A basic .NET Core website boilerplate using PostgreSQL for storage, Adminer for db management, Let's Encrypt for SSL certificates and Nginx for routing.
- Vanilla .NET Core Server Setup:
- Razor pages, upholstered with the Materialize css toolkit
- Server -> client data rendering demo
- Native Entity Framework database interface, with PostgreSQL
- Asynchronous design
- Auth gated route examples
- User authentication via:
- Regular email/password
- Github
- Auth method merging, linking and unlinking of social auth accounts
- TLS/HTTPS:
- Automatic certificate generation powered by Let's Encrypt
- Hosting modes:
- Self hosted mode (443/80 port access required)
- Simple mode (just the Dockerfile, http only), for use with reverse proxy configurations
- A lightweight PostgreSQL management tool included - Adminer
- Open the docker-compose file you're going to use (depends on your platform) and set
CERTBOT_EMAILto your email for Let's Encrypt certificate generation. Moreover, setDOMAINto your domain name. The domain should point to the IP of the machine you're running this project on. - The file
appsettingsExample.jsonneeds to be renamed toappsettings.jsonwith your own OAuth keys:
- The process for obtaining a Google key is described here.
- The method to create a Github app in order to get an API key is described here.
- The process for creating a Reddit app in order to get an API key is described here.
- Standalone:
# clone the repo
$ git clone https://github.com/Scharkee/netcore-postgres-oauth-boiler.git
$ cd netcore-postgres-oauth-boiler
# perform configuration...
# generate TLS certificates and run on ports 80/443
# choose between docker-compose-linux.yml and docker-compose-windows.yml
$ docker-compose -f docker-compose-linux.yml upFor an explanation of the docker-compose file separation, take a look at Running on Windows.
- Through Visual Studio:
- Launch Visual Studio
- Right-click on the
docker-composesection in the Solution Explorer, and clickSet as Startup Project - Select either Debug or Release at the top and click the
Docker Composebutton to run.
- Boilerplate runs on port 3000, and is accessible through the configured domain with managed TLS
- PostgreSQL runs on 5432
- Adminer (for managing PostgreSQL) runs and can be accessed on port 8080 (localhost:8080 in a browser).
- Nginx runs on ports 80 and 443. Make sure no servers/web hosts/etc. are using those ports.
If you're behind Nginx or a similar reverse proxy setup, you can either:
- Adjust the compose file so it no longer contains the Nginx container
- Run only the boilerplate (you will have to run PostgreSQL separately):
- Adjust the
DefaultConnectionin appsettings.json in accordance with your database - run
docker build . --tag boiler - run
docker run boiler -p 3000:80 --name boiler
- Adjust the
Docker on Windows has an open issue with local volume mapping permissions, which results in PostgreSQL not being able to write to a (relative) local directory. Thus, when running on Windows (via run.sh), an external volume is created, which is managed by Docker.
Moreover, if you encounter a PR_END_OF_FILE_ERROR when trying to load the website, try executing:
$ docker exec nginx bash -c "mv /etc/nginx/conf.d/boiler.conf{.nokey,} ; nginx -s reload"
This seems to be a symlink issue with Windows Docker containers as well. After renaming the file once, it does not need to be touched anymore (unless you purge the nginx container).
- Documentation for ASP.NET Core can be found here: .NET Core docs.
- Read about PostgreSQL here: PostgreSQL.
- Guide for Materialize UI: Getting started with Materialize.
- C# Reference: C# docs.
Submit bugs and requests through the project's issue tracker:
This project is licensed under the terms of the MIT license.