[[TOC]]
This repo contains setup, configuration and dependencies use to build and test the meta-tq hardware support layer. All Yocto Project / Open Embedded layers the build depends on, are included as git submodules, to allow reproducible builds.
Clone this repo using git clone --branch=<branch-name> --recurse-submodules <url>
This repo contains scripts released under the GPLv2, see the file COPYING
This repo allows you to setup a workspace / buildspace for poky / the Yocto Project combining several recipe collections (meta layers). When using this repo to build software, you need to understand and accept all licenses of the software beeing built. You are responsible to fulfil all obligations by these licenses.
This project supports the following branches of meta-tq:
Attention: use README.md of used branch for exact details.
Branch names correspond to Yocto Project release names. Special branches
supporting a special setup are named <release-name>-<module>
When switching branches keep in mind to keep the submodules in sync:
git submodule sync
git submodule update --initSee README of TQ-Sytems GmbH hardware support layer (meta-tq/meta-tq) or use ./ls-machines to list machines
from meta-tq.
To set up an initial build space, clone this repo using
git clone --branch=<branch-name> --recurse-submodules <url>
change to checked out dir and
. ./setup-environment <builddir> <config>
You can override defaults with:
export MACHINE=<machine> (default is first MACHINE from meta-tq/meta-tq
that matches <config>)export DISTRO=<distro> (tested distros are based on poky and could be found
in meta-tq/meta-dumpling)before sourcing the script. This script uses the requested configuration from
sources/template/conf/templates/ci/bblayers.conf.<config> as initial template
for your bblayer.conf
Additionally some config variables are injected via auto.conf.normal from
sources/template/conf/templates/ci/
In case you have a ~/.oe or ~/.yocto dir a site.conf file from this dir
will be symlinked to the conf dir inside the build directory to allow machine
specific overrides. Good use case for this are things like
$DL_DIR via ~/.yocto/site.conf.$SSTATE_DIR via ~/.yocto/site.conf.Internally the oe-init-build-env script from the used openembedded / poky
meta layer will be sourced from setup-environment to get the bitbake environment
After this step, everything is setup to build an image using bitbake.
To return to an existing buildspace go to the checked out dir and
. ./setup-environment <builddir>
Under sources/template/conf/templates/ci several configs are supplied as starting point for own bblayers.conf
| config | description |
|---|---|
| mainline | for machines not depending on a SOC vendor layer (mainline) |
| imx | for machines with i.MX CPU, uses meta-freescale |
| ti | machines with TI Sitara (AM335x, AM57xx, AM65xx, AM64xx), uses meta-ti |
| ls | machines with NXP Layerscape CPU, uses meta-freescale |
Devolopment and automated builds are supported by the scripts under ci and
configuration under ./sources/template/conf/templates/ci, notably
bblayer.conf filesauto.conf files and inclusion fragments (see Yocto Project doc for
local.conf and auto.confTo build all supported machines from one of the configs, one can use the CI helper script:
ci/build_all <builddir> <configuration>
Depending on the configuration, following images will be built:
| config | distro | image | kernel |
|---|---|---|---|
| mainline | spaetzle | tq-image-small-debug | linux-tq |
| mainline | dumpling | tq-image-generic-debug | linux-tq |
| mainline | dumpling-wayland | tq-image-weston-debug | linux-tq |
| imx | spaetzle-nxp | tq-image-small-debug | linux-imx-tq |
| imx | dumpling-wayland-nxp | tq-image-weston-debug | linux-imx-tq |
| ti | spaetzle-ti | tq-image-small-debug | linux-ti-tq |
| ti | dumpling-wayland-ti | tq-image-weston-debug | linux-ti-tq |
| ls | spaetzle | tq-image-small-debug | linux-imx-tq or linux-tq |
| ls | dumpling | tq-image-generic-debug | linux-imx-tq or linux-tq |
The kernel recipes are defined in meta-tq hardware support layer,
image recipes and distro configs can be found in the meta-dumpling
distro layer. Both layers are part of the meta-tq repository.
Images:
| image | description |
|---|---|
tq-image-small[-debug] |
small image depending on MACHINE_FEATURES |
tq-image-generic[-debug] |
basic set of tools depending on MACHINE_FEATURES |
tq-image-weston[-debug] |
weston GUI and multimedia support |
To force a clean build of all supported machines and generate archives, do
ci/build_all <builddir> <config>
To help to create a package premirror (to support offline builds), one can use the CI helper script:
ci/fill_mirror <builddir> <config>
One have to define the following stuff in your site.conf:
SOURCE_MIRROR_URL ?= "file://<full path>/"
INHERIT += "own-mirrors"
PREMIRRORS_prepend = "\
git://.*/.* file://full path>/ \n \
ftp://.*/.* file://full path>/ \n \
http://.*/.* file://full path>/ \n \
https://.*/.* file://full path>/ \n \
"To fill the mirror, the script
BB_GENERATE_MIRROR_TARBALLS=1INHERIT_remove = \"uninative\""This way the mirror can be used to do offline builds without downloading anything
with BB_FETCH_PREMIRRORONLY=1
Attention This project is focused on board bringup and demonstration for TQ-Systems starter kits. Since embedded projects have different goals, the Yocto Project brings lots of features to modify system configuration and setup. This project is not a turn key distribution but a starting point for own developments.
Attention RootFS created with this setup has for demonstration purpose and ease of development no root password set and allows passwordless ssh root access. Please make sure, to remove things like
debug-tweaksempty-root-passwordssh_allow_root_loginfrom IMAGE_FEATURES and / or IMAGE_EXTRA_FEATURES before release. View the
openembedded / Yocto Project and bitbake documentation.