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TransactionLegacy.java
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TransactionLegacy.java
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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
// 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 com.cloud.utils.db;
import java.io.Closeable;
import java.io.File;
import java.io.IOException;
import java.sql.Connection;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.sql.Savepoint;
import java.sql.Statement;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.Properties;
import java.util.concurrent.atomic.AtomicLong;
import javax.sql.DataSource;
import org.apache.commons.dbcp.ConnectionFactory;
import org.apache.commons.dbcp.DriverManagerConnectionFactory;
import org.apache.commons.dbcp.PoolableConnectionFactory;
import org.apache.commons.dbcp.PoolingDataSource;
import org.apache.commons.pool.KeyedObjectPoolFactory;
import org.apache.commons.pool.impl.GenericObjectPool;
import org.apache.commons.pool.impl.StackKeyedObjectPoolFactory;
import org.apache.log4j.Logger;
import com.cloud.utils.Pair;
import com.cloud.utils.PropertiesUtil;
import com.cloud.utils.exception.CloudRuntimeException;
import com.cloud.utils.mgmt.JmxUtil;
/**
* Transaction abstracts away the Connection object in JDBC. It allows the
* following things that the Connection object does not.
*
* 1. Transaction can be started at an entry point and whether the DB
* actions should be auto-commit or not determined at that point.
* 2. DB Connection is allocated only when it is needed.
* 3. Code does not need to know if a transaction has been started or not.
* It just starts/ends a transaction and we resolve it correctly with
* the previous actions.
*
* Note that this class is not synchronous but it doesn't need to be because
* it is stored with TLS and is one per thread. Use appropriately.
*/
public class TransactionLegacy implements Closeable {
private static final Logger s_logger = Logger.getLogger(Transaction.class.getName() + "." + "Transaction");
private static final Logger s_stmtLogger = Logger.getLogger(Transaction.class.getName() + "." + "Statement");
private static final Logger s_lockLogger = Logger.getLogger(Transaction.class.getName() + "." + "Lock");
private static final Logger s_connLogger = Logger.getLogger(Transaction.class.getName() + "." + "Connection");
private static final ThreadLocal<TransactionLegacy> tls = new ThreadLocal<TransactionLegacy>();
private static final String START_TXN = "start_txn";
private static final String CURRENT_TXN = "current_txn";
private static final String CREATE_TXN = "create_txn";
private static final String CREATE_CONN = "create_conn";
private static final String STATEMENT = "statement";
private static final String ATTACHMENT = "attachment";
public static final short CLOUD_DB = 0;
public static final short USAGE_DB = 1;
public static final short SIMULATOR_DB = 3;
public static final short CONNECTED_DB = -1;
private static AtomicLong s_id = new AtomicLong();
private static final TransactionMBeanImpl s_mbean = new TransactionMBeanImpl();
static {
try {
JmxUtil.registerMBean("Transaction", "Transaction", s_mbean);
} catch (Exception e) {
s_logger.error("Unable to register mbean for transaction", e);
}
}
private final LinkedList<StackElement> _stack;
private long _id;
private final LinkedList<Pair<String, Long>> _lockTimes = new LinkedList<Pair<String, Long>>();
private String _name;
private Connection _conn;
private boolean _txn;
private short _dbId;
private long _txnTime;
private Statement _stmt;
private String _creator;
public static TransactionLegacy currentTxn() {
return currentTxn(true);
}
protected static TransactionLegacy currentTxn(boolean check) {
TransactionLegacy txn = tls.get();
if (check) {
assert txn != null : "No Transaction on stack. Did you mark the method with @DB?";
}
return txn;
}
public static TransactionLegacy open(final short databaseId) {
String name = buildName();
if (name == null) {
name = CURRENT_TXN;
}
return open(name, databaseId, true);
}
//
// Usage of this transaction setup should be limited, it will always open a new transaction context regardless of whether or not there is other
// transaction context in the stack. It is used in special use cases that we want to control DB connection explicitly and in the mean time utilize
// the existing DAO features
//
public void transitToUserManagedConnection(Connection conn) {
if (_conn != null)
throw new IllegalStateException("Can't change to a user managed connection unless the db connection is null");
_conn = conn;
_dbId = CONNECTED_DB;
}
public void transitToAutoManagedConnection(short dbId) {
// assert(_stack.size() <= 1) : "Can't change to auto managed connection unless your stack is empty";
_dbId = dbId;
_conn = null;
}
public static TransactionLegacy open(final String name) {
return open(name, TransactionLegacy.CLOUD_DB, false);
}
public static TransactionLegacy open(final String name, final short databaseId, final boolean forceDbChange) {
TransactionLegacy txn = tls.get();
boolean isNew = false;
if (txn == null) {
if (s_logger.isTraceEnabled()) {
s_logger.trace("Creating the transaction: " + name);
}
txn = new TransactionLegacy(name, false, databaseId);
tls.set(txn);
isNew = true;
} else if (forceDbChange) {
final short currentDbId = txn.getDatabaseId();
if (currentDbId != databaseId) {
// we need to end the current transaction and switch databases
txn.close(txn.getName());
txn = new TransactionLegacy(name, false, databaseId);
tls.set(txn);
isNew = true;
}
}
txn.takeOver(name, false);
if (isNew) {
s_mbean.addTransaction(txn);
}
return txn;
}
protected StackElement peekInStack(Object obj) {
final Iterator<StackElement> it = _stack.iterator();
while (it.hasNext()) {
StackElement next = it.next();
if (next.type == obj) {
return next;
}
}
return null;
}
public void registerLock(String sql) {
if (_txn && s_lockLogger.isDebugEnabled()) {
Pair<String, Long> time = new Pair<String, Long>(sql, System.currentTimeMillis());
_lockTimes.add(time);
}
}
public boolean dbTxnStarted() {
return _txn;
}
public static Connection getStandaloneConnectionWithException() throws SQLException {
Connection conn = s_ds.getConnection();
if (s_connLogger.isTraceEnabled()) {
s_connLogger.trace("Retrieving a standalone connection: dbconn" + System.identityHashCode(conn));
}
return conn;
}
public static Connection getStandaloneConnection() {
try {
return getStandaloneConnectionWithException();
} catch (SQLException e) {
s_logger.error("Unexpected exception: ", e);
return null;
}
}
public static Connection getStandaloneUsageConnection() {
try {
Connection conn = s_usageDS.getConnection();
if (s_connLogger.isTraceEnabled()) {
s_connLogger.trace("Retrieving a standalone connection for usage: dbconn" + System.identityHashCode(conn));
}
return conn;
} catch (SQLException e) {
s_logger.warn("Unexpected exception: ", e);
return null;
}
}
public static Connection getStandaloneSimulatorConnection() {
try {
Connection conn = s_simulatorDS.getConnection();
if (s_connLogger.isTraceEnabled()) {
s_connLogger.trace("Retrieving a standalone connection for simulator: dbconn" + System.identityHashCode(conn));
}
return conn;
} catch (SQLException e) {
s_logger.warn("Unexpected exception: ", e);
return null;
}
}
protected void attach(TransactionAttachment value) {
_stack.push(new StackElement(ATTACHMENT, value));
}
protected TransactionAttachment detach(String name) {
Iterator<StackElement> it = _stack.descendingIterator();
while (it.hasNext()) {
StackElement element = it.next();
if (element.type == ATTACHMENT) {
TransactionAttachment att = (TransactionAttachment)element.ref;
if (name.equals(att.getName())) {
it.remove();
return att;
}
}
}
assert false : "Are you sure you attached this: " + name;
return null;
}
public static void attachToTxn(TransactionAttachment value) {
TransactionLegacy txn = tls.get();
assert txn != null && txn.peekInStack(CURRENT_TXN) != null : "Come on....how can we attach something to the transaction if you haven't started it?";
txn.attach(value);
}
public static TransactionAttachment detachFromTxn(String name) {
TransactionLegacy txn = tls.get();
assert txn != null : "No Transaction in TLS";
return txn.detach(name);
}
protected static boolean checkAnnotation(int stack, TransactionLegacy txn) {
final StackTraceElement[] stacks = Thread.currentThread().getStackTrace();
StackElement se = txn.peekInStack(CURRENT_TXN);
if (se == null) {
return false;
}
StringBuffer sb = new StringBuffer();
for (; stack < stacks.length; stack++) {
String methodName = stacks[stack].getMethodName();
sb.append(" ").append(methodName);
if (methodName.equals(se.ref)) {
return true;
}
}
// relax stack structure for several places that @DB required injection is not in place
s_logger.warn("Non-standard stack context that Transaction context is manaully placed into the calling chain. Stack chain: " + sb);
return true;
}
protected static String buildName() {
if (s_logger.isDebugEnabled()) {
final StackTraceElement[] stacks = Thread.currentThread().getStackTrace();
final StringBuilder str = new StringBuilder();
int i = 3, j = 3;
while (j < 15 && i < stacks.length) {
StackTraceElement element = stacks[i];
String filename = element.getFileName();
String method = element.getMethodName();
if ((filename != null && filename.equals("<generated>")) || (method != null && method.equals("invokeSuper"))) {
i++;
continue;
}
str.append("-")
.append(stacks[i].getClassName().substring(stacks[i].getClassName().lastIndexOf(".") + 1))
.append(".")
.append(stacks[i].getMethodName())
.append(":")
.append(stacks[i].getLineNumber());
j++;
i++;
}
return str.toString();
}
return "";
}
private TransactionLegacy(final String name, final boolean forLocking, final short databaseId) {
_name = name;
_conn = null;
_stack = new LinkedList<StackElement>();
_txn = false;
_dbId = databaseId;
_id = s_id.incrementAndGet();
_creator = Thread.currentThread().getName();
}
public String getCreator() {
return _creator;
}
public long getId() {
return _id;
}
public String getName() {
return _name;
}
public Short getDatabaseId() {
return _dbId;
}
@Override
public String toString() {
final StringBuilder str = new StringBuilder((_name != null ? _name : ""));
str.append(" : ");
for (final StackElement se : _stack) {
if (se.type == CURRENT_TXN) {
str.append(se.ref).append(", ");
}
}
return str.toString();
}
protected void mark(final String name) {
_stack.push(new StackElement(CURRENT_TXN, name));
}
public boolean lock(final String name, final int timeoutSeconds) {
Merovingian2 lockMaster = Merovingian2.getLockMaster();
if (lockMaster == null) {
throw new CloudRuntimeException("There's no support for locking yet");
}
return lockMaster.acquire(name, timeoutSeconds);
}
public boolean release(final String name) {
Merovingian2 lockMaster = Merovingian2.getLockMaster();
if (lockMaster == null) {
throw new CloudRuntimeException("There's no support for locking yet");
}
return lockMaster.release(name);
}
/**
* @deprecated Use {@link Transaction} for new code
*/
@Deprecated
public void start() {
if (s_logger.isTraceEnabled()) {
s_logger.trace("txn: start requested by: " + buildName());
}
_stack.push(new StackElement(START_TXN, null));
if (_txn) {
s_logger.trace("txn: has already been started.");
return;
}
_txn = true;
_txnTime = System.currentTimeMillis();
if (_conn != null) {
try {
s_logger.trace("txn: set auto commit to false");
_conn.setAutoCommit(false);
} catch (final SQLException e) {
s_logger.warn("Unable to set auto commit: ", e);
throw new CloudRuntimeException("Unable to set auto commit: ", e);
}
}
}
protected void closePreviousStatement() {
if (_stmt != null) {
try {
if (s_stmtLogger.isTraceEnabled()) {
s_stmtLogger.trace("Closing: " + _stmt.toString());
}
try {
ResultSet rs = _stmt.getResultSet();
if (rs != null && _stmt.getResultSetHoldability() != ResultSet.HOLD_CURSORS_OVER_COMMIT) {
rs.close();
}
} catch (SQLException e) {
s_stmtLogger.trace("Unable to close resultset");
}
_stmt.close();
} catch (final SQLException e) {
s_stmtLogger.trace("Unable to close statement: " + _stmt.toString());
} finally {
_stmt = null;
}
}
}
/**
* Prepares an auto close statement. The statement is closed automatically if it is
* retrieved with this method.
*
* @param sql sql String
* @return PreparedStatement
* @throws SQLException if problem with JDBC layer.
*
* @see java.sql.Connection
*/
public PreparedStatement prepareAutoCloseStatement(final String sql) throws SQLException {
PreparedStatement stmt = prepareStatement(sql);
closePreviousStatement();
_stmt = stmt;
return stmt;
}
public PreparedStatement prepareStatement(final String sql) throws SQLException {
final Connection conn = getConnection();
final PreparedStatement pstmt = conn.prepareStatement(sql);
if (s_stmtLogger.isTraceEnabled()) {
s_stmtLogger.trace("Preparing: " + sql);
}
return pstmt;
}
/**
* Prepares an auto close statement. The statement is closed automatically if it is
* retrieved with this method.
*
* @param sql sql String
* @param autoGeneratedKeys keys that are generated
* @return PreparedStatement
* @throws SQLException if problem with JDBC layer.
*
* @see java.sql.Connection
*/
public PreparedStatement prepareAutoCloseStatement(final String sql, final int autoGeneratedKeys) throws SQLException {
final Connection conn = getConnection();
final PreparedStatement pstmt = conn.prepareStatement(sql, autoGeneratedKeys);
if (s_stmtLogger.isTraceEnabled()) {
s_stmtLogger.trace("Preparing: " + sql);
}
closePreviousStatement();
_stmt = pstmt;
return pstmt;
}
/**
* Prepares an auto close statement. The statement is closed automatically if it is
* retrieved with this method.
*
* @param sql sql String
* @param columnNames names of the columns
* @return PreparedStatement
* @throws SQLException if problem with JDBC layer.
*
* @see java.sql.Connection
*/
public PreparedStatement prepareAutoCloseStatement(final String sql, final String[] columnNames) throws SQLException {
final Connection conn = getConnection();
final PreparedStatement pstmt = conn.prepareStatement(sql, columnNames);
if (s_stmtLogger.isTraceEnabled()) {
s_stmtLogger.trace("Preparing: " + sql);
}
closePreviousStatement();
_stmt = pstmt;
return pstmt;
}
/**
* Prepares an auto close statement. The statement is closed automatically if it is
* retrieved with this method.
*
* @param sql sql String
* @return PreparedStatement
* @throws SQLException if problem with JDBC layer.
*
* @see java.sql.Connection
*/
public PreparedStatement prepareAutoCloseStatement(String sql, int resultSetType, int resultSetConcurrency, int resultSetHoldability) throws SQLException {
final Connection conn = getConnection();
final PreparedStatement pstmt = conn.prepareStatement(sql, resultSetType, resultSetConcurrency, resultSetHoldability);
if (s_stmtLogger.isTraceEnabled()) {
s_stmtLogger.trace("Preparing: " + sql);
}
closePreviousStatement();
_stmt = pstmt;
return pstmt;
}
/**
* Returns the db connection.
*
* Note: that you can call getConnection() but beaware that
* all prepare statements from the Connection are not garbage
* collected!
*
* @return DB Connection but make sure you understand that
* you are responsible for closing the PreparedStatement.
* @throws SQLException
*/
public Connection getConnection() throws SQLException {
if (_conn == null) {
switch (_dbId) {
case CLOUD_DB:
if (s_ds != null) {
_conn = s_ds.getConnection();
} else {
s_logger.warn("A static-initialized variable becomes null, process is dying?");
throw new CloudRuntimeException("Database is not initialized, process is dying?");
}
break;
case USAGE_DB:
if (s_usageDS != null) {
_conn = s_usageDS.getConnection();
} else {
s_logger.warn("A static-initialized variable becomes null, process is dying?");
throw new CloudRuntimeException("Database is not initialized, process is dying?");
}
break;
case SIMULATOR_DB:
if (s_simulatorDS != null) {
_conn = s_simulatorDS.getConnection();
} else {
s_logger.warn("A static-initialized variable becomes null, process is dying?");
throw new CloudRuntimeException("Database is not initialized, process is dying?");
}
break;
default:
throw new CloudRuntimeException("No database selected for the transaction");
}
_conn.setAutoCommit(!_txn);
//
// MySQL default transaction isolation level is REPEATABLE READ,
// to reduce chances of DB deadlock, we will use READ COMMITED isolation level instead
// see http://dev.mysql.com/doc/refman/5.0/en/innodb-deadlocks.html
//
_stack.push(new StackElement(CREATE_CONN, null));
if (s_connLogger.isTraceEnabled()) {
s_connLogger.trace("Creating a DB connection with " + (_txn ? " txn: " : " no txn: ") + " for " + _dbId + ": dbconn" + System.identityHashCode(_conn) +
". Stack: " + buildName());
}
} else {
s_logger.trace("conn: Using existing DB connection");
}
return _conn;
}
protected boolean takeOver(final String name, final boolean create) {
if (_stack.size() != 0) {
if (!create) {
// If it is not a create transaction, then let's just use the current one.
if (s_logger.isTraceEnabled()) {
s_logger.trace("Using current transaction: " + toString());
}
mark(name);
return false;
}
final StackElement se = _stack.getFirst();
if (se.type == CREATE_TXN) {
// This create is called inside of another create. Which is ok?
// We will let that create be responsible for cleaning up.
if (s_logger.isTraceEnabled()) {
s_logger.trace("Create using current transaction: " + toString());
}
mark(name);
return false;
}
s_logger.warn("Encountered a transaction that has leaked. Cleaning up. " + toString());
cleanup();
}
if (s_logger.isTraceEnabled()) {
s_logger.trace("Took over the transaction: " + name);
}
_stack.push(new StackElement(create ? CREATE_TXN : CURRENT_TXN, name));
_name = name;
return true;
}
public void cleanup() {
closePreviousStatement();
removeUpTo(null, null);
if (_txn) {
rollbackTransaction();
}
_txn = false;
_name = null;
closeConnection();
_stack.clear();
Merovingian2 lockMaster = Merovingian2.getLockMaster();
if (lockMaster != null) {
lockMaster.cleanupThread();
}
}
@Override
public void close() {
removeUpTo(CURRENT_TXN, null);
if (_stack.size() == 0) {
s_logger.trace("Transaction is done");
cleanup();
}
}
/**
* close() is used by endTxn to close the connection. This method only
* closes the connection if the name is the same as what's stored.
*
* @param name
* @return true if this close actually closes the connection. false if not.
*/
public boolean close(final String name) {
if (_name == null) { // Already cleaned up.
if (s_logger.isTraceEnabled()) {
s_logger.trace("Already cleaned up." + buildName());
}
return true;
}
if (!_name.equals(name)) {
close();
return false;
}
if (s_logger.isDebugEnabled() && _stack.size() > 2) {
s_logger.debug("Transaction is not closed properly: " + toString() + ". Called by " + buildName());
}
cleanup();
s_logger.trace("All done");
return true;
}
protected boolean hasTxnInStack() {
return peekInStack(START_TXN) != null;
}
protected void clearLockTimes() {
if (s_lockLogger.isDebugEnabled()) {
for (Pair<String, Long> time : _lockTimes) {
s_lockLogger.trace("SQL " + time.first() + " took " + (System.currentTimeMillis() - time.second()));
}
_lockTimes.clear();
}
}
public boolean commit() {
if (!_txn) {
s_logger.warn("txn: Commit called when it is not a transaction: " + buildName());
return false;
}
Iterator<StackElement> it = _stack.iterator();
while (it.hasNext()) {
StackElement st = it.next();
if (st.type == START_TXN) {
it.remove();
break;
}
}
if (hasTxnInStack()) {
if (s_logger.isTraceEnabled()) {
s_logger.trace("txn: Not committing because transaction started elsewhere: " + buildName() + " / " + toString());
}
return false;
}
_txn = false;
try {
if (_conn != null) {
_conn.commit();
s_logger.trace("txn: DB Changes committed. Time = " + (System.currentTimeMillis() - _txnTime));
clearLockTimes();
closeConnection();
}
return true;
} catch (final SQLException e) {
rollbackTransaction();
throw new CloudRuntimeException("Unable to commit or close the connection. ", e);
}
}
protected void closeConnection() {
closePreviousStatement();
if (_conn == null) {
return;
}
if (_txn) {
s_connLogger.trace("txn: Not closing DB connection because we're still in a transaction.");
return;
}
try {
// we should only close db connection when it is not user managed
if (_dbId != CONNECTED_DB) {
if (s_connLogger.isTraceEnabled()) {
s_connLogger.trace("Closing DB connection: dbconn" + System.identityHashCode(_conn));
}
_conn.close();
_conn = null;
}
} catch (final SQLException e) {
s_logger.warn("Unable to close connection", e);
}
}
protected void removeUpTo(String type, Object ref) {
boolean rollback = false;
Iterator<StackElement> it = _stack.iterator();
while (it.hasNext()) {
StackElement item = it.next();
it.remove();
try {
if ( (type == null || type.equals(item.type)) && (ref == null || ref.equals(item.ref))) {
break;
}
if (item.type == CURRENT_TXN) {
if (s_logger.isTraceEnabled()) {
s_logger.trace("Releasing the current txn: " + (item.ref != null ? item.ref : ""));
}
} else if (item.type == CREATE_CONN) {
closeConnection();
} else if (item.type == START_TXN) {
if (item.ref == null) {
rollback = true;
} else {
try {
_conn.rollback((Savepoint)ref);
rollback = false;
} catch (final SQLException e) {
s_logger.warn("Unable to rollback Txn.", e);
}
}
} else if (item.type == STATEMENT) {
try {
if (s_stmtLogger.isTraceEnabled()) {
s_stmtLogger.trace("Closing: " + ref.toString());
}
Statement stmt = (Statement)ref;
try {
ResultSet rs = stmt.getResultSet();
if (rs != null) {
rs.close();
}
} catch (SQLException e) {
s_stmtLogger.trace("Unable to close resultset");
}
stmt.close();
} catch (final SQLException e) {
s_stmtLogger.trace("Unable to close statement: " + item);
}
} else if (item.type == ATTACHMENT) {
TransactionAttachment att = (TransactionAttachment)item.ref;
if (s_logger.isTraceEnabled()) {
s_logger.trace("Cleaning up " + att.getName());
}
att.cleanup();
}
} catch (Exception e) {
s_logger.error("Unable to clean up " + item, e);
}
}
if (rollback) {
rollback();
}
}
protected void rollbackTransaction() {
closePreviousStatement();
if (!_txn) {
if (s_logger.isTraceEnabled()) {
s_logger.trace("Rollback called for " + _name + " when there's no transaction: " + buildName());
}
return;
}
assert (!hasTxnInStack()) : "Who's rolling back transaction when there's still txn in stack?";
_txn = false;
try {
if (_conn != null) {
if (s_logger.isDebugEnabled()) {
s_logger.debug("Rolling back the transaction: Time = " + (System.currentTimeMillis() - _txnTime) + " Name = " + _name + "; called by " + buildName());
}
_conn.rollback();
}
clearLockTimes();
closeConnection();
} catch (final SQLException e) {
s_logger.warn("Unable to rollback", e);
}
}
protected void rollbackSavepoint(Savepoint sp) {
try {
if (_conn != null) {
_conn.rollback(sp);
}
} catch (SQLException e) {
s_logger.warn("Unable to rollback to savepoint " + sp);
}
if (!hasTxnInStack()) {
_txn = false;
closeConnection();
}
}
public void rollback() {
Iterator<StackElement> it = _stack.iterator();
while (it.hasNext()) {
StackElement st = it.next();
if (st.type == START_TXN) {
if (st.ref == null) {
it.remove();
} else {
rollback((Savepoint)st.ref);
return;
}
}
}
rollbackTransaction();
}
public Savepoint setSavepoint() throws SQLException {
_txn = true;
StackElement st = new StackElement(START_TXN, null);
_stack.push(st);
final Connection conn = getConnection();
final Savepoint sp = conn.setSavepoint();
st.ref = sp;
return sp;
}
public Savepoint setSavepoint(final String name) throws SQLException {
_txn = true;
StackElement st = new StackElement(START_TXN, null);
_stack.push(st);
final Connection conn = getConnection();
final Savepoint sp = conn.setSavepoint(name);
st.ref = sp;
return sp;
}
public void releaseSavepoint(final Savepoint sp) throws SQLException {
removeTxn(sp);
if (_conn != null) {
_conn.releaseSavepoint(sp);
}
if (!hasTxnInStack()) {
_txn = false;
closeConnection();
}
}
protected boolean hasSavepointInStack(Savepoint sp) {
Iterator<StackElement> it = _stack.iterator();
while (it.hasNext()) {
StackElement se = it.next();
if (se.type == START_TXN && se.ref == sp) {
return true;
}
}
return false;
}
protected void removeTxn(Savepoint sp) {
assert hasSavepointInStack(sp) : "Removing a save point that's not in the stack";
if (!hasSavepointInStack(sp)) {
return;
}
Iterator<StackElement> it = _stack.iterator();
while (it.hasNext()) {
StackElement se = it.next();
if (se.type == START_TXN) {
it.remove();
if (se.ref == sp) {
return;
}
}
}
}
public void rollback(final Savepoint sp) {
removeTxn(sp);
rollbackSavepoint(sp);
}
public Connection getCurrentConnection() {
return _conn;
}
public List<StackElement> getStack() {
return _stack;
}
private TransactionLegacy() {
_name = null;
_conn = null;
_stack = null;
_txn = false;
_dbId = -1;
}
@Override
protected void finalize() throws Throwable {
if (!(_conn == null && (_stack == null || _stack.size() == 0))) {
assert (false) : "Oh Alex oh alex...something is wrong with how we're doing this";
s_logger.error("Something went wrong that a transaction is orphaned before db connection is closed");
cleanup();
}
}
protected class StackElement {
public String type;
public Object ref;
public StackElement(String type, Object ref) {
this.type = type;
this.ref = ref;
}
@Override
public String toString() {
return type + "-" + ref;
}
}
private static DataSource s_ds;
private static DataSource s_usageDS;
private static DataSource s_simulatorDS;
private static boolean s_dbHAEnabled;
static {
// Initialize with assumed db.properties file
initDataSource(DbProperties.getDbProperties());
}