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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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.dbcp2;

import java.sql.CallableStatement;
import java.sql.Connection;
import java.sql.PreparedStatement;
import java.sql.SQLException;
import java.util.NoSuchElementException;
import java.util.Objects;

import org.apache.commons.pool2.KeyedObjectPool;
import org.apache.commons.pool2.KeyedPooledObjectFactory;
import org.apache.commons.pool2.PooledObject;
import org.apache.commons.pool2.impl.DefaultPooledObject;

/**
 * A {@link DelegatingConnection} that pools {@link PreparedStatement}s.
 * 

* The {@link #prepareStatement} and {@link #prepareCall} methods, rather than creating a new PreparedStatement each * time, may actually pull the statement from a pool of unused statements. The {@link PreparedStatement#close} method of * the returned statement doesn't actually close the statement, but rather returns it to the pool. (See * {@link PoolablePreparedStatement}, {@link PoolableCallableStatement}.) *

* * @see PoolablePreparedStatement * @since 2.0 */ public class PoolingConnection extends DelegatingConnection implements KeyedPooledObjectFactory { /** * Statement types. * * @since 2.0 protected enum. * @since 2.4.0 public enum. */ public enum StatementType { /** * Callable statement. */ CALLABLE_STATEMENT, /** * Prepared statement. */ PREPARED_STATEMENT } /** Pool of {@link PreparedStatement}s. and {@link CallableStatement}s */ private KeyedObjectPool pStmtPool; private boolean clearStatementPoolOnReturn; /** * Constructs a new instance. * * @param connection * the underlying {@link Connection}. */ public PoolingConnection(final Connection connection) { super(connection); } /** * {@link KeyedPooledObjectFactory} method for activating pooled statements. * * @param key * ignored * @param pooledObject * wrapped pooled statement to be activated */ @Override public void activateObject(final PStmtKey key, final PooledObject pooledObject) throws SQLException { pooledObject.getObject().activate(); } /** * Closes and frees all {@link PreparedStatement}s or {@link CallableStatement}s from the pool, and close the * underlying connection. */ @Override public synchronized void close() throws SQLException { try { if (null != pStmtPool) { final KeyedObjectPool oldPool = pStmtPool; pStmtPool = null; try { oldPool.close(); } catch (final RuntimeException e) { throw e; } catch (final Exception e) { throw new SQLException("Cannot close connection", e); } } } finally { try { getDelegateInternal().close(); } finally { setClosedInternal(true); } } } /** * Notification from {@link PoolableConnection} that we returned to the pool. * * @throws SQLException when {@code clearStatementPoolOnReturn} is true and the statement pool could not be * cleared * @since 2.8.0 */ public void connectionReturnedToPool() throws SQLException { if (pStmtPool != null && clearStatementPoolOnReturn) { try { pStmtPool.clear(); } catch (final Exception e) { throw new SQLException("Error clearing statement pool", e); } } } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull()); } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * @param autoGeneratedKeys * A flag indicating whether auto-generated keys should be returned; one of * {@code Statement.RETURN_GENERATED_KEYS} or {@code Statement.NO_GENERATED_KEYS}. * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql, final int autoGeneratedKeys) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull(), autoGeneratedKeys); } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * @param resultSetType * result set type * @param resultSetConcurrency * result set concurrency * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql, final int resultSetType, final int resultSetConcurrency) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull(), resultSetType, resultSetConcurrency); } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * @param resultSetType * result set type * @param resultSetConcurrency * result set concurrency * @param resultSetHoldability * result set holdability * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql, final int resultSetType, final int resultSetConcurrency, final int resultSetHoldability) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull(), resultSetType, resultSetConcurrency, resultSetHoldability); } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * @param resultSetType * result set type * @param resultSetConcurrency * result set concurrency * @param resultSetHoldability * result set holdability * @param statementType * statement type * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql, final int resultSetType, final int resultSetConcurrency, final int resultSetHoldability, final StatementType statementType) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull(), resultSetType, resultSetConcurrency, resultSetHoldability, statementType); } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * @param resultSetType * result set type * @param resultSetConcurrency * result set concurrency * @param statementType * statement type * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql, final int resultSetType, final int resultSetConcurrency, final StatementType statementType) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull(), resultSetType, resultSetConcurrency, statementType); } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * @param columnIndexes * An array of column indexes indicating the columns that should be returned from the inserted row or * rows. * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql, final int[] columnIndexes) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull(), columnIndexes); } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * @param statementType * statement type * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql, final StatementType statementType) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull(), statementType, null); } /** * Creates a PStmtKey for the given arguments. * * @param sql * the SQL string used to define the statement * @param columnNames * column names * * @return the PStmtKey created for the given arguments. */ protected PStmtKey createKey(final String sql, final String[] columnNames) { return new PStmtKey(normalizeSQL(sql), getCatalogOrNull(), getSchemaOrNull(), columnNames); } /** * {@link KeyedPooledObjectFactory} method for destroying PoolablePreparedStatements and PoolableCallableStatements. * Closes the underlying statement. * * @param key * ignored * @param pooledObject * the wrapped pooled statement to be destroyed. */ @Override public void destroyObject(final PStmtKey key, final PooledObject pooledObject) throws SQLException { pooledObject.getObject().getInnermostDelegate().close(); } private String getCatalogOrNull() { try { return getCatalog(); } catch (final SQLException ignored) { return null; } } private String getSchemaOrNull() { try { return getSchema(); } catch (final SQLException ignored) { return null; } } /** * Gets the prepared statement pool. * * @return statement pool * @since 2.8.0 */ public KeyedObjectPool getStatementPool() { return pStmtPool; } /** * {@link KeyedPooledObjectFactory} method for creating {@link PoolablePreparedStatement}s or * {@link PoolableCallableStatement}s. The {@code stmtType} field in the key determines whether a * PoolablePreparedStatement or PoolableCallableStatement is created. * * @param key * the key for the {@link PreparedStatement} to be created * @see #createKey(String, int, int, StatementType) */ @SuppressWarnings("resource") @Override public PooledObject makeObject(final PStmtKey key) throws SQLException { if (null == key) { throw new IllegalArgumentException("Prepared statement key is null or invalid."); } if (key.getStmtType() == StatementType.PREPARED_STATEMENT) { final PreparedStatement statement = (PreparedStatement) key.createStatement(getDelegate()); @SuppressWarnings({"rawtypes", "unchecked" }) // Unable to find way to avoid this final PoolablePreparedStatement pps = new PoolablePreparedStatement(statement, key, pStmtPool, this); return new DefaultPooledObject<>(pps); } final CallableStatement statement = (CallableStatement) key.createStatement(getDelegate()); final PoolableCallableStatement pcs = new PoolableCallableStatement(statement, key, pStmtPool, this); return new DefaultPooledObject<>(pcs); } /** * Normalizes the given SQL statement, producing a canonical form that is semantically equivalent to the original. * * @param sql The statement to be normalized. * * @return The canonical form of the supplied SQL statement. */ protected String normalizeSQL(final String sql) { return sql.trim(); } /** * {@link KeyedPooledObjectFactory} method for passivating {@link PreparedStatement}s or {@link CallableStatement}s. * Invokes {@link PreparedStatement#clearParameters}. * * @param key * ignored * @param pooledObject * a wrapped {@link PreparedStatement} */ @Override public void passivateObject(final PStmtKey key, final PooledObject pooledObject) throws SQLException { @SuppressWarnings("resource") final DelegatingPreparedStatement dps = pooledObject.getObject(); dps.clearParameters(); dps.passivate(); } /** * Creates or obtains a {@link CallableStatement} from the pool. * * @param key * a {@link PStmtKey} for the given arguments * @return a {@link PoolableCallableStatement} * @throws SQLException * Wraps an underlying exception. */ private CallableStatement prepareCall(final PStmtKey key) throws SQLException { return (CallableStatement) prepareStatement(key); } /** * Creates or obtains a {@link CallableStatement} from the pool. * * @param sql * the SQL string used to define the CallableStatement * @return a {@link PoolableCallableStatement} * @throws SQLException * Wraps an underlying exception. */ @Override public CallableStatement prepareCall(final String sql) throws SQLException { return prepareCall(createKey(sql, StatementType.CALLABLE_STATEMENT)); } /** * Creates or obtains a {@link CallableStatement} from the pool. * * @param sql * the SQL string used to define the CallableStatement * @param resultSetType * result set type * @param resultSetConcurrency * result set concurrency * @return a {@link PoolableCallableStatement} * @throws SQLException * Wraps an underlying exception. */ @Override public CallableStatement prepareCall(final String sql, final int resultSetType, final int resultSetConcurrency) throws SQLException { return prepareCall(createKey(sql, resultSetType, resultSetConcurrency, StatementType.CALLABLE_STATEMENT)); } /** * Creates or obtains a {@link CallableStatement} from the pool. * * @param sql * the SQL string used to define the CallableStatement * @param resultSetType * result set type * @param resultSetConcurrency * result set concurrency * @param resultSetHoldability * result set holdability * @return a {@link PoolableCallableStatement} * @throws SQLException * Wraps an underlying exception. */ @Override public CallableStatement prepareCall(final String sql, final int resultSetType, final int resultSetConcurrency, final int resultSetHoldability) throws SQLException { return prepareCall(createKey(sql, resultSetType, resultSetConcurrency, resultSetHoldability, StatementType.CALLABLE_STATEMENT)); } /** * Creates or obtains a {@link PreparedStatement} from the pool. * * @param key * a {@link PStmtKey} for the given arguments * @return a {@link PoolablePreparedStatement} * @throws SQLException * Wraps an underlying exception. */ private PreparedStatement prepareStatement(final PStmtKey key) throws SQLException { if (null == pStmtPool) { throw new SQLException("Statement pool is null - closed or invalid PoolingConnection."); } try { return pStmtPool.borrowObject(key); } catch (final NoSuchElementException e) { throw new SQLException("MaxOpenPreparedStatements limit reached", e); } catch (final RuntimeException e) { throw e; } catch (final Exception e) { throw new SQLException("Borrow prepareStatement from pool failed", e); } } /** * Creates or obtains a {@link PreparedStatement} from the pool. * * @param sql * the SQL string used to define the PreparedStatement * @return a {@link PoolablePreparedStatement} * @throws SQLException * Wraps an underlying exception. */ @Override public PreparedStatement prepareStatement(final String sql) throws SQLException { return prepareStatement(createKey(sql)); } /* * Creates or obtains a {@link PreparedStatement} from the pool. * * @param sql * the SQL string used to define the PreparedStatement * @param autoGeneratedKeys * A flag indicating whether auto-generated keys should be returned; one of * {@code Statement.RETURN_GENERATED_KEYS} or {@code Statement.NO_GENERATED_KEYS}. * @return a {@link PoolablePreparedStatement} * @throws SQLException * Wraps an underlying exception. */ @Override public PreparedStatement prepareStatement(final String sql, final int autoGeneratedKeys) throws SQLException { return prepareStatement(createKey(sql, autoGeneratedKeys)); } /** * Creates or obtains a {@link PreparedStatement} from the pool. * * @param sql * the SQL string used to define the PreparedStatement * @param resultSetType * result set type * @param resultSetConcurrency * result set concurrency * @return a {@link PoolablePreparedStatement} * @throws SQLException * Wraps an underlying exception. */ @Override public PreparedStatement prepareStatement(final String sql, final int resultSetType, final int resultSetConcurrency) throws SQLException { return prepareStatement(createKey(sql, resultSetType, resultSetConcurrency)); } /** * Creates or obtains a {@link PreparedStatement} from the pool. * * @param sql * the SQL string used to define the PreparedStatement * @param resultSetType * result set type * @param resultSetConcurrency * result set concurrency * @param resultSetHoldability * result set holdability * @return a {@link PoolablePreparedStatement} * @throws SQLException * Wraps an underlying exception. */ @Override public PreparedStatement prepareStatement(final String sql, final int resultSetType, final int resultSetConcurrency, final int resultSetHoldability) throws SQLException { return prepareStatement(createKey(sql, resultSetType, resultSetConcurrency, resultSetHoldability)); } /** * Creates or obtains a {@link PreparedStatement} from the pool. * * @param sql * the SQL string used to define the PreparedStatement * @param columnIndexes * An array of column indexes indicating the columns that should be returned from the inserted row or * rows. * @return a {@link PoolablePreparedStatement} * @throws SQLException * Wraps an underlying exception. * */ @Override public PreparedStatement prepareStatement(final String sql, final int[] columnIndexes) throws SQLException { return prepareStatement(createKey(sql, columnIndexes)); } /** * Creates or obtains a {@link PreparedStatement} from the pool. * * @param sql * the SQL string used to define the PreparedStatement * @param columnNames * column names * @return a {@link PoolablePreparedStatement} * @throws SQLException * Wraps an underlying exception. */ @Override public PreparedStatement prepareStatement(final String sql, final String[] columnNames) throws SQLException { return prepareStatement(createKey(sql, columnNames)); } /** * Sets whether the pool of statements should be cleared when the connection is returned to its pool. * Default is false. * * @param clearStatementPoolOnReturn clear or not * @since 2.8.0 */ public void setClearStatementPoolOnReturn(final boolean clearStatementPoolOnReturn) { this.clearStatementPoolOnReturn = clearStatementPoolOnReturn; } /** * Sets the prepared statement pool. * * @param pool * the prepared statement pool. */ public void setStatementPool(final KeyedObjectPool pool) { pStmtPool = pool; } @Override public synchronized String toString() { return "PoolingConnection: " + Objects.toString(pStmtPool); } /** * {@link KeyedPooledObjectFactory} method for validating pooled statements. Currently, always returns true. * * @param key * ignored * @param pooledObject * ignored * @return {@code true} */ @Override public boolean validateObject(final PStmtKey key, final PooledObject pooledObject) { return true; } }




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