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The Apache Cassandra Project develops a highly scalable second-generation distributed database, bringing together Dynamo's fully distributed design and Bigtable's ColumnFamily-based data model.
/*
* 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.transport;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.util.Iterator;
import java.util.List;
import com.google.common.base.Objects;
import io.netty.buffer.ByteBuf;
import org.apache.cassandra.cql3.functions.UDAggregate;
import org.apache.cassandra.cql3.functions.UDFunction;
import org.apache.cassandra.locator.InetAddressAndPort;
public abstract class Event
{
public enum Type
{
TOPOLOGY_CHANGE(ProtocolVersion.V3),
STATUS_CHANGE(ProtocolVersion.V3),
SCHEMA_CHANGE(ProtocolVersion.V3),
TRACE_COMPLETE(ProtocolVersion.V4);
public final ProtocolVersion minimumVersion;
Type(ProtocolVersion minimumVersion)
{
this.minimumVersion = minimumVersion;
}
}
public final Type type;
private Event(Type type)
{
this.type = type;
}
public static Event deserialize(ByteBuf cb, ProtocolVersion version)
{
Type eventType = CBUtil.readEnumValue(Type.class, cb);
if (eventType.minimumVersion.isGreaterThan(version))
throw new ProtocolException("Event " + eventType.name() + " not valid for protocol version " + version);
switch (eventType)
{
case TOPOLOGY_CHANGE:
return TopologyChange.deserializeEvent(cb, version);
case STATUS_CHANGE:
return StatusChange.deserializeEvent(cb, version);
case SCHEMA_CHANGE:
return SchemaChange.deserializeEvent(cb, version);
}
throw new AssertionError();
}
public void serialize(ByteBuf dest, ProtocolVersion version)
{
if (type.minimumVersion.isGreaterThan(version))
throw new ProtocolException("Event " + type.name() + " not valid for protocol version " + version);
CBUtil.writeEnumValue(type, dest);
serializeEvent(dest, version);
}
public int serializedSize(ProtocolVersion version)
{
return CBUtil.sizeOfEnumValue(type) + eventSerializedSize(version);
}
protected abstract void serializeEvent(ByteBuf dest, ProtocolVersion version);
protected abstract int eventSerializedSize(ProtocolVersion version);
public static abstract class NodeEvent extends Event
{
public final InetSocketAddress node;
public InetAddress nodeAddress()
{
return node.getAddress();
}
private NodeEvent(Type type, InetSocketAddress node)
{
super(type);
this.node = node;
}
}
public static class TopologyChange extends NodeEvent
{
public enum Change { NEW_NODE, REMOVED_NODE, MOVED_NODE }
public final Change change;
private TopologyChange(Change change, InetSocketAddress node)
{
super(Type.TOPOLOGY_CHANGE, node);
this.change = change;
}
public static TopologyChange newNode(InetAddressAndPort address)
{
return new TopologyChange(Change.NEW_NODE, new InetSocketAddress(address.address, address.port));
}
public static TopologyChange removedNode(InetAddressAndPort address)
{
return new TopologyChange(Change.REMOVED_NODE, new InetSocketAddress(address.address, address.port));
}
public static TopologyChange movedNode(InetAddressAndPort address)
{
return new TopologyChange(Change.MOVED_NODE, new InetSocketAddress(address.address, address.port));
}
// Assumes the type has already been deserialized
private static TopologyChange deserializeEvent(ByteBuf cb, ProtocolVersion version)
{
Change change = CBUtil.readEnumValue(Change.class, cb);
InetSocketAddress node = CBUtil.readInet(cb);
return new TopologyChange(change, node);
}
protected void serializeEvent(ByteBuf dest, ProtocolVersion version)
{
CBUtil.writeEnumValue(change, dest);
CBUtil.writeInet(node, dest);
}
protected int eventSerializedSize(ProtocolVersion version)
{
return CBUtil.sizeOfEnumValue(change) + CBUtil.sizeOfInet(node);
}
@Override
public String toString()
{
return change + " " + node;
}
@Override
public int hashCode()
{
return Objects.hashCode(change, node);
}
@Override
public boolean equals(Object other)
{
if (!(other instanceof TopologyChange))
return false;
TopologyChange tpc = (TopologyChange)other;
return Objects.equal(change, tpc.change)
&& Objects.equal(node, tpc.node);
}
}
public static class StatusChange extends NodeEvent
{
public enum Status { UP, DOWN }
public final Status status;
private StatusChange(Status status, InetSocketAddress node)
{
super(Type.STATUS_CHANGE, node);
this.status = status;
}
public static StatusChange nodeUp(InetAddressAndPort address)
{
return new StatusChange(Status.UP, new InetSocketAddress(address.address, address.port));
}
public static StatusChange nodeDown(InetAddressAndPort address)
{
return new StatusChange(Status.DOWN, new InetSocketAddress(address.address, address.port));
}
// Assumes the type has already been deserialized
private static StatusChange deserializeEvent(ByteBuf cb, ProtocolVersion version)
{
Status status = CBUtil.readEnumValue(Status.class, cb);
InetSocketAddress node = CBUtil.readInet(cb);
return new StatusChange(status, node);
}
protected void serializeEvent(ByteBuf dest, ProtocolVersion version)
{
CBUtil.writeEnumValue(status, dest);
CBUtil.writeInet(node, dest);
}
protected int eventSerializedSize(ProtocolVersion version)
{
return CBUtil.sizeOfEnumValue(status) + CBUtil.sizeOfInet(node);
}
@Override
public String toString()
{
return status + " " + node;
}
@Override
public int hashCode()
{
return Objects.hashCode(status, node);
}
@Override
public boolean equals(Object other)
{
if (!(other instanceof StatusChange))
return false;
StatusChange stc = (StatusChange)other;
return Objects.equal(status, stc.status)
&& Objects.equal(node, stc.node);
}
}
public static class SchemaChange extends Event
{
public enum Change { CREATED, UPDATED, DROPPED }
public enum Target { KEYSPACE, TABLE, TYPE, FUNCTION, AGGREGATE }
public final Change change;
public final Target target;
public final String keyspace;
public final String name;
public final List argTypes;
public SchemaChange(Change change, Target target, String keyspace, String name, List argTypes)
{
super(Type.SCHEMA_CHANGE);
this.change = change;
this.target = target;
this.keyspace = keyspace;
this.name = name;
if (target != Target.KEYSPACE)
assert this.name != null : "Table, type, function or aggregate name should be set for non-keyspace schema change events";
this.argTypes = argTypes;
}
public SchemaChange(Change change, Target target, String keyspace, String name)
{
this(change, target, keyspace, name, null);
}
public SchemaChange(Change change, String keyspace)
{
this(change, Target.KEYSPACE, keyspace, null);
}
public static SchemaChange forFunction(Change change, UDFunction function)
{
return new SchemaChange(change, Target.FUNCTION, function.name().keyspace, function.name().name, function.argumentsList());
}
public static SchemaChange forAggregate(Change change, UDAggregate aggregate)
{
return new SchemaChange(change, Target.AGGREGATE, aggregate.name().keyspace, aggregate.name().name, aggregate.argumentsList());
}
// Assumes the type has already been deserialized
public static SchemaChange deserializeEvent(ByteBuf cb, ProtocolVersion version)
{
Change change = CBUtil.readEnumValue(Change.class, cb);
if (version.isGreaterOrEqualTo(ProtocolVersion.V3))
{
Target target = CBUtil.readEnumValue(Target.class, cb);
String keyspace = CBUtil.readString(cb);
String tableOrType = target == Target.KEYSPACE ? null : CBUtil.readString(cb);
List argTypes = null;
if (target == Target.FUNCTION || target == Target.AGGREGATE)
argTypes = CBUtil.readStringList(cb);
return new SchemaChange(change, target, keyspace, tableOrType, argTypes);
}
else
{
String keyspace = CBUtil.readString(cb);
String table = CBUtil.readString(cb);
return new SchemaChange(change, table.isEmpty() ? Target.KEYSPACE : Target.TABLE, keyspace, table.isEmpty() ? null : table);
}
}
public void serializeEvent(ByteBuf dest, ProtocolVersion version)
{
if (target == Target.FUNCTION || target == Target.AGGREGATE)
{
if (version.isGreaterOrEqualTo(ProtocolVersion.V4))
{
// available since protocol version 4
CBUtil.writeEnumValue(change, dest);
CBUtil.writeEnumValue(target, dest);
CBUtil.writeAsciiString(keyspace, dest);
CBUtil.writeAsciiString(name, dest);
CBUtil.writeStringList(argTypes, dest);
}
else
{
// not available in protocol versions < 4 - just say the keyspace was updated.
CBUtil.writeEnumValue(Change.UPDATED, dest);
if (version.isGreaterOrEqualTo(ProtocolVersion.V3))
CBUtil.writeEnumValue(Target.KEYSPACE, dest);
CBUtil.writeAsciiString(keyspace, dest);
CBUtil.writeAsciiString("", dest);
}
return;
}
if (version.isGreaterOrEqualTo(ProtocolVersion.V3))
{
CBUtil.writeEnumValue(change, dest);
CBUtil.writeEnumValue(target, dest);
CBUtil.writeAsciiString(keyspace, dest);
if (target != Target.KEYSPACE)
CBUtil.writeAsciiString(name, dest);
}
else
{
if (target == Target.TYPE)
{
// For the v1/v2 protocol, we have no way to represent type changes, so we simply say the keyspace
// was updated. See CASSANDRA-7617.
CBUtil.writeEnumValue(Change.UPDATED, dest);
CBUtil.writeAsciiString(keyspace, dest);
CBUtil.writeAsciiString("", dest);
}
else
{
CBUtil.writeEnumValue(change, dest);
CBUtil.writeAsciiString(keyspace, dest);
CBUtil.writeAsciiString(target == Target.KEYSPACE ? "" : name, dest);
}
}
}
public int eventSerializedSize(ProtocolVersion version)
{
if (target == Target.FUNCTION || target == Target.AGGREGATE)
{
if (version.isGreaterOrEqualTo(ProtocolVersion.V4))
return CBUtil.sizeOfEnumValue(change)
+ CBUtil.sizeOfEnumValue(target)
+ CBUtil.sizeOfAsciiString(keyspace)
+ CBUtil.sizeOfAsciiString(name)
+ CBUtil.sizeOfStringList(argTypes);
if (version.isGreaterOrEqualTo(ProtocolVersion.V3))
return CBUtil.sizeOfEnumValue(Change.UPDATED)
+ CBUtil.sizeOfEnumValue(Target.KEYSPACE)
+ CBUtil.sizeOfAsciiString(keyspace);
return CBUtil.sizeOfEnumValue(Change.UPDATED)
+ CBUtil.sizeOfAsciiString(keyspace)
+ CBUtil.sizeOfAsciiString("");
}
if (version.isGreaterOrEqualTo(ProtocolVersion.V3))
{
int size = CBUtil.sizeOfEnumValue(change)
+ CBUtil.sizeOfEnumValue(target)
+ CBUtil.sizeOfAsciiString(keyspace);
if (target != Target.KEYSPACE)
size += CBUtil.sizeOfAsciiString(name);
return size;
}
else
{
if (target == Target.TYPE)
{
return CBUtil.sizeOfEnumValue(Change.UPDATED)
+ CBUtil.sizeOfAsciiString(keyspace)
+ CBUtil.sizeOfAsciiString("");
}
return CBUtil.sizeOfEnumValue(change)
+ CBUtil.sizeOfAsciiString(keyspace)
+ CBUtil.sizeOfAsciiString(target == Target.KEYSPACE ? "" : name);
}
}
@Override
public String toString()
{
StringBuilder sb = new StringBuilder().append(change)
.append(' ').append(target)
.append(' ').append(keyspace);
if (name != null)
sb.append('.').append(name);
if (argTypes != null)
{
sb.append(" (");
for (Iterator iter = argTypes.iterator(); iter.hasNext(); )
{
sb.append(iter.next());
if (iter.hasNext())
sb.append(',');
}
sb.append(')');
}
return sb.toString();
}
@Override
public int hashCode()
{
return Objects.hashCode(change, target, keyspace, name, argTypes);
}
@Override
public boolean equals(Object other)
{
if (!(other instanceof SchemaChange))
return false;
SchemaChange scc = (SchemaChange)other;
return Objects.equal(change, scc.change)
&& Objects.equal(target, scc.target)
&& Objects.equal(keyspace, scc.keyspace)
&& Objects.equal(name, scc.name)
&& Objects.equal(argTypes, scc.argTypes);
}
}
}