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This repository contains the source code of my personal mini-website. It represents a simple instance of a Next.js app with server components, API routes and domain-based internationalization. Feel free to explore this repository to learn something new or even to reuse its code in your own projects.

Key ingredients

Project structure

The codebase is inspired by these Next.js examples:

The main web page renders a list of profiles and shows relevant stats. The numbers are taken from a few YAML files that are stored locally. Thanks to React server components, these files can be read directly by the Node.js process and there is no need to introduce any React state to re-hydrate profile infos on the client. This simplifies the architecture and reduces the amount of the JavaScript to for browsers to download.

Profile infos are updated inside Next.js API routes. A GET request to /update-profiles/[profile-name]?[security-token] scrapes a third-party service (e.g. GitHub, OpenStreetMap, etc.) and updates a corresponding YAML file. Some profile infos are generated by making lightweight HTTP requests to JSON endpoints using Axios and Zod. However, the most common approach involves using Playwright which is a browser automation library. This approach is used when it is easier to scrape a web page than to interact with an official third-party API.

Profiles are updated on a schedule (see Deployment section). Because /update-profiles/* endpoints are public, a security token is introduced to prevent unauthorised requests.

Known issues

  • Internationalized (i18n) is hacky
    My go-to solution for internationalising Next.js pages is next-i18next. Because this package is incompatible with the /app directory (at least as of early March 2023), I have used a rather bare-bones approach inspired by the app-dir-i18n-routing example. The current solution is not as polished as next-i18next when it comes to propagating translations to components, but it works well enough for my needs. I might consider following i18next/next-13-app-dir-i18next-example in the future but I am generally waiting for this space to mature.

    In the meantime, I use @formatjs/intl to handle plurals, which is somewhat low-level and should not be done without a wrapper in a Next.js app. Ideally, I would like to have i18n resources available as React context and use components inside i18n strings (e.g. Hello <a>world</a>!). The latter is possible with <Trans /> component in react-i18next, which I hope to use at some point.

  • Custom 404 page is implemented via middleware.ts
    As of early March 2023, Next.js does not support custom 404 pages inside the /app directory. Until a permanent solution is available, incoming requests are checked against existingPathnamePatterns in middleware.ts. This enables custom 404 pages which are i18n-aware, but requires manual updates to existingPathnamePatterns each time a new app route is added. Thus, the current workaround is error-prone, especially for apps that have a lot of routes.

  • Progress bar for page navigation may need improvement
    I like using nprogress in apps with client-side navigation between pages. A progress bar improves the perceived performance of the app and makes it feel more responsive. Unfortunately, established approaches to integrating nprogress with Next.js do not work with server components.

    I hope to find a good solution to this problem in the future, but in the meantime, I have implemented a custom solution in app/[locale]/layout/next-app-nprogress.tsx.

    Related issues:

Local development

Getting started

  1. Open a command line and ensure you have git and Node.js installed:

    git --version
    ## ≥ 2.30.0
    
    node --version
    ## ≥ 18.12.0
    
    corepack --version
    ## ≥ 0.14.0, comes with Node.js
  2. Clone the repo from GitHub:

    cd PATH/TO/MISC/PROJECTS ## replace example path with a directory of your choice
    git clone https://github.com/kachkaev/website.git
    cd website
  3. Prepare pnpm for dependency management:

    corepack enable && corepack prepare --activate
    
    pnpm --version
    ## same as in package.json → packageManager
  4. Install dependencies:

    pnpm install
  5. Copy .env to .env.local:

    cp .env .env.local

    Unlike .env, .env.local is not tracked by git and can therefore be used to store sensitive environment variables (security tokens, etc.). We will need this file later.

  6. Start Next.js in development mode:

    pnpm dev

    If you see a home page with empty profiles at localhost:3000, congratulations! Modifying source files will automatically refresh the app. To stop running the dev server, press ctrl+c.

  7. If you want to try a copy of the app that is optimized for production, you can build and start it like this:

    pnpm build
    pnpm start

Updating profile infos

To be able to update profile infos locally, you will need to define an environment variable named UPDATE_PROFILE_SECURITY_TOKEN . To set it to 123, add the following line to .env.local:

UPDATE_PROFILE_SECURITY_TOKEN=123

Once you have saved .env.local and have restarted the dev server (pnpm dev), you can update profile infos by making GET requests to /update-profiles/[profile-name]?123. If a request is successful, the app will create or update a corresponding file named data/profile-infos/[profile-name].yaml. The contents of this file are then used to render profile info on the home page.

The list of available profiles can be found in app/[locale]/update-profiles/. Note that updating Flickr profile requires API authentication, so requests to /update-profiles/flickr?123 will fail without valid values for FLICKR_USER_ID and FLICKR_API_KEY inside .env.local.

Playing with i18n

Internationalization (i18n) is setup in i18n-config.ts, i18n-server.ts and middleware.ts.

By default, requests to localhost:3000 map to the en locale and requests to ru.localhost:3000 map to the ru locale. You can change this by setting BASE_URL_RU and BASE_URL_EN in .env.local. For example, if you add BASE_URL_RU=http://localhost:3000, requests to localhost:3000 will be mapped to the ru locale. Just like with any other changes in .env.local, you will need to restart the dev server (pnpm dev) for the new values to be read.

Note that localhost subdomains need to be configured on your machine to become resolvable.

Quality checks

Linting

Codebase integrity is continuously checked with several linting tools. You can find them in package.json under scriptslint:*. To run a specific linter, use pnpm lint:<linter-name> (e.g. pnpm lint:eslint). To run all linters, use pnpm lint.

The linters examine the codebase from different angles and help with early detection of potential issues. They are also used to maintain a consistent code style. Some linters provide autofixes, which can be applied with pnpm fix:<linter-name> (e.g. pnpm fix:eslint).

All linters are executed as part of the CI pipeline (.github/workflows/ci.yaml). They run for pull requests as well as pushes to the main branch.

Testing

TODO implement

Deployment

Next.js apps are often deployed to cloud-native environments such as Vercel, Netlify, AWS Amplify, etc. This makes them highly scalable and resilient to failures. One limitation that cloud-native deployments impose on Next.js apps is to do with the the size of the Lambda functions. These functions handle API requests and render React pages on the server side.

thinking meme face

With Playwright browser used in /update-profiles/[profile-name]?[security-token], the size of some Lambda functions would exceed the limit of 50 MB. Besides, deploying this mini-website to a cloud-native environment would make it harder for me to co-host it with other projects on the same domains.

To overcome these two limitations, I have decided to deploy the app to a Kubernetes cluster, in which I run most of my side projects.

Docker

I use Docker to make the Next.js app deployable to Kubernetes. You can dockerize the app locally with this command:

docker build --tag website .

Once the container image is created, you can test it at localhost:3000 like this:

docker run \
  --env-file=.env.local \
  --publish 3000:3000 \
  --rm \
  --volume $(pwd)/data:/data \
  website

The ‘official’ website image is created from GitHub Actions (.github/workflows/generate-docker-image.yaml) and is hosted on GitHub (github.com/kachkaev/website/pkgs/container/website).

Kubernetes (K8s)

concentrated meme face

Kubernetes is an open platform for running custom cloud-native workloads. Just as any K8s deployment, this mini-website is described in yaml files which are located in k8s directory of this repo. These yamls can serve as examples for deploying similar Next.js apps with ‘heavy’ API handlers. Such handlers would be slow inside Lambda functions or even exceed their size limit.

The commands in this section assume that a Kubernetes cluster is already setup, kubectl client is configured against it and the current Kubernetes user is able to create resources in the website namespace. It is also assumed that the cluster’s ingress controller is in place, so the creation of Ingress objects leads to exposing Kubernetes services to the outer world via HTTP and HTTPS. If you are not using Traefik as the ingress controller, you might need to replace a couple of annotations in the yamls (e.g. traefik.ingress.kubernetes.io/router.tls). You may also want to modify some other bits such as those containing host names.

Namespace

First, let’s ensure that a namespace called website exists in your cluster:

kubectl apply -f k8s/namespace.yaml

Persistent volume claim for data

We don’t want profile infos to be erased every time the app deployment is updated. To achieve this, we will use a persistent volume claim (PVC):

kubectl apply -f k8s/pvc.yaml

Secrets

We can pass environment variables to the app deployment directly inside the yaml. However, because some of the values are sensitive, it is better to maintain them as Kubernetes secrets:

FLICKR_USER_ID=??
FLICKR_API_KEY=??
kubectl create secret generic flickr-api \
  --from-literal=user_id=${FLICKR_USER_ID} \
  --from-literal=api_key=${FLICKR_API_KEY} \
  --namespace=website

UPDATE_PROFILE_SECURITY_TOKEN=??
UPDATE_PROFILE_PROXY_SERVER_URL=??
kubectl create secret generic update-profile \
  --namespace=website \
  --from-literal=security-token=${UPDATE_PROFILE_SECURITY_TOKEN} \
  --from-literal=proxy-server-url=${UPDATE_PROFILE_PROXY_SERVER_URL}

The app (deployment, service, ingress)

Now that we have a namespace, a PVC and the secrets, we can deploy the app itself:

kubectl apply -f k8s/app.yaml

To manually update the app deployment, this commands can be used:

NEW_IMAGE_TAG=$(git rev-parse --short HEAD)
kubectl set image --namespace=website deployment/website-app main=ghcr.io/kachkaev/website:${NEW_IMAGE_TAG}

Alternatively, it is possible to modify Docker image urls directly in yaml files and then run kubectl apply ... again. In any case, the updates will run with zero downtime because of their rolling nature.

Initial profile infos

Because profile infos have not been collected yet, the app will ‘gracefully degrade’ by showing blank space instead of statistics. We can instantiate profile infos by manually requesting corresponding URLs: /update-profiles/[profile-name]?[security-token].

Cron jobs (recurring updates to profile infos)

We can always update profile infos by opening /update-profiles/[profile-name]?[security-token]. To automate this process, we can use Kubernetes cron jobs which will make GET requests on a schedule:

kubectl apply -f k8s/cron-jobs.yaml

All done!

happy meme face

The real production cluster contains other Kubernetes payload including redirects from www domains to non-www ones. These yamls are omitted from the repository to keep it focused.

Project history

My mini-website has been live since 2009. You can find its historic snapshots on 📜 web.archive.org:

I moved the English version to the .uk domain zone in 2022 to mitigate a potential loss of my primary hostname. When Russia started its ‘special military operation’ in Ukraine, I assumed a non-zero chance of ‘special civil servants’ taking over kachkaev.ru because of my ‘special attitude and activities’.

The first open-source version of this project was crafted in 2017 and it became my first TypeScript-enabled Next.js app. This was before Next.js implemented API routes, so I had to split the app into two microservices: frontend and graphql-server. I used GitLab to host the repositories and to run CI/CD pipelines (GitHub Actions did not exist until 2019). You can still find the original open-source repositories at:

When Next.js announced the new /app directory in late 2022, I saw this as an opportunity to refactor my mini-website and to experiment with React server components. So when I got a couple of spare weekends in early 2023, I replaced three GitLab repos with github.com/kachkaev/website. Doing so simplified things a lot!

Getting involved

This is a pretty small personal project, so frankly speaking, there is not much to collaborate on. Nevertheless, you might want to learn something new by playing with this repo or even decide to make your own (much better) website based on my code. If you have questions, feel free to ask me anything by creating a new GitHub issue or by sending an email!

The repository is available under BSD-3-Clause license, so you are free to do whatever you want with it!

thumbs-up meme face