This is a demo application from the Docker for Web Developers course on Pluralsight that demonstrates how multiple services can be integrated and orchestrated using Docker and Docker Compose.

Open a WSL (Linux) command prompt and clone the repo from there into a folder of your choosing. For example you can cd into desktop and put it there if you'd like.

git clone https://github.com/danwahlin/codewithdandockerservices.git

Ensure that Node is installed into your Linux instance (see https://docs.microsoft.com/en-us/windows/nodejs/setup-on-wsl2).

DO NOT clone the repo using a regular Windows command window if you're using WSL with Docker as there can be volume problems with MongoDB.

Note that if you're NOT using WSL at all with Docker on Windows then you can clone the repo from any Windows command prompt.

1. Install Docker Desktop for Mac or Docker CE for Windows from https://docker.com and the lastest LTS version of Node.js from https://nodejs.org.

2. Set the environment variables in your command window.

   export APP_ENV=development

   export DOCKER_ACCT=codewithdan

   NOTE: For the Windows DOS command shell use set instead of export. For Windows Powershell use $env:APP_ENV = "value".

3. Run npm install to install the Node.js dependencies for the project (when running containers in development mode since a volume is defined docker-compose.yml file)

4. Run docker-compose build

5. Run docker-compose up

6. Visit https://localhost in a browser

7. Live long and prosper

If you're on Docker Toolbox rather than Docker CE you may get an nginx gateway error when going to https://localhost. This is due to "localhost" being used as the server name in .docker/config/nginx.development.conf (that works for Docker Desktop - the latest version - but not for Docker Toolbox). Comment out the existing "server_name" property and uncomment the one mentioned for Docker Toolbox in the .docker/config/nginx.development.conf file.

1. Enable Kubernetes in Docker Desktop.

   Note: You MUST have Docker Desktop for this particular demo to work or another local Kubernetes option such as Minikube.

2. Do a production Docker Compose build (see docker-compose.yml for instructions on doing the build) to create the local images. Ensure that you set APP_ENV=production as mentioned in the compose file.

3. Open a command-prompt at the root of the project

4. Run the following to add the database passwords as secrets (yes - these are simple passwords for the demo :-)):

   kubectl create secret generic db-passwords --from-literal=db-password='password' --from-literal=db-root-password='password'

   Note: password is being used here purely to keep things very simple for the demo. Use strong passwords for a "real" setup!!!!

5. Run kubectl create -f .k8s to create the Kubernetes Services, Deployments, Pods, etc.

6. Once the deployments are applied several pods will be created.

7. Open the browser and go to https://localhost. Read note below.

NOTE: You'll need to wait since it'll take a little bit for the DB to start up. Once the Pods are ready you should see data in the app (hit refresh if needed).

1. When you're done run kubectl delete -f .k8s to delete the Kubernetes resources.

NOTE: The local storage hostname volume is commented out in the .k8s/mongo.deployment.yml StatefulSet because MongoDB doesn't support that type of volume correctly on Docker for Windows. It does work on Mac/Linux. You'd need to create a /tmp/data/db directory and then uncomment the volumes and volumeMounts properties (and sub-properties) in the StatefulSet to actually use the volume on Mac/Linux.

This demo includes a LoadBalancer service for the nginx Pod which is why you can hit https://localhost. To expose a specific port for localhost for the nginx Pod, get the name of the nginx pod by running kubectl get pods and use the pod name in the following command:

sudo kubectl port-forward [name-of-nginx-pod] 8080:80

Note that sudo is needed to enable port 80 in this case on Mac. You can choose a different port as well such as 8081:80.

1. Open a command-prompt at the root of the project

2. Run the following to add the database passwords as secrets (yes - these are simple passwords for the demo :-)):

   kubectl create secret generic db-passwords --from-literal=db-password='password' --from-literal=db-root-password='password'

   Note: password is being used here purely to keep things very simple for the demo. Use strong passwords for a "real" setup!!!!

3. Install Skaffold from https://skaffold.dev.

4. Run the following command at the root of the project:

   skaffold dev