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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.net;
import java.net.InetAddress;
import java.util.function.Function;
import com.google.common.base.Preconditions;
import org.apache.cassandra.auth.IInternodeAuthenticator;
import org.apache.cassandra.config.DatabaseDescriptor;
import org.apache.cassandra.config.EncryptionOptions.ServerEncryptionOptions;
import org.apache.cassandra.exceptions.ConfigurationException;
import org.apache.cassandra.locator.InetAddressAndPort;
import org.apache.cassandra.utils.FBUtilities;
import static java.lang.String.format;
import static org.apache.cassandra.net.MessagingService.*;
public class InboundConnectionSettings
{
public final IInternodeAuthenticator authenticator;
public final InetAddressAndPort bindAddress;
public final ServerEncryptionOptions encryption;
public final Integer socketReceiveBufferSizeInBytes;
public final Integer applicationReceiveQueueCapacityInBytes;
public final AcceptVersions acceptMessaging;
public final AcceptVersions acceptStreaming;
public final SocketFactory socketFactory;
public final Function handlers;
private InboundConnectionSettings(IInternodeAuthenticator authenticator,
InetAddressAndPort bindAddress,
ServerEncryptionOptions encryption,
Integer socketReceiveBufferSizeInBytes,
Integer applicationReceiveQueueCapacityInBytes,
AcceptVersions acceptMessaging,
AcceptVersions acceptStreaming,
SocketFactory socketFactory,
Function handlers)
{
this.authenticator = authenticator;
this.bindAddress = bindAddress;
this.encryption = encryption;
this.socketReceiveBufferSizeInBytes = socketReceiveBufferSizeInBytes;
this.applicationReceiveQueueCapacityInBytes = applicationReceiveQueueCapacityInBytes;
this.acceptMessaging = acceptMessaging;
this.acceptStreaming = acceptStreaming;
this.socketFactory = socketFactory;
this.handlers = handlers;
}
public InboundConnectionSettings()
{
this(null, null, null, null, null, null, null, null, null);
}
public boolean authenticate(InetAddressAndPort endpoint)
{
return authenticator.authenticate(endpoint.getAddress(), endpoint.getPort());
}
public boolean authenticate(InetAddress address, int port)
{
return authenticator.authenticate(address, port);
}
public String toString()
{
return format("address: (%s), nic: %s, encryption: %s",
bindAddress, FBUtilities.getNetworkInterface(bindAddress.getAddress()), SocketFactory.encryptionOptionsSummary(encryption));
}
public InboundConnectionSettings withAuthenticator(IInternodeAuthenticator authenticator)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
@SuppressWarnings("unused")
public InboundConnectionSettings withBindAddress(InetAddressAndPort bindAddress)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
public InboundConnectionSettings withEncryption(ServerEncryptionOptions encryption)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
public InboundConnectionSettings withSocketReceiveBufferSizeInBytes(int socketReceiveBufferSizeInBytes)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
@SuppressWarnings("unused")
public InboundConnectionSettings withApplicationReceiveQueueCapacityInBytes(int applicationReceiveQueueCapacityInBytes)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
public InboundConnectionSettings withAcceptMessaging(AcceptVersions acceptMessaging)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
public InboundConnectionSettings withAcceptStreaming(AcceptVersions acceptMessaging)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
public InboundConnectionSettings withSocketFactory(SocketFactory socketFactory)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
public InboundConnectionSettings withHandlers(Function handlers)
{
return new InboundConnectionSettings(authenticator, bindAddress, encryption,
socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes,
acceptMessaging, acceptStreaming, socketFactory, handlers);
}
public InboundConnectionSettings withLegacySslStoragePortDefaults()
{
ServerEncryptionOptions encryption = this.encryption;
if (encryption == null)
encryption = DatabaseDescriptor.getInternodeMessagingEncyptionOptions();
encryption = encryption.withOptional(false).withInternodeEncryption(ServerEncryptionOptions.InternodeEncryption.all);
return this.withBindAddress(bindAddress.withPort(DatabaseDescriptor.getSSLStoragePort()))
.withEncryption(encryption)
.withDefaults();
}
// note that connectTo is updated even if specified, in the case of pre40 messaging and using encryption (to update port)
public InboundConnectionSettings withDefaults()
{
// this is for the socket that can be plain, only ssl, or optional plain/ssl
if (bindAddress.getPort() != DatabaseDescriptor.getStoragePort() && bindAddress.getPort() != DatabaseDescriptor.getSSLStoragePort())
throw new ConfigurationException(format("Local endpoint port %d doesn't match YAML configured port %d or legacy SSL port %d",
bindAddress.getPort(), DatabaseDescriptor.getStoragePort(), DatabaseDescriptor.getSSLStoragePort()));
IInternodeAuthenticator authenticator = this.authenticator;
ServerEncryptionOptions encryption = this.encryption;
Integer socketReceiveBufferSizeInBytes = this.socketReceiveBufferSizeInBytes;
Integer applicationReceiveQueueCapacityInBytes = this.applicationReceiveQueueCapacityInBytes;
AcceptVersions acceptMessaging = this.acceptMessaging;
AcceptVersions acceptStreaming = this.acceptStreaming;
SocketFactory socketFactory = this.socketFactory;
Function handlersFactory = this.handlers;
if (authenticator == null)
authenticator = DatabaseDescriptor.getInternodeAuthenticator();
if (encryption == null)
encryption = DatabaseDescriptor.getInternodeMessagingEncyptionOptions();
if (socketReceiveBufferSizeInBytes == null)
socketReceiveBufferSizeInBytes = DatabaseDescriptor.getInternodeSocketReceiveBufferSizeInBytes();
if (applicationReceiveQueueCapacityInBytes == null)
applicationReceiveQueueCapacityInBytes = DatabaseDescriptor.getInternodeApplicationReceiveQueueCapacityInBytes();
if (acceptMessaging == null)
acceptMessaging = accept_messaging;
if (acceptStreaming == null)
acceptStreaming = accept_streaming;
if (socketFactory == null)
socketFactory = instance().socketFactory;
if (handlersFactory == null)
handlersFactory = instance()::getInbound;
Preconditions.checkArgument(socketReceiveBufferSizeInBytes == 0 || socketReceiveBufferSizeInBytes >= 1 << 10, "illegal socket send buffer size: " + socketReceiveBufferSizeInBytes);
Preconditions.checkArgument(applicationReceiveQueueCapacityInBytes >= 1 << 10, "illegal application receive queue capacity: " + applicationReceiveQueueCapacityInBytes);
return new InboundConnectionSettings(authenticator, bindAddress, encryption, socketReceiveBufferSizeInBytes, applicationReceiveQueueCapacityInBytes, acceptMessaging, acceptStreaming, socketFactory, handlersFactory);
}
}