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* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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.
*/
package org.apache.cassandra.db;
import org.apache.cassandra.AbstractSerializationsTester;
import org.apache.cassandra.Util;
import org.apache.cassandra.db.composites.*;
import org.apache.cassandra.db.filter.*;
import org.apache.cassandra.db.marshal.AbstractType;
import org.apache.cassandra.db.marshal.BytesType;
import org.apache.cassandra.dht.AbstractBounds;
import org.apache.cassandra.dht.IPartitioner;
import org.apache.cassandra.dht.Range;
import org.apache.cassandra.dht.Token;
import org.apache.cassandra.exceptions.ConfigurationException;
import org.apache.cassandra.net.CallbackInfo;
import org.apache.cassandra.net.MessageIn;
import org.apache.cassandra.net.MessageOut;
import org.apache.cassandra.net.MessagingService;
import org.apache.cassandra.service.StorageService;
import org.apache.cassandra.utils.ByteBufferUtil;
import org.junit.BeforeClass;
import org.junit.Test;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.util.*;
public class SerializationsTest extends AbstractSerializationsTester
{
Statics statics = new Statics();
@BeforeClass
public static void loadSchema() throws ConfigurationException
{
loadSchema(true);
}
private ByteBuffer startCol = ByteBufferUtil.bytes("Start");
private ByteBuffer stopCol = ByteBufferUtil.bytes("Stop");
private Composite emptyCol = Composites.EMPTY;
public NamesQueryFilter namesPred = new NamesQueryFilter(statics.NamedCols);
public NamesQueryFilter namesSCPred = new NamesQueryFilter(statics.NamedSCCols);
public SliceQueryFilter emptyRangePred = new SliceQueryFilter(emptyCol, emptyCol, false, 100);
public SliceQueryFilter nonEmptyRangePred = new SliceQueryFilter(CellNames.simpleDense(startCol), CellNames.simpleDense(stopCol), true, 100);
public SliceQueryFilter nonEmptyRangeSCPred = new SliceQueryFilter(CellNames.compositeDense(statics.SC, startCol), CellNames.compositeDense(statics.SC, stopCol), true, 100);
private void testRangeSliceCommandWrite() throws IOException
{
IPartitioner part = StorageService.getPartitioner();
AbstractBounds<RowPosition> bounds = new Range<Token>(part.getRandomToken(), part.getRandomToken()).toRowBounds();
RangeSliceCommand namesCmd = new RangeSliceCommand(statics.KS, "Standard1", statics.readTs, namesPred, bounds, 100);
MessageOut<RangeSliceCommand> namesCmdMsg = namesCmd.createMessage();
RangeSliceCommand emptyRangeCmd = new RangeSliceCommand(statics.KS, "Standard1", statics.readTs, emptyRangePred, bounds, 100);
MessageOut<RangeSliceCommand> emptyRangeCmdMsg = emptyRangeCmd.createMessage();
RangeSliceCommand regRangeCmd = new RangeSliceCommand(statics.KS, "Standard1", statics.readTs, nonEmptyRangePred, bounds, 100);
MessageOut<RangeSliceCommand> regRangeCmdMsg = regRangeCmd.createMessage();
RangeSliceCommand namesCmdSup = new RangeSliceCommand(statics.KS, "Super1", statics.readTs, namesSCPred, bounds, 100);
MessageOut<RangeSliceCommand> namesCmdSupMsg = namesCmdSup.createMessage();
RangeSliceCommand emptyRangeCmdSup = new RangeSliceCommand(statics.KS, "Super1", statics.readTs, emptyRangePred, bounds, 100);
MessageOut<RangeSliceCommand> emptyRangeCmdSupMsg = emptyRangeCmdSup.createMessage();
RangeSliceCommand regRangeCmdSup = new RangeSliceCommand(statics.KS, "Super1", statics.readTs, nonEmptyRangeSCPred, bounds, 100);
MessageOut<RangeSliceCommand> regRangeCmdSupMsg = regRangeCmdSup.createMessage();
DataOutputStream out = getOutput("db.RangeSliceCommand.bin");
namesCmdMsg.serialize(out, getVersion());
emptyRangeCmdMsg.serialize(out, getVersion());
regRangeCmdMsg.serialize(out, getVersion());
namesCmdSupMsg.serialize(out, getVersion());
emptyRangeCmdSupMsg.serialize(out, getVersion());
regRangeCmdSupMsg.serialize(out, getVersion());
out.close();
// test serializedSize
testSerializedSize(namesCmd, RangeSliceCommand.serializer);
testSerializedSize(emptyRangeCmd, RangeSliceCommand.serializer);
testSerializedSize(regRangeCmd, RangeSliceCommand.serializer);
testSerializedSize(namesCmdSup, RangeSliceCommand.serializer);
testSerializedSize(emptyRangeCmdSup, RangeSliceCommand.serializer);
testSerializedSize(regRangeCmdSup, RangeSliceCommand.serializer);
}
@Test
public void testRangeSliceCommandRead() throws IOException
{
if (EXECUTE_WRITES)
testRangeSliceCommandWrite();
DataInputStream in = getInput("db.RangeSliceCommand.bin");
for (int i = 0; i < 6; i++)
MessageIn.read(in, getVersion(), -1);
in.close();
}
private void testSliceByNamesReadCommandWrite() throws IOException
{
SliceByNamesReadCommand standardCmd = new SliceByNamesReadCommand(statics.KS, statics.Key, statics.StandardCF, statics.readTs, namesPred);
SliceByNamesReadCommand superCmd = new SliceByNamesReadCommand(statics.KS, statics.Key, statics.SuperCF, statics.readTs, namesSCPred);
DataOutputStream out = getOutput("db.SliceByNamesReadCommand.bin");
SliceByNamesReadCommand.serializer.serialize(standardCmd, out, getVersion());
SliceByNamesReadCommand.serializer.serialize(superCmd, out, getVersion());
ReadCommand.serializer.serialize(standardCmd, out, getVersion());
ReadCommand.serializer.serialize(superCmd, out, getVersion());
standardCmd.createMessage().serialize(out, getVersion());
superCmd.createMessage().serialize(out, getVersion());
out.close();
// test serializedSize
testSerializedSize(standardCmd, SliceByNamesReadCommand.serializer);
testSerializedSize(superCmd, SliceByNamesReadCommand.serializer);
}
@Test
public void testSliceByNamesReadCommandRead() throws IOException
{
if (EXECUTE_WRITES)
testSliceByNamesReadCommandWrite();
DataInputStream in = getInput("db.SliceByNamesReadCommand.bin");
assert SliceByNamesReadCommand.serializer.deserialize(in, getVersion()) != null;
assert SliceByNamesReadCommand.serializer.deserialize(in, getVersion()) != null;
assert ReadCommand.serializer.deserialize(in, getVersion()) != null;
assert ReadCommand.serializer.deserialize(in, getVersion()) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
in.close();
}
private void testSliceFromReadCommandWrite() throws IOException
{
SliceFromReadCommand standardCmd = new SliceFromReadCommand(statics.KS, statics.Key, statics.StandardCF, statics.readTs, nonEmptyRangePred);
SliceFromReadCommand superCmd = new SliceFromReadCommand(statics.KS, statics.Key, statics.SuperCF, statics.readTs, nonEmptyRangeSCPred);
DataOutputStream out = getOutput("db.SliceFromReadCommand.bin");
SliceFromReadCommand.serializer.serialize(standardCmd, out, getVersion());
SliceFromReadCommand.serializer.serialize(superCmd, out, getVersion());
ReadCommand.serializer.serialize(standardCmd, out, getVersion());
ReadCommand.serializer.serialize(superCmd, out, getVersion());
standardCmd.createMessage().serialize(out, getVersion());
superCmd.createMessage().serialize(out, getVersion());
out.close();
// test serializedSize
testSerializedSize(standardCmd, SliceFromReadCommand.serializer);
testSerializedSize(superCmd, SliceFromReadCommand.serializer);
}
@Test
public void testSliceFromReadCommandRead() throws IOException
{
if (EXECUTE_WRITES)
testSliceFromReadCommandWrite();
DataInputStream in = getInput("db.SliceFromReadCommand.bin");
assert SliceFromReadCommand.serializer.deserialize(in, getVersion()) != null;
assert SliceFromReadCommand.serializer.deserialize(in, getVersion()) != null;
assert ReadCommand.serializer.deserialize(in, getVersion()) != null;
assert ReadCommand.serializer.deserialize(in, getVersion()) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
in.close();
}
private void testRowWrite() throws IOException
{
DataOutputStream out = getOutput("db.Row.bin");
Row.serializer.serialize(statics.StandardRow, out, getVersion());
Row.serializer.serialize(statics.SuperRow, out, getVersion());
Row.serializer.serialize(statics.NullRow, out, getVersion());
out.close();
// test serializedSize
testSerializedSize(statics.StandardRow, Row.serializer);
testSerializedSize(statics.SuperRow, Row.serializer);
testSerializedSize(statics.NullRow, Row.serializer);
}
@Test
public void testRowRead() throws IOException
{
// Since every table creation generates different CF ID,
// we need to generate file every time
testRowWrite();
DataInputStream in = getInput("db.Row.bin");
assert Row.serializer.deserialize(in, getVersion()) != null;
assert Row.serializer.deserialize(in, getVersion()) != null;
assert Row.serializer.deserialize(in, getVersion()) != null;
in.close();
}
private void testMutationWrite() throws IOException
{
Mutation standardRowRm = new Mutation(statics.KS, statics.StandardRow);
Mutation superRowRm = new Mutation(statics.KS, statics.SuperRow);
Mutation standardRm = new Mutation(statics.KS, statics.Key, statics.StandardCf);
Mutation superRm = new Mutation(statics.KS, statics.Key, statics.SuperCf);
Map<UUID, ColumnFamily> mods = new HashMap<UUID, ColumnFamily>();
mods.put(statics.StandardCf.metadata().cfId, statics.StandardCf);
mods.put(statics.SuperCf.metadata().cfId, statics.SuperCf);
Mutation mixedRm = new Mutation(statics.KS, statics.Key, mods);
DataOutputStream out = getOutput("db.RowMutation.bin");
Mutation.serializer.serialize(standardRowRm, out, getVersion());
Mutation.serializer.serialize(superRowRm, out, getVersion());
Mutation.serializer.serialize(standardRm, out, getVersion());
Mutation.serializer.serialize(superRm, out, getVersion());
Mutation.serializer.serialize(mixedRm, out, getVersion());
standardRowRm.createMessage().serialize(out, getVersion());
superRowRm.createMessage().serialize(out, getVersion());
standardRm.createMessage().serialize(out, getVersion());
superRm.createMessage().serialize(out, getVersion());
mixedRm.createMessage().serialize(out, getVersion());
out.close();
// test serializedSize
testSerializedSize(standardRowRm, Mutation.serializer);
testSerializedSize(superRowRm, Mutation.serializer);
testSerializedSize(standardRm, Mutation.serializer);
testSerializedSize(superRm, Mutation.serializer);
testSerializedSize(mixedRm, Mutation.serializer);
}
@Test
public void testMutationRead() throws IOException
{
// mutation deserialization requires being able to look up the keyspace in the schema,
// so we need to rewrite this each time. plus, CF ID is different for every run.
testMutationWrite();
DataInputStream in = getInput("db.RowMutation.bin");
assert Mutation.serializer.deserialize(in, getVersion()) != null;
assert Mutation.serializer.deserialize(in, getVersion()) != null;
assert Mutation.serializer.deserialize(in, getVersion()) != null;
assert Mutation.serializer.deserialize(in, getVersion()) != null;
assert Mutation.serializer.deserialize(in, getVersion()) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
in.close();
}
private void testTruncateWrite() throws IOException
{
Truncation tr = new Truncation(statics.KS, "Doesn't Really Matter");
TruncateResponse aff = new TruncateResponse(statics.KS, "Doesn't Matter Either", true);
TruncateResponse neg = new TruncateResponse(statics.KS, "Still Doesn't Matter", false);
DataOutputStream out = getOutput("db.Truncation.bin");
Truncation.serializer.serialize(tr, out, getVersion());
TruncateResponse.serializer.serialize(aff, out, getVersion());
TruncateResponse.serializer.serialize(neg, out, getVersion());
tr.createMessage().serialize(out, getVersion());
aff.createMessage().serialize(out, getVersion());
neg.createMessage().serialize(out, getVersion());
// todo: notice how CF names weren't validated.
out.close();
// test serializedSize
testSerializedSize(tr, Truncation.serializer);
testSerializedSize(aff, TruncateResponse.serializer);
testSerializedSize(neg, TruncateResponse.serializer);
}
@Test
public void testTruncateRead() throws IOException
{
if (EXECUTE_WRITES)
testTruncateWrite();
DataInputStream in = getInput("db.Truncation.bin");
assert Truncation.serializer.deserialize(in, getVersion()) != null;
assert TruncateResponse.serializer.deserialize(in, getVersion()) != null;
assert TruncateResponse.serializer.deserialize(in, getVersion()) != null;
assert MessageIn.read(in, getVersion(), -1) != null;
// set up some fake callbacks so deserialization knows that what it's deserializing is a TruncateResponse
MessagingService.instance().setCallbackForTests(1, new CallbackInfo(null, null, TruncateResponse.serializer));
MessagingService.instance().setCallbackForTests(2, new CallbackInfo(null, null, TruncateResponse.serializer));
assert MessageIn.read(in, getVersion(), 1) != null;
assert MessageIn.read(in, getVersion(), 2) != null;
in.close();
}
private void testWriteResponseWrite() throws IOException
{
WriteResponse aff = new WriteResponse();
WriteResponse neg = new WriteResponse();
DataOutputStream out = getOutput("db.WriteResponse.bin");
WriteResponse.serializer.serialize(aff, out, getVersion());
WriteResponse.serializer.serialize(neg, out, getVersion());
out.close();
// test serializedSize
testSerializedSize(aff, WriteResponse.serializer);
testSerializedSize(neg, WriteResponse.serializer);
}
@Test
public void testWriteResponseRead() throws IOException
{
if (EXECUTE_WRITES)
testWriteResponseWrite();
DataInputStream in = getInput("db.WriteResponse.bin");
assert WriteResponse.serializer.deserialize(in, getVersion()) != null;
assert WriteResponse.serializer.deserialize(in, getVersion()) != null;
in.close();
}
private static ByteBuffer bb(String s)
{
return ByteBufferUtil.bytes(s);
}
private static CellName cn(String s)
{
return CellNames.simpleDense(ByteBufferUtil.bytes(s));
}
private static class Statics
{
private final String KS = "Keyspace1";
private final ByteBuffer Key = ByteBufferUtil.bytes("Key01");
private final SortedSet<CellName> NamedCols = new TreeSet<CellName>(new SimpleDenseCellNameType(BytesType.instance))
{{
add(CellNames.simpleDense(ByteBufferUtil.bytes("AAA")));
add(CellNames.simpleDense(ByteBufferUtil.bytes("BBB")));
add(CellNames.simpleDense(ByteBufferUtil.bytes("CCC")));
}};
private final ByteBuffer SC = ByteBufferUtil.bytes("SCName");
private final SortedSet<CellName> NamedSCCols = new TreeSet<CellName>(new CompoundDenseCellNameType(Arrays.<AbstractType<?>>asList(BytesType.instance, BytesType.instance)))
{{
add(CellNames.compositeDense(SC, ByteBufferUtil.bytes("AAA")));
add(CellNames.compositeDense(SC, ByteBufferUtil.bytes("BBB")));
add(CellNames.compositeDense(SC, ByteBufferUtil.bytes("CCC")));
}};
private final String StandardCF = "Standard1";
private final String SuperCF = "Super1";
private final long readTs = 1369935512292L;
private final ColumnFamily StandardCf = TreeMapBackedSortedColumns.factory.create(KS, StandardCF);
private final ColumnFamily SuperCf = TreeMapBackedSortedColumns.factory.create(KS, SuperCF);
private final Row StandardRow = new Row(Util.dk("key0"), StandardCf);
private final Row SuperRow = new Row(Util.dk("key1"), SuperCf);
private final Row NullRow = new Row(Util.dk("key2"), null);
private Statics()
{
StandardCf.addColumn(new Cell(cn("aaaa")));
StandardCf.addColumn(new Cell(cn("bbbb"), bb("bbbbb-value")));
StandardCf.addColumn(new Cell(cn("cccc"), bb("ccccc-value"), 1000L));
StandardCf.addColumn(new DeletedCell(cn("dddd"), 500, 1000));
StandardCf.addColumn(new DeletedCell(cn("eeee"), bb("eeee-value"), 1001));
StandardCf.addColumn(new ExpiringCell(cn("ffff"), bb("ffff-value"), 2000, 1000));
StandardCf.addColumn(new ExpiringCell(cn("gggg"), bb("gggg-value"), 2001, 1000, 2002));
SuperCf.addColumn(new Cell(CellNames.compositeDense(SC, bb("aaaa"))));
SuperCf.addColumn(new Cell(CellNames.compositeDense(SC, bb("bbbb")), bb("bbbbb-value")));
SuperCf.addColumn(new Cell(CellNames.compositeDense(SC, bb("cccc")), bb("ccccc-value"), 1000L));
SuperCf.addColumn(new DeletedCell(CellNames.compositeDense(SC, bb("dddd")), 500, 1000));
SuperCf.addColumn(new DeletedCell(CellNames.compositeDense(SC, bb("eeee")), bb("eeee-value"), 1001));
SuperCf.addColumn(new ExpiringCell(CellNames.compositeDense(SC, bb("ffff")), bb("ffff-value"), 2000, 1000));
SuperCf.addColumn(new ExpiringCell(CellNames.compositeDense(SC, bb("gggg")), bb("gggg-value"), 2001, 1000, 2002));
}
}
}