Spring Integration provides Channel Adapters for receiving and sending messages over internet protocols. Both UDP (User Datagram Protocol) and TCP (Transmission Control Protocol) adapters are provided. Each adapter provides for one-way communication over the underlying protocol. In addition, simple inbound and outbound tcp gateways are provided. These are used when two-way communication is needed.
Two flavors each of UDP inbound and outbound adapters are provided UnicastSendingMessageHandler
sends a datagram packet to a single destination. UnicastReceivingChannelAdapter receives
incoming datagram packets. MulticastSendingMessageHandler sends (broadcasts) datagram packets to
a multicast address. MulticastReceivingChannelAdapter receives incoming datagram packets
by joining to a multicast address.
TCP inbound and outbound adapters are provided TcpSendingMessageHandler
sends messages over TCP. TcpReceivingChannelAdapter receives messages over TCP.
An inbound TCP gateway is provided; this allows for simple request/response processing. While the gateway can support any number of connections, each connection can only process serially. The thread that reads from the socket waits for, and sends, the response before reading again. If the connection factory is configured for single use connections, the connection is closed after the socket times out.
An outbound TCP gateway is provided; this allows for simple request/response processing. If the associated connection factory is configured for single use connections, a new connection is immediately created for each new request. Otherwise, if the connection is in use, the calling thread blocks on the connection until either a response is received or a timeout or I/O error occurs.
<ip:udp-outbound-channel-adapter id="udpOut" host="somehost" port="11111" multicast="false" channel="exampleChannel" />
A simple UDP outbound channel adapter.
![[Tip]](images/tip.png) | Tip |
|---|---|
| When setting multicast to true, provide the multicast address in the host attribute. |
UDP is an efficient, but unreliable protocol. Two attributes are added to improve reliability. When check-length is set to true, the adapter precedes the message data with a length field (4 bytes in network byte order). This enables the receiving side to verify the length of the packet received. If a receiving system uses a buffer that is too short the contain the packet, the packet can be truncated. The length header provides a mechanism to detect this.
<ip:udp-outbound-channel-adapter id="udpOut" host="somehost" port="11111" multicast="false" check-length="true" channel="exampleChannel" />
An outbound channel adapter that adds length checking to the datagram packets.
| Tip |
|---|---|
The recipient of the packet must also be configured to expect a length to precede the
actual data. For a Spring Integration UDP inbound channel adapter, set its
check-length attribute.
|
The second reliability improvement allows an application-level acknowledgment protocol to be used. The receiver must send an acknowledgment to the sender within a specified time.
<ip:udp-outbound-channel-adapter id="udpOut" host="somehost" port="11111" multicast="false" check-length="true" acknowledge="true" ack-host="thishost" ack-port="22222" ack-timeout="10000" channel="exampleChannel" />
An outbound channel adapter that adds length checking to the datagram packets and waits for an acknowledgment.
| Tip |
|---|---|
| Setting acknowledge to true implies the recipient of the packet can interpret the header added to the packet containing acknowledgment data (host and port). Most likely, the recipient will be a Spring Integration inbound channel adapter. |
| Tip |
|---|---|
| When multicast is true, an additional attribute min-acks-for-success specifies how many acknowledgments must be received within the ack-timeout. |
For even more reliable networking, TCP can be used.
<ip:udp-inbound-channel-adapter id="udpReceiver" channel="udpOutChannel" port="11111" receive-buffer-size="500" multicast="false" check-length="true" />
A basic unicast inbound udp channel adapter.
<ip:udp-inbound-channel-adapter id="udpReceiver" channel="udpOutChannel" port="11111" receive-buffer-size="500" multicast="true" multicast-address="225.6.7.8" check-length="true" />
A basic multicast inbound udp channel adapter.
For TCP, the configuration of the underlying connection is provided using a Connection Factory. Two types of connection factory are provided; a client connection factory and a server connection factory. Client connection factories are used to establish outgoing connections; Server connection factories listen for incoming connections.
A client connection factory is used by an outbound channel adapter but a reference to a client connection factory can also be provided to an inbound channel adapter and that adapter will receive any incoming messages received on connections created by the outbound adapter.
A server connection factory is used by an inbound channel adapter or gateway (in fact the connection factory will not function without one). A reference to a server connection factory can also be provided to an outbound adapter; that adapter can then be used to send replies to incoming messages to the same connection.
| Tip |
|---|---|
| Reply messages will only be routed to the connection if the reply contains the header $ip_connection_id that was inserted into the original message by the connection factory. |
| Tip |
|---|---|
| This is the extent of message correlation performed when sharing connection factories between inbound and outbound adapters. Such sharing allows for asynchronous two-way communication over TCP. Only payload information is transferred using TCP; therefore any message correlation must be performed by downstream components such as aggregators or other endpoints. |
A maximum of one adapter of each type may be given a reference to a connection factory.
Connection factories using java.net.Socket and
java.nio.channel.SocketChannel are provided.
<ip:tcp-connection-factory id="server" type="server" port="1234" />
A simple server connection factory that uses java.net.Socket
connections.
<ip:tcp-connection-factory id="server" type="server" port="1234" using-nio="true" />
A simple server connection factory that uses java.nio.channel.SocketChannel
connections.
<ip:tcp-connection-factory id="client" type="client" host="localhost" port="1234" single-use="true" so-timeout="10000" />
A client connection factory that uses java.net.Socket
connections and creates a new connection for each message.
<ip:tcp-connection-factory id="client" type="client" host="localhost" port="1234" single-use="true" so-timeout="10000" using-nio=true />
A client connection factory that uses java.nio.channel.Socket
connections and creates a new connection for each message.
TCP is a streaming protocol; this means that some structure has to be provided to data
transported over TCP, so the receiver can demarcate the data into discrete messages.
Connection factories are configured to use (de)serializers to convert between the message
payload and the bits that are sent over TCP. This is accomplished by providing a
deserializer and serializer for inbound and outbound messages respectively.
Four standard (de)serializers are provided; the first is ByteArrayCrlfSerializer,
which can convert a byte array to a stream of bytes followed by carriage
return and linefeed characters (\r\n). This is the default (de)serializer and can be used with
telnet as a client, for example. The second is is ByteArrayStxEtxSerializer,
which can convert a byte array to a stream of bytes preceded by an STX (0x02) and
followed by an ETX (0x03). The third is ByteArrayLengthHeaderSerializer,
which can convert a byte array to a stream of bytes preceded by a 4 byte binary
length in network byte order. Each of these is a subclass of
AbstractByteArraySerializer which implements both
org.springframework.core.serializer.Serializer and
org.springframework.core.serializer.Deserializer.
For backwards compatibility, connections using any subclass of
AbstractByteArraySerializer for serialization
will also accept a String which will be converted to a byte array first.
Each of these (de)serializers converts an input stream containing the
corresponding format to a byte array payload. The fourth standard serializer is
org.springframework.core.serializer.DefaultSerializer which can be
used to convert Serializable objects using java serialization.
org.springframework.core.serializer.DefaultDeserializer is provided for
inbound deserialization of streams containing Serializable objects.
To implement a custom (de)serializer pair, implement the
org.springframework.core.serializer.Deserializer and
org.springframework.core.serializer.Serializer interfaces. If you do not wish to use
the default (de)serializer (ByteArrayCrLfSerializer), you must supply
serializer and
deserializer attributes on the connection factory (example below).
<bean id="javaSerializer"
class="org.springframework.core.serializer.DefaultSerializer" />
<bean id="javaDeserializer"
class="org.springframework.core.serializer.DefaultDeserializer" />
<ip:tcp-connection-factory id="server"
type="server"
port="1234"
deserializer="JavaDeserializer"
serializer="javaSerializer"
/>
A server connection factory that uses java.net.Socket
connections and uses Java serialization on the wire.
For full details of the attributes available on connection factories, see the reference at the end of this section.
Connection factories can be configured with a reference to a
TcpConnectionInterceptorFactoryChain. Interceptors can be used
to add behavior to connections, such as negotiation, security, and other setup.
No interceptors are currently provided by the framework but, for an example,
see the InterceptedSharedConnectionTests in the source
repository.
The HelloWorldInterceptor used in the test case works as follows:
When configured with a client connection factory, when the first message is sent over a connection that is intercepted, the interceptor sends 'Hello' over the connection, and expects to receive 'world!'. When that occurs, the negotiation is complete and the original message is sent; further messages that use the same connection are sent without any additional negotiation.
When configured with a server connection factory, the interceptor requires the first message to be 'Hello' and, if it is, returns 'world!'. Otherwise it throws an exception causing the connection to be closed.
All TcpConnection methods are intercepted.
Interceptor instances are created for each connection by an interceptor factory.
If an interceptor is stateful, the factory should create a new instance for each connection.
Interceptor
factories are added to the configuration of an interceptor factory chain, which is provided
to a connection factory using the interceptor-factory attribute.
Interceptors must implement the TcpConnectionInterceptor interface;
factories
must implement the TcpConnectionInterceptorFactory interface. A
convenience class AbstractTcpConnectionInterceptor is provided
with passthrough methods; by extending this class, you only need to implement those
methods you wish to intercept.
<bean id="helloWorldInterceptorFactory" class="org.springframework.integration.ip.tcp.connection.TcpConnectionInterceptorFactoryChain"> <property name="interceptors"> <array> <bean class="org.springframework.integration.ip.tcp.connection.HelloWorldInterceptorFactory"/> </array> </property> </bean> <int-ip:tcp-connection-factory id="server" type="server" port="12345" using-nio="true" single-use="true" interceptor-factory-chain="helloWorldInterceptorFactory" /> <int-ip:tcp-connection-factory id="client" type="client" host="localhost" port="12345" single-use="true" so-timeout="100000" using-nio="true" interceptor-factory-chain="helloWorldInterceptorFactory" />
Configuring a connection interceptor factory chain.
TCP inbound and outbound channel adapters that utilize the above connection
factories are provided. These adapters have just 2 attributes
connection-factory and channel.
The channel attribute specifies the channel on which messages arrive at an
outbound adapter and on which messages are placed by an inbound adapter.
The connection-factory attribute indicates which connection factory is to be used to
manage connections for the adapter. While both inbound and outbound adapters
can share a connection factory, server connection factories are always 'owned'
by an inbound adapter; client connection factories are always 'owned' by an
outbound adapter. One, and only one, adapter of each type may get a reference
to a connection factory.
<bean id="javaSerializer" class="org.springframework.core.serializer.DefaultSerializer" /> <bean id="javaDeserializer" class="org.springframework.core.serializer.DefaultDeserializer" /> <int-ip:tcp-connection-factory id="server" type="server" port="1234" deserializer="javaDeserializer" serializer="javaSerializer" using-nio="true" single-use="true" /> <int-ip:tcp-connection-factory id="client" type="client" host="localhost" port="#{server.port}" single-use="true" so-timeout="10000" deserializer="javaDeserializer" serializer="javaSerializer" /> <int:channel id="input" /> <int:channel id="replies"> <int:queue/> </int:channel> <int-ip:tcp-outbound-channel-adapter id="outboundClient" channel="input" connection-factory="client"/> <int-ip:tcp-inbound-channel-adapter id="inboundClient" channel="replies" connection-factory="client"/> <int-ip:tcp-inbound-channel-adapter id="inboundServer" channel="loop" connection-factory="server"/> <int-ip:tcp-outbound-channel-adapter id="outboundServer" channel="loop" connection-factory="server"/> <int:channel id="loop" />
In this configuration, messages arriving in channel 'input' are serialized over connections created by 'client' received at the server and placed on channel 'loop'. Since 'loop' is the input channel for 'outboundServer' the message is simply looped back over the same connection and received by 'inboundClient' and deposited in channel 'replies'. Java serialization is used on the wire.
The inbound TCP gateway TcpInboundGateway
and oubound TCP gateway TcpOutboundGateway
use a server and client connection factory respectively. Each connection
can process a single request/response at a time.
The intbound gateway, after constructing a message with the incoming payload and sending it to the requestChannel, waits for a response and sends the payload from the response message by writing it to the connection.
The outbound gateway, after sending a message over the connection, waits for a response and constructs a response message and puts in on the reply channel. Communications over the connections are single-threaded. Users should be aware that only one message can be handled at a time and, if another thread attempts to send a message before the current response has been received, it will block until any previous requests are complete (or time out). If, however, the client connection factory is configured for single-use connections each new request gets its own connection and is processed immediately.
<ip:tcp-inbound-gateway id="inGateway" request-channel="tcpChannel" reply-channel="replyChannel" connection-factory="cfServer" reply-timeout="10000" />
A simple inbound TCP gateway; if a connection factory configured with the default (de)serializer is used, messages will be \r\n delimited data and the gateway can be used by a simple client such as telnet.
<ip:tcp-outbound-gateway id="outGateway" request-channel="tcpChannel" reply-channel="replyChannel" connection-factory="cfClient" request-timeout="10000" reply-timeout="10000" />
A simple oubound TCP gateway.
Table 27.1. Connection Factory Attributes
| Attribute Name | Client? | Server? | Allowed Values | Attribute Description |
|---|---|---|---|---|
| type | Y | Y | client, server | Determines whether the connection factory is a client or server. |
| host | Y | N | The host name or ip address of the destination. | |
| port | Y | Y | The port. | |
| serializer | Y | Y | An implementation of Serializer used to serialize
the payload. Defaults to ByteArrayCrLfSerializer | |
| deserializer | Y | Y | An implementation of Deserializer used to deserialize
the payload. Defaults to ByteArrayCrLfSerializer | |
| using-nio | Y | Y | true, false | Whether or not the tcp adapter is using NIO. Refer to the java.nio package for more information. Default false. |
| using-direct-buffers | Y | N | true, false | When using NIO, whether or not the tcp adapter uses direct buffers.
Refer to java.nio.ByteBuffer documentation for
more information. Must be false if using-nio is false. |
| so-timeout | Y | Y | See java.net.Socket
setSoTimeout() methods for more information. | |
| so-send-buffer-size | Y | Y | See java.net.Socket
setSendBufferSize() methods for more information. | |
| so-receive-buffer- size | Y | Y | See java.net.Socket
setReceiveBufferSize() methods for more information. | |
| so-keep-alive | Y | Y | true, false | See java.net.Socket. setKeepAlive(). |
| so-linger | Y | Y | Sets linger to true with supplied value.
See java.net.Socket. setSoLinger(). | |
| so-tcp-no-delay | Y | Y | true, false | See java.net.Socket. setTcpNoDelay(). |
| so-traffic-class | Y | Y | See java.net.Socket. setTrafficClass(). | |
| local-address | N | Y | On a multi-homed system, specifies an IP address for the interface to which the socket will be bound. | |
| task-executor | Y | Y | Specifies a specific Executor to be used for socket handling. If not supplied, an internal pooled executor will be used. Needed on some platforms that require the use of specific task executors such as a WorkManagerTaskExecutor. See pool-size for thread requirements, depending on other options. | |
| single-use | Y | Y | true, false | Specifies whether a connection can be used for multiple messages. If true, a new connection will be used for each message. |
| pool-size | Y | Y | Specifies the concurrency. For tcp, not using nio, specifies the number of concurrent connections supported by the adapter. For tcp, using nio, specifies the number of tcp fragments that are concurrently reassembled into complete messages. It only applies in this sense if task-executor is not configured. However, pool-size is also used for the server socket backlog, regardless of whether an external task executor is used. Defaults to 5. | |
| interceptor-factory-chain | Y | Y | Documentation to be supplied. |
Table 27.2. UDP Outbound Channel Adapter Attributes
| Attribute Name | Allowed Values | Attribute Description |
|---|---|---|
| host | The host name or ip address of the destination. For multicast udp adapters, the multicast address. | |
| port | The port on the destination. | |
| multicast | true, false | Whether or not the udp adapter uses multicast. |
| acknowledge | true, false | Whether or not a udp adapter requires an acknowledgment from the destination. when enabled, requires setting the following 4 attributes. |
| ack-host | When acknowledge is true, indicates the host or ip address to which the acknowledgment should be sent. Usually the current host, but may be different, for example when Network Address Transation (NAT) is being used. | |
| ack-port | When acknowledge is true, indicates the port to which the acknowledgment should be sent. The adapter listens on this port for acknowledgments. | |
| ack-timeout | When acknowledge is true, indicates the time in milliseconds that the adapter will wait for an acknowlegment. If an acknowlegment is not received in time, the adapter will throw an exception. | |
| min-acks-for- success | Defaults to 1. For multicast adapters, you can set this to a larger value, requiring acknowlegments from multiple destinations. | |
| check-length | true, false | Whether or not a udp adapter includes a data length field in the packet sent to the destination. |
| time-to-live | For multicast adapters, specifies the time to live attribute for
the MulticastSocket; controls the scope
of the multicasts. Refer to the Java API
documentation for more information. | |
| so-timeout | See java.net.DatagramSocket
setSoTimeout() methods for more information. | |
| so-send-buffer-size | See java.net.DatagramSocket
setSendBufferSize() methods for more information. | |
| so-receive-buffer- size | Used for udp acknowlegment packets. See java.net.DatagramSocket
setReceiveBufferSize() methods for more information. | |
| local-address | On a multi-homed system, for the UDP adapter, specifies an IP address for the interface to which the socket will be bound for reply messages. For a multicast adapter it is also used to determine which interface the multicast packets will be sent over. | |
| task-executor | Specifies a specific Executor to be used for acknowledgment handling. If not supplied, an internal single threaded executor will be used. Needed on some platforms that require the use of specific task executors such as a WorkManagerTaskExecutor. One thread will be dedicated to handling acknowledgments (if the acknowledge option is true). |
Table 27.3. UDP Inbound Channel Adapter Attributes
| Attribute Name | Allowed Values | Attribute Description |
|---|---|---|
| port | The port on which the adapter listens. | |
| multicast | true, false | Whether or not the udp adapter uses multicast. |
| multicast-address | When multicast is true, the multicast address to which the adapter joins. | |
| pool-size | Specifies the concurrency. Specifies how many packets can be handled concurrently. It only applies if task-executor is not configured. Defaults to 5. | |
| task-executor | Specifies a specific Executor to be used for socket handling. If not supplied, an internal pooled executor will be used. Needed on some platforms that require the use of specific task executors such as a WorkManagerTaskExecutor. See pool-size for thread requirements. | |
| receive-buffer-size | The size of the buffer used to receive DatagramPackets. Usually set to the MTU size. If a smaller buffer is used than the size of the sent packet, truncation can occur. This can be detected by means of the check-length attribute.. | |
| check-length | true, false | Whether or not a udp adapter expects a data length field in the packet received. Used to detect packet truncation. |
| so-timeout | See java.net.DatagramSocket
setSoTimeout() methods for more information. | |
| so-send-buffer-size | Used for udp acknowlegment packets. See java.net.DatagramSocket
setSendBufferSize() methods for more information. | |
| so-receive-buffer- size | See java.net.DatagramSocket
setReceiveBufferSize() for more information. | |
| local-address | On a multi-homed system, specifies an IP address for the interface to which the socket will be bound. |
Table 27.4. TCP Inbound Gateway Attributes
| Attribute Name | Allowed Values | Attribute Description |
|---|---|---|
| port | The port on which the gateway listens. |
Table 27.5. TCP Outbound Gateway Attributes
| Attribute Name | Allowed Values | Attribute Description |
|---|---|---|
| host | The host name or ip address of the destination. |