This repository holds all the code you will need to spin up a cluster of (by default 7) virtual instances that will have a mixture of HashiCorp products installed.
All the provisioning is done through Ansible. And the virtual instances are meant to be built with Ubuntu Multipass. During the deployment, the multipass instances will be provisioned and a new inventory file will be created.
Multipass is a CLI to launch and manage VMs on Windows, Mac and Linux that simulates a cloud environment with support for cloud-init.
Multipass is one of the two choices you have to deploy this demo environment.
Terraform is an open-source infrastructure as code software tool that enables you to safely and predictably create, change, and improve infrastructure.
Terraform is the other of the two choices you have to deploy this demo environment.
Consul is a service networking solution to automate network configurations, discover services, and enable secure connectivity across any cloud or runtime.
In our demo we will be using it for both the storage backend of Vault and for the service discovery within Nomad jobs.
Vault secures, stores, and tightly controls access to tokens, passwords, certificates, API keys, and other secrets in modern computing.
In our demo we will be storing the created SSL certificate in Vault, so that this can be accessed by Nomad during a job run.
Nomad is a highly available, distributed, data-center aware cluster and application scheduler designed to support the modern datacenter with support for long-running services, batch jobs, and much more.
In this demo we will use Nomad to demonstrate the possibilities of deploying applications fault tolerant and high available. We're only scratching the surface of the possibilities of this product for this demo.
A schematic overview of what we will be building:
Basically, this is what we will achieve with this
- We'll deploy 3 servers and 4 clients.
- The servers will house:
- Consul
- Nomad
- Vault
- The clients will house:
- Consul
- Nomad
- Docker
- The servers will do all the thinking, the clients will do all the processing.
- We will spin up two jobs in Nomad:
- Traefik
- This will be the reverse proxy / load balancer for our webapp. The idea is that all the Traefik config is done on the webapp side, and Traefik will dynamically pick this up in realtime.
- AT-Demo
- A small PHP image that will house a logo and show the IP address and port of the client.
- Traefik
- We can then play around with job properties / kill clients / down- and upgrade Nomad and see what happens.
Estimated runtime to setup: 15 - 30 minutes.
You will be needing about 8GB of RAM to run this without annoying lagg.
Diskspace wise I would say about 5GB of diskspace should cover it.
This was built and tested on both macOS 12.1 (Intel chip) and Ubuntu 20.04 LTS Desktop.
Running the same setup on macOS with an M1-chip will fail miserably.
Make sure you have the following installed on your workstation:
- Ansible
- Multipass
- Terraform (optional)
ansible-galaxy install -r requirements.yml
You can either deploy the instances locally with Multipass, or in the AWS cloud with Terraform. You decide.
If you want to deploy with Multipass, go for step 3a.
If you want to deploy with Terraform, go for step 3b.
Beware that you must choose the one or the other, do not execute 3a AND 3b.
Variable | Default value | Description |
---|---|---|
atcomputing_user | atcomputing |
The user that will be used as admin user of on each instance. |
public_key | ~/.ssh/id_rsa.pub |
The public key that will be added to the atcomputing_user user's authorized_keys file. |
multipass_instances | See the multipass main.yml variable file |
The instances that we will be using. |
multipass_passphrase | atcomputing |
The passphrase used to authenticate against Multipass. |
Please make sure you have updated your Multipass passphrase accordingly
Use the multipass set local.passphrase
command.
This playbook will spin up the Multipass instances with the cloud-init option to create the admin user. If it detects instances with the same names as in the variable file, you will be prompted to allow for deletion of all of these instances.
After creating the Multipass instances, a new inventory is made in this directory with the name inventory
and this will contain all of the servers and clients.
And lastly it will add the names and IP addresses to the local /etc/hosts
file.
ansible-playbook 00_multipass-prep-inventory-and-hosts.yml
With the second run (you will be prompted)
ansible-playbook 00_multipass-prep-inventory-and-hosts.yml --tags hostfile --ask-become-pass
Variable | Default value | Description |
---|---|---|
public_key | ~/.ssh/id_rsa.pub |
The public key that will be added to the ubuntu user's authorized_keys file. |
This playbook will spin up the EC2 instances. After creating the EC2 instances, a new inventory is made in main folder with the name inventory
and this will contain all of the servers and clients. Please note that the default user ubuntu
will be used in this demo.
Before we can start to deploy, make sure you have your Amazon access key and secret key at hand. We will also be needing a region. You can either set them as environment variables
export AWS_REGION="eu-central-1"
export AWS_ACCESS_KEY_ID="<ACCES_KEY>"
export AWS_SECRET_ACCESS_KEY="<SECRET_KEY>"
Or enable the following settings in the terraform/providers.tf
. Look for the following section. Uncomment them and fill in the correct values.
# region = "eu-central-1"
# access_key = "my-access-key"
# secret_key = "my-secret-key"
If you look in terraform/variables.tf
you see the variables that are used. If you for instance would like to override the public_key
variable, then please open up the terraform/terraform.tfvars
file and place the following in there:
public_key="~/.ssh/some_other_id_rsa.pub"
cd terraform
terraform init
terraform plan
terraform apply
Now you will be prompted to enter your first name. This will be used as a prefix for both the EC2 instances as the generated key-pair.
Variable | Default value | Description |
---|---|---|
hashicorp_product_selection | - consul - nomad - vault |
The products that will be installed. |
basic_apt_packages | See variable file | Add / remove packages as you please for general use. |
token_directory | ~/hashi-tokens |
This path will be used to store the tokens locally. |
This playbook will install all the neccesairy packages on both servers and clients.
ansible-playbook 01_general-server-configuration.yml
Variable | Default value | Description |
---|---|---|
demo_fqdn | demo.atcomputing.local |
The demo FQDN that we will be using. |
This playbook will do the following:
- Create a self-signed Certificate Authority on the first server.
- Copy the CA certificate over to the rest of the environment.
- Each server and client will do a certificate request to the first server.
- The first server will issue the certificates and stores them on the servers / clients.
- A certificate for the demo webapp will be requested and issued.
- This certificate will be placed in Vault later on, so that Traefik (see Nomad Demo Jobs) can use it as an artifact.
ansible-playbook 02_public-key-infrastructure.yml
Variable | Default value | Description |
---|---|---|
hashicorp_datacenter_name | velp |
This datacenter name will be used in both Consul as Nomad (and in the demo jobs). |
consul_bootstrap_token_local_path | ~/hashi-tokens/management.consul.token |
After bootstrapping, this will be saved to the local workstation at this location. Don't loose this file! |
consul_dns_token_local_path | ~/hashi-tokens/dns-requests.consul.token |
This token will be used to register the Consul agents with, to keep allowing for DNS requests even though ACL is enabled. |
This playbook will configure a Consul cluster, where the servers will be running the Consul agent in server-mode and the clients will be running the Consul agent in client-mode.
The Consul agent listens on both server and client on TCP port 8200. The servers will have the UI enabled.
After this playbook you should be able to reach the UI through http://server1:8500
from your local workstation.
ansible-playbook 03_consul-deployment.yml
Variable | Default value | Description |
---|---|---|
vault_bootstrap_init_local_path | ~/hashi-tokens/vault.master.keys |
After bootstrapping, this will be saved to the local workstation at this location. Don't loose this file! |
vault_admin_local_path | ~/hashi-tokens/atcomputing.vault.password |
After bootstrapping, this will be saved to the local workstation at this location. Don't loose this file! |
This playbook will configure a Vault cluster, where the servers will be running the Vault agent in server mode. The clients will have the Vault agent installed for use as a client. Consul will be used for the storage the Vault backend because this makes the whole storage high available.
The Vault agent listens on TCP port 8200.
After this playbook you should be able to reach the UI through https://server1:8200
or https://vault.atcomputing.local
from your local workstation.
ansible-playbook 04_vault-deployment.yml
Variable | Default value | Description |
---|---|---|
hashicorp_datacenter_name | velp |
This datacenter name will be used in both Consul as Nomad (and in the demo jobs). |
nomad_bootstrap_token_local_path | ~/hashi-tokens/management.nomad.token |
After bootstrapping, this will be saved to the local workstation at this location. Don't loose this file! |
nomad_operator_token_local_path | ~/hashi-tokens/atcomputing-operator.nomad.token |
After bootstrapping, this will be saved to the local workstation at this location. Don't loose this file! |
This playbook will configure a Nomad cluster, where the servers will be running the Nomad agent in server-mode and the clients will be running the Nomad agent in client-mode.
The Nomad agent listens on both server and client on TCP port 4646. The servers will have the UI enabled.
After this playbook you should be able to reach the UI through http://server1:4646
from your local workstation.
ansible-playbook 05_nomad-deployment.yml
None
This playbook create Vault policies, roles and tokens for Nomad servers to use to be able to retrieve secrets. In our case, the created SSL certificate for the webapp.
ansible-playbook 06_nomad-vault-integration.yml
Variable | Default value | Description |
---|---|---|
traefik_demo_docker_image | traefik:v2.6 |
The version of Traefik we will be using. Be sure to stick to a v2 version, otherwise all config will be useless. |
at_demo_group_count | 3 |
The number of instances of the webapp that will be deployed and allocated. You can step up this number to create more instances. |
at_demo_env_favicon | AT Computing favicon URL | The favicon that will be shown. |
at_demo_env_img_source | AT Computing logo URL | The image / logo that will be shown. |
This playbook will deploy to and run two jobs on Nomad:
- Traefik
- Will be placed on
client1
for demo purposes. The local/etc/hosts
file will also have an entry for the demo FQDN that will point to this instance. - Traefik is subscribed to the Consul catalog, so other jobs can hook into Consul by the use of Traefik tags.
- Traefik will be listening on TCP port 80 and 443 for web traffic and on TCP port 8081 for the API (with dashboard enabled).
- Will be placed on
- AT-Demo
- Will be placed on any client but
client1
. This is done so we can kill clients / upgrade clients without disrupting the Traefik instance, so we can test the high availability / migration. - The PHP docker image that will be used for testing.
- The exposed docker port will be dynamic, and will be picked up by Consul and thus Traefik for the connection. The local port is port 80.
- The jobs will also be placed on
server1
on/opt/nomad/demo-jobs
.
- Will be placed on any client but
After this playbook you should be able to reach the Traefik UI through http://client1:8081
from your local workstation.
And you should be able to reach the AT-Demo webapp through https://demo.atcomputing.local
from your local workstation (HTTP to HTTPS redirection is enabled as well).
ansible-playbook 07_nomad-demo-jobs.yml
variables {
custom_certs = ["webapp"]
default_cert = ["webapp"]
}
job "traefik" {
datacenters = ["velp"]
type = "service"
// For demo purposes, keep this job on the first client.
constraint {
attribute = "${node.unique.id}"
operator = "="
value = "85463edb-669f-bab2-5815-6292b78026c4"
}
group "traefik" {
count = 1
network {
port "http" {
static = 80
}
port "https" {
static = 443
}
port "traefik" {
static = 8081
}
port "health" {
static = 8082
}
}
service {
name = "traefik"
check {
type = "http"
path = "/ping"
port = "health"
interval = "10s"
timeout = "2s"
}
}
task "traefik" {
template {
destination = "local/traefik.yml"
data = <<-EOH
entryPoints:
http:
address: :80
http:
redirections:
entryPoint:
to: https
scheme: https
permanent: true
https:
address: :443
http:
middlewares:
- hsts@file
tls: {}
traefik:
address: :8081
ping:
address: :8082
tls:
options:
default:
sniStrict: true
minVersion: VersionTLS12
api:
dashboard: true
insecure: true
pilot:
dashboard: false
providers:
file:
directory: /local/rules
watch: true
consulCatalog:
prefix: traefik
exposedByDefault: false
endpoint:
address: 127.0.0.1:8500
scheme: http
ping:
entryPoint: ping
log:
format: json
accessLog:
format: json
EOH
}
template {
destination = "local/rules/sts.yml"
data = <<-EOH
http:
middlewares:
hsts:
headers:
stsSeconds: 63072000
stsIncludeSubdomains: true
stsPreload: true
EOH
}
dynamic "template" {
for_each = var.default_cert
content {
destination = "local/rules/default_cert.yml"
env = false
change_mode = "noop"
data = <<-EOH
tls:
stores:
default:
defaultCertificate:
certFile: /etc/traefik/ssl/${template.value}.crt
keyFile: /etc/traefik/ssl/${template.value}.key
EOH
}
}
dynamic "template" {
for_each = var.custom_certs
content {
destination = "local/rules/${template.value}.yml"
env = false
change_mode = "noop"
data = <<-EOH
tls:
certificates:
- certFile: /etc/traefik/ssl/${template.value}.crt
keyFile: /etc/traefik/ssl/${template.value}.key
EOH
}
}
dynamic "template" {
for_each = var.custom_certs
content {
destination = "local/ssl/${template.value}.crt"
env = false
change_mode = "noop"
left_delimiter = "{!"
right_delimiter = "!}"
data = <<-EOH
{!- with secret "secret/ssl-certificates/${template.value}" -!}
{!.Data.data.certificate!}
{!- end -!}
EOH
}
}
dynamic "template" {
for_each = var.custom_certs
content {
destination = "local/ssl/${template.value}.key"
env = false
change_mode = "noop"
left_delimiter = "{!"
right_delimiter = "!}"
data = <<-EOH
{!- with secret "secret/ssl-certificates/${template.value}" -!}
{!.Data.data.privatekey!}
{!- end -!}
EOH
}
}
vault {
policies = ["ssl-certificates-policy"]
change_mode = "signal"
change_signal = "SIGHUP"
}
driver = "docker"
config {
image = "{{ traefik_demo_docker_image }}"
network_mode = "host"
volumes = [
"local/traefik.yml:/etc/traefik/traefik.yml",
"local/ssl:/etc/traefik/ssl",
]
}
resources {
cpu = 100
memory = 128
}
}
}
}
job "at-demo" {
datacenters = ["velp"]
type = "service"
// For demo purposes only, spread over all but first client.
constraint {
attribute = "${node.unique.id}"
operator = "!="
value = "85463edb-669f-bab2-5815-6292b78026c4"
}
group "at-demo" {
count = 3
network {
port "at-http" {
to = 80
}
}
service {
name = "at-demo"
port = "at-http"
tags = [
"traefik.enable=true",
"traefik.http.routers.at-demo.entrypoints=https",
"traefik.http.routers.at-demo.rule=Host(`demo.atcomputing.local`)",
]
check {
name = "check if demo is alive"
type = "http"
path = "/"
interval = "10s"
timeout = "2s"
}
}
task "at-demo" {
env {
NODE_IP = "${NOMAD_IP_at-http}"
HOST_PORT = "${NOMAD_HOST_PORT_at-http}"
MAPPED_PORT = "${NOMAD_PORT_at-http}"
}
driver = "docker"
config {
image = "ghcr.io/chrisvanmeer/at-image:latest"
ports = ["at-http"]
force_pull = true
}
resources {
cpu = 100
memory = 50
}
}
}
}
FROM jamesbrink/php
COPY src/. /var/www/localhost/htdocs/
<?php
$node_ip = getenv('NODE_IP') ?? "127.0.0.1";
$host_port = getenv('HOST_PORT') ?? "0";
$mapped_port = getenv('MAPPED_PORT') ?? "0";
?>
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta http-equiv="X-UA-Compatible" content="IE=edge">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>AT HashiCorp Demo</title>
<link rel="shortcut icon" href="https://www.atcomputing.nl/assets/img/favicon.png" type="image/x-icon">
<link href="https://cdn.jsdelivr.net/npm/[email protected]/dist/css/bootstrap.min.css" rel="stylesheet" integrity="sha384-1BmE4kWBq78iYhFldvKuhfTAU6auU8tT94WrHftjDbrCEXSU1oBoqyl2QvZ6jIW3" crossorigin="anonymous">
<link rel="stylesheet" href="style.css">
</head>
<body>
<div class="container-fluid bg">
<div class="display-6 fw-bold text-white text-center w-75 info">
<div class="border-bottom mb-4">Information of the instance:</div>
<div class="details">
<div class="row">
<div class="col-6 text-end">Node IP:</div>
<div class="col-6 text-start results"><?= $node_ip ?></div>
</div>
<div class="row">
<div class="col-6 text-end">Host port:</div>
<div class="col-6 text-start results"><?= $host_port ?></div>
</div>
<div class="row">
<div class="col-6 text-end">Mapped port:</div>
<div class="col-6 text-start results"><?= $mapped_port ?></div>
</div>
</div>
</div>
</div>
</body>
</html>
None
This playbook will unseal the vault after a service restart / server reboot.
After this playbook you should be able to reach the UI through https://server1:8200
or https://vault.atcomputing.local
from your local workstation.
ansible-playbook 97_vault-unseal.yml
None
This playbook can be run to clean up the whole HashiCorp install base from the environment. This can either be done for the whole installed stack or selectively.
If you want to use it selectively, run the playbook with the --list-tags
argument to see which tags are available.
The binaries will not be deleted, but all the configuration work will be.
After this playbook you can re-run one or more of the previous playbooks to re-configure that part of the environment.
ansible-playbook 98_reset-environment.yml
Example of running it selectively for just Vault
ansible-playbook 98_reset-environment.yml --tags vault
None
Are you done with the environment and would you like to cleanup the whole lot? This playbook will do the following:
- Remove all the instances from the local
/etc/hosts
file. - Delete all deployed instances.
- Deletion of the
inventory
file in this directory.
ansible-playbook 99_destroy-environment.yml --ask-become-pass
If you used Terraform, then perform the following to destroy the EC2 instances, remove the keygen and remove the inventory file.
cd terraform
terraform destroy
MIT - Copyright (c) 2022 Chris van Meer