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Developing

Pre-requisites

You need the following installed on your system to run this application in development mode:

  • Ruby version 3.x — 💡 Use this PPA to install it on older versions of Ubuntu Linux
  • Node version 14.16 or later
  • The yarn command somehow available in your $PATH
  • Docker with the so-called compose version 2
    • there is a switch to flip in Docker Desktop for Mac for this.
    • The project assumes a working docker compose command. The old (Python-based) docker-compose might still work.

Development Rig

  1. Run
    docker compose up
    💡 If you get an error about 'name' does not match any of the regexes: '^x-', or (root) Additional property name is not allowed, see previous paragraph.
  2. In another terminal, run
    ./bin/dev

./bin/dev starts up all the development things, with hot-rebuild everywhere: server-side with Puma and turbo-rails, as well as client-side with esbuild.

Configuration and Secrets

In development mode, you may create a .env file to configure rendezvous points and secrets. Copy and modify the provided .env.sample file.

In order to run ./bin/rails commands directly from the console instead of docker, secrets must be loaded into env variables with the following command:

. ./.env ; cat .env $KBPATH/$SECRETS | awk '/^[A-Z]/{print "export ", $0;}' | source /dev/stdin 

GraphiQL console

Navigate to https://localhost:3000/graphiql to see the GraphiQL console (not just GraphQL — emphasis on the “i”). Its is provided by the graphiql-rails gem; its purpose is to let you try out GraphQL queries and mutations (no “i” here) while you develop your app.

💡 This console will only give you an error, until you click on the Login button to authenticate against the locally-running Keycloak (while in development mode); you can then run your GraphQL query again by clicking ▶. That feature doubles as the demo app for the @epfl-si/react-appauth npm package, with which the Login button is built (and then injected into the “pristine” GraphiQL UI using some mild React-DOM trickery).

Debugging

The new (Rails 7) way of debugging is through the debug gem. If you have the inner strength to scrut its inscrutable documentation, then more power to you. Otherwise:

  1. Create a .rdbgrc file in your home directory¹ that contains a single line:
    open chrome
  2. Put debugger in your source code where you want the debugger to break
  3. Run or re-run the development server as usual (i.e. ./bin/dev)

💡 The hot-reload feature doesn't work in Chrome (yet), which will continue to display the old source code. You will need to stop and restart the server (which brings Chrome down and back up again as well) to fix that.

¹ What about Windows®, you ask?... Are you sure you are a real developer?

Cleaning Up

To revert the development rig to its pristine state (wiping out node_modules, compiled JavaScript and caches):

./bin/rake devel:clean

To purge the development database as well:

./bin/rake devel:realclean

Should you wish to also purge the Keycloak state in MariaDB, say

docker compose down
docker volume rm hellorails_mariadb

💡 When you restart Keycloak with docker compose up, you must restart the Rails server (./bin/dev) as well, otherwise it will try and fail to validate the OpenID-Connect tokens using the old public key it obtained from the former incarnation of Keycloak.

Starter Kit

This is not a real app. If you clone and copy this repository into your project, consider

  • Truncating the Git history, keeping only the parent of the oldest commit whose message starts with [helloworld],
  • Searching-n'replacing HelloRails (of which there is only a handful) in the source code,
  • Searching-n'replacing hellorails in the various README.md files and the development support configuration-as-code (i.e. docker-compose.yml),
  • Removing this whole here chapter in README.md (after reading it perhaps - It's up to you).

Framework Picks

Rails

See this comic to find out why using one of these newfangled NoSQL data stores might not be the best idea for a business-oriented application.

When it comes to modeling (as in the M of MVC) data into a relational database, Rails' ORM is tough to beat. For instance, Red Hat has an entire section of its business strategy which consists of writing and selling Rails front-ends to neckbeard-oriented systems — to wit: OKD for Kubernetes; Foreman for that whole IPMI / PXE / DHCP / TFTP / DNS hairball; and many more. Only occasionally will they use Django instead (e.g. Ansible Tower, possibly because Ansible itself is written in Python).

React (and TypeScript)

We get it, you love Ruby and you hate JavaScript (otherwise, maybe you should have a look at Meteor paired with some kind of TypeScript-friendly ORM like Prisma?). This is 2022 and it has probably become tough to argue with your boss that your project doesn't need JavaScript; a better strategy might be to suggest a modern, not-too-controversial framework with a gentle learning curve and plenty of help available online. React and TypeScript seem like as good choices as any. With some luck, TypeScript's learning path might bring you to venture past the old trope, “strong typing is for weak minds” and onto the enlightened path beyond.

React being what it is though, JSX and all, it demands some kind of build process. This starter kit uses esbuild which is a fast and modern replacement for Webpack. The jsbundling-rails gem integrates esbuild into the run-time part of Rails' asset pipeline in a way that is easy to reason about (with cache keys in URLs and all).

EPFL Elements

The standard layout of EPFL. References:

Oracle connector

is quite cumbersome to install because it needs official binaries from oracle. For linux, see the Dockerfile. For osx, use brew to install the oracle client as explained here:

brew tap InstantClientTap/instantclient
brew install instantclient-basic
brew install instantclient-sdk
brew install instantclient-sqlplus
gem install ruby-oci8

OpenID Connect

It has become fashionable to split Web apps between front-end and back-end, if only to provide division of labor for those who hate JavaScript (see above). Security can become a problem at the interface between both.

With OpenID Connect, which is kind of a successor-in-interest to the best parts of OAuth, we picked a modern and scalable system that supports even the most demanding requirements, such as

  • extensible access control policies from plain old ad-hoc access groups to roles (either simple or decorated with metadata that maps to your organization's permission hierarchy),
  • pseudonymous access / audit logs: thanks to the distinction between ID tokens and access tokens in OAuth, it is possible to set up your Keycloak, SATOSA or other OpenID-compatible server so that the front-end shows the logged user's first and last name, while the back-end only gets to know some ephemeral user identifier that will die with the session, and an app-specific set of permissions. (With little or no change required in your app of course.)

Keycloak

The starter-kit app comes bundled with Keycloak-in-a-container, configured “as-code” (see keycloak/README.md for details). While Java is admittedly a debatable choice (even moreso for production), Keycloak is an OpenID implementation that comes complete with a GUI that will let you set up test users, groups and roles as you please. This provides a so-called hermetic developer experience: you can hack while riding the bus, and worry about integration with your “real” corporate OIDC impementation (or SAML, bridged with e.g. SATOSA) at deployment time.

GraphQL

Once your front-end is authenticated, it will want to talk to the back-end. GraphQL is a more versatile approach than plain old REST, which future-proofs your app by alleviating some of the headaches of long-term schema maintenance, especially if more than one front-end exists to access your back-end (think mobile app). In development mode, your starter-kit app comes with a GraphQL console at the /graphiql URL.

Relevant ENV variables for configuration

Common variables:

  • RAILS_ENV: standard
  • REDIS_CACHE: the url of the redis server for storing cache (RoR defaults to local memory storage)
  • CAMIPRO_PHOTO_HOST: the server for camipro profile photos
  • ENABLE_API_CACHE: enable caching of call to external api servers (api, atela, etc.)

Common secrets:

  • CAMIPRO_PHOTO_KEY: secret key for accessing the camipro photos server
  • ORACOURS_PWD: ${ORACOURS_PWD} password for the orable database containing the ISA courses
  • ATELA_KEY: ${ATELA_KEY} secret key for accessing atela.epfl.ch
  • EPFLAPI_PASSWORD: ${EPFLAPI_PASSWORD} password for api.epfl.ch

Development only variables:

  • RAILS_DEVELOPMENT_HOSTS: normally only localhost is considered a dev host. Using traefik we need to add the hosts that are actually used for Rails not to complain about security.

Opinions

GraphQL and OpenID only, or: Web 1.0 CRUD (and REST) Considered Obsolete

In the out-of-the-box configuration for this demo app, only the /graphql URL is protected by OpenID access control. We posit that this is, in fact, a reasonable approach to security; and that you might want to consider designing your app so that there is no need for additional protection.

GraphQL provides for all your data access and mutation needs. It is pretty straightforward to enforce the security policy (for both access control and auditing) by checking for a so-called OpenID “claim” that is mapped to a role directly from within the relevant GraphQL controllers. The rest of your app should not disclose information (except information intended for public use) at any other endpoint; nor should it permit any mutation except, over GraphQL. In other words, you should refrain from using “traditional” Rails controllers and Web templates (either Web 1.0-style with application/x-www-form-urlencoded POSTs; or “modern” REST-style APIs with other HTTP verbs), except to serve “traditional” Web content (using HTTP GET) to unauthenticated users (such as search engines). Examples of concerns that you will be able to disregard entirely are XSRF tokens (and the secret management headaches they entail when deploying a load-balanced Rails app), ad-hoc signaling and UX, and more.

Web 1.0 CRUD and REST still viable when leveraging all the work behind RoR

In my opinion (giova), the development overhead introduced by the so called web 2.0 is justified only in two cases:

  1. when the volumes are huge (e.g. facebook) and it it is less expensive to delegate as much computation as possible to the client;
  2. when one tries to emulate a desktop application that requires a lot of reactivity and real time rendering of the UI (e.g. google docs);

Our tiny application people.epfl.ch serves at most few requests per second and is a read-only application for most of the data. The user editable part is quite limited and simple. Therefore, it does not match any of the above use cases. The amount of nice features provided natively by RoR that would have to be discarded for embracing the web 2.0 is not justified at all.

Migration

Profile pictures

Current application offers two options for the profile picture:

  1. use remote camipro image (actually locally cached version of it);
  2. use one of the locally uploaded images;

The GUI for selecting the image must be composed of three parts:

  1. toggle if picture should be visible or not;
  2. toggle if camipro picture is to be used (currently camipro photo is used if common.photo_ext is not 1);
  3. list selector for the uploaded images (currently this is decided by common.photo_ts)

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