TTN V3 Connector Revisited

Earlier in the year I built Things Network(TTN) V2 and V3 connectors and after using these in production applications I have learnt a lot about what I had got wrong, less wrong and what I had got right.

Using a TTN V3 MQTT Application integration wasn’t a great idea. The management of state was very complex. The storage of application keys in a app.settings file made configuration easy but was bad for security.

The use of Azure Key Vault in the TTNV2 connector was a good approach, but the process of creation and updating of the settings needs to be easier.

Using TTN device registry as the “single source of truth” was a good decision as managing the amount of LoRaWAN network, application and device specific configuration in an Azure IoT Hub would be non-trivial.

Using a Webhooks Application Integration like the TTNV2 connector is my preferred approach.

The TTNV2 Connector’s use of Azure Storage Queues was a good idea as they it provide an elastic buffer between the different parts of the application.

The use of Azure Functions to securely ingest webhook calls and write them to Azure Storage Queues with output bindingts should simplify configuration and deployment. The use of Azure Storage Queue input bindings to process messages is the preferred approach.

The TTN V3 processing of JSON uplink messages into a structure that Azure IoT Central could ingest is a required feature

The TTN V2 and V3 support for the Azure Device Provisioning Service(DPS) is a required feature (mandated by Azure IoT Central). The TTN V3 connector support for DTDLV2 is a desirable feature. The DPS implementation worked with Azure IoT Central but I was unable to get the DeviceClient based version working.

Using DPS to pre-provision devices in Azure IoT Hubs and Azure IoT Central by using the TTN Application Registry API then enumerating the TTN applications, then devices needs to be revisited as it was initially slow then became quite complex.

The support for Azure IoT Hub connection strings was a useful feature, but added some complexity. This plus basic Azure IoT Hub DPS support(No Azure IoT Central support) could be implemented in a standalone application which connects via Azure Storage Queue messages.

The processing of Azure IoT Central Basic, and Request commands then translating the payloads so they work with TTN V3 is a required feature. The management of Azure IoT Hub command delivery confirmations (abandon, complete and Reject) is a required feature.

I’m considering building a new TTN V3 connector but is it worth the effort as TTN has one now?