- Use case
- Prerequisites
- Step 1: Creating the Rule Chain
- Step 2: External server configuration
- Step 3: Validation the Rule Chain logic
- TL;DR
- Next steps
Use case
Let’s assume your device is sending temperature and humidity data to ThingsBoard. We will simulate the message sending to some external server using Rest API call node.
In this tutorial, we will configure ThingsBoard Rule Engine to use queue with retry failed and timeout messages processing strategy. Although this scenario is fictional, you will learn how to work with the queue to allow reprocessing messages in case of failure or timeout processing errors and use this knowledge in real-life applications.
Prerequisites
We assume you have completed the following guides and reviewed the articles listed below:
- Getting Started guide.
- Rule Engine Overview.
In addition, you need to have at least one device provisioned in your environment.
Step 1: Creating the Rule Chain
We will add a “Generator” node to simulate 6 messages with a 1-second delay.
All messages will be put into the queue with the name “HighPriority”. It uses the message process strategy called “RETRY_FAILED_AND_TIMED_OUT” (please, refer to configuration guide for more details) which means that the failed or timed out messages will be processed again.
Finally, the messages will be sent to the external server.
Step 2: External server configuration
Let’s assume we have a server ready to receive the messages. We have created a simple Controller in the Spring Boot Application for that. In addition, we have simulated every third message to be failed.
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@RestController
@RequestMapping("/api/v1/test")
@Slf4j
public class Controller {
private AtomicLong atomicLong = new AtomicLong(0);
@RequestMapping(value = {"/"}, headers = "Content-Type=application/json", method = {RequestMethod.POST})
@ResponseStatus(value = HttpStatus.OK)
public DeferredResult<ResponseEntity> processRequest(@RequestBody JsonNode msg) {
DeferredResult<ResponseEntity> deferredResult = new DeferredResult<>();
log.info("Received message: {}", msg);
long counter = atomicLong.incrementAndGet();
if (counter % 3 == 0) {
log.warn("Bad request: {}", msg);
deferredResult.setResult(new ResponseEntity<>("Bad Request", HttpStatus.BAD_REQUEST));
} else {
log.info("Success: {}", msg);
deferredResult.setResult(new ResponseEntity<>("Ok", HttpStatus.OK));
}
return deferredResult;
}
}
Step 3: Validation the Rule Chain logic
Let’s check that our logic is correct by saving the Rule Chain and launching the external server. The generator will start to produce messages:
“Checkpoint” node received six messages:
We can see that the next rest api call node, “Send Request”, processed eight messages.
Every third message (two out of initial six) is failed.
The last two messages are the ones that were needed to be reprocessed (the failed messages). That means that our logic works correctly.
TL;DR
Download and import attached json file with a rule chain from this tutorial. Don’t forget to populate the Generator nodes with your specific device.
Next steps
-
Getting started guides - These guides provide quick overview of main ThingsBoard features. Designed to be completed in 15-30 minutes.
-
Installation guides - Learn how to set up ThingsBoard on various available operating systems.
-
Connect your device - Learn how to connect devices based on your connectivity technology or solution.
-
Data visualization - These guides contain instructions on how to configure complex ThingsBoard dashboards.
-
IoT Data analytics - Learn how to use rule engine to perform basic analytics tasks.
-
Hardware samples - Learn how to connect various hardware platforms to ThingsBoard.
-
Advanced features - Learn about advanced ThingsBoard features.
