VisionSOM renesas-meta-somlabs-dunfell
From SomLabs Wiki
VisionSOM renesas-meta-somlabs layer for Renesas Yocto Dunfell
This tutorial explains how to build the Renesas Yocto Dunfell 3.0.3 system for the SoMLabs modules. The Yocto system uses the following kernel and u-boot repositories:
- kernel (5.10-cip22): https://github.com/SoMLabs/somlabs-rz_linux-cip/tree/rz-5.10-cip22-somlabs
- u-boot (2021.10): https://github.com/SoMLabs/somlabs-renesas-u-boot-cip/tree/v2021.10/rz-somlabs
Introduction
Meta-somlabs is a layer providing the VisionSOM-x2L module (with RZ/G2L or RZ/V2L processor) and VisionCB-G2L/V2L-STD carrier board hardware support for Yocto Dunfell Renesas Linux system.
Host system prerequisites
This tutorial was prepared for the Ubuntu 18.04.5 LTS host operating system. All of the files required for system image compilation may require up to 120 GB of the disk space. The SDK build requires additional 25 GB (145 GB in total).
The following packages need to be installed before the building process:
sudo apt-get install gawk wget git diffstat unzip texinfo gcc-multilib build-essential chrpath socat libsdl1.2-dev xterm sed cvs subversion coreutils texi2html docbook-utils python-pysqlite2 help2man make gcc g++ desktop-file-utils libgl1-mesa-dev libglu1-mesa-dev mercurial autoconf automake groff curl lzop asciidoc u-boot-tools liblz4-tool zstd
The source code will be obtained using git, so it needs to be configured by setting the user name and email with correctly set values:
git config --global user.email "you@example.com" git config --global user.name "Your Name"
A new repo tool version is also required. It may be downloaded directly from the project site. The repo binary needs to be available in the system PATH variable and have the execution privilege:
wget https://storage.googleapis.com/git-repo-downloads/repo sudo mv repo /usr/bin/repo sudo chmod a+x /usr/bin/repo
System image
This layer should be used in order to build the system image. This layer adds a new example image called somlabs-image. It includes the SoMLabs demo application using the GTK and GStreamer libraries.
Building the system image
The general description of the building process is described in the Renesas Yocto Start-Up Guide document:
https://www.renesas.com/eu/en/document/mas/rzg2-group-yocto-recipe-start-guide-vlp-v300
The summary of required steps including the meta-somlabs layer and helper scripts shown below:
mkdir renesas-yocto-dunfell cd renesas-yocto-dunfell repo init -u https://github.com/SoMLabs/renesas-meta-somlabs -b dunfell-3.0.3 -m renesas-somlabs-dunfell-3.0.3.xml repo sync
System building may be configured for one of the available machine configurations:
- visionsom-g2l-cb - VisionSOM-x2L module with RZ/G2L processor and VisionCB-G2L/V2L-STD carrier board
- visionsom-v2l-cb - VisionSOM-x2L module with RZ/V2L processor and VisionCB-G2L/V2L-STD carrier board
The following system distributions were tested on SoMLabs modules:
- fsl-imx-fb - distribution without graphical environment for 6ULL modules
- fsl-imx-xwayland - distribution with xwayland
System building may be started by the following commands:
MACHINE=<SELECTED_MACHINE> BUILD=<BUILD_DIRECTORY> source somlabs-setup-release.sh bitbake somlabs-image
The somlabs-setup-release.sh script creates the build directory and initializes the configuration files. In order to configure the shell without overwriting the existing settings the following command may be executed:
source poky/oe-init-build-env <BUILD_DIRECTORY>
The output files are created in the build subdirectory <BUILD_DIRECTORY>/tmp/deploy/images/<SELECTED_MACHINE>:
- bl2_bp-<SELECTED_MACHINE>.bin - first stage loader binary
- fip-<SELECTED_MACHINE>.bin - bootloader binary
- somlabs-image-<SELECTED_MACHINE>.wic.bz2 - compressed system image
The instruction for the eMMC memory image installation may be found on the following wiki page: