nRF9160: Full modem firmware update using SMP Server
This sample application implements a Simple Management Protocol (SMP) Server, using the SMP transfer encoding with the MCU manager (mcumgr) management protocol, to provide an interface over UART which enables the device to do full modem firmware updates.
For more information about mcumgr and SMP, see Device Management.
Requirements
This sample supports the following development kit:
Hardware platforms |
PCA |
Board name |
Build target |
|---|---|---|---|
PCA10090 |
|
The sample is configured to compile and run as a non-secure application on nRF91’s Cortex-M33. Therefore, it automatically includes the Secure Partition Manager that prepares the required peripherals to be available for the application.
You can also configure it to use TF-M instead of Secure Partition Manager.
Overview
The sample performs the following operations:
It deinitializes the Modem library.
It registers to mcumgr a
statcommand.It then registers the commands to upload the firmware and to get the hash.
It finally enters an idle loop, waiting for any communication over the serial line.
The sample also provides a UART overlay that will allow your sample to transfer at a speed of 1M baud, and it enables support for the fmfu_mgmt command group.
See Mcumgr based full modem update for more details.
Building and running
This sample can be found under samples/nrf9160/fmfu_smp_svr in the nRF Connect SDK folder structure.
The sample is built as a non-secure firmware image for the nrf9160dk_nrf9160_ns build target. Because of this, it automatically includes the Secure Partition Manager. You can also configure it to use TF-M instead of SPM.
See Building and programming an application for information about how to build and program the application.
To use the UART overlay for increasing the transfer speed, add the -DDTC_OVERLAY_FILE=uart.overlay flag to your build.
See Providing CMake options for instructions on how to add this flag.
For example, when building on the command line, add the UART overlay for nRF9160 DK in the following way:
west build -b nrf9160dk_nrf9160_ns -- -DDTC_OVERLAY_FILE=uart.overlay
Testing
After programming the sample to your development kit, test it by performing the following steps:
Connect the USB cable and power on or reset your nRF9160 DK.
Open a terminal emulator, observe that the sample starts, and then close the terminal emulator.
Call the provided
update_modem.pyscript specifying the COM port, the firmware ZIP file, and the UART baud rate shown in the following examples.If you used the default baud rate:
python update_modem.py mfw_nrf9160_1.2.2.zip /dev/ttyACM0 115200
If you used the
-DDTC_OVERLAY_FILE=uart.overlayflag:python update_modem.py mfw_nrf9160_1.2.2.zip /dev/ttyACM0 1000000
Sample output
The python script should print the following output:
# nrf9160 modem firmware upgrade over serial port example started.
{
"duration": 406,
"error_code": "Ok",
"operation": "open_uart",
"outcome": "success",
"progress_percentage": 100
}
Programming modem bootloader.
...
Finished with file.
Verifying memory range 1 of 3
Verifying memory range 2 of 3
Verifying memory range 3 of 3
Verification success.
{
"duration": 5,
"error_code": "Ok",
"operation": "close_uart",
"outcome": "success",
"progress_percentage": 100
}
------------------------------------------------------------
Troubleshooting
You can use the mcumgr CLI tool to test if the sample is running correctly, as follows:
mcumgr --conntype serial --connstring="dev=*COM Port*,baud=*Baudrate*" stat smp_com
stat group: smp_com
512 frame_max
504 pack_max
Dependencies
This sample uses the following nRF Connect SDK libraries:
This sample uses the following sdk-nrfxlib library:
In addition, it uses the following sample: