A free, full featured auction platform:
- Run online or in-person auctions
- Reserve and buy now prices
- Automatic invoicing
- Using a projector, show pictures of lots as they are auctioned off
- Users don't need to create an account for in-person auctions
- Support for Breeder Award Programs/Breeder Participation Programs
- Easily copy lots, rules, and users between auctions
- One click export of data to generate marketing lists
- Different seller and club cuts for club members
- Support for multi-location auctions and mailing of lots
- A recommendation system to find lots in large auctions
- Dozens of stats including web traffic, auctioneer speed, lot sell prices over time, and more to help optimize your next auction
- and more!
What started as a free and open source tool to allow fish clubs to run online auctions during COVID has grown into the best club auction platform available, used by dozens of clubs and thousands of users! If you are part of a club looking to run an auction, please visit the site here
If you have a suggestion or are a developer who would like to contribute, read on.
I'm open to adding new features as they are requested. Please search for your suggestion in the open issues first.
This tool is built with Python3, Django, Bootstrap and a bit of JQuery. Some of the auction admin stuff uses HTMx.
This project has now been packaged in Docker, so assuming you have docker installed, you should be able to just:
git clone https://github.com/iragm/fishauctions
cd fishauctions
cp .env.example .env
[...edit your .env file as needed...]
docker compose --profile "*" build
docker compose up -d
You should now be able to access a development site at 127.0.0.1 (Note: don't use port 8000)
Development-friendly default values are set for most of the environment, but you may wish to use existing databases or specify secure passwords. Simply rename the .env.example
file to .env
, edit it as needed (making sure to remove the lines used for production), and you should be good to go.
This file doesn't document everything, but it has the most common settings. For example, if you use port 80 for something else, you could serve up the development site on a different port by editing your .env file to have the line HTTP_PORT=81
At this time, I'm only aware of one production deployment, but since this is open source, you're welcome to spin up your own competing website.
In keeping with 12 Factor, all configuration is done from the .env file and the rest of the environment is kept extremely similar, but:
- Production uses SWAG to add a cert, dev uses plain old Nginx to serve just http content.
- Production uses Gunicorn with a Uvicorn worker process, development uses Uvicorn with a --reload flag (this is configured in entrypoint.sh)
Some cron jobs are used to manage models - these run automatically if you're in production (debug=False), but will need to be run manually in development. These can be found in the crontab file in the same folder as this readme.
New packages can be added to requirements.in (in addition to the standard Django settings file) for production dependencies, or requirements-test.in for test dependencies. Then run ./.github/scripts/update-packages.sh
to generate updated requirements.txt files.
If you would like to upgrade all packages to the latest supported version, run ./.github/scripts/update-packages.sh --upgrade
To run the same set of tests and lints that would be run in CI, run docker compose run --rm test --ci
.
This will fail if changes are required. There are additional commands below that can be used to run individual test/lint components and auto-fix issues where possible.
To format code, run docker compose run --rm test --format
. This will attempt to auto-fix issues, if possible.
To check if code is formatted properly without modifying any files on disk, run docker compose run --rm test --format-check
. The command will output failures (if any) and exit with an error if changes need to be made.
To lint the code, run docker compose run --rm test --lint
. This will run a full linting suite and attempt to auto-fix problems.
To check if code passes the linting check without modifying any files on disk, run docker compose run --rm test --lint-check
. The command will output failures (if any) and exit with an error if changes need to be made.
Run these with docker exec after docker compose is up. For example: docker exec -it django python3 manage.py makemigrations
This project is optimized for development in Visual Studio Code. If you are using VSCode, begin by installing the "Remote Development" extension pack, and make sure Docker is also installed.
Working in a VSCode development container will ensure that all project dependencies are installed--aiding in running the Python language server, IDE auto-completion, running tests automatically, etc.
To begin, follow the VS Code prompt to Reopen in Container
. The first time running this command will take a while as the remote development container is built.
You can also open this project in a remote container by opening the command palette (CMD+Shift+P), and navigate to Dev Containers: Reopen in Container
.
You can optionally enable a pre-commit hook that will ensure code auto-formatting and linting has run before you commit your change. While not necessary, it can help make sure a commit will pass CI before it is pushed.
To install on your local machine, install via pip install pre-commit
, then run pre-commit install
to register this project's pre-commit hooks.
By default, pre-commit
only runs on files that were changed. When installing pre-commit
for the first time, you can optionally run pre-commit run --all-files
to run the hooks against all files.