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SnappyData store based off Pivotal GemFireXD
/*
* Copyright (c) 2010-2015 Pivotal Software, Inc. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License"); you
* may not use this file except in compliance with the License. You
* may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied. See the License for the specific language governing
* permissions and limitations under the License. See accompanying
* LICENSE file.
*/
package com.gemstone.gemfire.internal.cache;
import com.gemstone.gemfire.internal.cache.versions.ConcurrentCacheModificationException;
import com.gemstone.gemfire.internal.i18n.LocalizedStrings;
import com.gemstone.gemfire.*;
import com.gemstone.gemfire.cache.*;
import com.gemstone.gemfire.distributed.DistributedMember;
import java.io.*;
/**
* Represents a single operation that can be queued for reliable delivery.
* Instances are owned in the context of a region.
*
* @author Darrel Schneider
* @since 5.0
*/
public class QueuedOperation
{
private final Operation op;
private final Object key; // may be null
private final byte[] value; // may be null
private final Object valueObj; // may be null
/**
* Deserialization policies defined in AbstractUpdateOperation
* @see com.gemstone.gemfire.internal.cache.AbstractUpdateOperation
*/
private final byte deserializationPolicy;
private final Object cbArg; // may be null
/**
* Creates an instance of a queued operation with the given data.
*/
public QueuedOperation(Operation op, Object key, byte[] value,
Object valueObj, byte deserializationPolicy, Object cbArg) {
this.op = op;
this.key = key;
this.value = value;
this.valueObj = valueObj;
this.deserializationPolicy = deserializationPolicy;
this.cbArg = cbArg;
}
public void process(LocalRegion lr, DistributedMember src, long lastMod)
{
if (this.op.isRegion()) {
// it is a region operation
RegionEventImpl re = new RegionEventImpl(lr, this.op, this.cbArg, true,
src);
//re.setQueued(true);
if (this.op.isRegionInvalidate()) {
lr.basicInvalidateRegion(re);
}
else if (this.op == Operation.REGION_CLEAR) {
lr.cmnClearRegion(re, false/* cacheWrite */, false/*useRVV*/);
}
else {
throw new IllegalStateException(LocalizedStrings.QueuedOperation_THE_0_SHOULD_NOT_HAVE_BEEN_QUEUED.toLocalizedString(this.op));
}
}
else {
// it is an entry operation
//TODO :EventID should be passed from the sender & should be reused here
EntryEventImpl ee = EntryEventImpl.create(
lr, this.op, this.key, null,
this.cbArg, true, src);
try {
//ee.setQueued(true);
if (this.op.isCreate() || this.op.isUpdate()) {
UpdateOperation.UpdateMessage.setNewValueInEvent(this.value,
this.valueObj,
ee,
this.deserializationPolicy);
try {
long time = lastMod;
if (ee.getVersionTag() != null) {
time = ee.getVersionTag().getVersionTimeStamp();
}
if (AbstractUpdateOperation.doPutOrCreate(lr, ee, time, true, true)) {
// am I done?
}
} catch (ConcurrentCacheModificationException e) {
// operation was rejected by the cache's concurrency control
// mechanism as being old
}
}
else if (this.op.isDestroy()) {
ee.setOldValueFromRegion();
try {
lr.basicDestroy(ee,
false,
null); // expectedOldValue
// ???:ezoerner:20080815
// can a remove(key, value) operation be
// queued?
}
catch (ConcurrentCacheModificationException e) {
// operation was rejected by the cache's concurrency control mechanism as being old
}
catch (EntryNotFoundException ignore) {
}
catch (CacheWriterException e) {
throw new Error(LocalizedStrings.QueuedOperation_CACHEWRITER_SHOULD_NOT_BE_CALLED.toLocalizedString(), e);
}
catch (TimeoutException e) {
throw new Error(LocalizedStrings.QueuedOperation_DISTRIBUTEDLOCK_SHOULD_NOT_BE_ACQUIRED.toLocalizedString(), e);
}
}
else if (this.op.isInvalidate()) {
ee.setOldValueFromRegion();
boolean forceNewEntry = lr.dataPolicy.withReplication()
&& !lr.isInitialized();
boolean invokeCallbacks = lr.isInitialized();
try {
lr.basicInvalidate(ee, invokeCallbacks, forceNewEntry);
}
catch (ConcurrentCacheModificationException e) {
// operation was rejected by the cache's concurrency control mechanism as being old
}
catch (EntryNotFoundException ignore) {
}
}
else {
throw new IllegalStateException(LocalizedStrings.QueuedOperation_THE_0_SHOULD_NOT_HAVE_BEEN_QUEUED.toLocalizedString(this.op));
}
} finally {
ee.release();
}
}
}
public static QueuedOperation createFromData(DataInput in)
throws IOException, ClassNotFoundException
{
Operation op = Operation.fromOrdinal(in.readByte());
Object key = null;
byte[] value = null;
Object valueObj = null;
byte deserializationPolicy = DistributedCacheOperation.DESERIALIZATION_POLICY_NONE;
Object cbArg = DataSerializer.readObject(in);
if (op.isEntry()) {
key = DataSerializer.readObject(in);
if (op.isUpdate() || op.isCreate()) {
deserializationPolicy = in.readByte();
if (deserializationPolicy ==
DistributedCacheOperation.DESERIALIZATION_POLICY_EAGER) {
valueObj = DataSerializer.readObject(in);
}
else {
value = DataSerializer.readByteArray(in);
}
}
}
return new QueuedOperation(op, key, value, valueObj, deserializationPolicy,
cbArg);
}
/**
* Post 7.1, if changes are made to this method make sure that it is backwards
* compatible by creating toDataPreXX methods. Also make sure that the callers
* to this method are backwards compatible by creating toDataPreXX methods for
* them even if they are not changed.
* Callers for this method are:
* SendQueueMessage.toData(DataOutput)
*/
public void toData(DataOutput out) throws IOException
{
out.writeByte(this.op.ordinal);
DataSerializer.writeObject(this.cbArg, out);
if (this.op.isEntry()) {
DataSerializer.writeObject(this.key, out);
if (this.op.isUpdate() || this.op.isCreate()) {
out.writeByte(this.deserializationPolicy);
if (this.deserializationPolicy !=
DistributedCacheOperation.DESERIALIZATION_POLICY_EAGER) {
DataSerializer.writeByteArray(this.value, out);
}
else {
DataSerializer.writeObject(this.valueObj, out);
}
}
}
}
}