public void run() {
while (!requestShutdown) {
try {
logger.debug(Messages.getString("queryScheduler.running"));
synchronized (this) {
while (queue.size() != 0) executeNextInQueue();
logger.debug(Messages.getString("queryScheduler.waitingForMore"));
wait();
}
} catch (Exception e) {
logger.error(e);
e.printStackTrace();
}
}
}
public ResultSet executeQuery(AbstractQueryManager s) throws RemoteException, SQLException {
// Isto e thread-safe?
put(s);
ResultSet rs = null;
try {
rs = ((SelectQueryManager) s).executeQuery();
logger.debug(Messages.getString("queryScheduler.queryExecuted", s.getQueryNumber()));
} catch (SQLException e) {
logger.error(
Messages.getString(
"queryScheduler.queryError", new Object[] {s.getQueryNumber(), e.getMessage()}));
remove(s);
throw e;
}
remove(s);
return rs;
}
public int executeUpdate(AbstractQueryManager s) throws RemoteException, SQLException {
// Isto e thread-safe?
put(s);
int count = -1;
try {
count = ((UpdateQueryManager) s).executeUpdate();
logger.debug(Messages.getString("queryScheduler.queryExecuted", s.getQueryNumber()));
} catch (SQLException e) {
logger.error(
Messages.getString(
"queryScheduler.queryError", new Object[] {s.getQueryNumber(), e.getMessage()}));
remove(s);
throw e;
}
remove(s);
return count;
}
/*
* @see TestCase#setUp()
*/
protected void setUp() throws Exception {
hsqlDatabase1.start();
hsqlDatabase2.start();
nqp1.start();
nqp2.start();
cqp.start();
logger.info("setUp done!");
// org.pargres.cqp.connection.ConnectionManagerImpl.register();
}
public synchronized void remove(AbstractQueryManager s) {
executingQueries.remove(s);
if (s.getClass().equals(UpdateQueryManager.class)) {
connectionManager.invalidMetaData();
executingUpdate.set(false);
}
logger.debug(Messages.getString("queryScheduler.remove", s.getQueryNumber()));
notifyAll();
}
public void put(AbstractQueryManager s) {
s.setScheduller(this);
longTransactionQueue.wait(s);
synchronized (this) {
queue.add(s);
logger.debug(Messages.getString("queryScheduler.added", s.getQueryNumber()));
notifyAll();
}
}
private void executeNextInQueue() throws Exception {
AbstractQueryManager s;
// Update isolation
while (executingUpdate.get()) {
logger.debug(Messages.getString("queryScheduler.waitingForUpdateEnd"));
wait();
}
while ((((AbstractQueryManager) queue.peek()).getClass().equals(UpdateQueryManager.class))
&& (pendingQueries() > 0)) {
logger.debug(Messages.getString("queryScheduler.waitingForPending"));
wait();
}
s = (AbstractQueryManager) queue.poll();
executingQueries.add(s);
if (s.getClass().equals(UpdateQueryManager.class)) executingUpdate.set(true);
logger.debug(Messages.getString("queryScheduler.dispatching", s.getQueryNumber()));
s.go();
}
/** @author Bernardo */
public class QueryScheduler implements Runnable {
private Logger logger = Logger.getLogger(QueryScheduler.class);
private AtomicInteger queryCounter = new AtomicInteger(0);
private ConcurrentLinkedQueue<AbstractQueryManager> queue =
new ConcurrentLinkedQueue<AbstractQueryManager>();
private AtomicBoolean executingUpdate = new AtomicBoolean();
private Set<AbstractQueryManager> executingQueries = new HashSet<AbstractQueryManager>();
private boolean requestShutdown = false;
private ConnectionManagerImpl connectionManager;
private LongTransactionQueue longTransactionQueue = new LongTransactionQueue();
private Thread thread;
public QueryScheduler(ConnectionManagerImpl connectionManager) {
this.connectionManager = connectionManager;
executingUpdate.set(false);
thread = new Thread(this);
thread.start();
}
public void shutdown() {
requestShutdown = true;
try {
while (thread.isAlive()) {
synchronized (this) {
notifyAll();
}
thread.join(200);
}
} catch (InterruptedException e) {
System.err.println(e.getMessage());
e.printStackTrace();
}
}
private int pendingQueries() {
return executingQueries.size();
}
// ** CONCURRENT METHODS **/
public int getNextQueryNumber() {
synchronized (queryCounter) {
int i = queryCounter.intValue();
queryCounter.set(i + 1);
return i;
}
}
public void put(AbstractQueryManager s) {
s.setScheduller(this);
longTransactionQueue.wait(s);
synchronized (this) {
queue.add(s);
logger.debug(Messages.getString("queryScheduler.added", s.getQueryNumber()));
notifyAll();
}
}
public synchronized void remove(AbstractQueryManager s) {
executingQueries.remove(s);
if (s.getClass().equals(UpdateQueryManager.class)) {
connectionManager.invalidMetaData();
executingUpdate.set(false);
}
logger.debug(Messages.getString("queryScheduler.remove", s.getQueryNumber()));
notifyAll();
}
private void executeNextInQueue() throws Exception {
AbstractQueryManager s;
// Update isolation
while (executingUpdate.get()) {
logger.debug(Messages.getString("queryScheduler.waitingForUpdateEnd"));
wait();
}
while ((((AbstractQueryManager) queue.peek()).getClass().equals(UpdateQueryManager.class))
&& (pendingQueries() > 0)) {
logger.debug(Messages.getString("queryScheduler.waitingForPending"));
wait();
}
s = (AbstractQueryManager) queue.poll();
executingQueries.add(s);
if (s.getClass().equals(UpdateQueryManager.class)) executingUpdate.set(true);
logger.debug(Messages.getString("queryScheduler.dispatching", s.getQueryNumber()));
s.go();
}
public void run() {
while (!requestShutdown) {
try {
logger.debug(Messages.getString("queryScheduler.running"));
synchronized (this) {
while (queue.size() != 0) executeNextInQueue();
logger.debug(Messages.getString("queryScheduler.waitingForMore"));
wait();
}
} catch (Exception e) {
logger.error(e);
e.printStackTrace();
}
}
}
// ******************/
public ResultSet dump() throws SQLException {
CachedRowSetImpl rs = new CachedRowSetImpl();
RowSetMetaDataImpl meta = new RowSetMetaDataImpl();
meta.setColumnCount(2);
meta.setColumnName(1, "QUEUE_TYPE");
meta.setColumnType(1, Types.VARCHAR);
meta.setColumnName(2, "REQUEST");
meta.setColumnType(2, Types.VARCHAR);
rs.setMetaData(meta);
synchronized (queue) {
Iterator<AbstractQueryManager> it = queue.iterator();
while (it.hasNext()) {
AbstractQueryManager s = (AbstractQueryManager) it.next();
rs.moveToInsertRow();
rs.updateString(1, "QUEUE");
rs.updateString(2, s.getSql());
rs.insertRow();
rs.moveToCurrentRow();
}
it = executingQueries.iterator();
while (it.hasNext()) {
AbstractQueryManager s = (AbstractQueryManager) it.next();
rs.moveToInsertRow();
rs.updateString(1, "EXECUTING_QUERIES");
rs.updateString(2, s.getSql());
rs.insertRow();
rs.moveToCurrentRow();
}
}
return rs;
}
public int executeUpdate(AbstractQueryManager s) throws RemoteException, SQLException {
// Isto e thread-safe?
put(s);
int count = -1;
try {
count = ((UpdateQueryManager) s).executeUpdate();
logger.debug(Messages.getString("queryScheduler.queryExecuted", s.getQueryNumber()));
} catch (SQLException e) {
logger.error(
Messages.getString(
"queryScheduler.queryError", new Object[] {s.getQueryNumber(), e.getMessage()}));
remove(s);
throw e;
}
remove(s);
return count;
}
public ResultSet executeQuery(AbstractQueryManager s) throws RemoteException, SQLException {
// Isto e thread-safe?
put(s);
ResultSet rs = null;
try {
rs = ((SelectQueryManager) s).executeQuery();
logger.debug(Messages.getString("queryScheduler.queryExecuted", s.getQueryNumber()));
} catch (SQLException e) {
logger.error(
Messages.getString(
"queryScheduler.queryError", new Object[] {s.getQueryNumber(), e.getMessage()}));
remove(s);
throw e;
}
remove(s);
return rs;
}
public void beginTransaction() {
longTransactionQueue.block();
}
public void endTransaction() {
longTransactionQueue.unblock();
}
}
/** @author Bernardo */
public class UpdateTester extends TestCase {
HsqlDatabase hsqlDatabase1 = new HsqlDatabase(9001);
HsqlDatabase hsqlDatabase2 = new HsqlDatabase(9002);
PargresNodeProcessor nqp1 = new PargresNodeProcessor(3001, 9001);
PargresNodeProcessor nqp2 = new PargresNodeProcessor(3002, 9002);
PargresClusterProcessor cqp =
new PargresClusterProcessor(8050, "./config/PargresConfig2NodesLocal.xml");
private static Logger logger = Logger.getLogger(UpdateTester.class);
public void testSimpleQuery() throws Exception {
Class.forName("org.pargres.jdbc.Driver");
Connection con = DriverManager.getConnection("jdbc:pargres://localhost", "user", "");
assertNotNull(con);
con.createStatement().executeUpdate("UPDATE LINEITEM SET L_QUANTITY = -1 WHERE L_ORDERKEY = 0");
}
public void testCreateDropTable() throws Exception {
Class.forName("org.pargres.jdbc.Driver");
Connection con = DriverManager.getConnection("jdbc:pargres://localhost", "user", "");
assertNotNull(con);
String tableName = "TEST_TABLE";
con.createStatement().executeUpdate("CREATE TABLE " + tableName + " (ID INTEGER)");
/* try {
con.createStatement().executeQuery("SELECT * FROM "+tableName);
} catch (Exception e) {
fail("Table not created: "+e);
}
*/
con.createStatement().executeUpdate("INSERT INTO " + tableName + " VALUES (1)");
con.createStatement().executeUpdate("UPDATE " + tableName + " SET ID = 2");
con.createStatement().executeUpdate("DROP TABLE " + tableName + "");
}
public void testConcurrentUpdate() throws Exception {
Worker w1 = new Worker(JdbcUtil.LAZY_UPDATE);
Worker w2 = new Worker("SELECT COUNT(*) FROM REGION");
Worker w3 = new Worker("SELECT COUNT(*) FROM REGION");
w1.start();
Thread.sleep(50);
w2.start();
Thread.sleep(50);
w3.start();
w1.join();
w2.join();
w3.join();
if (w1.endTime == 0) fail("Query w1 failed!");
if (w2.endTime == 0) fail("Query w2 failed!");
if (w3.endTime == 0) fail("Query w2 failed!");
if ((w2.endTime < w1.endTime) || (w3.endTime < w1.endTime))
fail(
"Concurrent update processing failed! [w1="
+ w1.endTime
+ "][w2="
+ w2.endTime
+ "][w3="
+ w3.endTime
+ "]");
}
public void testTwoUpdates() throws Exception {
Worker w1 = new Worker(JdbcUtil.LAZY_UPDATE);
Worker w2 = new Worker(JdbcUtil.LAZY_UPDATE);
w1.start();
Thread.sleep(10);
w2.start();
w1.join();
w2.join();
if (w1.endTime == 0) fail("Query w1 failed!");
if (w2.endTime == 0) fail("Query w2 failed!");
if ((w1.endTime >= w2.endTime)) fail("update block failed!");
}
public void testManyConcurrentUpdates() throws Exception {
Worker w1 = new Worker(JdbcUtil.LAZY_UPDATE);
Worker w2 = new Worker("SELECT COUNT(*) FROM REGION");
Worker w3 = new Worker("SELECT COUNT(*) FROM REGION");
Worker w4 = new Worker(JdbcUtil.LAZY_UPDATE);
Worker w5 = new Worker("SELECT COUNT(*) FROM REGION");
w1.start();
Thread.sleep(50);
w2.start();
Thread.sleep(50);
w3.start();
Thread.sleep(50);
w4.start();
Thread.sleep(50);
w5.start();
w1.join();
w2.join();
w3.join();
w4.join();
w5.join();
if (w1.endTime == 0) fail("Query w1 failed!");
if (w2.endTime == 0) fail("Query w2 failed!");
if (w3.endTime == 0) fail("Query w3 failed!");
if (w4.endTime == 0) fail("Query w4 failed!");
if (w5.endTime == 0) fail("Query w5 failed!");
if (w2.endTime < w1.endTime) fail("Concurrent update processing failed!");
if (w3.endTime < w1.endTime) fail("Concurrent update processing failed!");
if ((w5.endTime < w4.endTime)) fail("Blocking failed!");
}
/*
* @see TestCase#setUp()
*/
protected void setUp() throws Exception {
hsqlDatabase1.start();
hsqlDatabase2.start();
nqp1.start();
nqp2.start();
cqp.start();
logger.info("setUp done!");
// org.pargres.cqp.connection.ConnectionManagerImpl.register();
}
/*
* @see TestCase#tearDown()
*/
protected void tearDown() throws Exception {
// System.out.println("TEAR DOWN!");
cqp.stop();
// System.out.println("TEAR DOWN 1!");
nqp1.stop();
// System.out.println("TEAR DOWN 2!");
nqp2.stop();
// System.out.println("TEAR DOWN 3!");
hsqlDatabase1.stop();
// System.out.println("TEAR DOWN 4!");
hsqlDatabase2.stop();
// System.out.println("TEAR DOWN 5!");
// org.pargres.cqp.connection.ConnectionManagerImpl.unregister();
}
class Worker extends Thread {
private String sql;
public Worker(String sql) {
this.sql = sql;
}
public long endTime = 0;
public void run() {
try {
Class.forName("org.pargres.jdbc.Driver");
Connection con = DriverManager.getConnection("jdbc:pargres://localhost", "user", "");
assertNotNull(con);
boolean e = con.createStatement().execute(sql);
assertTrue(e);
endTime = System.currentTimeMillis();
} catch (Exception e) {
e.printStackTrace();
}
}
}
}