sof/zephyr
Jaroslaw Stelter 05bfc36dac ptl: Add initial PTL configuration
Patch adds PTL configuration basing on MTL

DMIC depends on PM_DEVICE_RUNTIME and PM_DEVICE_POWER_DOMIAN settings.
To effectively enable DMIC these flags must be set.
Additionally DMIC Ownership bit is not supported on ACE 2.0 and ACE 3.0.
Therefore CONFIG_DAI_DMIC_HAS_OWNERSHIP is switched off.

Signed-off-by: Jakub Dabek <jakub.dabek@intel.com>
2024-06-24 16:15:41 +02:00
..
include nxp: imx8ulp: switch to native Zephyr drivers and timer domain 2024-04-25 14:12:41 +03:00
lib ptl: Add initial PTL configuration 2024-06-24 16:15:41 +02:00
scripts xtensa-build-zephyr.py: add new rimage_west_configuration() 2023-05-26 10:47:51 +03:00
test vmh_tests: Add set of parametrized tests and test suit 2024-03-05 11:11:20 +01:00
CMakeLists.txt ptl: Add initial PTL configuration 2024-06-24 16:15:41 +02:00
FindZephyr-sdk.cmake
Kconfig nxp: imx8ulp: switch to native Zephyr drivers and timer domain 2024-04-25 14:12:41 +03:00
README
boot_test.c boot_test: change call of boot tests 2024-03-05 11:11:20 +01:00
docker-build.sh zephyr/docker-build.sh: explain why we autodetect with FindZephyr-sdk 2024-02-19 14:20:07 +00:00
docker-run.sh workflows: Upgrade docker container to v0.26.6 2023-12-14 11:34:12 +02:00
edf_schedule.c zephyr: edf-schedule: fix CONTAINER_OF type 2023-08-31 22:14:37 +03:00
lib.c
module.yml
schedule.c
wrapper.c west: update to Zephyr "main", fixing disabled LLEXT builds 2024-06-12 11:07:35 +01:00

README

SOF with Zephyr RTOS
====================

SOF currently uses the Cadence Xtos/HAL and it's own kernel functions as
its RTOS. SOF is moving to use Zephyr as it's RTOS in parallel to current
releases using xtos.

The initial "alpha" of SOF on Zephyr will use the Zephyr RTOS for boot, IRQs,
scheduling and memory allocation. Subsequent release will use more Zephyr
functionality as code is moved from SOF to Zephyr (i.e. EDF scheduler updates
copied from SOF to Zephyr).

Building SOF on Zephyr
======================

Section promoted to
https://thesofproject.github.io/latest/getting_started/build-guide/build-with-zephyr.html

Testing on Qemu
===============

Get the SOF qemu sof-v4.2 branch here.

git@github.com:thesofproject/qemu.git

Configure as

./configure' '--prefix=.' '--target-list=xtensa-softmmu,x86_64-softmmu' \
             '--enable-gtk' '--enable-sdl' '--enable-spice' \
             '--audio-drv-list=alsa' '--enable-libusb' \
             '--enable-usb-redir' '--enable-coroutine-pool' \
             '--disable-opengl' '--enable-fdt'

 Then run make.

FW can be tested as follows using the qemu helper script.

 ./xtensa-host.sh apl \
     -r ../../sof/sof/build_apl_gcc/src/arch/xtensa/rom-apl.bin \
     -k ../../zephyrproject/zephyr/build/zephyr/zephyr.ri

Where -r and -k are used to specify the ROM and kernel files.

The ROMS can be built from the SOF repo by running

./scripts/xtensa-build-all.sh  -r -a

Using console
-------------

Using logging and simulator backend with processing printk (LOG_PRINTK)
can bring console in qemu.

 - Enable xtensa simulator logging backend (LOG_BACKEND_XTENSA_SIM).
 - Enable printk processing(LOG_PRINTK)
 - Add "-semihosting" to qemu command line. Make sure it goes through scripts to real qemu.