| commit | fe909e4a994980c22b91d53b0952f0955d812f61 | [log] [tgz] |
|---|---|---|
| author | Václav Kubernát <kubernat@cesnet.cz> | Wed Mar 17 14:11:02 2021 +0100 |
| committer | Václav Kubernát <kubernat@cesnet.cz> | Wed Mar 17 14:11:02 2021 +0100 |
| tree | 22578732b5d089e94c699ed0cb08d7009a63611f | |
| parent | bf1e0919d56d9267da656855ca005abf6e46b45a [diff] |
Output cfg-restore-sysrepo failures to console Also update doc explaining a possible failure. Change-Id: I0b38041f79f96894ab7b10d78788caf01571485e
This repository contains CzechLight-specific bits for Buildroot. Buildroot is a tool which produces system images for flashing to embedded devices. They have a nice documentation which explains everything that one might need.
The system architecture is described in another document. This is a quick build HOWTO.
Everything is in Gerrit. One should not need to clone anything from anywhere else. The build will download source tarballs of various open source components, though.
By default, each change of this repo uploaded to Gerrit causes the CI system to produce a firmware update. On Gerrit, the change will get a comment from Zuul with a link to the CI log server. Next to the logs, a file named artifacts/update.raucb can be used for updating devices.
Behind the scenes, the system uses Zuul with a configuration tracked in git.
Here's how to reproduce the build on a developer's workstation:
git clone ssh://$YOUR_LOGIN@cesnet.cz@gerrit.cesnet.cz:29418/CzechLight/br2-external czechlight pushd czechlight git submodule update --init --recursive popd mkdir build-clearfog cd build-clearfog ../czechlight/dev-setup-git.sh make czechlight_clearfog_defconfig make
A full rebuild takes between 30 and 45 minutes on a T460s laptop.
WARNING: Buildroot is fragile. It is not safe to perform incremental builds after changing an "important" setting. Please check their manual for details.
Apart from the traditional way of re-flashing the SD card or the eMMC from scratch, it's also possible to use RAUC to update. This method preserves the U-Boot version and the U-Boot's environment. Apart from that, everything starting with the kernel and the DTB file and including the root FS is updated. Configuration stored in /cfg is brought along and preserved as well.
To install an update:
# build node make rsync -avP images/update.raucb somewhere.example.org:path/to/web/root # target, perhaps via an USB console or over SSH rauc install http://somewhere.example.org/update.raucb reboot
Because /cfg is preserved, it can happen that there are data, which are incompatible with the version you are uploading. The reason could be that a YANG model got downgraded to an older one (example: cla-sysrepo downgrade). This is signalled by the failure of the cfg-restore-sysrepo.service service. In this case, one needs to edit the /cfg/sysrepo/startup.json file and remove the offending content. The exact errors will be shown in the systemd journal and also in the console.
On a regular Clearfog Base with an eMMC, one has to bootstrap the device first. If recovering a totally bricked board, one can use the kwboot command to upload the initial U-Boot via the console. Ensure that the jumpers are set to 0 1 0 0 1 (default for eMMC boot is 0 0 1 1 1), and then use U-Boot's kwboot tool:
./tools/kwboot -b ./u-boot-spl.kwb -t -p /dev/ttyUSB0
Once in U-Boot (a stock factory image is OK as well), plug a USB flash disk which contains images/usb-flash.img and execute:
usb start; fatload usb 0:1 00800000 boot.scr; source 00800000
The system will boot and flash the eMMC from the USB drive. Once the status LED starts blinking in yellow, data are being transferred to the eMMC. The light changes to solid yellow in later phases of the flashing process. Once everything is done, the status LED shows a solid white light and the system reboots automatically.
Turn off power, remove the USB flash, re-jumper the board (0 0 1 1 1), power-cycle, and configure MAC addresses and system type at the U-Boot prompt. The MAC addresses are found on the label at the front panel.
=> setenv eth1addr 00:11:17:01:XX:XX => setenv eth2addr 00:11:17:01:XX:YY => setenv eth3addr 00:11:17:01:XX:ZZ => setenv czechlight sdn-roadm-line => saveenv Saving Environment to MMC... Writing to redundant MMC(0)... OK => boot
Once the system boots (which currently requires a reboot for some unknown reason -- fsck, perhaps?), configure hostname, plug in the network cable, and update SW:
# hostnamectl set-hostname line-XYZSERIALNO # cp /etc/hostname /cfg/etc/ # rauc install http://somewhere.example.org/update.raucb # reboot
Obtain a reasonable Linux distro image for BBB and flash it to a µSD card. Unlock eMMC boot partitions (echo 0 > /sys/class/block/mmcblk1boot0/force_ro; echo 0 > /sys/class/block/mmcblk1boot1/force_ro). Clean the eMMC data (blkdiscard /dev/mmcblk1). Flash the content of images/emmc.img to device's /dev/mmcblk1. Flash what fits into /dev/mmcblk1boot0 and /dev/mmcblk1boot1. Fetching the image over web (python3 -m http.server and wget http://...:8000/emmc.img -O - | dd of=/dev/mmcblk1 conv=sparse) works well.