I am trying to configure an SNS producer with SQS consumer, built with a Spring boot app. I have tried leveraging Spring cloud and just using JMS API, with both ways I cant seem to get my consumer to convert the message for me to read. With Spring cloud I get an error saying that the "payload is not a valid notification. Code below: Any help much appreciated
SNS configuration:
#Bean
public AmazonSNS snsClient() {
AmazonSNS snsClient = AmazonSNSClientBuilder.standard()
.withEndpointConfiguration(<endpoint-stuff)).build();
return snsClient;
}
#Bean
public NotificationMessagingTemplate notificationMessagingTemplate(
AmazonSNS amazonSNS) {
return new NotificationMessagingTemplate(amazonSNS);
}
producer code:
#Autowired
NotificationMessagingTemplate messagingTemplate;
public void send() throws Exception {
MessageDto message = new MessageDto();
message.setMessageA("Hello");
message.setMessageB("Again");
messagingTemplate.sendNotification("my_topic",message,"Test");
}
SQS consumer configuration:
#Bean
public SimpleMessageListenerContainer simpleMessageListenerContainer()
{
SimpleMessageListenerContainer msgListenerContainer =
simpleMessageListenerContainerFactory()
.createSimpleMessageListenerContainer();
msgListenerContainer.setMessageHandler(queueMessageHandler());
return msgListenerContainer;
}
#Bean
public SimpleMessageListenerContainerFactory
simpleMessageListenerContainerFactory() {
SimpleMessageListenerContainerFactory msgListenerContainerFactory =
new SimpleMessageListenerContainerFactory();
msgListenerContainerFactory.setAmazonSqs(amazonSQSClient());
return msgListenerContainerFactory;
}
#Bean
public QueueMessageHandler queueMessageHandler() {
QueueMessageHandlerFactory queueMsgHandlerFactory = new
QueueMessageHandlerFactory();
queueMsgHandlerFactory.setAmazonSqs(amazonSQSClient());
QueueMessageHandler queueMessageHandler =
queueMsgHandlerFactory.createQueueMessageHandler();
//List<HandlerMethodArgumentResolver> list = new ArrayList<>();
//HandlerMethodArgumentResolver resolver = new
//PayloadArgumentResolver(new MappingJackson2MessageConverter());
//list.add(resolver);
//queueMessageHandler.setArgumentResolvers(list);
return queueMessageHandler;
}
#Lazy
#Bean(name = "amazonSQS", destroyMethod = "shutdown")
public AmazonSQSAsync amazonSQSClient() {
AwsClientBuilder.EndpointConfiguration endpointConfiguration = new
AwsClientBuilder.EndpointConfiguration(
"<url>, "<region");
AmazonSQSAsync awsSQSAsync =
AmazonSQSAsyncClientBuilder.standard()
.withEndpointConfiguration(endpointConfiguration)
.build();
return awsSQSAsync;
}
SQS listener:
#SqsListener(value = "my_queue", deletionPolicy =
SqsMessageDeletionPolicy.ON_SUCCESS)
public void consume(final #NotificationMessage MessageDto event) {
LOGGER.info("Message received {}
{}",event.getMessageA(),event.getMessageB());
}
stack trace:
Caused by:
org.springframework.messaging.converter.MessageConversionException:
Payload: '<payload here>' is not a valid notification
at
org.springframework.cloud.aws.messaging.support.
converter.NotificationRequestConverter.fromMessage
(NotificationRequestConverter.java:69)
at
Related
I have an application that should work with rabbitmq. I have RabbitMQConfig, which tries to connect with the rabbit, but if it fails to connect, the application does not start at all.
What I want to achieve is that after launching the application, it will try to connect to the rabbit and if it manages to connect, I will start functionality to create a queue and listen to it accordingly. Currently at startup if the rabbit is available and then disappears it starts throwing "java.net.ConnectException: Connection refused". Can I catch this error and how, both at startup and during the operation of the application.
This is config file:
public class RabbitMQConfig implements RabbitListenerConfigurer {
private ConnectionFactory connectionFactory;
#Autowired
public RabbitMQConfig(ConnectionFactory connectionFactory) {
this.connectionFactory = connectionFactory;
}
#Override
public void configureRabbitListeners(RabbitListenerEndpointRegistrar registrar) {
registrar.setMessageHandlerMethodFactory(messageHandlerMethodFactory());
}
#Bean
MessageHandlerMethodFactory messageHandlerMethodFactory() {
DefaultMessageHandlerMethodFactory messageHandlerMethodFactory = new DefaultMessageHandlerMethodFactory();
messageHandlerMethodFactory.setMessageConverter(consumerJackson2MessageConverter());
return messageHandlerMethodFactory;
}
#Bean
public MappingJackson2MessageConverter consumerJackson2MessageConverter() {
return new MappingJackson2MessageConverter();
}
#Bean
public RabbitTemplate rabbitTemplate() {
RabbitTemplate rabbitTemplate = new RabbitTemplate(connectionFactory);
rabbitTemplate.setMessageConverter(new Jackson2JsonMessageConverter());
return rabbitTemplate;
}
#Bean
public AmqpAdmin amqpAdmin() {
return new RabbitAdmin(connectionFactory);
}
#Bean(name = "rabbitListenerContainerFactory")
public SimpleRabbitListenerContainerFactory simpleRabbitListenerContainerFactory(
SimpleRabbitListenerContainerFactoryConfigurer configurer,
ConnectionFactory connectionFactory) {
SimpleRabbitListenerContainerFactory factory = new SimpleRabbitListenerContainerFactory();
FixedBackOff recoveryBackOff = new FixedBackOff(10000,FixedBackOff.UNLIMITED_ATTEMPTS);
factory.setRecoveryBackOff(recoveryBackOff);
configurer.configure(factory, connectionFactory);
return factory;
}
Whit this methods i create and start listener:
#Service
public class RabbitMQService {
#RabbitListener(queues = "${queueName}", autoStartup = "false", id = "commandQueue")
public void receive(CommandDataDTO commandDataDTO) {
public void receive(Object rMessage) {
doSomething(rMessage);
}
public void createQueue() {
Queue queue = new Queue("queueName"), true, false, false);
Binding binding = new Binding("queueName"),
Binding.DestinationType.QUEUE, env.getProperty("spring.rabbitmq.exchange"),"rKey",
null);
admin.declareQueue(queue);
admin.declareBinding(binding);
startListener();
}
//When queue is active we start Listener
public void startListener() {
boolean isQueuqReady = false;
while (!isQueuqReady) {
Properties p = admin.getQueueProperties(env.getProperty("management.registry.info.device-type") + "_"
+ env.getProperty("management.registry.info.device-specific-type"));
if (p != null) {
log.info("Rabbit queue is up. Start listener.");
isQueuqReady = true;
registry.getListenerContainer("commandQueue").start();
}
}
}
Problem is that I want, regardless of whether there is a connection or not with the rabbit, the application to be able to work and, accordingly, to intercept when there is a connection and when not to do different actions.
I need to send and receive SQS message as I do it in rabbitmq. So I need to do that synchronously.
The issue is, if I use #SqsListener in spring boot,the method never invoked if it has a signature other than (String s). Any other signature does not simply work, method is not triggering.
My config is:
#Bean
public QueueMessagingTemplate queueMessagingTemplate() {
return new QueueMessagingTemplate(amazonSQSAsync());
}
#Bean
public AmazonSQSAsync amazonSQSAsync() {
return AmazonSQSAsyncClientBuilder.standard().withRegion(Regions.US_EAST_1)
.withCredentials(new AWSStaticCredentialsProvider(new BasicAWSCredentials(awsAccessKey, awsSecretKey)))
.build();
}
#Bean
public SimpleMessageListenerContainer simpleMessageListenerContainer() {
SimpleMessageListenerContainer msgListenerContainer = simpleMessageListenerContainerFactory()
.createSimpleMessageListenerContainer();
msgListenerContainer.setMessageHandler(queueMessageHandler());
return msgListenerContainer;
}
#Bean
public SimpleMessageListenerContainerFactory simpleMessageListenerContainerFactory() {
SimpleMessageListenerContainerFactory msgListenerContainerFactory = new SimpleMessageListenerContainerFactory();
msgListenerContainerFactory.setAmazonSqs(amazonSQSAsync());
return msgListenerContainerFactory;
}
#Bean
public QueueMessageHandler queueMessageHandler() {
QueueMessageHandlerFactory queueMsgHandlerFactory = new QueueMessageHandlerFactory();
queueMsgHandlerFactory.setAmazonSqs(amazonSQSAsync());
QueueMessageHandler queueMessageHandler = queueMsgHandlerFactory.createQueueMessageHandler();
List<HandlerMethodArgumentResolver> list = new ArrayList<>();
HandlerMethodArgumentResolver resolver = new PayloadArgumentResolver(new MappingJackson2MessageConverter());
list.add(resolver);
list.add( new HeaderMethodArgumentResolver(null, null));
queueMessageHandler.setArgumentResolvers(list);
return queueMessageHandler;
}
and receiver is:
#SqsListener(value = {"${cloud.aws.end-point.uri}"}, deletionPolicy = SqsMessageDeletionPolicy.ALWAYS)
public void receive(String message) {
System.out.println("Inside receive: " + message);
}
If this method has any other signature, it will not even be triggered. What should I do to retrieve a raw aws Message here to use in AwsSQSResponder?
Have you tried the #Payload annotation?
#SqsListener(value = {"${cloud.aws.end-point.uri}"}, deletionPolicy = SqsMessageDeletionPolicy.ALWAYS)
public void receive(#Payload String message) {
System.out.println("Inside receive: " + message);
}
I have an application (Microservice like) which should send and receives messages from other applications (Microservices). The application has several publishers with every publisher publishing to a specific queue as well as several subscriber classes with each subscriber subscribing to only one queue. Unfortunately, my subscriber classes are consuming the same messages I publish. How should I go about it?
Here is my code:
a) Publisher 1 - does not have a listener method since it only publishes to my.queues.queue1
#Configuration
public class RabbitQueue1Publisher{
private static final String QUEUE_NAME = "my.queues.queue1";
#Bean
public ConnectionFactory connectionFactory() {
CachingConnectionFactory connectionFactory = new CachingConnectionFactory("http://127.0.0.1:1675");
connectionFactory.setUsername("guest");
connectionFactory.setPassword("guest");
return connectionFactory;
}
#Bean
public Queue simpleQueue() {
return new Queue(QUEUE_NAME);
}
#Bean
public MessageConverter jsonMessageConverter(){
return new Jackson2JsonMessageConverter();
}
#Bean
public RabbitTemplate rabbitTemplate() {
RabbitTemplate template = new RabbitTemplate(connectionFactory());
template.setRoutingKey(QUEUE_NAME);
template.setMessageConverter(jsonMessageConverter());
return template;
}
}
b) Publisher 2 - also does not have a listener method since it only publishes to my.queues.queue2
#Configuration
public class RabbitQueue2Publisher{
private static final String QUEUE_NAME = "my.queues.queue2";
#Bean
public ConnectionFactory connectionFactory() {
CachingConnectionFactory connectionFactory = new CachingConnectionFactory("http://127.0.0.1:1675");
connectionFactory.setUsername("guest");
connectionFactory.setPassword("guest");
return connectionFactory;
}
#Bean
public Queue simpleQueue() {
return new Queue(QUEUE_NAME);
}
#Bean
public MessageConverter jsonMessageConverter(){
return new Jackson2JsonMessageConverter();
}
#Bean
public RabbitTemplate rabbitTemplate() {
RabbitTemplate template = new RabbitTemplate(connectionFactory());
template.setRoutingKey(QUEUE_NAME);
template.setMessageConverter(jsonMessageConverter());
return template;
}
}
c) Consumer 1 - consumes from queue3. Has a listener method
#Configuration
public class RabbitQueue3Subscriber{
private static final String QUEUE_NAME = "my.queue.queue3";
#Autowired
private Queue3Listener Queue3Listener;
#Bean
public ConnectionFactory connectionFactory() {
CachingConnectionFactory connectionFactory = new CachingConnectionFactory("http://127.0.0.1:15672");
connectionFactory.setUsername("guest");
connectionFactory.setPassword("guest");
return connectionFactory;
}
#Bean
public Queue simpleQueue() {
return new Queue(QUEUE_NAME);
}
#Bean
public MessageConverter jsonMessageConverter(){
return new Jackson2JsonMessageConverter();
}
#Bean
public RabbitTemplate rabbitTemplate() {
RabbitTemplate template = new RabbitTemplate(connectionFactory());
template.setRoutingKey(QUEUE_NAME);
template.setMessageConverter(jsonMessageConverter());
return template;
}
#Bean
public SimpleMessageListenerContainer userListenerContainer() {
SimpleMessageListenerContainer listenerContainer = new SimpleMessageListenerContainer();
listenerContainer.setConnectionFactory(connectionFactory());
listenerContainer.setQueues(simpleQueue());
listenerContainer.setMessageConverter(jsonMessageConverter());
listenerContainer.setMessageListener(Queue3Listener);
listenerContainer.setAcknowledgeMode(AcknowledgeMode.AUTO);
return listenerContainer;
}
}
d) Consumer 2 - consumes from queue4. Has a listener method
#Configuration
public class RabbitQueue4Subscriber{
private static final String QUEUE_NAME = "my.queue.queue4";
#Autowired
private Queue4Listener Queue4Listener;
#Bean
public ConnectionFactory connectionFactory() {
CachingConnectionFactory connectionFactory = new CachingConnectionFactory("http://127.0.0.1:15672");
connectionFactory.setUsername("guest");
connectionFactory.setPassword("guest");
return connectionFactory;
}
#Bean
public Queue simpleQueue() {
return new Queue(QUEUE_NAME);
}
#Bean
public MessageConverter jsonMessageConverter(){
return new Jackson2JsonMessageConverter();
}
#Bean
public RabbitTemplate rabbitTemplate() {
RabbitTemplate template = new RabbitTemplate(connectionFactory());
template.setRoutingKey(QUEUE_NAME);
template.setMessageConverter(jsonMessageConverter());
return template;
}
#Bean
public SimpleMessageListenerContainer userListenerContainer() {
SimpleMessageListenerContainer listenerContainer = new SimpleMessageListenerContainer();
listenerContainer.setConnectionFactory(connectionFactory());
listenerContainer.setQueues(simpleQueue());
listenerContainer.setMessageConverter(jsonMessageConverter());
listenerContainer.setMessageListener(Queue4Listener);
listenerContainer.setAcknowledgeMode(AcknowledgeMode.AUTO);
return listenerContainer;
}
}
Though I am publishing and consuming to/from different queues, I end up consuming the same messages I produce. Can someone point out what I am doing wrong or suggest the way to do it?
Here is how it works for me. I have publisher and a consumer of Rabbitmq. Doesn't mater if they are part of the same project or different.
Publisher:
Publisher Configuration
#Configuration
class PublisherConfig{
String queueName = "com.queueName";
String routingKey = "com.routingKey";
String exchange = "com.exchangeName";
#Bean
Queue queue() {
return new Queue(queueName, false);
}
#Bean
TopicExchange exchange() {
return new TopicExchange(exchange);
}
#Bean
Binding binding(Queue queueFoo, TopicExchange exchange) {
return BindingBuilder.bind(queueFoo).to(exchange).with(routingKey);
}
//Required only if you want to pass custom object as part of payload
#Bean
public MappingJackson2MessageConverter jackson2Converter() {
return new MappingJackson2MessageConverter();
}
}
Publish Message
#Autowired private RabbitMessagingTemplate rabbitMessagingTemplate;
#Autowired private MappingJackson2MessageConverter mappingJackson2MessageConverter;
rabbitMessagingTemplate.setMessageConverter(this.mappingJackson2MessageConverter);
rabbitMessagingTemplate.convertAndSend(exchange, routingKey, employObj)
Consumer
Consumer Configuration
#Configuration
public class RabbitMQConfiguration implements RabbitListenerConfigurer {
public MappingJackson2MessageConverter jackson2Converter() {
return new MappingJackson2MessageConverter();
}
#Bean
public DefaultMessageHandlerMethodFactory handlerMethodFactory() {
DefaultMessageHandlerMethodFactory factory = new DefaultMessageHandlerMethodFactory();
factory.setMessageConverter(jackson2Converter());
return factory;
}
#Override
public void configureRabbitListeners(RabbitListenerEndpointRegistrar registrar) {
registrar.setMessageHandlerMethodFactory(handlerMethodFactory());
}
}
Listen a Message
#RabbitListener(queues = "com.queueName")
public void receiveMessage(Employee employee) {
// More code
}
You can encapsulate Publisher and Listener configurations in two different #configuration files.
Hope this helps you
P.S.
OP asked for explanation. Here it is:
Exchange and Routing Key
Publisher publishes a message to an exchange with a particular routing key. Routing key helps to differentiate the type of message it is.
Suppose:
Send all user logged in messages with routing key of 'user_logged_in'.
Send all email sent messages with 'email_sent'.
Queue:
Once the routing key is attached with the exchange there comes a queue.
Queue is attached a exchange and routing key and all the published messages will sit in this queue.
Now consumer explicitly, connects to such queues and listen messages.
So queue name in publisher config and consumer config has to be the same.
Once your publisher is up you can actually visit RabbitMq dashboard
and see the exchange, routing key and queue to see how it works.
In my project i am having 3 Classes App(Publisher), PojoListener(Receiver) , Config(bind both App and PojoListner). But i need to separate out the PojoListener from my project and deploy somewhere else so that my Listener class will continuous listen to the Rabbit Mq and ack the messages back to queue and then to App Class for any messages published by my App class.
As my config file is common for both Publisher and Receiver. Is there any way to seperate out them. I need to deploy my receiver on different server and Publisher on different. Both will listen to common queues.
**App.java** :
public class App {
public static void main(String[] args) throws UnsupportedEncodingException {
ApplicationContext context = new AnnotationConfigApplicationContext(RabbitMQConfig.class);
RabbitTemplate rabbitTemplate = context.getBean(RabbitTemplate.class);
String response = (String) rabbitTemplate.convertSendAndReceive("message from publisher");
System.out.println("message sent");
System.out.println("response from :" + response);
}
}
PojoListener.java :
public class PojoListener {
public String handleMessage(String msg) {
System.out.println("IN POJO RECEIVER!!!");
return msg.toUpperCase();
}
}
RabbitMQConfig.java :
#Configuration
public class RabbitMQConfig {
#Bean
public ConnectionFactory rabbitConnectionFactory() {
CachingConnectionFactory connectionFactory = new CachingConnectionFactory();
connectionFactory.setHost("localhost");
connectionFactory.setUsername("guest");
connectionFactory.setPassword("guest");
return connectionFactory;
}
#Bean
public RabbitTemplate fixedReplyQRabbitTemplate() {
RabbitTemplate template = new RabbitTemplate(rabbitConnectionFactory());
template.setExchange(ex().getName());
template.setRoutingKey("test");
template.setReplyQueue(replyQueue());
template.setReplyTimeout(60000);
return template;
}
#Bean
public SimpleMessageListenerContainer replyListenerContainer() {
SimpleMessageListenerContainer container = new SimpleMessageListenerContainer();
container.setConnectionFactory(rabbitConnectionFactory());
container.setQueues(replyQueue());
container.setMessageListener(fixedReplyQRabbitTemplate());
return container;
}
#Bean
public SimpleMessageListenerContainer serviceListenerContainer() {
SimpleMessageListenerContainer container = new SimpleMessageListenerContainer();
container.setConnectionFactory(rabbitConnectionFactory());
container.setQueues(requestQueue());
container.setMessageListener(new MessageListenerAdapter(new PojoListener()));
return container;
}
#Bean
public DirectExchange ex() {
return new DirectExchange("rabbit-exchange", false, true);
}
#Bean
public Binding binding() {
return BindingBuilder.bind(requestQueue()).to(ex()).with("test");
}
#Bean
public Queue requestQueue() {
return new Queue("request-queue-spring");
}
#Bean
public Queue replyQueue() {
return new Queue("response-queue-spring");
}
#Bean
public RabbitAdmin admin() {
return new RabbitAdmin(rabbitConnectionFactory());
}
}
#Configuration
#Component
public class GatewayAqrConfig {
#Autowired
ConnectorService connectorService;
#Autowired
MasterService masterService;
private HashMap<ConnectorPK, GatewayAqr> connectorMap;
#Bean
#Scope(value = "prototype")
public AbstractClientConnectionFactory clientCF(Connector connector , Master master) {
TcpNetClientConnectionFactory clientConnectionFactory = new TcpNetClientConnectionFactory(connector.getAqrIpAddr(), connector.getAqrIpPortNo());
clientConnectionFactory.setSingleUse(false);
MyByteArraySerializer obj = new MyByteArraySerializer(master.getAqrMsgHeaderLength(), master.getAqrId());
clientConnectionFactory.setSerializer(obj);
clientConnectionFactory.setDeserializer(obj);
clientConnectionFactory.setSoKeepAlive(true);
TcpMessageMapper tcpMessageMapper = new TcpMessageMapper();
tcpMessageMapper.setCharset("ISO-8859-1");
clientConnectionFactory.setMapper(tcpMessageMapper);
clientConnectionFactory.setBeanName(connector.getAqrIpAddr() + ":" + connector.getAqrIpPortNo());
clientConnectionFactory.afterPropertiesSet();
clientConnectionFactory.start();
return clientConnectionFactory;
}
#Bean
#Scope(value = "prototype")
public TcpSendingMessageHandler tcpOutGateway(AbstractClientConnectionFactory connectionFactory) {
TcpSendingMessageHandler messageHandler = new TcpSendingMessageHandler();
messageHandler.setConnectionFactory(connectionFactory);
messageHandler.setClientMode(true);
messageHandler.setTaskScheduler(getTaskScheduler());
messageHandler.setStatsEnabled(true);
messageHandler.afterPropertiesSet();
messageHandler.start();
return messageHandler;
}
#Bean
#Scope(value = "prototype")
public TcpReceivingChannelAdapter tcpInGateway(AbstractClientConnectionFactory connectionFactory) {
TcpReceivingChannelAdapter messageHandler = new TcpReceivingChannelAdapter();
messageHandler.setConnectionFactory(connectionFactory);
messageHandler.setClientMode(true);
messageHandler.setOutputChannel(receive());
messageHandler.setAutoStartup(true);
messageHandler.setTaskScheduler(getTaskScheduler());
messageHandler.afterPropertiesSet();
messageHandler.start();
return messageHandler;
}
#Bean
#Scope(value = "prototype")
public TaskScheduler getTaskScheduler() {
TaskScheduler ts = new ThreadPoolTaskScheduler();
return ts;
}
#Bean
public MessageChannel receive() {
QueueChannel channel = new QueueChannel();
return channel;
}
#Bean(name = PollerMetadata.DEFAULT_POLLER)
public PollerMetadata poller() {
return new PollerMetadata();
}
#Bean
#Transactional
public HashMap<ConnectorPK, GatewayAqr> gatewayAqr() throws Exception {
connectorMap = new HashMap();
Connector connector = null;
ConnectorPK connectorPK = null;
Master master = null;
TcpConnectionSupport connectionSupport = null;
// 1. Get List of Connections configured in Database
List<Connector> connectors = connectorService.getConnections();
if (connectors.size() > 0) {
for (int i = 0; i < connectors.size(); i++) {
// 2. Get the connection details
connector = connectors.get(i);
connectorPK = aqrConnector.getConnectorpk();
master = masterService.findById(connectorPK.getAcuirerId());
try {
// 3. Create object of TcpNetClientConnectionFactory for each Acquirer connection
AbstractClientConnectionFactory clientConnectionFactory = clientCF(aqrConnector, aqrMaster);
// 4. Create TcpSendingMessageHandler for the Connection
TcpSendingMessageHandler outHandler = tcpOutGateway(clientConnectionFactory);
// 5. Create TcpReceivingChannelAdapter object for the Connection and assign it to receive channel
TcpReceivingChannelAdapter inHandler = tcpInGateway(clientConnectionFactory);
// 6. Generate the GatewayAqr object
GatewayAqr gatewayAqr = new GatewayAqr(clientConnectionFactory, outHandler, inHandler);
// 7. Put in the MAP acuirerPK and Send MessageHandler object
connectorMap.put(aqrConnectorPK, gatewayAquirer);
} catch (Exception e) {
}
} // for
} // if
return connectorMap;
}
}
*********************************************************************************************************************************
#EnableIntegration
#IntegrationComponentScan(basePackageClasses = {GatewayEventConfig.class,GatewayAqrConfig.class })
#Configuration
#ComponentScan(basePackages = {"com.iz.zw.gateway.impl", "com.iz.zw.configuration"})
#Import({GatewayEventConfig.class,GatewayAquirerConfig.class})
public class GatewayConfig {
#Autowired
private GatewayAsyncReply<Object, Message<?>> gatewayAsyncReply;
#Autowired
private GatewayCorrelationStrategy gatewayCorrelationStrategy;
#Autowired
private HashMap<ConnectorPK, GatewayAqr> gatewayAqrs;
#Autowired
ConnectorService connectorService;
#Autowired
GatewayResponseDeserializer gatewayResponseDeserializer;
#MessagingGateway(defaultRequestChannel = "send")
public interface Gateway {
void waitForResponse(TransactionMessage transaction);
}
#Bean
public MessageChannel send() {
DirectChannel channel = new DirectChannel();
return channel;
}
#Bean
#ServiceActivator(inputChannel = "send")
public BarrierMessageHandlerWithLateGoodResponse barrier() {
BarrierMessageHandlerWithLateGoodResponse barrier = new BarrierMessageHandlerWithLateGoodResponse(25000, this.gatewayCorrelationStrategy);
barrier.setAsync(true);
barrier.setOutputChannel(out());
barrier.setDiscardChannel(lateGoodresponseChannel());
return barrier;
}
#ServiceActivator(inputChannel = "out")
public void printMessage(Message<?> message) {
System.out.println("in out channel");
}
#Transformer(inputChannel = "receive", outputChannel = "process")
public TransactionMessage convert(byte[] response) {
logger.debug("Response Received", Arrays.toString(response));
TransactionMessage transactionMessage = gatewayResponseDeserializer.deserializeResponse(response);
System.out.println("Response : " + response);
return transactionMessage;
}
#ServiceActivator(inputChannel = "process")
#Bean
public MessageHandler releaser() {
return new MessageHandler() {
#Override
public void handleMessage(Message<?> message) throws MessagingException {
try {
gatewayAsyncReply.put(message);
barrier().trigger(message);
} catch (GatewayLateGoodMessageException exception) {
System.out.println("Late good response..!");
gatewayAsyncReply.get(message);
lateGoodresponseChannel().send(message);
}
}
};
}
#Bean
public MessageChannel process() {
QueueChannel channel = new QueueChannel();
return channel;
}
#Bean
public MessageChannel out() {
DirectChannel channel = new DirectChannel();
return channel;
}
#Bean
public MessageChannel lateGoodresponseChannel() {
QueueChannel channel = new QueueChannel();
return channel;
}
#ServiceActivator(inputChannel="lateGoodresponseChannel")
public void handleLateGoodResponse(Message<?> message) {
String strSTAN = null;
String strResponse = null;
Message<?> respMessage = null;
if(message instanceof TransactionMessage){
strSTAN = ((TransactionMessage)message).getStan();
respMessage = gatewayAsyncReply.get(strSTAN);
if (null != respMessage) {
strResponse = (String) message.getPayload();
}
}
logger.info("Late Good Response: " + strResponse);
}
}
*********************************************************************************************************************************
#Configuration
public class GatewayEventConfig {
private static final Logger logger = LoggerFactory.getLogger(GatewayEventConfig.class);
#Bean
public ApplicationEventListeningMessageProducer tcpEventListener() {
ApplicationEventListeningMessageProducer producer = new ApplicationEventListeningMessageProducer();
producer.setEventTypes(new Class[] {TcpConnectionOpenEvent.class, TcpConnectionCloseEvent.class, TcpConnectionExceptionEvent.class});
producer.setOutputChannel(tcpEventChannel());
producer.setAutoStartup(true);
producer.setTaskScheduler(getEventTaskScheduler());
producer.start();
return producer;
}
#Bean
public TaskScheduler getEventTaskScheduler() {
TaskScheduler ts = new ThreadPoolTaskScheduler();
return ts;
}
#Bean
public MessageChannel tcpEventChannel() {
return new QueueChannel();
}
#Transactional
#ServiceActivator(inputChannel = "tcpEventChannel")
public void tcpConnectionEvent(TcpConnectionEvent event) {
System.out.println("In publishing" + event.toString());
String strConnectionFactory = event.getConnectionFactoryName();
if (strConnectionFactory.equals("connection1")) {
//send some message to connector
} else {
// send message to another connector
}
}
}
this is my configuration files, my application tries to connect to 2 servers as soon as it starts.
I have made 2 configurations for 2 servers as above class
GatewayAqrConfig1 and GatewayConfig1 classes are used for first server connection
GatewayAqrConfig2 and GatewayConfig2 classes are used for second server connection
Using event I am connecting to server and sending a connection set up message, if server is already started and If I have started my application,
it gets the event, connects and sends the message but I am not getting the response instead I am getting the WARNING as below
**WARN TcpNetConnection:186 - Unexpected message - no endpoint registered with connection interceptor:**
i.e connection does not registers the listener properly
but if I am starting my application first and then servers I am getting responses perfectly, As I am connecting to servers
I could not restart it ? My application should connect to server which is already started ? what could be the problem ?
Version used:
Spring integration Version : 4.3.1
Spring version : 4.3.2
JDK 1.8 on JBOSS EAP 7
That WARN message means that, somehow, an inbound message was received without a TcpReceivingChannelAdapter having been registered with the connection factory. Client mode should make no difference.
Having looked at your code a little more, the prototype beans should be ok, as long as you use those objects (especially TcpMessageHandler directly rather than via the framework).
It's not obvious to me how that can happen, given your configuration; the listener is registered when you call setConnectionFactory on the receiving adapter.
If you can reproduce it with a trimmed-down project and post it someplace, I will take a look.