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Attendedsysupgrade Server (GSoC 2017)

codecov Code style: black PyPi

This project simplifies the sysupgrade process for upgrading the firmware of devices running OpenWrt or distributions based on it. These tools offer an easy way to reflash the router with a new firmware version (including all packages) without the need to use opkg.

ASU is based on an API to request custom firmware images with any selection of packages pre-installed. This avoids the need to set up a build environment, and makes it possible to create a custom firmware image even using a mobile device.

Clients of the Sysupgrade Server

OpenWrt Firmware Selector

Simple web interface using vanilla JavaScript currently developed by @mwarning. It offers a device search based on model names and show links either to official images or requests images via the asu API. Please join in the development at GitLab repository

ofs

LuCI app

The package luci-app-attendedsysupgrade offers a simple tool under System > Attended Sysupgrade. It requests a new firmware image that includes the current set of packages, waits until it's built and flashes it. If "Keep Configuration" is checked in the GUI, the device upgrades to the new firmware without any need to re-enter any configuration or re-install any packages.

luci

CLI

The auc package performs the same process as the luci-app-attendedsysupgrade from SSH/the command line.

auc

Server

The server listens for image requests and, if valid, automatically generates them. It coordinates several OpenWrt ImageBuilders and caches the resulting images in a Redis database. If an image is cached, the server can provide it immediately without rebuilding.

Active server

Run your own server

For security reasons each build happens inside a container so that one build can't affect another build. For this to work a Podman container runs an API service so workers can themselfs execute builds inside containers.

Please install Podman and test if it works:

podman run --rm -it docker.io/library/alpine:latest

Once Podman works, install podman-compose:

pip install podman-compose

Now it's possible to run all services via podman-compose:

# where to store images and json files
export PUBLIC_PATH=$(pwd)/public
# absolute path to podman socket mounted into worker containers
export CONTAINER_SOCK=/run/user/1001/podman/podman.sock
podman-compose up -d

This will start the server, the Podman API container and two workers. The first run needs a few minutes since available packages are parsed from teh upstream server. Once the server is running, it's possible to request images via the API on http://localhost:8000. Modify podman-compose.yml to change the port.

Production

For production it's recommended to use a reverse proxy like nginx or caddy.

System requirements

  • 2 GB RAM (4 GB recommended)
  • 2 CPU cores (4 cores recommended)
  • 50 GB disk space (200 GB recommended)

Development

After cloning this repository, create a Python virtual environment and install the dependencies:

Running the server

poetry install
poetry run flask run

Running a worker

# podman unix socket (not path), no need to mount anything
export CONTAINER_HOST=unix:///run/user/1001/podman/podman.sock
poetry run rq worker

API

The API is documented via OpenAPI and can be viewed interactively on the server:

https://sysupgrade.openwrt.org/ui/