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/*-
* See the file LICENSE for redistribution information.
*
* Copyright (c) 2008-2009 Oracle. All rights reserved.
*
* $Id$
*/
package persist.txn;
import com.sleepycat.db.CursorConfig;
import com.sleepycat.db.DatabaseException;
import com.sleepycat.db.DeadlockException;
import com.sleepycat.db.Environment;
import com.sleepycat.db.Transaction;
import com.sleepycat.persist.EntityCursor;
import com.sleepycat.persist.EntityStore;
import com.sleepycat.persist.PrimaryIndex;
import java.util.Iterator;
import java.util.Random;
import java.io.UnsupportedEncodingException;
public class StoreWriter extends Thread
{
private EntityStore myStore = null;
private Environment myEnv = null;
private PrimaryIndex<Integer,PayloadDataEntity> pdKey;
private Random generator = new Random();
private boolean passTxn = false;
private static final int MAX_RETRY = 20;
// Constructor. Get our handles from here
StoreWriter(Environment env, EntityStore store)
throws DatabaseException {
myStore = store;
myEnv = env;
// Open the data accessor. This is used to store persistent
// objects.
pdKey = myStore.getPrimaryIndex(Integer.class,
PayloadDataEntity.class);
}
// Thread method that writes a series of objects
// to the store using transaction protection.
// Deadlock handling is demonstrated here.
public void run () {
Transaction txn = null;
// Perform 50 transactions
for (int i=0; i<50; i++) {
boolean retry = true;
int retry_count = 0;
// while loop is used for deadlock retries
while (retry) {
// try block used for deadlock detection and
// general exception handling
try {
// Get a transaction
txn = myEnv.beginTransaction(null, null);
// Write 10 PayloadDataEntity objects to the
// store for each transaction
for (int j = 0; j < 10; j++) {
// Instantiate an object
PayloadDataEntity pd = new PayloadDataEntity();
// Set the Object ID. This is used as the primary key.
pd.setID(i + j);
// The thread name is used as a secondary key, and
// it is retrieved by this class's getName() method.
pd.setThreadName(getName());
// The last bit of data that we use is a double
// that we generate randomly. This data is not
// indexed.
pd.setDoubleData(generator.nextDouble());
// Do the put
pdKey.put(txn, pd);
}
// commit
System.out.println(getName() + " : committing txn : " + i);
System.out.println(getName() + " : Found " +
countObjects(txn) + " objects in the store.");
try {
txn.commit();
txn = null;
} catch (DatabaseException e) {
System.err.println("Error on txn commit: " +
e.toString());
}
retry = false;
} catch (DeadlockException de) {
System.out.println("################# " + getName() +
" : caught deadlock");
// retry if necessary
if (retry_count < MAX_RETRY) {
System.err.println(getName() +
" : Retrying operation.");
retry = true;
retry_count++;
} else {
System.err.println(getName() +
" : out of retries. Giving up.");
retry = false;
}
} catch (DatabaseException e) {
// abort and don't retry
retry = false;
System.err.println(getName() +
" : caught exception: " + e.toString());
System.err.println(getName() +
" : errno: " + e.getErrno());
e.printStackTrace();
} finally {
if (txn != null) {
try {
txn.abort();
} catch (Exception e) {
System.err.println("Error aborting transaction: " +
e.toString());
e.printStackTrace();
}
}
}
}
}
}
// This simply counts the number of objects contained in the
// store and returns the result. You can use this method
// in three ways:
//
// First call it with an active txn handle.
//
// Secondly, configure the cursor for dirty reads
//
// Third, call countObjects AFTER the writer has committed
// its transaction.
//
// If you do none of these things, the writer thread will
// self-deadlock.
private int countObjects(Transaction txn) throws DatabaseException {
int count = 0;
CursorConfig cc = new CursorConfig();
// This is ignored if the store is not opened with uncommitted read
// support.
cc.setReadUncommitted(true);
EntityCursor<PayloadDataEntity> cursor = pdKey.entities(txn, cc);
try {
for (PayloadDataEntity pdi : cursor) {
count++;
}
} finally {
if (cursor != null) {
cursor.close();
}
}
return count;
}
}
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