Firmware: Difference between revisions

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== '''Sound Open Firmware''' ==
== '''Sound Open Firmware''' ==


Sound Open Firmware is an open source audio DSP firmware and SDK intended to provide a generic audio firmware infrastructure and development tools to the community. The firmware is BSD licensed and is platform and architecture agnostic. The SDK is also open source and provides a toolchain, debugger, emulator and image creation tools.
Sound Open Firmware is an open source audio DSP firmware and SDK intended to provide a generic audio firmware infrastructure and development tools to the community. The firmware is BSD licensed and is platform and architecture independent. The SDK is also open source and provides a toolchain, debugger, emulator and firmware image creation tools.


The firmware and SDK currently support the Cadence Xtensa architecture and the Intel Baytrail and Cherrytrail platforms. The current firmware audio features include multiple PCMs with gain controls and mixers.
The firmware and SDK are intended for developers who are interested in audio or signal processing on modern DSPs or for developers who are interested in micro kernels running on small but
powerful processors.


This page is currently work in progress so please expect frequent updates.
SOF currently targets the Cadence xtensa architecture DSPs found on some Intel and NXP based devices like the Minnowboard MAX. SOF is modular and generic so can be ported to other DSP architectures or host platforms.


== '''Installing the SDK''' ==
Please see https://thesofproject.github.io/latest/index.html for full details.
 
1. Install the firmware image tools.
These tools are used to convert ELF binaries into the file format used by the kernel drivers when loading the firmware.
 
git clone git://git.alsa-project.org:sound-open-firmware-tools.git soft.git
cd soft.git
./autogen.sh
./configure
make
make install
 
2. Build the Qemu DSP emulator from source. Qemu needs some extra patches to support heterogeneous virtualization of the guest x86 OS and xtensa firmware. We are using the latest qemu-2.7 release with the support for heterogeneous virtualization and audio DSP hardware on top.
 
sudo apt-get install libgtk-3-dev libsdl-dev libspice-protocol-dev libspice-server-dev libusb-1.0-0-dev libusbredirhost-dev libtool-bin iasl valgrind texinfo virt-manager kvm libvirt-bin virtinst
git clone https://github.com/01org/osadsp-qemu.git
cd osadsp-qemu.git
./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
make
 
Please do not install this version of Qemu as it will overwrite your distro version of Qemu.
 
3. Install the GCC xtensa cross compiler toolchain. A cross toolchain is required to build firmware binaries on x86. Please note that the xtensa GCC compiler does not build optmised Xtensa binaries (i.e. no automatic SIMD or media instructions generated without hand coding assembler). Cadence does provide a free download of their optimising compiler toolchain for the Baytrail target here (todo add link).
 
https://github.com/01org/osadsp-crosstool-ng.git
 
4. Get the firmware source code.
 
git clone git://git.alsa-project.org:sound-open-firmware.git sof.git

Latest revision as of 17:42, 9 February 2021

Sound Open Firmware

Sound Open Firmware is an open source audio DSP firmware and SDK intended to provide a generic audio firmware infrastructure and development tools to the community. The firmware is BSD licensed and is platform and architecture independent. The SDK is also open source and provides a toolchain, debugger, emulator and firmware image creation tools.

The firmware and SDK are intended for developers who are interested in audio or signal processing on modern DSPs or for developers who are interested in micro kernels running on small but powerful processors.

SOF currently targets the Cadence xtensa architecture DSPs found on some Intel and NXP based devices like the Minnowboard MAX. SOF is modular and generic so can be ported to other DSP architectures or host platforms.

Please see https://thesofproject.github.io/latest/index.html for full details.

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