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* Copyright 2009 Red Hat Inc. and/or its affiliates and other
* contributors as indicated by the @author tags. All rights reserved.
* See the copyright.txt in the distribution for a full listing of
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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
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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.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this software; if not, write to the Free
* Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
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package org.infinispan.marshall;
import org.infinispan.Cache;
import org.infinispan.CacheException;
import org.infinispan.commands.write.PutKeyValueCommand;
import org.infinispan.config.CacheLoaderManagerConfig;
import org.infinispan.config.Configuration;
import org.infinispan.container.DataContainer;
import org.infinispan.container.entries.InternalCacheEntry;
import org.infinispan.context.InvocationContext;
import org.infinispan.interceptors.InterceptorChain;
import org.infinispan.interceptors.MarshalledValueInterceptor;
import org.infinispan.interceptors.base.CommandInterceptor;
import org.infinispan.loaders.CacheLoaderConfig;
import org.infinispan.loaders.dummy.DummyInMemoryCacheStore;
import org.infinispan.notifications.Listener;
import org.infinispan.notifications.cachelistener.annotation.CacheEntryModified;
import org.infinispan.notifications.cachelistener.event.CacheEntryModifiedEvent;
import org.infinispan.test.MultipleCacheManagersTest;
import org.infinispan.test.TestingUtil;
import org.infinispan.util.ObjectDuplicator;
import org.infinispan.util.logging.Log;
import org.infinispan.util.logging.LogFactory;
import org.testng.annotations.AfterClass;
import org.testng.annotations.AfterMethod;
import org.testng.annotations.BeforeMethod;
import org.testng.annotations.Test;
import java.io.Externalizable;
import java.io.IOException;
import java.io.ObjectInput;
import java.io.ObjectInputStream;
import java.io.ObjectOutput;
import java.io.Serializable;
import java.nio.charset.Charset;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import static org.infinispan.test.TestingUtil.extractCacheMarshaller;
import static org.testng.AssertJUnit.assertEquals;
/**
* Tests implicit marshalled values
*
* @author Manik Surtani (<a href="mailto:manik AT jboss DOT org">manik AT jboss DOT org</a>)
* @author Mircea.Markus@jboss.com
* @since 4.0
*/
@Test(groups = "functional", testName = "marshall.MarshalledValueTest")
public class MarshalledValueTest extends MultipleCacheManagersTest {
private static final Log log = LogFactory.getLog(MarshalledValueTest.class);
private MarshalledValueListenerInterceptor mvli;
String k = "key", v = "value";
protected void createCacheManagers() throws Throwable {
Cache cache1, cache2;
Configuration replSync = getDefaultClusteredConfig(Configuration.CacheMode.REPL_SYNC).fluent().storeAsBinary().build();
createClusteredCaches(2, "replSync", replSync);
cache1 = cache(0, "replSync");
cache2 = cache(1, "replSync");
assertMarshalledValueInterceptorPresent(cache1);
assertMarshalledValueInterceptorPresent(cache2);
}
private void assertMarshalledValueInterceptorPresent(Cache c) {
InterceptorChain ic1 = TestingUtil.extractComponent(c, InterceptorChain.class);
assert ic1.containsInterceptorType(MarshalledValueInterceptor.class);
}
@BeforeMethod
public void addMarshalledValueInterceptor() {
Cache cache1;
cache1 = cache(0, "replSync");
cache(1, "replSync");
InterceptorChain chain = TestingUtil.extractComponent(cache1, InterceptorChain.class);
chain.removeInterceptor(MarshalledValueListenerInterceptor.class);
mvli = new MarshalledValueListenerInterceptor();
chain.addInterceptorAfter(mvli, MarshalledValueInterceptor.class);
}
@AfterClass(alwaysRun=true)
protected void destroy() {
super.destroy();
}
@AfterMethod(alwaysRun = true)
public void tearDown() {
Pojo.serializationCount = 0;
Pojo.deserializationCount = 0;
}
private void assertOnlyOneRepresentationExists(MarshalledValue mv) {
assert (mv.instance != null && mv.raw == null) || (mv.instance == null && mv.raw != null) : "Only instance or raw representations should exist in a MarshalledValue; never both";
}
private void assertSerialized(MarshalledValue mv) {
assert mv.raw != null : "Should be serialized";
}
private void assertDeserialized(MarshalledValue mv) {
assert mv.instance != null : "Should be deserialized";
}
private void assertSerializationCounts(int serializationCount, int deserializationCount) {
assert Pojo.serializationCount == serializationCount : "Serialization count: expected " + serializationCount + " but was " + Pojo.serializationCount;
assert Pojo.deserializationCount == deserializationCount : "Deserialization count: expected " + deserializationCount + " but was " + Pojo.deserializationCount;
}
public void testNonSerializable() {
Cache cache1 = cache(0, "replSync");
cache(1, "replSync");
try {
cache1.put("Hello", new Object());
assert false : "Should have failed";
}
catch (CacheException expected) {
}
assert mvli.invocationCount == 0 : "Call should not have gone beyond the MarshalledValueInterceptor";
try {
cache1.put(new Object(), "Hello");
assert false : "Should have failed";
}
catch (CacheException expected) {
}
assert mvli.invocationCount == 0 : "Call should not have gone beyond the MarshalledValueInterceptor";
}
public void testReleaseObjectValueReferences() {
Cache cache1 = cache(0, "replSync");
Cache cache2 = cache(1, "replSync");
assert cache1.isEmpty();
Pojo value = new Pojo();
System.out.println(TestingUtil.extractComponent(cache1, InterceptorChain.class).toString());
cache1.put("key", value);
assert cache1.containsKey("key");
assertSerializationCounts(1, 0);
DataContainer dc1 = TestingUtil.extractComponent(cache1, DataContainer.class);
InternalCacheEntry ice = dc1.get("key");
Object o = ice.getValue();
assert o instanceof MarshalledValue;
MarshalledValue mv = (MarshalledValue) o;
assertDeserialized(mv);
assert cache1.get("key").equals(value);
assertDeserialized(mv);
assertSerializationCounts(1, 0);
cache1.compact();
assertSerializationCounts(2, 0);
assertOnlyOneRepresentationExists(mv);
assertSerialized(mv);
// now on cache 2
DataContainer dc2 = TestingUtil.extractComponent(cache2, DataContainer.class);
ice = dc2.get("key");
o = ice.getValue();
assert o instanceof MarshalledValue;
mv = (MarshalledValue) o;
assertSerialized(mv); // this proves that unmarshalling on the recipient cache instance is lazy
assert cache2.get("key").equals(value);
assertDeserialized(mv);
assertSerializationCounts(2, 1);
cache2.compact();
assertSerializationCounts(2, 1);
assertOnlyOneRepresentationExists(mv);
assertSerialized(mv);
}
public void testReleaseObjectKeyReferences() {
Cache cache1 = cache(0, "replSync");
Cache cache2 = cache(1, "replSync");
Pojo key = new Pojo();
cache1.put(key, "value");
assertSerializationCounts(1, 0);
DataContainer dc1 = TestingUtil.extractComponent(cache1, DataContainer.class);
Object o = dc1.keySet().iterator().next();
assert o instanceof MarshalledValue;
MarshalledValue mv = (MarshalledValue) o;
assertDeserialized(mv);
assert cache1.get(key).equals("value");
assertDeserialized(mv);
assertSerializationCounts(1, 0);
cache1.compact();
assertSerializationCounts(2, 0);
assertOnlyOneRepresentationExists(mv);
assertSerialized(mv);
// now on cache 2
DataContainer dc2 = TestingUtil.extractComponent(cache2, DataContainer.class);
o = dc2.keySet().iterator().next();
assert o instanceof MarshalledValue;
mv = (MarshalledValue) o;
assertSerialized(mv);
assert cache2.get(key).equals("value");
assertSerializationCounts(2, 1);
assertDeserialized(mv);
cache2.compact();
assertOnlyOneRepresentationExists(mv);
assertSerialized(mv);
assertSerializationCounts(2, 1);
}
public void testKeySetValuesEntrySetCollectionReferences() {
Cache cache1 = cache(0, "replSync");
Cache cache2 = cache(1, "replSync");
Pojo key1 = new Pojo(1), value1 = new Pojo(11), key2 = new Pojo(2), value2 = new Pojo(22);
String key3 = "3", value3 = "three";
cache1.put(key1, value1);
cache1.put(key2, value2);
cache1.put(key3, value3);
Set expKeys = new HashSet();
expKeys.add(key1);
expKeys.add(key2);
expKeys.add(key3);
Set expValues = new HashSet();
expValues.add(value1);
expValues.add(value2);
expValues.add(value3);
Set expKeyEntries = ObjectDuplicator.duplicateSet(expKeys);
Set expValueEntries = ObjectDuplicator.duplicateSet(expValues);
Set keys = cache2.keySet();
for (Object key : keys) assert expKeys.remove(key);
assert expKeys.isEmpty() : "Did not see keys " + expKeys + " in iterator!";
Collection values = cache2.values();
for (Object key : values) assert expValues.remove(key);
assert expValues.isEmpty() : "Did not see keys " + expValues + " in iterator!";
Set<Map.Entry> entries = cache2.entrySet();
for (Map.Entry entry : entries) {
assert expKeyEntries.remove(entry.getKey());
assert expValueEntries.remove(entry.getValue());
}
assert expKeyEntries.isEmpty() : "Did not see keys " + expKeyEntries + " in iterator!";
assert expValueEntries.isEmpty() : "Did not see keys " + expValueEntries + " in iterator!";
Collection[] collections = new Collection[]{keys, values, entries};
Object newObj = new Object();
List newObjCol = new ArrayList();
newObjCol.add(newObj);
for (Collection col : collections) {
try {
col.add(newObj);
assert false : "Should have thrown a UnsupportedOperationException";
} catch (UnsupportedOperationException uoe) {
}
try {
col.addAll(newObjCol);
assert false : "Should have thrown a UnsupportedOperationException";
} catch (UnsupportedOperationException uoe) {
}
try {
col.clear();
assert false : "Should have thrown a UnsupportedOperationException";
} catch (UnsupportedOperationException uoe) {
}
try {
col.remove(key1);
assert false : "Should have thrown a UnsupportedOperationException";
} catch (UnsupportedOperationException uoe) {
}
try {
col.removeAll(newObjCol);
assert false : "Should have thrown a UnsupportedOperationException";
} catch (UnsupportedOperationException uoe) {
}
try {
col.retainAll(newObjCol);
assert false : "Should have thrown a UnsupportedOperationException";
} catch (UnsupportedOperationException uoe) {
}
}
for (Map.Entry entry : entries) {
try {
entry.setValue(newObj);
assert false : "Should have thrown a UnsupportedOperationException";
} catch (UnsupportedOperationException uoe) {
}
}
}
public void testEqualsAndHashCode() throws Exception {
Pojo pojo = new Pojo();
MarshalledValue mv = new MarshalledValue(pojo, true, extractCacheMarshaller(cache(0)));
assertDeserialized(mv);
int oldHashCode = mv.hashCode();
mv.serialize();
assertSerialized(mv);
assert oldHashCode == mv.hashCode();
MarshalledValue mv2 = new MarshalledValue(pojo, true, extractCacheMarshaller(cache(0)));
assertSerialized(mv);
assertDeserialized(mv2);
assert mv2.hashCode() == oldHashCode;
assert mv.equals(mv2);
}
public void testMarshallValueWithCustomReadObjectMethod() {
Cache cache1 = cache(0, "replSync");
Cache cache2 = cache(1, "replSync");
CustomReadObjectMethod obj = new CustomReadObjectMethod();
cache1.put("ab-key", obj);
assert cache2.get("ab-key").equals(obj);
ObjectThatContainsACustomReadObjectMethod anotherObj = new ObjectThatContainsACustomReadObjectMethod();
anotherObj.anObjectWithCustomReadObjectMethod = obj;
cache1.put("cd-key", anotherObj);
assert cache2.get("cd-key").equals(anotherObj);
}
/**
* Run this as last method as it creates and stops cache loaders, which might affect other tests.
*/
public void testCacheLoaders() {
Cache cache1 = cache(0, "replSync");
Cache cache2 = cache(1, "replSync");
tearDown();
Configuration cacheCofig = getDefaultClusteredConfig(Configuration.CacheMode.REPL_SYNC);
cacheCofig.setUseLazyDeserialization(true);
CacheLoaderManagerConfig clmc = new CacheLoaderManagerConfig();
DummyInMemoryCacheStore.Cfg clc = new DummyInMemoryCacheStore.Cfg();
clc.setStoreName(getClass().getSimpleName());
clmc.setCacheLoaderConfigs(Collections.singletonList((CacheLoaderConfig) clc));
cacheCofig.setCacheLoaderManagerConfig(clmc);
defineConfigurationOnAllManagers("replSync2", cacheCofig);
waitForClusterToForm("replSync2");
cache1 = cache(0, "replSync2");
cache2 = cache(1, "replSync2");
Pojo pojo = new Pojo();
cache1.put("key", pojo);
assertMarshalledValueInterceptorPresent(cache1);
assertMarshalledValueInterceptorPresent(cache2);
assertSerializationCounts(2, 0);
cache2.get("key");
assertSerializationCounts(2, 1);
}
public void testCallbackValues() throws Exception {
Cache cache1 = cache(0, "replSync");
cache(1, "replSync");
MockListener l = new MockListener();
cache1.addListener(l);
try {
Pojo pojo = new Pojo();
cache1.put("key", pojo);
assert l.newValue instanceof Pojo : "recieved " + l.newValue.getClass().getName();
// +1 due to new marshallable checks
assertSerializationCounts(2, 0);
} finally {
cache1.removeListener(l);
}
}
public void testRemoteCallbackValues() throws Exception {
Cache cache1 = cache(0, "replSync");
Cache cache2 = cache(1, "replSync");
MockListener l = new MockListener();
cache2.addListener(l);
try {
Pojo pojo = new Pojo();
// Mock listener will force deserialization on transport thread. Ignore this by setting b to false.
pojo.b = false;
cache1.put("key", pojo);
assert l.newValue instanceof Pojo;
assertSerializationCounts(1, 1);
} finally {
cache2.removeListener(l);
}
}
public void testEvictWithMarshalledValueKey() {
Cache cache1 = cache(0, "replSync");
cache(1, "replSync");
Pojo pojo = new Pojo();
cache1.put(pojo, pojo);
cache1.evict(pojo);
assert !cache1.containsKey(pojo);
}
public void testModificationsOnSameCustomKey() {
Cache cache1 = cache(0, "replSync");
Cache cache2 = cache(1, "replSync");
Pojo key = new Pojo();
cache1.put(key, "1");
cache2.put(key, "2");
// Deserialization only occurs when the cache2.put occurs, not during transport thread execution.
// Serialized 5 times:
// twice when cache1 is stored, one to check if the type can be serialized, 2nd to replicate.
// twice when cache1 is stored, one to check if the type can be serialized, 2nd to replicate.
// the final time is when in the 1st node it compares the received
// value and the one in the cache, whose comparison happens in
// serialized mode since serializing is cheaper than deserializing.
assertSerializationCounts(5, 1);
}
public void testReturnValueDeserialization() {
Cache cache1 = cache(0, "replSync");
cache(1, "replSync");
Pojo v1 = new Pojo(1);
cache1.put("1", v1);
Pojo previous = (Pojo) cache1.put("1", new Pojo(2));
assert previous.equals(v1);
}
public void testEquality() {
byte[] prevBytes = TestingUtil.generateRandomString(1310)
.getBytes(Charset.forName("UTF-8"));
String value = "galder";
MarshalledValue mv = new MarshalledValue(
value, true, extractCacheMarshaller(cache(0, "replSync")));
MarshalledValue mv2 = new MarshalledValue(
value, false, extractCacheMarshaller(cache(0, "replSync")));
// Simulate that the marshalled value had a bigger value before
mv2.instance = prevBytes;
mv2.serialize();
// Now back to the original instance and force it to serialize again
mv2.instance = value;
mv2.raw = null;
mv2.serialize();
mv2.instance = null;
assertEquals(mv, mv2);
}
@Listener
public static class MockListener {
Object newValue;
@CacheEntryModified
public void modified(CacheEntryModifiedEvent e) {
if (!e.isPre()) newValue = e.getValue();
}
}
class MarshalledValueListenerInterceptor extends CommandInterceptor {
int invocationCount = 0;
public Object visitPutKeyValueCommand(InvocationContext ctx, PutKeyValueCommand command) throws Throwable {
invocationCount++;
if (command.getKey() instanceof MarshalledValue)
assertOnlyOneRepresentationExists((MarshalledValue) command.getKey());
if (command.getValue() instanceof MarshalledValue)
assertOnlyOneRepresentationExists((MarshalledValue) command.getValue());
Object retval = invokeNextInterceptor(ctx, command);
if (retval instanceof MarshalledValue) assertOnlyOneRepresentationExists((MarshalledValue) retval);
return retval;
}
}
public static class Pojo implements Externalizable {
public int i;
boolean b = true;
static int serializationCount, deserializationCount;
final Log log = LogFactory.getLog(Pojo.class);
private static final long serialVersionUID = -2888014339659501395L;
public Pojo(int i) {
this.i = i;
}
public Pojo() {
}
public boolean equals(Object o) {
if (this == o) return true;
if (o == null || getClass() != o.getClass()) return false;
Pojo pojo = (Pojo) o;
if (b != pojo.b) return false;
if (i != pojo.i) return false;
return true;
}
public int hashCode() {
int result;
result = i;
result = 31 * result + (b ? 1 : 0);
return result;
}
public void writeExternal(ObjectOutput out) throws IOException {
out.writeInt(i);
out.writeBoolean(b);
int serCount = updateSerializationCount();
log.trace("serializationCount=" + serCount);
}
public void readExternal(ObjectInput in) throws IOException, ClassNotFoundException {
i = in.readInt();
b = in.readBoolean();
if (b) {
// TODO: Find a better way to make sure a transport (JGroups) thread is not attempting to deserialize stuff
assert !Thread.currentThread().getName().startsWith("OOB") : "Transport (JGroups) thread is trying to deserialize stuff!!";
}
int deserCount = updateDeserializationCount();
log.trace("deserializationCount=" + deserCount);
}
public int updateSerializationCount() {
return ++serializationCount;
}
public int updateDeserializationCount() {
return ++deserializationCount;
}
}
public static class ObjectThatContainsACustomReadObjectMethod implements Serializable {
private static final long serialVersionUID = 1L;
// Integer id;
public CustomReadObjectMethod anObjectWithCustomReadObjectMethod;
Integer balance;
// String branch;
public boolean equals(Object obj) {
if (obj == this)
return true;
if (!(obj instanceof ObjectThatContainsACustomReadObjectMethod))
return false;
ObjectThatContainsACustomReadObjectMethod acct = (ObjectThatContainsACustomReadObjectMethod) obj;
// if (!safeEquals(id, acct.id))
// return false;
// if (!safeEquals(branch, acct.branch))
// return false;
if (!safeEquals(balance, acct.balance))
return false;
if (!safeEquals(anObjectWithCustomReadObjectMethod, acct.anObjectWithCustomReadObjectMethod))
return false;
return true;
}
public int hashCode() {
int result = 17;
// result = result * 31 + safeHashCode(id);
// result = result * 31 + safeHashCode(branch);
result = result * 31 + safeHashCode(balance);
result = result * 31 + safeHashCode(anObjectWithCustomReadObjectMethod);
return result;
}
private static int safeHashCode(Object obj) {
return obj == null ? 0 : obj.hashCode();
}
private static boolean safeEquals(Object a, Object b) {
return (a == b || (a != null && a.equals(b)));
}
}
public static class CustomReadObjectMethod implements Serializable {
private static final long serialVersionUID = 1L;
String lastName;
String ssn;
transient boolean deserialized;
public CustomReadObjectMethod( ) {
this("Zamarreno", "234-567-8901");
}
public CustomReadObjectMethod(String lastName, String ssn) {
this.lastName = lastName;
this.ssn = ssn;
}
@Override
public boolean equals(Object obj) {
if (obj == this) return true;
if (!(obj instanceof CustomReadObjectMethod)) return false;
CustomReadObjectMethod pk = (CustomReadObjectMethod) obj;
if (!lastName.equals(pk.lastName)) return false;
if (!ssn.equals(pk.ssn)) return false;
return true;
}
@Override
public int hashCode( ) {
int result = 17;
result = result * 31 + lastName.hashCode();
result = result * 31 + ssn.hashCode();
return result;
}
private void readObject(ObjectInputStream ois) throws IOException, ClassNotFoundException {
ois.defaultReadObject();
deserialized = true;
}
}
}