/* * Copyright 1999-2004 The Apache Software Foundation. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.commons.dbcp; import java.io.PrintWriter; import java.util.Properties; import java.sql.Connection; import java.sql.Driver; import java.sql.DriverManager; import java.sql.SQLException; import javax.sql.DataSource; import org.apache.commons.pool.impl.GenericKeyedObjectPool; import org.apache.commons.pool.impl.GenericKeyedObjectPoolFactory; import org.apache.commons.pool.impl.GenericObjectPool; /** *

Basic implementation of javax.sql.DataSource that is * configured via JavaBeans properties. This is not the only way to * combine the commons-dbcp and commons-pool packages, * but provides a "one stop shopping" solution for basic requirements.

* * @author Glenn L. Nielsen * @author Craig R. McClanahan * @author Dirk Verbeeck * @version $Revision: 1.37 $ $Date: 2004/06/09 18:21:23 $ */ public class BasicDataSource implements DataSource { // ------------------------------------------------------------- Properties /** * The default auto-commit state of connections created by this pool. */ protected boolean defaultAutoCommit = true; public synchronized boolean getDefaultAutoCommit() { return this.defaultAutoCommit; } public synchronized void setDefaultAutoCommit(boolean defaultAutoCommit) { this.defaultAutoCommit = defaultAutoCommit; this.restartNeeded = true; } /** * The default read-only state of connections created by this pool. */ protected Boolean defaultReadOnly = null; public synchronized boolean getDefaultReadOnly() { if (this.defaultReadOnly != null) { return this.defaultReadOnly.booleanValue(); } return false; } public synchronized void setDefaultReadOnly(boolean defaultReadOnly) { this.defaultReadOnly = defaultReadOnly ? Boolean.TRUE : Boolean.FALSE; this.restartNeeded = true; } /** * The default TransactionIsolation state of connections created by this pool. */ protected int defaultTransactionIsolation = PoolableConnectionFactory.UNKNOWN_TRANSACTIONISOLATION; public synchronized int getDefaultTransactionIsolation() { return this.defaultTransactionIsolation; } public synchronized void setDefaultTransactionIsolation(int defaultTransactionIsolation) { this.defaultTransactionIsolation = defaultTransactionIsolation; this.restartNeeded = true; } /** * The default "catalog" of connections created by this pool. */ protected String defaultCatalog = null; public synchronized String getDefaultCatalog() { return this.defaultCatalog; } public synchronized void setDefaultCatalog(String defaultCatalog) { if ((defaultCatalog != null) && (defaultCatalog.trim().length() > 0)) { this.defaultCatalog = defaultCatalog; } else { this.defaultCatalog = null; } this.restartNeeded = true; } /** * The fully qualified Java class name of the JDBC driver to be used. */ protected String driverClassName = null; public synchronized String getDriverClassName() { return this.driverClassName; } public synchronized void setDriverClassName(String driverClassName) { if ((driverClassName != null) && (driverClassName.trim().length() > 0)) { this.driverClassName = driverClassName; } else { this.driverClassName = null; } this.restartNeeded = true; } /** * The maximum number of active connections that can be allocated from * this pool at the same time, or zero for no limit. */ protected int maxActive = GenericObjectPool.DEFAULT_MAX_ACTIVE; public synchronized int getMaxActive() { return this.maxActive; } public synchronized void setMaxActive(int maxActive) { this.maxActive = maxActive; if (connectionPool != null) { connectionPool.setMaxActive(maxActive); } } /** * The maximum number of active connections that can remain idle in the * pool, without extra ones being released, or zero for no limit. */ protected int maxIdle = GenericObjectPool.DEFAULT_MAX_IDLE;; public synchronized int getMaxIdle() { return this.maxIdle; } public synchronized void setMaxIdle(int maxIdle) { this.maxIdle = maxIdle; if (connectionPool != null) { connectionPool.setMaxIdle(maxIdle); } } /** * The minimum number of active connections that can remain idle in the * pool, without extra ones being created, or 0 to create none. */ protected int minIdle = GenericObjectPool.DEFAULT_MIN_IDLE;; public synchronized int getMinIdle() { return this.minIdle; } public synchronized void setMinIdle(int minIdle) { this.minIdle = minIdle; if (connectionPool != null) { connectionPool.setMinIdle(minIdle); } } /** * The initial number of connections that are created when the pool * is started. * @since 1.2 */ protected int initialSize = 0; public synchronized int getInitialSize() { return this.initialSize; } public synchronized void setInitialSize(int initialSize) { this.initialSize = initialSize; this.restartNeeded = true; } /** * The maximum number of milliseconds that the pool will wait (when there * are no available connections) for a connection to be returned before * throwing an exception, or -1 to wait indefinitely. */ protected long maxWait = GenericObjectPool.DEFAULT_MAX_WAIT; public synchronized long getMaxWait() { return this.maxWait; } public synchronized void setMaxWait(long maxWait) { this.maxWait = maxWait; if (connectionPool != null) { connectionPool.setMaxWait(maxWait); } } /** * Prepared statement pooling for this pool. */ protected boolean poolPreparedStatements = false; /** * Returns true if we are pooling statements. * @return boolean */ public synchronized boolean isPoolPreparedStatements() { return this.poolPreparedStatements; } /** * Sets whether to pool statements or not. * @param poolPreparedStatements pooling on or off */ public synchronized void setPoolPreparedStatements(boolean poolingStatements) { this.poolPreparedStatements = poolingStatements; this.restartNeeded = true; } /** * The maximum number of open statements that can be allocated from * the statement pool at the same time, or zero for no limit. Since * a connection usually only uses one or two statements at a time, this is * mostly used to help detect resource leaks. */ protected int maxOpenPreparedStatements = GenericKeyedObjectPool.DEFAULT_MAX_TOTAL; public synchronized int getMaxOpenPreparedStatements() { return this.maxOpenPreparedStatements; } public synchronized void setMaxOpenPreparedStatements(int maxOpenStatements) { this.maxOpenPreparedStatements = maxOpenStatements; this.restartNeeded = true; } /** * The indication of whether objects will be validated before being * borrowed from the pool. If the object fails to validate, it will be * dropped from the pool, and we will attempt to borrow another. */ protected boolean testOnBorrow = true; public synchronized boolean getTestOnBorrow() { return this.testOnBorrow; } public synchronized void setTestOnBorrow(boolean testOnBorrow) { this.testOnBorrow = testOnBorrow; if (connectionPool != null) { connectionPool.setTestOnBorrow(testOnBorrow); } } /** * The indication of whether objects will be validated before being * returned to the pool. */ protected boolean testOnReturn = false; public synchronized boolean getTestOnReturn() { return this.testOnReturn; } public synchronized void setTestOnReturn(boolean testOnReturn) { this.testOnReturn = testOnReturn; if (connectionPool != null) { connectionPool.setTestOnReturn(testOnReturn); } } /** * The number of milliseconds to sleep between runs of the idle object * evictor thread. When non-positive, no idle object evictor thread will * be run. */ protected long timeBetweenEvictionRunsMillis = GenericObjectPool.DEFAULT_TIME_BETWEEN_EVICTION_RUNS_MILLIS; public synchronized long getTimeBetweenEvictionRunsMillis() { return this.timeBetweenEvictionRunsMillis; } public synchronized void setTimeBetweenEvictionRunsMillis(long timeBetweenEvictionRunsMillis) { this.timeBetweenEvictionRunsMillis = timeBetweenEvictionRunsMillis; if (connectionPool != null) { connectionPool.setTimeBetweenEvictionRunsMillis(timeBetweenEvictionRunsMillis); } } /** * The number of objects to examine during each run of the idle object * evictor thread (if any). */ protected int numTestsPerEvictionRun = GenericObjectPool.DEFAULT_NUM_TESTS_PER_EVICTION_RUN; public synchronized int getNumTestsPerEvictionRun() { return this.numTestsPerEvictionRun; } public synchronized void setNumTestsPerEvictionRun(int numTestsPerEvictionRun) { this.numTestsPerEvictionRun = numTestsPerEvictionRun; if (connectionPool != null) { connectionPool.setNumTestsPerEvictionRun(numTestsPerEvictionRun); } } /** * The minimum amount of time an object may sit idle in the pool before it * is eligable for eviction by the idle object evictor (if any). */ protected long minEvictableIdleTimeMillis = GenericObjectPool.DEFAULT_MIN_EVICTABLE_IDLE_TIME_MILLIS; public synchronized long getMinEvictableIdleTimeMillis() { return this.minEvictableIdleTimeMillis; } public synchronized void setMinEvictableIdleTimeMillis(long minEvictableIdleTimeMillis) { this.minEvictableIdleTimeMillis = minEvictableIdleTimeMillis; if (connectionPool != null) { connectionPool.setMinEvictableIdleTimeMillis(minEvictableIdleTimeMillis); } } /** * The indication of whether objects will be validated by the idle object * evictor (if any). If an object fails to validate, it will be dropped * from the pool. */ protected boolean testWhileIdle = false; public synchronized boolean getTestWhileIdle() { return this.testWhileIdle; } public synchronized void setTestWhileIdle(boolean testWhileIdle) { this.testWhileIdle = testWhileIdle; if (connectionPool != null) { connectionPool.setTestWhileIdle(testWhileIdle); } } /** * [Read Only] The current number of active connections that have been * allocated from this data source. */ public synchronized int getNumActive() { if (connectionPool != null) { return connectionPool.getNumActive(); } else { return 0; } } /** * [Read Only] The current number of idle connections that are waiting * to be allocated from this data source. */ public synchronized int getNumIdle() { if (connectionPool != null) { return connectionPool.getNumIdle(); } else { return 0; } } /** * The connection password to be passed to our JDBC driver to establish * a connection. */ protected String password = null; public synchronized String getPassword() { return this.password; } public synchronized void setPassword(String password) { this.password = password; this.restartNeeded = true; } /** * The connection URL to be passed to our JDBC driver to establish * a connection. */ protected String url = null; public synchronized String getUrl() { return this.url; } public synchronized void setUrl(String url) { this.url = url; this.restartNeeded = true; } /** * The connection username to be passed to our JDBC driver to * establish a connection. */ protected String username = null; public synchronized String getUsername() { return this.username; } public synchronized void setUsername(String username) { this.username = username; this.restartNeeded = true; } /** * The SQL query that will be used to validate connections from this pool * before returning them to the caller. If specified, this query * MUST be an SQL SELECT statement that returns at least * one row. */ protected String validationQuery = null; public synchronized String getValidationQuery() { return this.validationQuery; } public synchronized void setValidationQuery(String validationQuery) { if ((validationQuery != null) && (validationQuery.trim().length() > 0)) { this.validationQuery = validationQuery; } else { this.validationQuery = null; } this.restartNeeded = true; } /** * Controls access to the underlying connection */ private boolean accessToUnderlyingConnectionAllowed = false; /** * Returns the value of the accessToUnderlyingConnectionAllowed property. * * @return true if access to the underlying is allowed, false otherwise. */ public synchronized boolean isAccessToUnderlyingConnectionAllowed() { return this.accessToUnderlyingConnectionAllowed; } /** * Sets the value of the accessToUnderlyingConnectionAllowed property. * It controls if the PoolGuard allows access to the underlying connection. * (Default: false) * * @param allow Access to the underlying connection is granted when true. */ public synchronized void setAccessToUnderlyingConnectionAllowed(boolean allow) { this.accessToUnderlyingConnectionAllowed = allow; this.restartNeeded = true; } // ----------------------------------------------------- Instance Variables // TODO: review & make isRestartNeeded() public, restartNeeded protected private boolean restartNeeded = false; /** * Returns whether or not a restart is needed. * @return true if a restart is needed */ private synchronized boolean isRestartNeeded() { return restartNeeded; } /** * The object pool that internally manages our connections. */ protected GenericObjectPool connectionPool = null; /** * The connection properties that will be sent to our JDBC driver when * establishing new connections. NOTE - The "user" and * "password" properties will be passed explicitly, so they do not need * to be included here. */ protected Properties connectionProperties = new Properties(); /** * The data source we will use to manage connections. This object should * be acquired ONLY by calls to the * createDataSource() method. */ protected DataSource dataSource = null; /** * The PrintWriter to which log messages should be directed. */ protected PrintWriter logWriter = new PrintWriter(System.out); // ----------------------------------------------------- DataSource Methods /** * Create (if necessary) and return a connection to the database. * * @exception SQLException if a database access error occurs */ public Connection getConnection() throws SQLException { return createDataSource().getConnection(); } /** * Create (if necessary) and return a connection to the database. * * @param username Database user on whose behalf the Connection * is being made * @param password The database user's password * * @exception SQLException if a database access error occurs */ public Connection getConnection(String username, String password) throws SQLException { return createDataSource().getConnection(username, password); } /** * Return the login timeout (in seconds) for connecting to the database. * * @exception SQLException if a database access error occurs */ public int getLoginTimeout() throws SQLException { return createDataSource().getLoginTimeout(); } /** * Return the log writer being used by this data source. * * @exception SQLException if a database access error occurs */ public PrintWriter getLogWriter() throws SQLException { return createDataSource().getLogWriter(); } /** * Set the login timeout (in seconds) for connecting to the database. * * @param loginTimeout The new login timeout, or zero for no timeout * * @exception SQLException if a database access error occurs */ public void setLoginTimeout(int loginTimeout) throws SQLException { createDataSource().setLoginTimeout(loginTimeout); } /** * Set the log writer being used by this data source. * * @param logWriter The new log writer * * @exception SQLException if a database access error occurs */ public void setLogWriter(PrintWriter logWriter) throws SQLException { createDataSource().setLogWriter(logWriter); this.logWriter = logWriter; } private AbandonedConfig abandonedConfig; /** * Flag to remove abandoned connections if they exceed the * removeAbandonedTimout. * * Set to true or false, default false. * If set to true a connection is considered abandoned and eligible * for removal if it has been idle longer than the removeAbandonedTimeout. * Setting this to true can recover db connections from poorly written * applications which fail to close a connection. * @deprecated */ public boolean getRemoveAbandoned() { if (abandonedConfig != null) { return abandonedConfig.getRemoveAbandoned(); } return false; } /** * @deprecated * @param removeAbandoned */ public void setRemoveAbandoned(boolean removeAbandoned) { if (abandonedConfig == null) { abandonedConfig = new AbandonedConfig(); } abandonedConfig.setRemoveAbandoned(removeAbandoned); this.restartNeeded = true; } /** * Timeout in seconds before an abandoned connection can be removed. * * Defaults to 300 seconds. * @deprecated */ public int getRemoveAbandonedTimeout() { if (abandonedConfig != null) { return abandonedConfig.getRemoveAbandonedTimeout(); } return 300; } /** * @deprecated * @param removeAbandonedTimeout */ public void setRemoveAbandonedTimeout(int removeAbandonedTimeout) { if (abandonedConfig == null) { abandonedConfig = new AbandonedConfig(); } abandonedConfig.setRemoveAbandonedTimeout(removeAbandonedTimeout); this.restartNeeded = true; } /** * Flag to log stack traces for application code which abandoned * a Statement or Connection. * * Defaults to false. * * Logging of abandoned Statements and Connections adds overhead * for every Connection open or new Statement because a stack * trace has to be generated. * @deprecated */ public boolean getLogAbandoned() { if (abandonedConfig != null) { return abandonedConfig.getLogAbandoned(); } return false; } /** * @deprecated * @param logAbandoned */ public void setLogAbandoned(boolean logAbandoned) { if (abandonedConfig == null) { abandonedConfig = new AbandonedConfig(); } abandonedConfig.setLogAbandoned(logAbandoned); this.restartNeeded = true; } // --------------------------------------------------------- Public Methods /** * Add a custom connection property to the set that will be passed to our * JDBC driver. This MUST be called before the first * connection is retrieved (along with all the other configuration * property setters). * * @param name Name of the custom connection property * @param value Value of the custom connection property */ public void addConnectionProperty(String name, String value) { connectionProperties.put(name, value); this.restartNeeded = true; } public void removeConnectionProperty(String name) { connectionProperties.remove(name); this.restartNeeded = true; } /** * Close and release all connections that are currently stored in the * connection pool associated with our data source. * * @exception SQLException if a database error occurs */ public synchronized void close() throws SQLException { GenericObjectPool oldpool = connectionPool; connectionPool = null; dataSource = null; try { if (oldpool != null) { oldpool.close(); } } catch(SQLException e) { throw e; } catch(RuntimeException e) { throw e; } catch(Exception e) { throw new SQLNestedException("Cannot close connection pool", e); } } // ------------------------------------------------------ Protected Methods /** *

Create (if necessary) and return the internal data source we are * using to manage our connections.

* *

IMPLEMENTATION NOTE - It is tempting to use the * "double checked locking" idiom in an attempt to avoid synchronizing * on every single call to this method. However, this idiom fails to * work correctly in the face of some optimizations that are legal for * a JVM to perform.

* * @exception SQLException if the object pool cannot be created. */ protected synchronized DataSource createDataSource() throws SQLException { // Return the pool if we have already created it if (dataSource != null) { return (dataSource); } // Load the JDBC driver class if (driverClassName != null) { try { Class.forName(driverClassName); } catch (Throwable t) { String message = "Cannot load JDBC driver class '" + driverClassName + "'"; logWriter.println(message); t.printStackTrace(logWriter); throw new SQLNestedException(message, t); } } // Create a JDBC driver instance Driver driver = null; try { driver = DriverManager.getDriver(url); } catch (Throwable t) { String message = "Cannot create JDBC driver of class '" + (driverClassName != null ? driverClassName : "") + "' for connect URL '" + url + "'"; logWriter.println(message); t.printStackTrace(logWriter); throw new SQLNestedException(message, t); } // Can't test without a validationQuery if (validationQuery == null) { setTestOnBorrow(false); setTestOnReturn(false); setTestWhileIdle(false); } // Create an object pool to contain our active connections if ((abandonedConfig != null) && (abandonedConfig.getRemoveAbandoned() == true)) { connectionPool = new AbandonedObjectPool(null,abandonedConfig); } else { connectionPool = new GenericObjectPool(); } connectionPool.setMaxActive(maxActive); connectionPool.setMaxIdle(maxIdle); connectionPool.setMinIdle(minIdle); connectionPool.setMaxWait(maxWait); connectionPool.setTestOnBorrow(testOnBorrow); connectionPool.setTestOnReturn(testOnReturn); connectionPool.setTimeBetweenEvictionRunsMillis(timeBetweenEvictionRunsMillis); connectionPool.setNumTestsPerEvictionRun(numTestsPerEvictionRun); connectionPool.setMinEvictableIdleTimeMillis(minEvictableIdleTimeMillis); connectionPool.setTestWhileIdle(testWhileIdle); // Set up statement pool, if desired GenericKeyedObjectPoolFactory statementPoolFactory = null; if (isPoolPreparedStatements()) { statementPoolFactory = new GenericKeyedObjectPoolFactory(null, -1, // unlimited maxActive (per key) GenericKeyedObjectPool.WHEN_EXHAUSTED_FAIL, 0, // maxWait 1, // maxIdle (per key) maxOpenPreparedStatements); } // Set up the driver connection factory we will use if (username != null) { connectionProperties.put("user", username); } else { log("DBCP DataSource configured without a 'username'"); } if (password != null) { connectionProperties.put("password", password); } else { log("DBCP DataSource configured without a 'password'"); } DriverConnectionFactory driverConnectionFactory = new DriverConnectionFactory(driver, url, connectionProperties); // Set up the poolable connection factory we will use PoolableConnectionFactory connectionFactory = null; try { connectionFactory = new PoolableConnectionFactory(driverConnectionFactory, connectionPool, statementPoolFactory, validationQuery, defaultReadOnly, defaultAutoCommit, defaultTransactionIsolation, defaultCatalog, abandonedConfig); if (connectionFactory == null) { throw new SQLException("Cannot create PoolableConnectionFactory"); } validateConnectionFactory(connectionFactory); } catch (RuntimeException e) { throw e; } catch (Exception e) { throw new SQLNestedException("Cannot create PoolableConnectionFactory (" + e.getMessage() + ")", e); } // Create and return the pooling data source to manage the connections dataSource = new PoolingDataSource(connectionPool); ((PoolingDataSource) dataSource).setAccessToUnderlyingConnectionAllowed(isAccessToUnderlyingConnectionAllowed()); dataSource.setLogWriter(logWriter); try { for (int i = 0 ; i < initialSize ; i++) { connectionPool.addObject(); } } catch (Exception e) { throw new SQLNestedException("Error preloading the connection pool", e); } return dataSource; } private static void validateConnectionFactory(PoolableConnectionFactory connectionFactory) throws Exception { Connection conn = null; try { conn = (Connection) connectionFactory.makeObject(); connectionFactory.activateObject(conn); connectionFactory.validateConnection(conn); connectionFactory.passivateObject(conn); } finally { connectionFactory.destroyObject(conn); } } private void restart() { try { close(); } catch (SQLException e) { log("Could not restart DataSource, cause: " + e.getMessage()); } } private void log(String message) { if (logWriter != null) { logWriter.println(message); } } }