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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.infinispan.invalidation;
import static org.infinispan.context.Flag.CACHE_MODE_LOCAL;
import static org.mockito.Matchers.anyBoolean;
import static org.mockito.Matchers.anyLong;
import static org.mockito.Matchers.anyObject;
import static org.mockito.Matchers.eq;
import static org.mockito.Mockito.mock;
import static org.mockito.Mockito.when;
import static org.testng.AssertJUnit.assertEquals;
import static org.testng.AssertJUnit.assertNull;
import java.util.ArrayList;
import java.util.List;
import javax.transaction.RollbackException;
import javax.transaction.Transaction;
import javax.transaction.TransactionManager;
import org.infinispan.AdvancedCache;
import org.infinispan.api.mvcc.LockAssert;
import org.infinispan.commands.remote.CacheRpcCommand;
import org.infinispan.commands.write.ClearCommand;
import org.infinispan.commands.write.InvalidateCommand;
import org.infinispan.config.Configuration;
import org.infinispan.remoting.rpc.ResponseFilter;
import org.infinispan.remoting.rpc.ResponseMode;
import org.infinispan.remoting.rpc.RpcManager;
import org.infinispan.remoting.rpc.RpcManagerImpl;
import org.infinispan.remoting.transport.Address;
import org.infinispan.remoting.transport.Transport;
import org.infinispan.test.MultipleCacheManagersTest;
import org.infinispan.test.TestingUtil;
import org.infinispan.util.concurrent.locks.LockManager;
import org.testng.annotations.Test;
@Test(groups = "functional")
public abstract class BaseInvalidationTest extends MultipleCacheManagersTest {
protected boolean isSync;
protected BaseInvalidationTest() {
cleanup = CleanupPhase.AFTER_METHOD;
}
@Override
protected void createCacheManagers() throws Throwable {
Configuration c = getDefaultClusteredConfig(isSync ? Configuration.CacheMode.INVALIDATION_SYNC : Configuration.CacheMode.INVALIDATION_ASYNC, false);
c.setStateRetrievalTimeout(10000);
c.setLockAcquisitionTimeout(500);
createClusteredCaches(2, "invalidation", c);
c = getDefaultClusteredConfig(isSync ? Configuration.CacheMode.INVALIDATION_SYNC : Configuration.CacheMode.INVALIDATION_ASYNC, true);
c.setStateRetrievalTimeout(10000);
c.setLockAcquisitionTimeout(500);
defineConfigurationOnAllManagers("invalidationTx", c);
waitForClusterToForm("invalidationTx");
}
public void testRemove() throws Exception {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
cache1.withFlags(CACHE_MODE_LOCAL).put("key", "value");
assertEquals("value", cache1.get("key"));
cache2.withFlags(CACHE_MODE_LOCAL).put("key", "value");
assertEquals("value", cache2.get("key"));
replListener(cache2).expectAny();
assertEquals("value", cache1.remove("key"));
replListener(cache2).waitForRpc();
assertEquals(false, cache2.containsKey("key"));
}
public void testResurrectEntry() throws Exception {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
replListener(cache2).expect(InvalidateCommand.class);
cache1.put("key", "value");
replListener(cache2).waitForRpc();
assertEquals("value", cache1.get("key"));
assertEquals(null, cache2.get("key"));
replListener(cache2).expect(InvalidateCommand.class);
cache1.put("key", "newValue");
replListener(cache2).waitForRpc();
assertEquals("newValue", cache1.get("key"));
assertEquals(null, cache2.get("key"));
replListener(cache2).expect(InvalidateCommand.class);
assertEquals("newValue", cache1.remove("key"));
replListener(cache2).waitForRpc();
assertEquals(null, cache1.get("key"));
assertEquals(null, cache2.get("key"));
// Restore locally
replListener(cache2).expect(InvalidateCommand.class);
cache1.put("key", "value");
replListener(cache2).waitForRpc();
assertEquals("value", cache1.get("key"));
assertEquals(null, cache2.get("key"));
replListener(cache1).expect(InvalidateCommand.class);
cache2.put("key", "value2");
replListener(cache1).waitForRpc();
assertEquals("value2", cache2.get("key"));
assertEquals(null, cache1.get("key"));
}
public void testDeleteNonExistentEntry() throws Exception {
AdvancedCache cache1 = cache(0,"invalidationTx").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidationTx").getAdvancedCache();
assertNull("Should be null", cache1.get("key"));
assertNull("Should be null", cache2.get("key"));
log.info("before...");
replListener(cache2).expect(InvalidateCommand.class);
cache1.put("key", "value");
log.info("after...");
replListener(cache2).waitForRpc();
assertEquals("value", cache1.get("key"));
assertNull("Should be null", cache2.get("key"));
// OK, here's the real test
TransactionManager tm = TestingUtil.getTransactionManager(cache2);
replListener(cache1).expect(InvalidateCommand.class); // invalidates always happen outside of a tx
tm.begin();
// Remove an entry that doesn't exist in cache2
cache2.remove("key");
tm.commit();
replListener(cache1).waitForRpc();
assert cache1.get("key") == null;
assert cache2.get("key") == null;
}
public void testTxSyncUnableToInvalidate() throws Exception {
AdvancedCache cache1 = cache(0,"invalidationTx").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidationTx").getAdvancedCache();
replListener(cache2).expect(InvalidateCommand.class);
cache1.put("key", "value");
replListener(cache2).waitForRpc();
assertEquals("value", cache1.get("key"));
assertNull(cache2.get("key"));
// start a tx that cacahe1 will have to send out an evict ...
TransactionManager mgr1 = TestingUtil.getTransactionManager(cache1);
TransactionManager mgr2 = TestingUtil.getTransactionManager(cache2);
mgr1.begin();
cache1.put("key", "value2");
Transaction tx1 = mgr1.suspend();
mgr2.begin();
cache2.put("key", "value3");
Transaction tx2 = mgr2.suspend();
mgr1.resume(tx1);
// this oughtta fail
try {
replListener(cache2).expect(InvalidateCommand.class);
mgr1.commit();
replListener(cache2).waitForRpc();
} catch (RollbackException roll) {
assert isSync : "isSync should be true";
}
mgr2.resume(tx2);
replListener(cache1).expect(InvalidateCommand.class);
mgr2.commit();
if (!isSync) replListener(cache1).waitForRpc();
LockManager lm1 = TestingUtil.extractComponent(cache1, LockManager.class);
LockManager lm2 = TestingUtil.extractComponent(cache2, LockManager.class);
assert !lm1.isLocked("key");
assert !lm2.isLocked("key");
LockAssert.assertNoLocks(cache1);
LockAssert.assertNoLocks(cache2);
}
public void testCacheMode() throws Exception {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
RpcManagerImpl rpcManager = (RpcManagerImpl) TestingUtil.extractComponent(cache1, RpcManager.class);
Transport origTransport = TestingUtil.extractComponent(cache1, Transport.class);
try {
Transport mockTransport = mock(Transport.class);
rpcManager.setTransport(mockTransport);
Address addressOne = mock(Address.class);
Address addressTwo = mock(Address.class);
List<Address> members = new ArrayList<Address>(2);
members.add(addressOne);
members.add(addressTwo);
when(mockTransport.getMembers()).thenReturn(members);
when(mockTransport.getAddress()).thenReturn(addressOne);
when(mockTransport.invokeRemotely((List<Address>) anyObject(), (CacheRpcCommand) anyObject(),
eq(isSync ? ResponseMode.SYNCHRONOUS : ResponseMode.ASYNCHRONOUS_WITH_SYNC_MARSHALLING),
anyLong(), anyBoolean(), (ResponseFilter) anyObject())).thenReturn(null);
cache1.put("k", "v");
} finally {
if (rpcManager != null) rpcManager.setTransport(origTransport);
}
}
public void testPutIfAbsent() {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
assert null == cache2.withFlags(CACHE_MODE_LOCAL).put("key", "value");
assert cache2.get("key").equals("value");
assert cache1.get("key") == null;
replListener(cache2).expect(InvalidateCommand.class);
cache1.putIfAbsent("key", "value");
replListener(cache2).waitForRpc();
assert cache1.get("key").equals("value");
assert cache2.get("key") == null;
assert null == cache2.withFlags(CACHE_MODE_LOCAL).put("key", "value2");
assert cache1.get("key").equals("value");
assert cache2.get("key").equals("value2");
cache1.putIfAbsent("key", "value3");
assert cache1.get("key").equals("value");
assert cache2.get("key").equals("value2"); // should not invalidate cache2!!
}
public void testRemoveIfPresent() {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
cache1.withFlags(CACHE_MODE_LOCAL).put("key", "value1");
cache2.withFlags(CACHE_MODE_LOCAL).put("key", "value2");
assert cache1.get("key").equals("value1");
assert cache2.get("key").equals("value2");
assert !cache1.remove("key", "value");
assert cache1.get("key").equals("value1") : "Should not remove";
assert cache2.get("key").equals("value2") : "Should not evict";
replListener(cache2).expect(InvalidateCommand.class);
cache1.remove("key", "value1");
replListener(cache2).waitForRpc();
assert cache1.get("key") == null;
assert cache2.get("key") == null;
}
public void testClear() {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
cache1.withFlags(CACHE_MODE_LOCAL).put("key", "value1");
cache2.withFlags(CACHE_MODE_LOCAL).put("key", "value2");
assert cache1.get("key").equals("value1");
assert cache2.get("key").equals("value2");
replListener(cache2).expect(ClearCommand.class);
cache1.clear();
replListener(cache2).waitForRpc();
assert cache1.get("key") == null;
assert cache2.get("key") == null;
}
public void testReplace() {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
cache2.withFlags(CACHE_MODE_LOCAL).put("key", "value2");
assert cache1.get("key") == null;
assert cache2.get("key").equals("value2");
assert null == cache1.replace("key", "value1"); // should do nothing since there is nothing to replace on cache1
assert cache1.get("key") == null;
assert cache2.get("key").equals("value2");
assert null == cache1.withFlags(CACHE_MODE_LOCAL).put("key", "valueN");
replListener(cache2).expect(InvalidateCommand.class);
cache1.replace("key", "value1");
replListener(cache2).waitForRpc();
assert cache1.get("key").equals("value1");
assert cache2.get("key") == null;
}
public void testReplaceWithOldVal() {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
cache2.withFlags(CACHE_MODE_LOCAL).put("key", "value2");
assert cache1.get("key") == null;
assert cache2.get("key").equals("value2");
assert !cache1.replace("key", "valueOld", "value1"); // should do nothing since there is nothing to replace on cache1
assert cache1.get("key") == null;
assert cache2.get("key").equals("value2");
assert null == cache1.withFlags(CACHE_MODE_LOCAL).put("key", "valueN");
assert !cache1.replace("key", "valueOld", "value1"); // should do nothing since there is nothing to replace on cache1
assert cache1.get("key").equals("valueN");
assert cache2.get("key").equals("value2");
replListener(cache2).expect(InvalidateCommand.class);
assert cache1.replace("key", "valueN", "value1");
replListener(cache2).waitForRpc();
assert cache1.get("key").equals("value1");
assert cache2.get("key") == null;
}
public void testLocalOnlyClear() {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
cache1.withFlags(CACHE_MODE_LOCAL).put("key", "value1");
cache2.withFlags(CACHE_MODE_LOCAL).put("key", "value2");
assert cache1.get("key").equals("value1");
assert cache2.get("key").equals("value2");
cache1.withFlags(CACHE_MODE_LOCAL).clear();
assert cache1.get("key") == null;
assert cache2.get("key") != null;
assert cache2.get("key").equals("value2");
}
public void testPutForExternalRead() throws Exception {
AdvancedCache cache1 = cache(0,"invalidation").getAdvancedCache();
AdvancedCache cache2 = cache(1,"invalidation").getAdvancedCache();
cache1.putForExternalRead("key", "value1");
Thread.sleep(500); // sleep so that async invalidation (result of PFER) is propagated
cache2.putForExternalRead("key", "value2");
Thread.sleep(500); // sleep so that async invalidation (result of PFER) is propagated
assert cache1.get("key") != null;
assert cache1.get("key").equals("value1");
assert cache2.get("key") != null;
assert cache2.get("key").equals("value2");
}
}