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MensaApp-Backend

Backend application for providing and synchronizing meal plan data of the canteens of the Studierendenwerk Karlsruhe 1.

If you just want to use the (Android, iOS) App, the following is not necessary.

Running the backend yourself

Deploy using docker-compose

The easiest way to run the backend is by using docker compose.

  1. Install docker
  2. Download the compose.yaml file
  3. Modify the environment variables and other configurations inside the file accordingly
    1. For the first start you may want to uncomment the command: --migrate line to crate the database schema automatically
  4. run docker compose up -d next to the file

Deploy using Docker

If you only want to run the backend and want to provide a database by other means, you can run the backend container using: (If you use docker compose, this is not necessary!)

docker run -d --name mensa-app-backend \
    -p 80:80
    -e DATABASE_URL=postgres://<db user>:<db password>@<db host>/<db port>/<db name>
    -e SMTP_SERVER=<domain of mail server> \
    -e SMTP_PORT=<port of mail server> \
    -e SMTP_USERNAME=<username of mail server> \
    -e SMTP_PASSWORD=<password of mail server> \
    -e ADMIN_EMAIL=<email address admin notifications should be sent to> \
    -e FLICKR_API_KEY=<flickr public api key> \
    ghcr.io/kronos-et-al/mensa-app

Running the container requires a postgres database, connection to a mail server and a flickr api key.

Run the binary

Alternatively, you can also just build yourself and run the binary. See below for building the backend yourself.

Environment variables

To pass configuration options to the backend application environment variables are used. The following options are available:

Name Description Default / Required
LOG_CONFIG Configure which messages are logged. For more information on the used syntax, see here. You may want to set this to warn,mensa_app_backend=trace to enable all messages we produce. warn,mensa_app_backend=info
DATABASE_URL Connection information to for the database. Format: postgres://[<username>[:<password>]@]<host>[:<port>]/<database>. Must be a postgresql database. required
ADMIN_EMAIL Email address to send notifications to (when images are reported) required
SMTP_SERVER Name of SMTP server used for sending emails required
SMTP_PORT Port of SMTP server 465
SMTP_USERNAME Username to access the SMTP server. Often, this is the email address of the sender. required
SMTP_PASSWORD Password to access the SMTP server. required
FULL_PARSE_SCHEDULE Cron-like schedule for when to run a full parsing to get the meal plans for the next three weeks. A sixth, first digit specifying the seconds is necessary! 0 0 2 * * *
UPDATE_PARSE_SCHEDULE Schedule for when to update the mealplan for the current day. Same format as FULL_PARSE_SCHEDULE 0 */15 10-15 * * *
SERVICE_ACCOUNT_JSON Path to the service account json that can be downloaded during the key generation for the service account in the google console. required
GOOGLE_PROJECT_ID The project_id can be copied from the google (console). It should be the same project from which the account comes. required
IMAGE_ACCEPTANCE_VALUES Comma separated list of five integers from 0 to 5. These values determine which images will be accepted and which not. More info about levels and categories are in the documentation. 1,1,1,1,1
CLIENT_TIMEOUT Timeout in ms for requesting the webpage containing the meal plan. 6000
MENSA_BASE_URL Base URL where meal plans are requested. It excludes the canteens name, which will be appended later on. https://www.sw-ka.de/de/hochschulgastronomie/speiseplan/
CANTEENS Comma (,) separated list of canteens which should be requested and parsed. These are appended on the MENSA_BASE_URL. mensa_adenauerring,mensa_gottesaue,mensa_moltke,mensa_x1moltkestrasse,mensa_erzberger,mensa_tiefenbronner,mensa_holzgarten
USER_AGENT User agent used for requesting meal plan data. For some reason, this cannot be empty. MensaKa <version>, where <version> is the current version of the application (as specified in the rust crate)
HTTP_PORT Port to listen on for API requests 80
PARSE_WEEKS Number of weeks to get request data from mensa webpage in advance. 4
BASE_URL Base url where server will be available under, like https://mensa-ka.de. Necessary to generate correct image urls. localhost, but should be set to get images working properly
IMAGE_DIR Path to folder where images will be stored. Backslashes (\) need to be escaped (\\). required
MAX_IMAGE_WIDTH and MAX_IMAGE_HEIGHT Maximum width and height stored for stored images. Uploaded images will be scaled accordingly. 1920 and 1080
RATE_LIMIT Limit the number of API requests per second. 0 means disabled. 0 (disabled)
MAX_UPLOAD_SIZE Maximal size (in bytes) an http body can have to get accepted. This implies a maximal size an image upload can have. 10485760 (10 MiB)

Notes

  • The timezone of log messages and the chron schedule is only queried once at backend startup from the host os because of technical limitations. For changes in timezone (e.g. summer time) the server has to be restarted.

Building the backend

Run the backend

You need to install rust and cargo.

  • Run cargo run --bin mensa-app-backend to build and run the backend.

Command line arguments

==================================================
   MensaApp Backend v0.3.0 🥘
==================================================
This binary runs the backend to for the mensa app,
including a graphql server.
For more information,
see https://github.com/kronos-et-al/MensaApp

Licensed under the MIT license.


Available commands:
help                 --help -h -?
          shows this page

migrate              --migrate
          runs the database migrations
          before continuing like normal

migrate images       --migrate-images
          migrates images from hoster
          to local storage

Graphql mock server

To run a mock version of the graphql server, run cargo run --bin graphql_mock.

Documentation

The documentation can be accessed with cargo doc --open.

Contribution

First Setup

To compile the backend, you need cargo, you can install it here: https://www.rust-lang.org/tools/install.

For writing rust code, VSCode with the rust-analyzer extension is recommended. It is also recommended to set the rust-analyzer.check.command setting to clippy

Environment Variables

For deployment of the server, initial settings like API tokens and other access information are passed as environment variables. To make development easier, these can also be defined textually in a .env file. A preset with all available options is provided as .env.default. The .env file is the only place you can put credentials safely so that they get not published in the public git repository.

Database

If you work on database parts, you need to setup a local dev database first:

  1. Setup your environment variable for the database in the .env file. The default should be ok when you use the command below for your database.

  2. Install docker and run to spun up a database:

    docker run -itd -e POSTGRES_USER=postgres_user -e POSTGRES_PASSWORD=secret_password -e POSTGRES_HOST_AUTH_METHOD=trust -e POSTGRES_DB=mensa_app -p 5432:5432 -v data:/var/lib/postgresql/data --name postgresql postgres

    This runs a postgres database as a docker container. To setup all relations install cargo install sqlx-cli and run cargo sqlx mig run.

  3. If you want to reset the database (because you changed the migrations) run sqlx database reset

If you want to create a new migration (never change an existing one that has been deployed!) run cargo sqlx migrate add -r <name> where <name> describes what you add.

Pre-submission checklist

Before submitting changes to the code, you should run

  • cargo fmt to format all code files.
  • cargo clippy to check for errors and recommendations.
  • cargo sqlx prepare if you have changed database queries or migrations. This is to prepare information on these queries so that others can still compile the backend without having a local dev database. See also sqlx-cli/README.md.
  • cargo test to make sure all tests are ok

Logging

Whenever an action of importance happens, or a silent error occurs (which does not get transported to the next upper layer) a logging message shall get produced. The following log levels are available:

level syntax usecase
TRACE trace!(...); Information about things happening in the background like API-Requests or web requests. Enabling all TRACE messages may result in much noise.
DEBUG debug!(...); More important information than trace but still not always noteworthy. For example, this includes failed api request.
INFO info!(...); Noteworthy information about the state of the system. This is where the server communicates events like successful startup or mealplan parsing.
WARN warn!(...); An error occurred but execution can continue. This includes situations like when a meal could not be resolved and added to the meal plan, but other meals are and will be added fine.
ERROR error!(...); A fatal error which may not lead to program termination but shows that something went wrong. This includes failed sending of an email.

Testing Coverage

To show test coverage, you need to install cargo install cargo-tarpaulin. Then you can run cargo tarpaulin --out Lcov to generate coverage info. to view this information, you can install the VSCode plugin "Coverage Gutters". It should work out of the box with the installed files.

Build Docker

  1. To build the docker container, run docker build . -t ghcr.io/kronos-et-al/mensa-app:<version> where <version> is of format x.y or pre_x.y for pre-releases.
  2. To deploy to ghc login using docker login ghcr.io -u <username> --password-stdin and provide access token with necessary permission.
  3. Publish using docker push ghcr.io/kronos-et-al/mensa-app:<version>

Footnotes

  1. https://www.sw-ka.de/de/hochschulgastronomie/speiseplan/