Update from nRF5 SDK to nRF Connect SDK

Hello,

For a month I have been trying to find a solution to update my devices which are at my customers (these devices have a bootloader, softdevice and app coming from the nrf5 SDK) to the mcuboot and app coming from the NCS SDK.

To do this, I relied on this link: https://devzone.nordicsemi.com/f/nordic-q-a/79571/dfu-update-from-nrf5-sdk-to-nrf-connect-sdk

Here are my steps:

  1. I modified the secure_bootloader_uart_mbr_pca10056_debug of the nrf5 SDK so that it accepts replacing the sofdevice and the app (nrf5 SDK) with my new app (NCS SDK):
    - comments "return NRF_ERROR_INTERNAL" in the sd_activate() function of the nrf_bootloader_fw_activation.c file
    - comments "result = false;" of the if(SD_MAGIC_NUMBER_GET(sd_start_addr) of the softdevice_info_ok(...) function of the nrf_dfu_validation.c file
  2. I created a file containing this bootloader patched with the softdevice and my app (nrf5 SDK):
    nrfutil settings generate --family NRF52840 --application BT840-FW-0.1.0.12.hex --application-version-string "1.0.12" --bootloader-version 3 --bl-settings-version 2 --softdevice BT840- SD-0.7.2.0.hex --key-file priv.pem bootloader_setting.hex
    mergehex --merge bootloader_setting.hex BT840-BL-0.3.hex --output boot_with_settings.hex
    mergehex --merge boot_with_settings.hex BT840-SD-0.7.2.0.hex --output boot_with_settingsAndSofdevice.hex
    mergehex --merge boot_with_settingsAndSofdevice.hex BT840-FW-0.1.0.12.hex --output firmware-BT840-HW3-SD7_2_0-BOOT3-FW1_0_12.hex
  3. I uploaded this file to my nrf52840
  4. To generate the update packages for the bootloader (MCUboot) and my app from the NCS SDK, I did this:
    nrfutile pkg generate --hw-version 3 --app-boot-validation VALIDATE_GENERATED_CRC --bootloader-version 4 --sd-req 0x0,0xCA,0x0100,0x0101 --bootloader Application/TA_Smart/mcuboot/zephyr/zephyr.hex - -key-file Application/child_image/key/mcuboot_private.pem BT840_update_with_boot.zip
    nrfuutil pkg generate --hw-version 3 --app-boot-validation VALIDATE_GENERATED_CRC --sd-req 0x0,0xCA,0x0100,0x0101 --softdevice Application/TA_Smart/zephyr/app_update.bin --key-file Application/child_image/ key/mcuboot_private.pem BT840_update_with_app.zip
  5. I send the DFU update of the softdevice
  6. Once it is finished, I send the bootloader DFU update

Here are the logs of these 2 updates:

 Test_update_to_new_sdk.log

Here is the memory map of my devices working with the nrf5 SDK:

mbr: 0x0 -> 0x1000
softdevice: 0x1000 -> 0x27000
app: 0x27000 -> 0xD0000 --------> the application uses BLE and Thread
storage: 0xD0000 -> 0xD1000
unused page: 0xD1000 + 0xE0000
ot_flash_data: 0xE0000 -> 0xE4000
bootloader: 0xE4000 -> 0xF0000
unused_page2: 0xF0000 -> 0xFE000
mbr_params_page: 0xFE000 -> 0xFF000
bootloader_settings_page: 0xFF000 -> 0x100000

Here is the content of my pm_static.yml from my project using the NCS SDK: 

mbr:
  address: 0x0
  region: flash_primary
  size: 0x1000
app:
  address: 0x1200
  region: flash_primary
  size: 0xD0E00
mcuboot:
  address: 0xE4000
  placement:
    after:
    - mcuboot_secondary
  region: flash_primary
  size: 0x1A000
mcuboot_pad:
  address: 0x1000
  placement:
    align:
      start: 0x1000
    before:
    - mcuboot_primary_app
  region: flash_primary
  size: 0x200
mcuboot_primary:
  address: 0x1000
  orig_span: &id001
  - app
  - mcuboot_pad
  region: flash_primary
  sharers: 0x1
  size: 0xD1000
  span: *id001
mcuboot_primary_app:
  address: 0x1200
  orig_span: &id002
  - app
  region: flash_primary
  size: 0xD0E00
  span: *id002
mcuboot_secondary:
  address: 0xD2000
  placement:
    after:
    - mcuboot_primary
    align:
      start: 0x1000
  region: flash_primary
  share_size:
  - mcuboot_primary
  size: 0x10000
settings_storage:
  address: 0xE2000
  placement:
    before:
    - mcuboot
  region: flash_primary
  size: 0x2000
mbr_params_page:
  address: 0xFE000
  region: flash_primary
  size: 0x1000
bootloader_settings_page:
  address: 0xFF000
  region: flash_primary
  size: 0x1000  
sram_primary:
  address: 0x20000000
  region: sram_primary
  size: 0x40000

Additional information:

  • After updating the softdevice (step 5), my file was written between address 0x1000 and address 0xC11DF (thus overwriting the old softdevice and app). On the other hand, in the logs, I see "<debug> nrf_dfu_validation: Hash verification. start address: 0x27000, size: 0x9A1D4": is it normal that it says "0x27000" and not "0x1000"?
  • If after this update, I send the bootloader (step 6), it also writes the file at address 0x1000 and not at address 0xE4000: do you know why?
  • If I update the bootloader before the softdevice, I see in the logs that it starts writing from address 0x99000 (in the logs and physically): why is it at this address?
  • It's obvious but of course, my project using the NCS SDK works when I use it with the immutable bootloader + MCUboot + app

Once I updated my device to MCUboot and the app from the NCS SDK, I no longer see anything in the RTT logs and I can't see which instruction the nrf52840 is stuck on.
Do you have any idea where the problem could be coming from?

Thank you

Parents Reply Children
  • Thank you.
    This link is very interesting but I don't have SPI flash in my hardware so unfortunately I won't be able to use this solution as is. In my hardware, the update file is saved in a larger microcontroller (STM32) with its external flash. This larger microcontroller communicates with the nrf52840 via uart and it's him who updates the nrf52840.

    I would like to test Vidar's solution on my test board (PCA10056) but unfortunately I can no longer launch an update with nrfutil (even though it worked a few years ago). When I use the command "nrfutil dfu serial -pkg BT840_update_with_boot_and_app.zip -p COM4 -b 115200 -prn 1", the update gets stuck at 0% even though I am sure it is in DFU mode.

    The only thing I don't understand in his example is how by writing the new app+boot instead of the old app, that it goes after re-writing these files at address 0x1000 (after the MBR) and the 'other file at the end of memory (bootloader)?

  • QuentinD said:
    This larger microcontroller communicates with the nrf52840 via uart and it's him who updates the nrf52840.

    Oh, then you can definitively use the Dongle method if you want.

    The downside of the donlge method is that you first upload the bootloader and then the new app, which works poorly if you use BLE.

    However, if you have UART available, you can run Serial Recovery and upload the new application directly via MCUboot at the next reboot. Does that make sense?

    In this case, MCUboot can write over whatever parts of flash it want, except for itself and the old bootloader and mbr.

    QuentinD said:
    The only thing I don't understand in his example is how by writing the new app+boot instead of the old app, that it goes after re-writing these files at address 0x1000 (after the MBR) and the 'other file at the end of memory (bootloader)?

    I do not think I understand the question?

  • Yes I know that but how can I replace the softdevice and the old bootloader with this method ? If I write the new app and MCUboot to the app partition of my old device, how can I remove the softdevice and the nrf5 bootloader ? (I don't want to loose memory)

    If you have a device that works with the nrf5 SDK and has MBR+softdevice+app+bootloader in its memory, how would you do to replace (steps) the softdevice+app+bootloader by the app+MCUboot from the NCS SDK?

  • The idea is to package the Zephyr app and MCUBoot images as a SoftDevice+bootloader update, allowing the existing SoftDevice and bootloader to be replaced, as illustrated by the picture in my post here:  RE: Hang with nRF5 SDK 17.1.0 Bootloader and nRF Connect SDK 2.1.0 application  

  • Thank you for your explanation.

    Ah I thought when I saw the image that we had to send an update of the app with a file which contains the NCS App and MCUboot. So you should instead do a combined update of the softdevice+bootloader (in which the softdevice update file will contain the NCS app and the bootloader update file will contain the MCUboot)?

    Can we send the softdevice and after the next reboot to send the bootloader or must both be written at the same time?

    Does this solution require you to first go through a patched bootlaoder?

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