org.apache.tomcat.dbcp.dbcp2.managed.ManagedConnection Maven / Gradle / Ivy
/*
* 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.tomcat.dbcp.dbcp2.managed;
import java.sql.Connection;
import java.sql.SQLException;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
import org.apache.tomcat.dbcp.dbcp2.DelegatingConnection;
import org.apache.tomcat.dbcp.pool2.ObjectPool;
/**
* ManagedConnection is responsible for managing a database connection in a transactional environment (typically called
* "Container Managed"). A managed connection operates like any other connection when no global transaction (a.k.a. XA
* transaction or JTA Transaction) is in progress. When a global transaction is active a single physical connection to
* the database is used by all ManagedConnections accessed in the scope of the transaction. Connection sharing means
* that all data access during a transaction has a consistent view of the database. When the global transaction is
* committed or rolled back the enlisted connections are committed or rolled back. Typically, upon transaction
* completion, a connection returns to the auto commit setting in effect before being enlisted in the transaction, but
* some vendors do not properly implement this.
*
* When enlisted in a transaction the setAutoCommit(), commit(), rollback(), and setReadOnly() methods throw a
* SQLException. This is necessary to assure that the transaction completes as a single unit.
*
*
* @param
* the Connection type
*
* @since 2.0
*/
public class ManagedConnection extends DelegatingConnection {
/**
* Delegates to {@link ManagedConnection#transactionComplete()} for transaction completion events.
*
* @since 2.0
*/
protected class CompletionListener implements TransactionContextListener {
@Override
public void afterCompletion(final TransactionContext completedContext, final boolean committed) {
if (completedContext == transactionContext) {
transactionComplete();
}
}
}
private final ObjectPool pool;
private final TransactionRegistry transactionRegistry;
private final boolean accessToUnderlyingConnectionAllowed;
private TransactionContext transactionContext;
private boolean isSharedConnection;
private final Lock lock;
/**
* Constructs a new instance responsible for managing a database connection in a transactional environment.
*
* @param pool
* The connection pool.
* @param transactionRegistry
* The transaction registry.
* @param accessToUnderlyingConnectionAllowed
* Whether or not to allow access to the underlying Connection.
* @throws SQLException
* Thrown when there is problem managing transactions.
*/
public ManagedConnection(final ObjectPool pool, final TransactionRegistry transactionRegistry,
final boolean accessToUnderlyingConnectionAllowed) throws SQLException {
super(null);
this.pool = pool;
this.transactionRegistry = transactionRegistry;
this.accessToUnderlyingConnectionAllowed = accessToUnderlyingConnectionAllowed;
this.lock = new ReentrantLock();
updateTransactionStatus();
}
@Override
protected void checkOpen() throws SQLException {
super.checkOpen();
updateTransactionStatus();
}
@Override
public void close() throws SQLException {
if (!isClosedInternal()) {
// Don't actually close the connection if in a transaction. The
// connection will be closed by the transactionComplete method.
//
// DBCP-484 we need to make sure setClosedInternal(true) being
// invoked if transactionContext is not null as this value will
// be modified by the transactionComplete method which could run
// in the different thread with the transaction calling back.
lock.lock();
try {
if (transactionContext == null || transactionContext.isTransactionComplete()) {
super.close();
}
} finally {
try {
setClosedInternal(true);
} finally {
lock.unlock();
}
}
}
}
@Override
public void commit() throws SQLException {
if (transactionContext != null) {
throw new SQLException("Commit can not be set while enrolled in a transaction");
}
super.commit();
}
@Override
public C getDelegate() {
if (isAccessToUnderlyingConnectionAllowed()) {
return getDelegateInternal();
}
return null;
}
//
// The following methods can't be used while enlisted in a transaction
//
@Override
public Connection getInnermostDelegate() {
if (isAccessToUnderlyingConnectionAllowed()) {
return super.getInnermostDelegateInternal();
}
return null;
}
/**
* @return The transaction context.
* @since 2.6.0
*/
public TransactionContext getTransactionContext() {
return transactionContext;
}
/**
* @return The transaction registry.
* @since 2.6.0
*/
public TransactionRegistry getTransactionRegistry() {
return transactionRegistry;
}
/**
* If false, getDelegate() and getInnermostDelegate() will return null.
*
* @return if false, getDelegate() and getInnermostDelegate() will return null
*/
public boolean isAccessToUnderlyingConnectionAllowed() {
return accessToUnderlyingConnectionAllowed;
}
@Override
public void rollback() throws SQLException {
if (transactionContext != null) {
throw new SQLException("Commit can not be set while enrolled in a transaction");
}
super.rollback();
}
@Override
public void setAutoCommit(final boolean autoCommit) throws SQLException {
if (transactionContext != null) {
throw new SQLException("Auto-commit can not be set while enrolled in a transaction");
}
super.setAutoCommit(autoCommit);
}
@Override
public void setReadOnly(final boolean readOnly) throws SQLException {
if (transactionContext != null) {
throw new SQLException("Read-only can not be set while enrolled in a transaction");
}
super.setReadOnly(readOnly);
}
/**
* Completes the transaction.
*/
protected void transactionComplete() {
lock.lock();
try {
transactionContext.completeTransaction();
} finally {
lock.unlock();
}
// If we were using a shared connection, clear the reference now that
// the transaction has completed
if (isSharedConnection) {
setDelegate(null);
isSharedConnection = false;
}
// autoCommit may have been changed directly on the underlying connection
clearCachedState();
// If this connection was closed during the transaction and there is
// still a delegate present close it
final Connection delegate = getDelegateInternal();
if (isClosedInternal() && delegate != null) {
try {
setDelegate(null);
if (!delegate.isClosed()) {
delegate.close();
}
} catch (final SQLException ignored) {
// Not a whole lot we can do here as connection is closed
// and this is a transaction callback so there is no
// way to report the error.
}
}
}
private void updateTransactionStatus() throws SQLException {
// if there is an active transaction context, assure the transaction context hasn't changed
if (transactionContext != null && !transactionContext.isTransactionComplete()) {
if (transactionContext.isActive()) {
if (transactionContext != transactionRegistry.getActiveTransactionContext()) {
throw new SQLException("Connection can not be used while enlisted in another transaction");
}
return;
}
// transaction should have been cleared up by TransactionContextListener, but in
// rare cases another lister could have registered which uses the connection before
// our listener is called. In that rare case, trigger the transaction complete call now
transactionComplete();
}
// the existing transaction context ended (or we didn't have one), get the active transaction context
transactionContext = transactionRegistry.getActiveTransactionContext();
// if there is an active transaction context, and it already has a shared connection, use it
if (transactionContext != null && transactionContext.getSharedConnection() != null) {
// A connection for the connection factory has already been enrolled
// in the transaction, replace our delegate with the enrolled connection
// return current connection to the pool
final C connection = getDelegateInternal();
setDelegate(null);
if (connection != null && transactionContext.getSharedConnection() != connection) {
try {
pool.returnObject(connection);
} catch (final Exception e) {
// whatever... try to invalidate the connection
try {
pool.invalidateObject(connection);
} catch (final Exception ignored) {
// no big deal
}
}
}
// add a listener to the transaction context
transactionContext.addTransactionContextListener(new CompletionListener());
// Set our delegate to the shared connection. Note that this will
// always be of type C since it has been shared by another
// connection from the same pool.
@SuppressWarnings("unchecked")
final C shared = (C) transactionContext.getSharedConnection();
setDelegate(shared);
// remember that we are using a shared connection, so it can be cleared after the
// transaction completes
isSharedConnection = true;
} else {
C connection = getDelegateInternal();
// if our delegate is null, create one
if (connection == null) {
try {
// borrow a new connection from the pool
connection = pool.borrowObject();
setDelegate(connection);
} catch (final Exception e) {
throw new SQLException("Unable to acquire a new connection from the pool", e);
}
}
// if we have a transaction, out delegate becomes the shared delegate
if (transactionContext != null) {
// add a listener to the transaction context
transactionContext.addTransactionContextListener(new CompletionListener());
// register our connection as the shared connection
try {
transactionContext.setSharedConnection(connection);
} catch (final SQLException e) {
// transaction is hosed
transactionContext = null;
try {
pool.invalidateObject(connection);
} catch (final Exception ignored) {
// we are try but no luck
}
throw e;
}
}
}
// autoCommit may have been changed directly on the underlying
// connection
clearCachedState();
}
}
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