List<PooledConnection> idleConnections = new ArrayList<>();
// 活跃的连接
protected final List<PooledConnection> activeConnections = new ArrayList<>();
// 请求数据库连接的次数
protected long requestCount = 0;
// 获取连接的累计时间accumulate累计
protected long accumulatedRequestTime = 0;
// CheckoutTime = 记录 应用从连接池取出连接到归还连接的时长
// accumulatedCheckoutTime = 所有连接累计的CheckoutTime
protected long accumulatedCheckoutTime = 0;
// 超时连接的个数(当连接长时间未归还给连接池时,会被认为连接超时)
protected long claimedOverdueConnectionCount = 0;
// 累计超时时间
protected long accumulatedCheckoutTimeOfOverdueConnections = 0;
// 累计等待时间
protected long accumulatedWaitTime = 0;
// 等待次数
protected long hadToWaitCount = 0;
// 无效的连接数
protected long badConnectionCount = 0;
public PoolState(PooledDataSource dataSource) {
this.dataSource = dataSource;
}
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public synchronized long getRequestCount() {
return requestCount;
}
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public synchronized long getAverageRequestTime() {
return requestCount == 0 ? 0 : accumulatedRequestTime / requestCount;
}
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public synchronized long getAverageWaitTime() {
return hadToWaitCount == 0 ? 0 : accumulatedWaitTime / hadToWaitCount;
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}
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public synchronized long getHadToWaitCount() {
return hadToWaitCount;
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}
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public synchronized long getBadConnectionCount() {
return badConnectionCount;
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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}
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public synchronized long getClaimedOverdueConnectionCount() {
return claimedOverdueConnectionCount;
}
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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public synchronized long getAverageOverdueCheckoutTime() {
return claimedOverdueConnectionCount == 0 ? 0 : accumulatedCheckoutTimeOfOverdueConnections / claimedOverdueConnectionCount;
}
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
5 years ago
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public synchronized long getAverageCheckoutTime() {
return requestCount == 0 ? 0 : accumulatedCheckoutTime / requestCount;
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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}
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public synchronized int getIdleConnectionCount() {
return idleConnections.size();
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}
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public synchronized int getActiveConnectionCount() {
return activeConnections.size();
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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}
@Override
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public synchronized String toString() {
StringBuilder builder = new StringBuilder();
builder.append("\n===CONFINGURATION==============================================");
builder.append("\n jdbcDriver ").append(dataSource.getDriver());
builder.append("\n jdbcUrl ").append(dataSource.getUrl());
builder.append("\n jdbcUsername ").append(dataSource.getUsername());
builder.append("\n jdbcPassword ").append(dataSource.getPassword() == null ? "NULL" : "************");
builder.append("\n poolMaxActiveConnections ").append(dataSource.poolMaximumActiveConnections);
builder.append("\n poolMaxIdleConnections ").append(dataSource.poolMaximumIdleConnections);
builder.append("\n poolMaxCheckoutTime ").append(dataSource.poolMaximumCheckoutTime);
builder.append("\n poolTimeToWait ").append(dataSource.poolTimeToWait);
builder.append("\n poolPingEnabled ").append(dataSource.poolPingEnabled);
builder.append("\n poolPingQuery ").append(dataSource.poolPingQuery);
builder.append("\n poolPingConnectionsNotUsedFor ").append(dataSource.poolPingConnectionsNotUsedFor);
builder.append("\n ---STATUS-----------------------------------------------------");
builder.append("\n activeConnections ").append(getActiveConnectionCount());
builder.append("\n idleConnections ").append(getIdleConnectionCount());
builder.append("\n requestCount ").append(getRequestCount());
builder.append("\n averageRequestTime ").append(getAverageRequestTime());
builder.append("\n averageCheckoutTime ").append(getAverageCheckoutTime());
builder.append("\n claimedOverdue ").append(getClaimedOverdueConnectionCount());
builder.append("\n averageOverdueCheckoutTime ").append(getAverageOverdueCheckoutTime());
builder.append("\n hadToWait ").append(getHadToWaitCount());
builder.append("\n averageWaitTime ").append(getAverageWaitTime());
builder.append("\n badConnectionCount ").append(getBadConnectionCount());
builder.append("\n===============================================================");
return builder.toString();
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
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}
}
```
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#### 1.3.3 PooledDataSource
PooledDataSource管理的数据库连接对象 是由其持有的UnpooledDataSource对象创建的并由PoolState管理所有连接的状态。
PooledDataSource的getConnection()方法会首先调用popConnection()方法获取PooledConnection对象然后通过PooledConnection的getProxyConnection()方法获取数据库连接的代理对象。popConnection()方法是PooledDataSource的核心逻辑之一其整体的逻辑关系如下图
项目结构调整
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![avatar](/images/mybatis/数据库连接池流程图.png)
mybatis数据库连接池PooledDataSource及其原理图
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```java
public class PooledDataSource implements DataSource {
private static final Log log = LogFactory.getLog(PooledDataSource.class);
// 管理连接池状态 并统计连接信息
private final PoolState state = new PoolState(this);
// 该对象用于生成真正的数据库连接对象,构造函数中会初始化该字段
private final UnpooledDataSource dataSource;
// 最大活跃连接数
protected int poolMaximumActiveConnections = 10;
// 最大空闲连接数
protected int poolMaximumIdleConnections = 5;
// 最大Checkout时长
protected int poolMaximumCheckoutTime = 20000;
// 在无法获取连接时,线程需要等待的时间
protected int poolTimeToWait = 20000;
// 本地坏连接最大数
protected int poolMaximumLocalBadConnectionTolerance = 3;
// 检测数据库连接是否可用时给数据库发送的sql语句
protected String poolPingQuery = "NO PING QUERY SET";
// 是否允许发送上述语句
protected boolean poolPingEnabled;
// 当连接超过poolPingConnectionsNotUsedFor毫秒未使用
// 就发送一次上述sql检测连接连接是否正常
protected int poolPingConnectionsNotUsedFor;
// 根据数据库URL、用户名、密码 生成的一个hash值
// 该hash值用于标记当前的连接池在构造函数中初始化
private int expectedConnectionTypeCode;
mybatis内置的数据库连接池PooledDataSource核心实现代码解读
5 years ago
/**
* 下面的两个getConnection()方法都会调用popConnection()
* 获取PooledConnection对象然后调用该对象的getProxyConnection()方法
* 获取数据库连接的代理对象
*/
@Override
public Connection getConnection() throws SQLException {
return popConnection(dataSource.getUsername(), dataSource.getPassword()).getProxyConnection();
}
@Override
public Connection getConnection(String username, String password) throws SQLException {
return popConnection(username, password).getProxyConnection();
}
/**
* 本方法实现了连接池获取连接对象的具体逻辑是PooledDataSource的核心逻辑之一
*/
private PooledConnection popConnection(String username, String password) throws SQLException {
boolean countedWait = false;
PooledConnection conn = null;
long t = System.currentTimeMillis();
int localBadConnectionCount = 0;
// 循环获取数据库连接对象,直到获取成功
while (conn == null) {
// 连接池的连接是公共资源,要对线程加锁
synchronized (state) {
// 如果连接池中有空闲的 数据库连接对象,就取出一个
if (!state.idleConnections.isEmpty()) {
conn = state.idleConnections.remove(0);
if (log.isDebugEnabled()) {
log.debug("Checked out connection " + conn.getRealHashCode() + " from pool.");
}
} else {
// 没有空闲的连接对象,就判断一下 活跃的连接数是否已达 设定的峰值
if (state.activeConnections.size() < poolMaximumActiveConnections) {
// 还没达到峰值 就创建一个新的连接
conn = new PooledConnection(dataSource.getConnection(), this);
if (log.isDebugEnabled()) {
log.debug("Created connection " + conn.getRealHashCode() + ".");
}
} else {
// 如果活跃的连接已达上限,就取出最老的活跃连接对象,判断其是否超时
PooledConnection oldestActiveConnection = state.activeConnections.get(0);
long longestCheckoutTime = oldestActiveConnection.getCheckoutTime();
if (longestCheckoutTime > poolMaximumCheckoutTime) {
// 如果最老的连接超时了就在PoolState中记录一下相关信息然后将该连接对象释放掉
state.claimedOverdueConnectionCount++;
state.accumulatedCheckoutTimeOfOverdueConnections += longestCheckoutTime;
state.accumulatedCheckoutTime += longestCheckoutTime;
state.activeConnections.remove(oldestActiveConnection);
// 如果最老的连接不是 自动提交事务的,就将事务回滚掉
if (!oldestActiveConnection.getRealConnection().getAutoCommit()) {
try {
oldestActiveConnection.getRealConnection().rollback();
} catch (SQLException e) {
/*
Just log a message for debug and continue to execute the following
statement like nothing happened.
Wrap the bad connection with a new PooledConnection, this will help
to not interrupt current executing thread and give current thread a
chance to join the next competition for another valid/good database
connection. At the end of this loop, bad {@link @conn} will be set as null.
*/
log.debug("Bad connection. Could not roll back");
}
}
// 从最老连接中取出真正的 数据库连接对象及相关信息用来构建新的PooledConnection对象
conn = new PooledConnection(oldestActiveConnection.getRealConnection(), this);
conn.setCreatedTimestamp(oldestActiveConnection.getCreatedTimestamp());
conn.setLastUsedTimestamp(oldestActiveConnection.getLastUsedTimestamp());
// 将最老活跃连接设为无效
oldestActiveConnection.invalidate();
if (log.isDebugEnabled()) {
log.debug("Claimed overdue connection " + conn.getRealHashCode() + ".");
}
} else {
// 如果最老的连接对象也没超时,则进入阻塞等待,
// 等待时间poolTimeToWait可自行设置
try {
if (!countedWait) {
// 等待次数加一
state.hadToWaitCount++;
countedWait = true;
}
if (log.isDebugEnabled()) {
log.debug("Waiting as long as " + poolTimeToWait + " milliseconds for connection.");
}
long wt = System.currentTimeMillis();
// native方法使执行到这里的线程阻塞等待poolTimeToWait毫秒
state.wait(poolTimeToWait);
// 统计累计等待的时间
state.accumulatedWaitTime += System.currentTimeMillis() - wt;
} catch (InterruptedException e) {
break;
}
}
}
}
// 到了这里 基本上就获取到连接对象咯,但我们还要确认一下该连接对象是否是有效的 可用的
if (conn != null) {
// ping一下数据库服务器确认该连接对象是否有效
if (conn.isValid()) {
// 如果事务提交配置为手动的,则先让该连接回滚一下事务,防止脏数据的出现
if (!conn.getRealConnection().getAutoCommit()) {
conn.getRealConnection().rollback();
}
// 设置 由数据库URL、用户名、密码 计算出来的hash值可用于标识该连接所在的连接池
conn.setConnectionTypeCode(assembleConnectionTypeCode(dataSource.getUrl(), username, password));
// 设置 从连接池中取出该连接时的时间戳
conn.setCheckoutTimestamp(System.currentTimeMillis());
// 设置 最后一次使用的时间戳
conn.setLastUsedTimestamp(System.currentTimeMillis());
// 将该连接加入活跃的连接对象列表
state.activeConnections.add(conn);
// 请求数据库连接的次数加一
state.requestCount++;
// 计算 获取连接的累计时间accumulate累计
state.accumulatedRequestTime += System.currentTimeMillis() - t;
// 如果获取到的连接无效
} else {
if (log.isDebugEnabled()) {
log.debug("A bad connection (" + conn.getRealHashCode() + ") was returned from the pool, getting another connection.");
}
// 对无效连接进行统计
state.badConnectionCount++;
localBadConnectionCount++;
conn = null;
// 如果无效连接超出 阈值,则抛出异常
if (localBadConnectionCount > (poolMaximumIdleConnections + poolMaximumLocalBadConnectionTolerance)) {
if (log.isDebugEnabled()) {
log.debug("PooledDataSource: Could not get a good connection to the database.");
}
throw new SQLException("PooledDataSource: Could not get a good connection to the database.");
}
}
}
}
}
// 如果到了这里 连接还为空,则抛出一个未知的服务异常
if (conn == null) {
if (log.isDebugEnabled()) {
log.debug("PooledDataSource: Unknown severe error condition. The connection pool returned a null connection.");
}
throw new SQLException("PooledDataSource: Unknown severe error condition. The connection pool returned a null connection.");
}
// 返回数据库连接对象
return conn;
}
/**
* 看一下之前讲过的PooledConnection中的动态代理方法invoke(),可以发现
* 当调用数据库连接代理对象的close()方法时,并未关闭真正的数据库连接,
* 而是调用了本方法将连接对象归还给连接池方便后续使用本方法也是PooledDataSource的核心逻辑之一
*/
protected void pushConnection(PooledConnection conn) throws SQLException {
// 国际惯例,操作公共资源先上个锁
synchronized (state) {
// 先将该连接从活跃的连接对象列表中剔除
state.activeConnections.remove(conn);
// 如果该连接有效
if (conn.isValid()) {
// 如果连接池中的空闲连接数未达到阈值 且 该连接确实属于本连接池通过之前获取的expectedConnectionTypeCode进行校验
if (state.idleConnections.size() < poolMaximumIdleConnections && conn.getConnectionTypeCode() == expectedConnectionTypeCode) {
// CheckoutTime = 应用从连接池取出连接到归还连接的时长
// accumulatedCheckoutTime = 所有连接累计的CheckoutTime
state.accumulatedCheckoutTime += conn.getCheckoutTime();
// 不是自动提交事务的连接 先回滚一波
if (!conn.getRealConnection().getAutoCommit()) {
conn.getRealConnection().rollback();
}
// 从conn中取出真正的 数据库连接对象重新封装成PooledConnection
PooledConnection newConn = new PooledConnection(conn.getRealConnection(), this);
// 将newConn放进空闲连接对象列表
state.idleConnections.add(newConn);
// 设置newConn的相关属性
newConn.setCreatedTimestamp(conn.getCreatedTimestamp());
newConn.setLastUsedTimestamp(conn.getLastUsedTimestamp());
// 将原本的conn作废
conn.invalidate();
if (log.isDebugEnabled()) {
log.debug("Returned connection " + newConn.getRealHashCode() + " to pool.");
}
// 唤醒阻塞等待的线程
state.notifyAll();
} else {
// 如果空闲连接已达阈值 或 该连接对象不属于本连接池,则做好统计数据
// 回滚连接的事务关闭真正的连接最后作废该conn
state.accumulatedCheckoutTime += conn.getCheckoutTime();
if (!conn.getRealConnection().getAutoCommit()) {
conn.getRealConnection().rollback();
}
conn.getRealConnection().close();
if (log.isDebugEnabled()) {
log.debug("Closed connection " + conn.getRealHashCode() + ".");
}
conn.invalidate();
}
// 如果该连接是无效的,则记录一下无效的连接数
} else {
if (log.isDebugEnabled()) {
log.debug("A bad connection (" + conn.getRealHashCode() + ") attempted to return to the pool, discarding connection.");
}
state.badConnectionCount++;
}
}
}
/**
* 关闭连接池中 所有活跃的 及 空闲的连接
* 当修改连接池的配置用户名、密码、URL等都会调用本方法
*/
public void forceCloseAll() {
// 日常上锁
synchronized (state) {
// 更新当前连接池的标识
expectedConnectionTypeCode = assembleConnectionTypeCode(dataSource.getUrl(), dataSource.getUsername(), dataSource.getPassword());
// 依次关闭活跃的连接对象
for (int i = state.activeConnections.size(); i > 0; i--) {
try {
PooledConnection conn = state.activeConnections.remove(i - 1);
conn.invalidate();
Connection realConn = conn.getRealConnection();
if (!realConn.getAutoCommit()) {
realConn.rollback();
}
realConn.close();
} catch (Exception e) {
// ignore
}
}
// 依次关闭空闲的连接对象
for (int i = state.idleConnections.size(); i > 0; i--) {
try {
PooledConnection conn = state.idleConnections.remove(i - 1);
conn.invalidate();
Connection realConn = conn.getRealConnection();
if (!realConn.getAutoCommit()) {
realConn.rollback();
}
realConn.close();
} catch (Exception e) {
// ignore
}
}
}
if (log.isDebugEnabled()) {
log.debug("PooledDataSource forcefully closed/removed all connections.");
}
}
mybatis数据库连接池PooledDataSource及其原理图
5 years ago
}
```
mybatis内置的数据库连接池PooledDataSource核心实现代码解读
5 years ago
最后我们来看一下popConnection()和pushConnection()都调用了的isValid()方法该方法除了检测PooledConnection中的valid字段外 还还会调用PooledDataSource中的pingConnection()方法,让数据库连接对象 执行指定的sql语句检测连接是否正常。
```java
class PooledConnection implements InvocationHandler {
/**
* 检测PooledConnection对象的有效性
*/
public boolean isValid() {
return valid && realConnection != null && dataSource.pingConnection(this);
}
}
public class PooledDataSource implements DataSource {
/**
* ping一下数据库检测数据库连接是否正常
*/
protected boolean pingConnection(PooledConnection conn) {
boolean result = true;
try {
result = !conn.getRealConnection().isClosed();
} catch (SQLException e) {
if (log.isDebugEnabled()) {
log.debug("Connection " + conn.getRealHashCode() + " is BAD: " + e.getMessage());
}
result = false;
}
mybatis的DataSource及数据库连接池
5 years ago
mybatis内置的数据库连接池PooledDataSource核心实现代码解读
5 years ago
if (result) {
// 是否允许发送检测语句检测数据库连接是否正常poolPingEnabled可自行配置
// 该检测会牺牲一定的系统资源,以提高安全性
if (poolPingEnabled) {
// 超过poolPingConnectionsNotUsedFor毫秒未使用的连接 才会检测其连接状态
if (poolPingConnectionsNotUsedFor >= 0 && conn.getTimeElapsedSinceLastUse() > poolPingConnectionsNotUsedFor) {
try {
if (log.isDebugEnabled()) {
log.debug("Testing connection " + conn.getRealHashCode() + " ...");
}
// 获取真正的连接对象,执行 poolPingQuery = "NO PING QUERY SET" sql语句
Connection realConn = conn.getRealConnection();
try (Statement statement = realConn.createStatement()) {
statement.executeQuery(poolPingQuery).close();
}
if (!realConn.getAutoCommit()) {
realConn.rollback();
}
result = true;
if (log.isDebugEnabled()) {
log.debug("Connection " + conn.getRealHashCode() + " is GOOD!");
}
// 如果上面这段代码抛出异常则说明数据库连接有问题将该连接关闭返回false
} catch (Exception e) {
log.warn("Execution of ping query '" + poolPingQuery + "' failed: " + e.getMessage());
try {
conn.getRealConnection().close();
} catch (Exception e2) {
//ignore
}
result = false;
if (log.isDebugEnabled()) {
log.debug("Connection " + conn.getRealHashCode() + " is BAD: " + e.getMessage());
}
}
}
}
}
return result;
}
}
```
mybatis的DataSource及数据库连接池
5 years ago
## 2 Transaction
对mybatis中的Transaction进行简单的解析
5 years ago
遵循接口-实现类的设计原则mybatis也是先使用Transaction接口对数据库事务做了抽象而实现类则只提供了两个JdbcTransaction和ManagedTransaction。这两种对象的获取使用了两个对应的工厂类JdbcTransactionFactory和ManagedTransactionFactory。
不过一般我们并不会使用mybatis管理事务而是将mybatis集成到spring由spring进行事务的管理。细节部分会在后面的文章中详细讲解。
```java
public interface Transaction {
/**
* 获取连接对象
*/
Connection getConnection() throws SQLException;
/**
* 提交事务
*/
void commit() throws SQLException;
/**
* 回滚事务
*/
void rollback() throws SQLException;
/**
* 关闭数据库连接
*/
void close() throws SQLException;
/**
* 获取配置的事务超时时间
*/
Integer getTimeout() throws SQLException;
}
public class JdbcTransaction implements Transaction {
private static final Log log = LogFactory.getLog(JdbcTransaction.class);
// 当前事务对应的数据库连接
protected Connection connection;
// 当前事务对应的数据源
protected DataSource dataSource;
// 事务隔离级别
protected TransactionIsolationLevel level;
// 是否自动提交
protected boolean autoCommit;
public JdbcTransaction(DataSource ds, TransactionIsolationLevel desiredLevel, boolean desiredAutoCommit) {
dataSource = ds;
level = desiredLevel;
autoCommit = desiredAutoCommit;
}
public JdbcTransaction(Connection connection) {
this.connection = connection;
}
@Override
public Connection getConnection() throws SQLException {
if (connection == null) {
openConnection();
}
return connection;
}
// 提交、回滚、关闭等操作的代码都比较简单只对原生的JDBC操作做了简单封装
@Override
public void commit() throws SQLException {
if (connection != null && !connection.getAutoCommit()) {
if (log.isDebugEnabled()) {
log.debug("Committing JDBC Connection [" + connection + "]");
}
connection.commit();
}
}
@Override
public void rollback() throws SQLException {
if (connection != null && !connection.getAutoCommit()) {
if (log.isDebugEnabled()) {
log.debug("Rolling back JDBC Connection [" + connection + "]");
}
connection.rollback();
}
}
@Override
public void close() throws SQLException {
if (connection != null) {
resetAutoCommit();
if (log.isDebugEnabled()) {
log.debug("Closing JDBC Connection [" + connection + "]");
}
connection.close();
}
}
protected void setDesiredAutoCommit(boolean desiredAutoCommit) {
try {
if (connection.getAutoCommit() != desiredAutoCommit) {
if (log.isDebugEnabled()) {
log.debug("Setting autocommit to " + desiredAutoCommit + " on JDBC Connection [" + connection + "]");
}
connection.setAutoCommit(desiredAutoCommit);
}
} catch (SQLException e) {
// Only a very poorly implemented driver would fail here,
// and there's not much we can do about that.
throw new TransactionException("Error configuring AutoCommit. "
+ "Your driver may not support getAutoCommit() or setAutoCommit(). "
+ "Requested setting: " + desiredAutoCommit + ". Cause: " + e, e);
}
}
protected void resetAutoCommit() {
try {
if (!connection.getAutoCommit()) {
// MyBatis does not call commit/rollback on a connection if just selects were performed.
// Some databases start transactions with select statements
// and they mandate a commit/rollback before closing the connection.
// A workaround is setting the autocommit to true before closing the connection.
// Sybase throws an exception here.
if (log.isDebugEnabled()) {
log.debug("Resetting autocommit to true on JDBC Connection [" + connection + "]");
}
connection.setAutoCommit(true);
}
} catch (SQLException e) {
if (log.isDebugEnabled()) {
log.debug("Error resetting autocommit to true "
+ "before closing the connection. Cause: " + e);
}
}
}
protected void openConnection() throws SQLException {
if (log.isDebugEnabled()) {
log.debug("Opening JDBC Connection");
}
connection = dataSource.getConnection();
if (level != null) {
connection.setTransactionIsolation(level.getLevel());
}
setDesiredAutoCommit(autoCommit);
}
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
5 years ago
对mybatis中的Transaction进行简单的解析
5 years ago
@Override
public Integer getTimeout() throws SQLException {
return null;
}
}
public class ManagedTransaction implements Transaction {
private static final Log log = LogFactory.getLog(ManagedTransaction.class);
// 数据源
private DataSource dataSource;
// 事务隔离级别
private TransactionIsolationLevel level;
// 对应的数据库连接
private Connection connection;
// 控制是否关闭持有的连接在close()方法中用其判断是否真的关闭连接
private final boolean closeConnection;
// 本类的实现也很简单commit、rollback方法都是空实现
public ManagedTransaction(Connection connection, boolean closeConnection) {
this.connection = connection;
this.closeConnection = closeConnection;
}
public ManagedTransaction(DataSource ds, TransactionIsolationLevel level, boolean closeConnection) {
this.dataSource = ds;
this.level = level;
this.closeConnection = closeConnection;
}
@Override
public Connection getConnection() throws SQLException {
if (this.connection == null) {
openConnection();
}
return this.connection;
}
@Override
public void commit() throws SQLException {
// Does nothing
}
@Override
public void rollback() throws SQLException {
// Does nothing
}
@Override
public void close() throws SQLException {
if (this.closeConnection && this.connection != null) {
if (log.isDebugEnabled()) {
log.debug("Closing JDBC Connection [" + this.connection + "]");
}
this.connection.close();
}
}
protected void openConnection() throws SQLException {
if (log.isDebugEnabled()) {
log.debug("Opening JDBC Connection");
}
this.connection = this.dataSource.getConnection();
if (this.level != null) {
this.connection.setTransactionIsolation(this.level.getLevel());
}
}
@Override
public Integer getTimeout() throws SQLException {
return null;
}
Mybatis基础支持组件,反射工具箱、TypeHandle模块、DataSource模块、binding模块、缓存模块
5 years ago
对mybatis中的Transaction进行简单的解析
5 years ago
}
public interface TransactionFactory {
/**
* 配置TransactionFactory对象一般会在完成TransactionFactory对象
* 初始化之后 就进行自定义属性配置
*/
default void setProperties(Properties props) {
// NOP
}
/**
* 在指定的数据库连接上创建Transaction事务对象
*/
Transaction newTransaction(Connection conn);
/**
* 从指定数据源获取数据库连接并在此连接上创建Transaction对象
*/
Transaction newTransaction(DataSource dataSource, TransactionIsolationLevel level, boolean autoCommit);
}
public class JdbcTransactionFactory implements TransactionFactory {
@Override
public Transaction newTransaction(Connection conn) {
return new JdbcTransaction(conn);
}
@Override
public Transaction newTransaction(DataSource ds, TransactionIsolationLevel level, boolean autoCommit) {
return new JdbcTransaction(ds, level, autoCommit);
}
}
public class ManagedTransactionFactory implements TransactionFactory {
private boolean closeConnection = true;
@Override
public void setProperties(Properties props) {
if (props != null) {
String closeConnectionProperty = props.getProperty("closeConnection");
if (closeConnectionProperty != null) {
closeConnection = Boolean.valueOf(closeConnectionProperty);
}
}
}
@Override
public Transaction newTransaction(Connection conn) {
return new ManagedTransaction(conn, closeConnection);
}
@Override
public Transaction newTransaction(DataSource ds, TransactionIsolationLevel level, boolean autoCommit) {
// Silently ignores autocommit and isolation level, as managed transactions are entirely
// controlled by an external manager. It's silently ignored so that
// code remains portable between managed and unmanaged configurations.
return new ManagedTransaction(ds, level, closeConnection);
}
}
```