Asynchronous Routing

Last modified by Danniar Firdausy on 2024/09/04 09:01

In this microlearning, we will dive into the essentials of asynchronous routing and its importance in managing message distribution within the five-layer messaging model. We will cover the key concepts, including how to route messages efficiently and manage output control. 

If you have any questions along the way, feel free to reach out to us at academy@emagiz.com.

1. Prerequisites

  • Basic knowledge of the eMagiz platform

2. Key concepts

This microlearning centers around asynchronous routing for messaging flows in eMagiz.

  • With asynchronous routing we mean: The process that routes messages that it receives to the correct outbound queue based on some metadata.

3. Asynchronous routing

Asynchronous routing plays a crucial role in the distribution of messages it receives to one or more offramps. In eMagiz, the asynchronous routing has three relevant parts:

  • All asynchronous onramps that send data to the routing.
  • Based on a decision made within the routing the message is routed to one or more offramp queues.
  • Each offramp queue will receive data based on the decision unless you add another filter before the messages are sent to the offramp queue.

3.1 Make a decision

In asynchronous routing, you can build your decision model on which the routing needs to make the decision.

The best practice for setting up your asynchronous routing process is to use one SpEL expression that determines to which offramp queues a messages needs to be routed. The SpEL expression looks as follows:


headers.{technicalnameofproject}\_targetSystem.split(',').![#this.trim()+#root.headers.{technicalnameofproject}_messageType]
               

This SpEL expression does the following things:

  • It looks for the header called {technicalnameofproject}\_targetSystem and will split each entry based on the separator (a comma)
  • It will trim the result of this split and combine it the value in the header called {technicalnameofproject}\_messageType
  • For every unique combination it will search to a pre-configured list to see to which channel the message should be sent

In the standard router component this will look as follows:

crashcourse-messaging-asynchronous-routing--routing-decision.png

In this simple case, we only have one channel as a result because all routings start simple.
The moment you add new offramps to your project you need to add the new entry(s) to this list.
Doing so is easy when you are in Start Editing Mode. Simply open the router component and select the button New Mapping

crashcourse-messaging-asynchronous-routing--new-value-mapping.png

In here you fill in the correct unique combination of a target system and the message type and select the channel you want to route the message to.
When you are satisfied you can press Save and the new entry will be registered in eMagiz.

Don't forget to make a new version and deploy it to actualize your changes.

3.2 Control output

As the asynchronous routing plays a role in routing messages between all asynchronous flows in the messaging solution you can imagine that making changes does not need to happen lightly. The other aspect is that when multiple projects are being built at the same time the asynchronous routing will house a multitude of changes that need to go to Acceptance or Production at the same time.

One control mechanism we consider a best practice to guard yourself against those risks is to add a filter before data is placed on the offramp queue.
By doing this consistently you can control when a specific offramp can receive data on any environment. In other words, when a certain system is not ready yet to receive data on Acceptance or Production but is ready on Test you can control this behavior with this solution.

Below you see how this will look on flow level.

crashcourse-messaging-asynchronous-routing--filter-construction.png

When we zoom in on the filter component we see a simple SpEL expression that checks the value of a certain property.
When the value of the property is true the message can pass. If the value of the property is any other value the message will be halted.
The best practice would be to work with false to get clarity on what the intended use of the property value is.

crashcourse-messaging-asynchronous-routing--filter-configuration.png

3.4 Step by step guide

Furthermore, as a best practice, we give you a short guide that you can add to your asynchronous routing as annotations
to ensure that you always know what you need to do to make this a reality.

Steps to follow when adding an integration to the routing Part I:

  • Add a header in the onramp named {technicalnameofproject}\_targetSystem (if this is not done yet)
  • Fill this header with a value that should be defined as a property (naming convention = systemname.messagetype.targetsystems)
  • This property should be created in Test, Accp, and Prod and filled with all target systems for a certain message type (notation = systemname1,systemname2,systemname3)
  • In the routing a standard router should be used as the first building block after receiving the input.

Part II

  • In this standard router a SpelExpression has to be defined once that concatenates the following headers: {technicalnameofproject}\_targetSystem and {technicalnameofproject}\_messageType.
  • For every unique combination there is a value that should be specified alongside the channel on which to put the message (this should be a channel that ultimately leads to the correct offramp queue)
  • For every channel that leads to a JMS outbound channel adapter a filter needs to be added to make sure that each output option can be turned on or off easily. This to prevent that messages are sent to a system that does not expect them then
  • This filter should look like this: '${routing.monitor.detorem.enabled}' == 'true'. The naming convention of said property is routing.targetsystem.messagetype.enabled.

3.5 The result

The result of setting up your asynchronous routing in this manner
is that you have one single point of entry, one single piece of decision logic, and a way to control the output per specific output channel.

crashcourse-messaging-asynchronous-routing--simple-asynchronous-routing-example.png

4. Key takeaways

  • Centralize Decision Making: Use a single component to determine how messages are routed to different channels.
  • Output Control: Implement filters to manage when data is sent to each queue, ensuring messages are only routed when appropriate.
  • Documentation: Use the annotations within your asynchronous routing setup to document and maintain clarity of the configuration.

5. Suggested Additional Readings

If you are interested in this topic and want more information on it please read the help text provided by eMagiz and read the following link: