Source Code of org.jboss.test.cluster.invokerha.AbstractInvokerHaTransactionSticky

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 * as indicated by the @author tags. See the copyright.txt file in the
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 *
 * This is free software; you can redistribute it and/or modify it
 * under the terms of the GNU Lesser General Public License as
 * published by the Free Software Foundation; either version 2.1 of
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 *
 * This software is distributed in the hope that it will be useful,
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 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
 * Lesser General Public License for more details.
 *
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package org.jboss.test.cluster.invokerha;

import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Set;

import javax.transaction.Transaction;
import javax.transaction.UserTransaction;

import org.jboss.ha.framework.interfaces.LoadBalancePolicy;
import org.jboss.ha.framework.interfaces.TransactionStickyFirstAvailable;
import org.jboss.ha.framework.interfaces.TransactionStickyFirstAvailableIdenticalAllProxies;
import org.jboss.ha.framework.interfaces.TransactionStickyRandomRobin;
import org.jboss.ha.framework.interfaces.TransactionStickyRoundRobin;
import org.jboss.invocation.Invocation;
import org.jboss.invocation.Invoker;
import org.jboss.invocation.InvokerProxyHA;
import org.jboss.invocation.ServiceUnavailableException;
import org.jboss.logging.Logger;
import org.jboss.test.cluster.invokerha.InvokerHaTransactionalMockUtils.MockUserTransaction;
import org.jboss.test.cluster.invokerha.InvokerHaTransactionalMockUtils.MockTransactionStickyInterceptor;

/**
 * AbstractInvokerHaTransactionSticky.
 *
 * @author <a href="mailto:galder.zamarreno@jboss.com">Galder Zamarreno</a>
 */
public abstract class AbstractInvokerHaTransactionSticky extends AbstractInvokerHa
{
   private static final Logger log = Logger.getLogger(AbstractInvokerHaTransactionSticky.class);

   private Set<Object> chosenTargets;

   @Override
   public void testTransactionalSuccessfulCallsRoundRobin() throws Exception
   {
      /* same proxies used in simulated transactions */
      transactionalSuccessfulCalls(TransactionStickyRoundRobin.class, false);
      /* different proxies in simulated transactions */
      transactionalSuccessfulCalls(TransactionStickyRoundRobin.class, true);
   }

   @Override
   public void testTransactionalSuccessfulCallsFirstAvailable() throws Exception
   {
      /* same proxies used in simulated transactions */
      transactionalSuccessfulCalls(TransactionStickyFirstAvailable.class, false);
      /* different proxies in simulated transactions */
      transactionalSuccessfulCalls(TransactionStickyFirstAvailable.class, true);
   }

   @Override
   public void testTransactionalSuccessfulCallsFirstAvailableIndenticalAllProxies() throws Exception
   {
      /* same proxies used in simulated transactions */
      transactionalSuccessfulCalls(TransactionStickyFirstAvailableIdenticalAllProxies.class, false);
      /* different proxies in simulated transactions */
      transactionalSuccessfulCalls(TransactionStickyFirstAvailableIdenticalAllProxies.class, true);
   }

   @Override
   public void testTransactionalSuccessfulCallsRandomRobin() throws Exception
   {
      /* same proxies used in simulated transactions */
      transactionalSuccessfulCalls(TransactionStickyRandomRobin.class, false);
      /* different proxies in simulated transactions */
      transactionalSuccessfulCalls(TransactionStickyRandomRobin.class, true);
   }

   public void testTransactionalCallsWithNodeShutdown() throws Exception
   {
      transactionalCallsWithNodeShutdown(TransactionStickyRandomRobin.class);
   }

   public void testSuccessfulCallsRoundRobin() throws Exception
   {
      /* test transaction sticky round robin lbp without transactions, should
       * behave like standard round robin */
      successfulCalls(TransactionStickyRoundRobin.class);
   }

   public void testSuccessfulCallsFirstAvailable() throws Exception
   {
      /* test transaction sticky first available lbp without transactions, should
       * behave like standard first available */
      successfulCalls(TransactionStickyFirstAvailable.class);
   }

   public void testSuccessfulCallsFirstAvailableIndenticalAllProxies() throws Exception
   {
      /* test transaction sticky first available identical all proxies lbp
       * without transactions, should behave like standard identical all
       * proxies */
      successfulCalls(TransactionStickyFirstAvailableIdenticalAllProxies.class);
   }

   public void testSuccessfulCallsRandomRobin() throws Exception
   {
      /* test transaction sticky random robin lbp without transactions, should
       * behave like standard random robin */
      successfulCalls(TransactionStickyRandomRobin.class);
   }

   public void testFailBeforeServer() throws Exception
   {
      /* if failure happens before reaching the server, regardless of whether
       * the failure happened in the 1st or the Nth invocation, it's not
       * recoverable */
      transactionalFailureCalls(InvokerHaFailureType.BEFORE_SERVER, TransactionStickyRandomRobin.class, false);
   }

   public void testFailAfterServerNotCompletedButSuccessAfter() throws Exception
   {
      /* we use new proxies in between tests for 1st and Nth
       * call so that results from Nth call don't get polluted with what
       * happened in the 1st call test. */
      transactionalFailureCalls(InvokerHaFailureType.AFTER_SERVER_NOT_COMPLETED_BUT_SUCCESS_AFTER, TransactionStickyRandomRobin.class, true);
   }

   public void testFailAfterServerNotCompletedBothServers() throws Exception
   {
      /* we use new proxies in between tests for 1st and Nth call
       * so that results from Nth call don't get polluted with what happened in
       * the 1st call test. */
      transactionalFailureCalls(InvokerHaFailureType.AFTER_SERVER_NOT_COMPLETED_BOTH_SERVERS, TransactionStickyRandomRobin.class, true);
   }

   public void testFailAfterServerCompleted() throws Exception
   {
      /* We use new proxies in between tests for 1st and Nth call
       * so that results from Nth call don't get polluted with what happened in
       * the 1st call test. */
      transactionalFailureCalls(InvokerHaFailureType.AFTER_SERVER_COMPLETED, TransactionStickyRandomRobin.class, true);
   }

   @Override
   protected void transactionalSuccessfulCalls(Class<? extends LoadBalancePolicy> policyClass,
         boolean newProxiesInBetweenTransactions)
   {
      log.debug("transactional successfull calls [policy=" + policyClass + ",newProxiesInBetweenTransactions=" + newProxiesInBetweenTransactions + "]");

      try
      {
         createNewProxies(0, policyClass, true);

         UserTransaction ut = new MockUserTransaction(clientUserTransactionProxy, infrastructure);
         ut.begin();
         performTransactionalStickyCalls(3, null, policyClass, newProxiesInBetweenTransactions);
         ut.commit();
         /* either set would do because they should be the same */
         Set<Object> chosenTargetsTx1 = chosenTargets;;

         if (newProxiesInBetweenTransactions)
         {
            createNewProxies(0, policyClass, false);
         }

         ut.begin();
         performTransactionalStickyCalls(3, null, policyClass, newProxiesInBetweenTransactions);
         ut.commit();
         /* either set would do because they should be the same */
         Set<Object> chosenTargetsTx2 = chosenTargets;

         assertChosenTargetsInBetweenTx(policyClass, chosenTargetsTx1, chosenTargetsTx2, newProxiesInBetweenTransactions);
      }
      catch(Exception e)
      {
         /* catching to log the error properly (JUnit in eclipse does not show
          * correctly exceptions from invokers) and fail */
         log.error("error", e);
         fail();
      }

   }

   protected void transactionalCallsWithNodeShutdown(Class<? extends LoadBalancePolicy> policyClass)
   {
      log.debug("transactional calls with node shutdown [policy=" + policyClass + "]");

      try
      {
         createNewProxies(0, policyClass, true);
         UserTransaction ut = new MockUserTransaction(clientUserTransactionProxy, infrastructure);
         ut.begin();
         performTransactionalCallsWithNodeShutdown(null, policyClass);
         ut.commit();
      }
      catch(Exception e)
      {
         /* catching to log the error properly (JUnit in eclipse does not show
          * correctly exceptions from invokers) and fail */
         log.error("Error", e);
         fail();
      }
   }

   protected void successfulCalls(Class<? extends LoadBalancePolicy> policyClass)
   {
      log.debug("successfull calls [policy=" + policyClass);

      try
      {
         createNewProxies(0, policyClass, true);
         performCalls(3, null, policyClass);
      }
      catch(Exception e)
      {
         /* catching to log the error properly (JUnit in eclipse does not show
          * correctly exceptions from invokers) and fail */
         log.error("error", e);
         fail();
      }
   }

   protected void performTransactionalStickyCalls(int numberPairCalls, Transaction tx,
         Class<? extends LoadBalancePolicy> policyClass, boolean newProxiesInBetweenTransactions) throws Exception
   {
      Invocation inv;

      Set<Object> chosenTargetsDateTimeTeller = new HashSet<Object>(1);
      Set<Object> chosenTargetsSystemTimeTeller = new HashSet<Object>(1);

      for (int i = 0; i < numberPairCalls; i++)
      {
         /* create invocation to date time teller */
         inv = infrastructure.createDateTimeTellerInvocation(tx, null, timeTellerProxy);
         /* invoke on proxy passing the invocation */
         log.debug(invokeTimeTellerProxy(inv));
         /* assert post conditions after invocation */
         chosenTargetsDateTimeTeller = assertSuccessfulPostConditions(inv, chosenTargetsDateTimeTeller);

         /* create invocation to system time teller */
         inv = infrastructure.createSystemTimeTellerInvocation(tx, null, systemTimeProxy);
         /* invoke on proxy passing the invocation */
         log.debug(invokeSystemTimeProxy(inv));
         /* assert post conditions after invocation */
         chosenTargetsSystemTimeTeller = assertSuccessfulPostConditions(inv, chosenTargetsSystemTimeTeller);
      }

      /* for the duration of a transaction, all chosen targets should be the same */
      assertEquals(chosenTargetsDateTimeTeller, chosenTargetsSystemTimeTeller);

      chosenTargets = chosenTargetsDateTimeTeller;
   }

   protected Set<Object> assertSuccessfulPostConditions(Invocation inv, Set<Object> chosenTargets)
   {
      assertEquals(0, inv.getAsIsValue("FAILOVER_COUNTER"));
      Object chosenTarget = inv.getTransientValue(invokerHaFactory.getChosenTargetKey());
      assertNotNull(chosenTarget);
      /* check tx failover authorisations */
      assertTrue("transaction should have reached the server", invokerHaFactory.getTxFailoverAuthorizationsMap().containsKey(transactionalMockUtils.getTpcf().getUid()));
      /* add target to singleton set, there must only be one different target within a transaction */
      chosenTargets.add(chosenTarget);
      assertEquals(1, chosenTargets.size());

      return chosenTargets;
   }

   protected void performTransactionalCallsWithNodeShutdown(Transaction tx,
         Class<? extends LoadBalancePolicy> policyClass) throws Exception
   {
      Invocation inv;

      Set<Object> chosenTargetsDateTimeTeller = new HashSet<Object>(1);

      /* create invocation to date time teller */
      inv = infrastructure.createDateTimeTellerInvocation(tx, null, timeTellerProxy);
      /* invoke on proxy passing the invocation */
      log.debug(invokeTimeTellerProxy(inv));
      /* assert post conditions after invocation */
      chosenTargetsDateTimeTeller = assertSuccessfulPostConditions(inv, chosenTargetsDateTimeTeller);

      List<Object> newReplicants = undeployChosenTargetNode(chosenTargetsDateTimeTeller.toArray()[0]);
      ((InvokerProxyHA)timeTellerProxy).updateClusterInfo((ArrayList<Object>)newReplicants, 3);

      inv = infrastructure.createDateTimeTellerInvocation(tx, null, timeTellerProxy);
      try
      {
         log.debug(invokeTimeTellerProxy(inv));
         fail("Should have thrown an exception because sticky target is no longer available");
      }
      catch(Exception e)
      {
         log.debug("Expected exception", e);
         assertTrue(e.getCause() instanceof ServiceUnavailableException);
      }
   }

   /**
    * Undeploy chosen target from the cluster and return the list of remaining
    * targets in cluster.
    */
   protected abstract List undeployChosenTargetNode(Object chosenTarget);

   protected void assertChosenTargetsInBetweenTx(Class<? extends LoadBalancePolicy> policyClass, Set<?> chosenTargetsTx1, Set<?> chosenTargetsTx2, boolean newProxiesInBetweenTransactions)
   {
      if (policyClass.equals(TransactionStickyRoundRobin.class))
      {
         if (!newProxiesInBetweenTransactions)
         {
            /* If we're using sticky round robin and we didn't change proxies
             * in between transactions, we can guarantee that the chosen targets
             * were different between transactions.*/
            assertNotSame(chosenTargetsTx1, chosenTargetsTx2);
         }
      }
      else if (policyClass.equals(TransactionStickyFirstAvailable.class))
      {
         if (!newProxiesInBetweenTransactions)
         {
            /* If we're using sticky first available and we didn't change proxies
             * in between transactions, we can guarantee that the chosen targets
             * are equals between transactions.*/
            assertEquals(chosenTargetsTx1, chosenTargetsTx2);
         }
      }
      else if (policyClass.equals(TransactionStickyFirstAvailableIdenticalAllProxies.class))
      {
         /* If we're using sticky first available identical all proxies,
          * regardless of whether we're using same proxies or not, we can
          * guarantee that the chosen targets are the same between
          * transactions.*/
         assertEquals(chosenTargetsTx1, chosenTargetsTx2);
      }
   }

   protected void transactionalFailureCalls(InvokerHaFailureType failureType, Class<? extends LoadBalancePolicy> policyClass, boolean newProxiesInBetweenFailures) throws Exception
   {
      createNewProxies(0, policyClass, true);

      try
      {
         /* fail in 1st call */
         UserTransaction ut = new MockUserTransaction(clientUserTransactionProxy, infrastructure);
         ut.begin();
         failureCall(failureType, true, policyClass, newProxiesInBetweenFailures);
         ut.commit();

         if (newProxiesInBetweenFailures)
         {
            createNewProxies(0, policyClass, false);
         }

         /* fail in Nth call */
         ut.begin();
         failureCall(failureType, false, policyClass, newProxiesInBetweenFailures);
         ut.commit();
      }
      catch(Exception e)
      {
         /* catching to log the error properly (JUnit in eclipse does not show
          * correctly exceptions from invokers) and fail */
         log.error("error", e);
         fail();
      }
   }

   protected void failureCall(InvokerHaFailureType failureType, boolean injectFailureIn1stCall, Class<? extends LoadBalancePolicy> policyClass, boolean newProxiesInBetweenFailures) throws Exception
   {
      Invocation inv;

      if (injectFailureIn1stCall)
      {
         /* When failure must happen in the very 1st call, we create a 1st
          * invocation with the failure injected */
         inv = infrastructure.createDateTimeTellerInvocation(null, failureType, timeTellerProxy);
      }
      else
      {
         /* When failure is not in first call, we do a call to each bean before
          * injecting the faliure */
         performTransactionalStickyCalls(1, null, policyClass, newProxiesInBetweenFailures);
         /* Now we create the invocation with the failure injected */
         inv = infrastructure.createDateTimeTellerInvocation(null, failureType, timeTellerProxy);
      }

      try
      {
         log.debug(invokeTimeTellerProxy(inv));
         if (failureType.isRecoverable(injectFailureIn1stCall))
         {
            failureType.assertFailoverCounter(injectFailureIn1stCall, inv.getAsIsValue("FAILOVER_COUNTER"));
            inv = infrastructure.createDateTimeTellerInvocation(null, null, timeTellerProxy);
            log.debug(invokeTimeTellerProxy(inv));
         }
         else
         {
            fail("should have failed, failover is not allowed for " + failureType);
         }
      }
      catch (Exception e)
      {
         log.debug("Exception (could be expected) during failure call testing", e);
         if (failureType.isRecoverable(injectFailureIn1stCall))
         {
            fail("should have failed, failover is not allowed for " + failureType);
         }
         else
         {
            assertNull("transaction on the client side should be null", inv.getTransaction());
            failureType.assertFailoverCounter(injectFailureIn1stCall, inv.getAsIsValue("FAILOVER_COUNTER"));
            failureType.assertException(e.getCause());
         }
      }
   }

   protected Object invokeTimeTellerProxy(Invocation inv) throws Exception
   {
      return invokeProxy(timeTellerProxy, inv);
   }

   protected Object invokeSystemTimeProxy(Invocation inv) throws Exception
   {
      return invokeProxy(systemTimeProxy, inv);
   }

   protected Object invokeProxy(Invoker invoker, Invocation inv) throws Exception
   {
      try
      {
         return new MockTransactionStickyInterceptor(invoker).invoke(inv);
      }
      catch(Throwable t)
      {
         throw new Exception("Throwable", t);
      }

   }
}