Azure Service Bus Cloud Connector
The Microsoft Azure Service Bus allows code that runs both outside and inside Azure to communicate with Azure.
In order to connect to Azure, the AzureSBRAR-0.1.0-SNAPSHOT.rar
has to
be deployed as shown in the
Installing a connector section of the Cloud Connectors overview.
In order to make use of this connector in an application, the following maven dependency is needed:
<dependency>
<groupId>fish.payara.cloud.connectors</groupId>
<artifactId>AzureSBJCAAPI</artifactId>
<version>0.1.0-SNAPSHOT</version>
<type>jar</type>
<scope>provided</scope>
</dependency>
Note that this dependency have scope provided since the types within this
dependency are globally available to every application deployed to Payara Micro
after the AzureSBRAR-0.1.0-SNAPSHOT.rar
was deployed.
Sending messages
Sending messages to Azure can be done via the JCA and an Azure specific API. In order to start using this API to send messages, a resource has to be defined via the JCA API; a connection factory.
The connection factory has to be given a name, which can be any name that is
valid for JNDI. The java:app
namespace is typically recommended to be used.
The type of the connection factory to be used for the Azure Service Bus is
fish.payara.cloud.connectors.azuresb.api.AzureSBConnectionFactory
, and we have
to specify the resource adapter name which is here AzureSBRAR-0.1.0-SNAPSHOT
.
Finally the Azure credentials have to be specified.
The following gives an example:
@ConnectionFactoryDefinition (
name = "java:app/azuresb/factory",
interfaceName = "fish.payara.cloud.connectors.azuresb.api.AzureSBConnectionFactory",
resourceAdapter = "AzureSBRAR-0.1.0-SNAPSHOT"
properties = {"nameSpace=payara", "sasKeyName=RootManageSharedAccessKey", "sasKey=someKey"}
)
With the above shown definition in place the following code shows an example of sending a message:
@Singleton
@Startup
public class SendAzureMessage {
@Resource(lookup = "java:app/azuresb/factory")
private AzureSBConnectionFactory factory;
@PostConstruct
public void init() {
try (AzureSBConnection connection = factory.createConnection()) {
connection.sendMessage("testq", new BrokeredMessage("Hello World"));
}
catch (Exception ex) {
}
}
Receiving messages
Messages can be received from Azure by creating an MDB (Message Driven Bean)
that implements the fish.payara.cloud.connectors.azuresb.api.AzureSBListener
marker interface and has a single method annotated with @OnAzureSBMessage
and the method signature void method(BrokeredMessage message)
.
The following gives an example:
@MessageDriven(activationConfig = {
@ActivationConfigProperty(propertyName = "nameSpace", propertyValue = "payara"),
@ActivationConfigProperty(propertyName = "sasKeyName", propertyValue = "RootManageSharedAccessKey"),
@ActivationConfigProperty(propertyName = "sasKey", propertyValue = "someKey"),
@ActivationConfigProperty(propertyName = "queueName", propertyValue = "testq")
})
public class ReceiveAzureMessage implements AzureSBListener {
@OnAzureSBMessage
public void receiveMessage(BrokeredMessage message) {
// Handle message
}
}
The full list of config properties is given below:
Config Property Name | Type | Default | Notes |
---|---|---|---|
sasKeyName |
String |
none |
The SAS Key Name defined in your Service Bus namespace |
sasKey |
String |
none |
The SAS Key. Environment variable replacement can be used so that this is not exposed in the code |
nameSpace |
String |
none |
The Azure namespace of your Service Bus |
queueName |
String |
none |
The Queue Name (MDB property only) |
initialPollDelay |
Integer |
1 |
The Initial Poll Delay (in seconds) before the Adapter starts polling for messages after deployment (MDB Property Only) |
pollInterval |
Integer |
1 |
The Poll interval (in seconds). This is how often the MDB polls for new messages (MDB Property Only) |
pollTimeout |
Integer |
1 |
The Poll Timeout (in seconds). This is how long the MDB should wait for messages in a single poll (MDB Property Only) |