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How to use DFU OTA with custom FW

rmarques

Hello, we are using 3 nRF52840 DKs, NSDK 15.2, Mesh SDK 3.1.0, SoftDevice 6.1.0 and Segger Embbeded Studio as my IDE.

I have followed the documentation here to program some boards over the air and had SOME success.

I understood that the process has 5 major steps

1 - Generate private and public keys

2 - Generate DFU archive using an application hex file and the private key

3 - Generate Device Page, adding the public key to the <bootloader_config_default.json> file

4 - Flash SoftDevice, Serial Bootloader, first application (examples/dfu) and Device Page in this order in every device

5 - Transfer the DFU archive over serial to one of the boards that then transmits the DFU archive in chunks to the boards in the vicinity.

I could follow the example, and we think the DFU chunks went through since we got the percentages on screen of the transfer and "Device programmed" in the end. The led's didn't start blinking though, and we would like to generate a DFU archive using the blinky example to check that.

We tried using nrfutil to generate a DFU archive like previously, but using the blinky hex file that Segger outputs, to the nRF5_SDK_15.2.0_9412b96/examples/peripheral/blinky/pca10056/blank/ses/Output/Release/Exe folder, but got an error that said ValueError: tobinarray: wrong value for size. We inspected the memory map of the DKs after programming the example DFU application using nRFConnect and in fact noticed something odd...

The Application part of the program on the DKs is huge compared to the blinky one. This leads us to think that we just cannot pick any random hex to transmit via DFUOTA.

What we would like to know is how to adapt an application to be able to be transfered using DFUOTA. We could not find anything about it in the documentation.

Also, what is included in a hex file that is compiled using segger? We normally use segger to compile and program the boards, so we didn't have to bother with that until now. Is the soft device included by default? Is it programmed separately? What about the bootloader?

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  • 0

    Hi Rmarques, 

    Most likely it was the bug in our SDK v3.1 causing the issue. 

    You can have a look here : https://devzone.nordicsemi.com/f/nordic-q-a/46950/problem-with-mesh-dfu

    Especially the fix with optimal_bank_address()

    However the bug should be solved in SDK v3.2. Could you give it a try ? 

  • 0 in reply to Hung Bui

    I think I figured it out.

    Firstly, I had some problems in my script. I am still not 100% sure it was from that, but I can now use any one of the 3 boards to initiate the DFU transfer reliably, I tried each once and every time it worked.

    Secondly, after moving to Mesh SDK v3.2 and Nordic SDK 15.3 AND discarding signature verification (can't tell what caused the following result), nRFConnect now shows me this

    The third block from the bottom is the example blinky application in meshsdk/bin/blinky and the forth block in black/dark grey is the rest of the dfu example application that the documentation advises to program into the board the first time.

    What I THINK is happening is that after programming the blinky application once, the boards cannot be reprogrammed anymore over the air since the application that took care of that does not exist anymore. That forth block from the bottom is just junk. Am I right? Is the application responsible for handling the DFU packets? Or is the mbr/bootloader/softdevice the only parts taking care of that?

    Answering this would answer my original question, I would need to include in my applications the code that is part of the DFU example.

  • 0 in reply to rmarques

    Hi Rmarques, 

    You are correct. After you has updated your application to the blinky example it won't be able to be updated (without manually switching it to bootloader mode). 

    You need to integrate DFU feature into your application to do mesh DFU (without manually put it to bootloader mode). To do that you would need to follow this guide

    The dfu project is a good source for reference. 

Reply
  • 0 in reply to rmarques

    Hi Rmarques, 

    You are correct. After you has updated your application to the blinky example it won't be able to be updated (without manually switching it to bootloader mode). 

    You need to integrate DFU feature into your application to do mesh DFU (without manually put it to bootloader mode). To do that you would need to follow this guide

    The dfu project is a good source for reference. 

Children
  • 0 in reply to Hung Bui
    Hung Bui said:
    You are correct. After you has updated your application to the blinky example it won't be able to be updated (without manually switching it to bootloader mode). 

    Thank you! After reading the documentation (for 3.1.0 at least), I was unsure if the bootloader handled background updating of the application or if that was only possible if a DFU compatible application took care of that. If I understood correctly, if the application does not have the DFU feature it cannot be updated in background, only in bootloader mode, is that right?

    Hung Bui said:
    You need to integrate DFU feature into your application to do mesh DFU (without manually put it to bootloader mode). To do that you would need to follow this guide

    Ah! That guide wasn't present in 3.1.0! :) That is exactly what I was looking for.

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