#### General ##### Check the Repo content The repo contains a `README.md`, an `orchestrator.sh` script, a `Vagrantfile` and all the additional files used to create, delete and manage the submitted infrastructure. ###### Are all the required files present? ###### Does the project as a structure similar to the one below? If not, can the student provide a justification for the chosen project structure? ```console . ├── Manifests │ └── [...] ├── Scripts │ └── [...] ├── Dockerfiles │ └── [...] └── Vagrantfile ``` ##### Ask the following questions to the group or student - What is container orchestration, and what are its benefits? - What is Kubernetes, and what is its main role? - What is K3s, and what is their main role? ###### Did the student reply correctly to the questions? ##### Check the Student Documentation > There must be a `README.md` file with the project Documentation ###### Did the README.md file contains all the required information about the solution (prerequisites, configuration, setup, usage, ...)? ##### Check the docker images in the Docker Hub: ###### Are the docker images used in the YAML manifest uploaded from the student's Docker Hub account? ##### Check the cluster: By using K3s in Vagrant two virtual machines must be created: 1. `Master`: the master in the K3s cluster. 2. `Agent`: an agent in the K3s cluster. `kubectl` must be installed and configured in the learner machine to manage the cluster. The nodes must be connected and available, try: ```console $> kubectl get nodes -A NAME STATUS ROLES AGE VERSION Ready XdXh vX Ready XdXh vX $> ``` ###### Is kubectl installed and configured in the learner's machine? ###### Was the cluster created by a Vagrantfile? ###### Does the cluster contain two nodes (*master* and *agent*)? ###### Are the nodes connected and ready for usage? ##### Check the student infrastructure: The student must implement this architecture: ![architecture](../pictures/Architecture.png) ##### Run the student infrastructure: ```console user:~$ ./orchestrator.sh create cluster created user:~$ ``` ###### Did the student provide an `orchestrator.sh` script that runs and creates and manages the infrastructure? ###### Did the student respect the architecture? ###### Did the infrastructure start correctly? ##### Verify the K8s Manifests: ###### Is there a YAML Manifest for each service? ###### Are credentials not existing in the YAML manifests, except the secret manifests? ##### Ask the following questions to the group or student - What is infrastructure as code and what are the advantages of it? - Explain what is a K8s manifest. - Explain each K8s manifests. ###### Did the student reply correctly to the questions? ##### Check the secrets ```console $> kubectl get secrets -o json <...> $> ``` ###### Are all the used credentials and passwords present in the secrets? ##### Check all deployed resources: ```console user:~$ kubectl get all <...> user:~$ ``` - `inventory-database container` is a PostgreSQL database server that contains your inventory database, it must be accessible via port `5432`. - `billing-database container` is a PostgreSQL database server that contains your billing database, it must be accessible via port `5432`. - `inventory-app container` is a server that contains your inventory-app code running and connected to the inventory database and accessible via port `8080`. - `billing-app container` is a server that contains your billing-app code running and connected to the billing database and consuming the messages from the RabbitMQ queue, and it can be accessed via port `8080`. - `RabbitMQ container` is a RabbitMQ server that contains the queue. - `api-gateway-app container` is a server that contains your api-gateway-app code running and forwarding the requests to the other services and it's accessible via port `3000`. ###### Are all the required applications deployed? - Databases must be deployed as *StatefulSet*, and volumes that enable containers to move across infrastructure without losing the data must be created. - The following applications must be deployed as a deployment, and they must be scaled horizontally automatically, depending on CPU consumption: 1. `api-gateway`: max replication: 3 min replication: 1 CPU percent trigger: 60% 2. `inventory-app`: max replication: 3 min replication: 1 CPU percent trigger: 60% The `billing-app` must be deployed as *StatefulSet*. ###### Do all apps deploy with the correct configuration? ##### Ask the following questions to the group or student - What is *StatefulSet* in K8s? - What is *deployment* in K8s? - What is the difference between *deployment* and *StatefulSet* in K8s? - What is scaling, and why do we use it? - What is a load balancer, and what is its role? - Why we don't put the database as a deployment? ###### Did the student reply correctly to the questions? ##### Test the solution #### Inventory API Endpoints ##### Open Postman and make a `POST` request to `http://[GATEWAY_IP]:[GATEWAY_PORT]/api/movies/` address with the following body as `Content-Type: application/json`: ```json { "title": "A new movie", "description": "Very short description" } ``` ###### Can you confirm the response was the success code `200`? ##### In Postman make a `GET` request to `http://[GATEWAY_IP]:[GATEWAY_PORT]/api/movies/` address. ###### Can you confirm the response was success code `200` and the body of the response is in `json` with the information of the last added movie? #### Billing API Endpoints ##### Open Postman and make a `POST` request to `http://[GATEWAY_IP]:[GATEWAY_PORT]/api/billing/` address with the following body as `Content-Type: application/json`: ```json { "user_id": "20", "number_of_items": "99", "total_amount": "250" } ``` ###### Can you confirm the response was success code `200`? ##### Stop the billing-app container ###### Can you confirm the `billing-app` container was correctly stopped? ##### Open Postman and make a `POST` request to `http://[GATEWAY_IP]:[GATEWAY_PORT]/api/billing/` address with the following body as `Content-Type: application/json`: ```json { "user_id": "22", "number_of_items": "10", "total_amount": "50" } ``` ###### Can you confirm the response was success code `200` even if the `billing_app` is not working? #### K8s components ![suprise](../pictures/suprise.png) ![components-of-kubernetes](../pictures/components-of-kubernetes.svg) In less than 15 minutes and with the help of Google the student must explain all Kubernetes components and their roles. ###### Can the learner explain the K8s components in less than 15 minutes? #### Bonus ###### +Did the student used his/her own `play-with-container` solution instead of the provided one? ###### +Did the student add any optional bonus? ###### +Is this project an outstanding project?