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KernelTransactionImplementationTest.java
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KernelTransactionImplementationTest.java
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/*
* Copyright (c) 2002-2016 "Neo Technology,"
* Network Engine for Objects in Lund AB [http://neotechnology.com]
*
* This file is part of Neo4j.
*
* Neo4j is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package org.neo4j.kernel.impl.api;
import org.junit.Before;
import org.junit.Test;
import org.mockito.invocation.InvocationOnMock;
import org.mockito.stubbing.Answer;
import java.util.Collection;
import org.neo4j.collection.pool.Pool;
import org.neo4j.helpers.FakeClock;
import org.neo4j.kernel.api.KernelTransaction;
import org.neo4j.kernel.api.exceptions.TransactionFailureException;
import org.neo4j.kernel.api.txstate.LegacyIndexTransactionState;
import org.neo4j.kernel.impl.api.store.ProcedureCache;
import org.neo4j.kernel.impl.api.store.StoreReadLayer;
import org.neo4j.kernel.impl.api.store.StoreStatement;
import org.neo4j.kernel.impl.constraints.StandardConstraintSemantics;
import org.neo4j.kernel.impl.locking.LockGroup;
import org.neo4j.kernel.impl.locking.Locks;
import org.neo4j.kernel.impl.locking.NoOpLocks;
import org.neo4j.kernel.impl.store.MetaDataStore;
import org.neo4j.kernel.impl.store.NeoStores;
import org.neo4j.kernel.impl.transaction.TransactionHeaderInformationFactory;
import org.neo4j.kernel.impl.transaction.TransactionMonitor;
import org.neo4j.kernel.impl.transaction.TransactionRepresentation;
import org.neo4j.kernel.impl.transaction.command.Command;
import org.neo4j.kernel.impl.transaction.state.NeoStoreTransactionContext;
import org.neo4j.kernel.impl.transaction.state.TransactionRecordState;
import org.neo4j.kernel.impl.transaction.tracing.CommitEvent;
import org.neo4j.kernel.impl.transaction.tracing.TransactionTracer;
import org.neo4j.test.DoubleLatch;
import static java.util.concurrent.TimeUnit.MILLISECONDS;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertTrue;
import static org.mockito.Matchers.any;
import static org.mockito.Matchers.anyListOf;
import static org.mockito.Mockito.doAnswer;
import static org.mockito.Mockito.mock;
import static org.mockito.Mockito.reset;
import static org.mockito.Mockito.spy;
import static org.mockito.Mockito.times;
import static org.mockito.Mockito.verify;
import static org.mockito.Mockito.verifyNoMoreInteractions;
import static org.mockito.Mockito.when;
public class KernelTransactionImplementationTest
{
@Test
public void shouldCommitSuccessfulTransaction() throws Exception
{
// GIVEN
try ( KernelTransaction transaction = newTransaction() )
{
// WHEN
transaction.success();
}
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( true );
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldRollbackUnsuccessfulTransaction() throws Exception
{
// GIVEN
try ( KernelTransaction transaction = newTransaction() )
{
// WHEN
}
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldRollbackFailedTransaction() throws Exception
{
// GIVEN
try ( KernelTransaction transaction = newTransaction() )
{
// WHEN
transaction.failure();
}
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldRollbackAndThrowOnFailedAndSuccess() throws Exception
{
// GIVEN
boolean exceptionReceived = false;
try ( KernelTransaction transaction = newTransaction() )
{
// WHEN
transaction.failure();
transaction.success();
}
catch ( TransactionFailureException e )
{
// Expected.
exceptionReceived = true;
}
// THEN
assertTrue( exceptionReceived );
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldRollbackOnClosingTerminatedTransaction() throws Exception
{
// GIVEN
boolean exceptionReceived = false;
try ( KernelTransaction transaction = newTransaction() )
{
// WHEN
transaction.success();
transaction.markForTermination();
}
catch ( TransactionFailureException e )
{
// Expected.
exceptionReceived = true;
}
// THEN
assertTrue( exceptionReceived );
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verify( transactionMonitor, times( 1 ) ).transactionTerminated();
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldRollbackOnClosingSuccessfulButTerminatedTransaction() throws Exception
{
try ( KernelTransaction transaction = newTransaction() )
{
// WHEN
transaction.markForTermination();
assertTrue( transaction.shouldBeTerminated() );
}
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verify( transactionMonitor, times( 1 ) ).transactionTerminated();
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldRollbackOnClosingTerminatedButSuccessfulTransaction() throws Exception
{
// GIVEN
boolean exceptionReceived = false;
try ( KernelTransaction transaction = newTransaction() )
{
// WHEN
transaction.markForTermination();
transaction.success();
assertTrue( transaction.shouldBeTerminated() );
}
catch ( TransactionFailureException e )
{
// Expected.
exceptionReceived = true;
}
// THEN
assertTrue( exceptionReceived );
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verify( transactionMonitor, times( 1 ) ).transactionTerminated();
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldNotDowngradeFailureState() throws Exception
{
try ( KernelTransaction transaction = newTransaction() )
{
// WHEN
transaction.markForTermination();
transaction.failure();
assertTrue( transaction.shouldBeTerminated() );
}
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verify( transactionMonitor, times( 1 ) ).transactionTerminated();
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldIgnoreTerminateAfterCommit() throws Exception
{
KernelTransaction transaction = newTransaction();
transaction.success();
transaction.close();
transaction.markForTermination();
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( true );
verify( transactionMonitor, times( 1 ) ).transactionTerminated();
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldIgnoreTerminateAfterRollback() throws Exception
{
KernelTransaction transaction = newTransaction();
transaction.close();
transaction.markForTermination();
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verify( transactionMonitor, times( 1 ) ).transactionTerminated();
verifyNoMoreInteractions( transactionMonitor );
}
@Test(expected = TransactionFailureException.class)
public void shouldThrowOnTerminationInCommit() throws Exception
{
KernelTransaction transaction = newTransaction();
transaction.success();
transaction.markForTermination();
transaction.close();
}
@Test
public void shouldIgnoreTerminationDuringRollback() throws Exception
{
KernelTransaction transaction = newTransaction();
transaction.markForTermination();
transaction.close();
// THEN
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verify( transactionMonitor, times( 1 ) ).transactionTerminated();
verifyNoMoreInteractions( transactionMonitor );
}
class ChildException
{
public Exception exception = null;
}
@Test
public void shouldAllowTerminatingFromADifferentThread() throws Exception
{
// GIVEN
final ChildException childException = new ChildException();
final DoubleLatch latch = new DoubleLatch( 1 );
final KernelTransaction transaction = newTransaction();
Thread thread = new Thread( new Runnable()
{
@Override
public void run()
{
try
{
latch.awaitStart();
transaction.markForTermination();
latch.finish();
}
catch ( Exception e )
{
childException.exception = e;
}
}
} );
// WHEN
thread.start();
transaction.success();
latch.startAndAwaitFinish();
if ( childException.exception != null )
{
throw childException.exception;
}
boolean exceptionReceived = false;
try
{
transaction.close();
}
catch ( TransactionFailureException e )
{
// Expected.
exceptionReceived = true;
}
// THEN
assertTrue( exceptionReceived );
verify( transactionMonitor, times( 1 ) ).transactionFinished( false );
verify( transactionMonitor, times( 1 ) ).transactionTerminated();
verifyNoMoreInteractions( transactionMonitor );
}
@Test
public void shouldUseStartTimeAndTxIdFromWhenStartingTxAsHeader() throws Exception
{
// GIVEN a transaction starting at one point in time
long startingTime = clock.currentTimeMillis();
when( recordState.hasChanges() ).thenReturn( true );
doAnswer( new Answer<Void>()
{
@Override
public Void answer( InvocationOnMock invocationOnMock ) throws Throwable
{
Collection<Command> commands = (Collection<Command>) invocationOnMock.getArguments()[0];
commands.add( new Command.NodeCommand() );
return null;
}
} ).when( recordState ).extractCommands( anyListOf( Command.class ) );
try ( KernelTransactionImplementation transaction = newTransaction() )
{
transaction.initialize( 5L );
// WHEN committing it at a later point
clock.forward( 5, MILLISECONDS );
// ...and simulating some other transaction being committed
when( metaDataStore.getLastCommittedTransactionId() ).thenReturn( 7L );
transaction.success();
}
// THEN start time and last tx when started should have been taken from when the transaction started
assertEquals( 5L, commitProcess.transaction.getLatestCommittedTxWhenStarted() );
assertEquals( startingTime, commitProcess.transaction.getTimeStarted() );
assertEquals( startingTime+5, commitProcess.transaction.getTimeCommitted() );
}
@Test
public void shouldStillReturnTransactionInstanceWithTerminationMarkToPool() throws Exception
{
// GIVEN
KernelTransactionImplementation transaction = newTransaction();
// WHEN
transaction.markForTermination();
transaction.close();
// THEN
verify( pool ).release( transaction );
}
@Test
public void shouldBeAbleToReuseTerminatedTransaction() throws Exception
{
// GIVEN
KernelTransactionImplementation transaction = newTransaction();
transaction.close();
transaction.markForTermination();
// WHEN
transaction.initialize( 10L );
transaction.txState().nodeDoCreate( 11L );
transaction.success();
transaction.close();
// THEN
verify( commitProcess ).commit( any( TransactionRepresentation.class ), any( LockGroup.class ),
any( CommitEvent.class ), any( TransactionApplicationMode.class ) );
}
@Test
public void shouldAcquireNewLocksClientEveryTimeTransactionIsReused() throws Exception
{
// GIVEN
KernelTransactionImplementation transaction = newTransaction();
transaction.close();
verify( locks ).newClient();
reset( locks );
// WHEN
transaction.initialize( 10L );
transaction.close();
// THEN
verify( locks ).newClient();
}
@Test
public void shouldIncrementReuseCounterOnReuse() throws Exception
{
// GIVEN
KernelTransactionImplementation transaction = newTransaction();
int reuseCount = transaction.getReuseCount();
// WHEN
transaction.close();
transaction.initialize( 1 );
// THEN
assertEquals( reuseCount + 1, transaction.getReuseCount() );
}
private final NeoStores neoStores = mock( NeoStores.class );
private final MetaDataStore metaDataStore = mock( MetaDataStore.class );
private final TransactionHooks hooks = new TransactionHooks();
private final TransactionRecordState recordState = mock( TransactionRecordState.class );
private final LegacyIndexTransactionState legacyIndexState = mock( LegacyIndexTransactionState.class );
private final TransactionMonitor transactionMonitor = mock( TransactionMonitor.class );
private final CapturingCommitProcess commitProcess = spy( new CapturingCommitProcess() );
private final TransactionHeaderInformation headerInformation = mock( TransactionHeaderInformation.class );
private final TransactionHeaderInformationFactory headerInformationFactory =
mock( TransactionHeaderInformationFactory.class );
private final FakeClock clock = new FakeClock();
private final Pool<KernelTransactionImplementation> pool = mock( Pool.class );
private final Locks locks = spy( new NoOpLocks() );
private final StoreReadLayer storeReadLayer = mock( StoreReadLayer.class );
@Before
public void before()
{
when( headerInformation.getAdditionalHeader() ).thenReturn( new byte[0] );
when( headerInformationFactory.create() ).thenReturn( headerInformation );
when( neoStores.getMetaDataStore() ).thenReturn( metaDataStore );
}
private KernelTransactionImplementation newTransaction()
{
when(storeReadLayer.acquireStatement()).thenReturn( mock(StoreStatement.class) );
KernelTransactionImplementation transaction = new KernelTransactionImplementation(
null, null, null, null, null, recordState, null, neoStores, locks,
hooks, null, headerInformationFactory, commitProcess, transactionMonitor, storeReadLayer, legacyIndexState,
pool, new StandardConstraintSemantics(), clock, TransactionTracer.NULL, new ProcedureCache(), mock( NeoStoreTransactionContext
.class ), false );
transaction.initialize( 0 );
return transaction;
}
public class CapturingCommitProcess implements TransactionCommitProcess
{
private long txId = 1;
private TransactionRepresentation transaction;
@Override
public long commit( TransactionRepresentation representation, LockGroup locks, CommitEvent commitEvent,
TransactionApplicationMode mode ) throws TransactionFailureException
{
assert transaction == null : "Designed to only allow one transaction";
transaction = representation;
return txId++;
}
}
}