buildroot/board/arrow/avenger96
Peter Korsgaard deb8d71c92 configs/avenger96_defconfig: downgrade to TF-A v2.5
Commit 27bf08e4ad (configs/avenger96_defconfig: bump ATF version to 2.9
for binutils 2.39+ support) bumped TF-A, but it unfortunately does not boot
and instead dies with a panic:

NOTICE:  CPU: STM32MP157AAC Rev.B
NOTICE:  Model: Arrow Electronics STM32MP157A Avenger96 board
ERROR:   nvmem node board_id not found
INFO:    PMIC version = 0x10
ERROR:   Product_below_2v5=1:
ERROR:          HSLVEN update is destructive,
ERROR:          no update as VDD > 2.7V
PANIC at PC : 0x2fff086f

Exception mode=0x00000016 at: 0x2fff086f

Instead use v2.5 to match the other stm32mp1 boards and use the same E=0
-Werror workaround.  The avenger95 support is unfortunately broken since
v2.3 with the introduction of authentication support, so add a patch to the
DTS to fix that.

Notice that the authentication support was reworked in v2.7 so it is skipped
for the mp157a variant used on the avenger96, so the patch is not upstreamable.

While we're at it, also drop the debug option for consistency with the other
boards.

Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
2023-11-06 23:10:39 +01:00
..
overlay/boot/extlinux
patches/arm-trusted-firmware configs/avenger96_defconfig: downgrade to TF-A v2.5 2023-11-06 23:10:39 +01:00
readme.txt

readme.txt

Arrow Avenger96

Intro
=====

This configuration supports the Arrow Avenger96 board:

https://wiki.dh-electronics.com/index.php/Avenger96

How to build
============

 $ make avenger96_defconfig
 $ make

How to write the microSD card
=============================

WARNING! This will destroy all the card content. Use with care!

Once the build process is finished you will have an image called
"sdcard.img" in the output/images/ directory.

Copy the bootable "sdcard.img" onto an microSD card with "dd":

  $ sudo dd if=output/images/sdcard.img of=/dev/sdX

Boot the board
==============

 (1) Configure the boot switches for boot from microsd: 1-0-1

 (2) Insert the microSD card in the slot

 (3) Plug a serial adapter (beware: 1v8 levels!) to the low speed
     expansion connector

 (4) Plug in power cable

 (5) The system will start, with the console on UART, but also visible
     on the screen.