A Terraform module for deploying a client VPN in AWS.
The client VPN deployment requires:
- An existing VPC
The client VPN deployment consists of: *
To use the module, include something like the following in your Terraform configuration:
module "client_vpn" {
source = "infrablocks/client-vpn/aws"
version = "0.1.1"
region = "eu-west-2"
vpc_id = "vpc-fb7dc365"
component = "important-component"
deployment_identifier = "production"
}
As mentioned above, the client VPN deploys into an existing base network. Whilst these can be created using any mechanism you like, the following modules may be of use:
| Name | Description | Default | Required |
|---|---|---|---|
| region | The region into which to deploy the cache | - | yes |
| vpc_id | The ID of the VPC into which to deploy the cache | - | yes |
| component | The component this cache will contain | - | yes |
| deployment_identifier | An identifier for this instantiation | - | yes |
| Name | Description |
|---|
In order for the build to run correctly, a few tools will need to be installed on your development machine:
- Ruby (3.1.1)
- Bundler
- git
- git-crypt
- gnupg
- direnv
- aws-vault
Installing the required tools is best managed by homebrew.
To install homebrew:
ruby -e "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/master/install)"
Then, to install the required tools:
# ruby
brew install rbenv
brew install ruby-build
echo 'eval "$(rbenv init - bash)"' >> ~/.bash_profile
echo 'eval "$(rbenv init - zsh)"' >> ~/.zshrc
eval "$(rbenv init -)"
rbenv install 3.1.1
rbenv rehash
rbenv local 3.1.1
gem install bundler
# git, git-crypt, gnupg
brew install git
brew install git-crypt
brew install gnupg
# aws-vault
brew cask install
# direnv
brew install direnv
echo "$(direnv hook bash)" >> ~/.bash_profile
echo "$(direnv hook zsh)" >> ~/.zshrc
eval "$(direnv hook $SHELL)"
direnv allow <repository-directory>
Running the build requires an AWS account and AWS credentials. You are free to configure credentials however you like as long as an access key ID and secret access key are available. These instructions utilise aws-vault which makes credential management easy and secure.
To provision module infrastructure, run tests and then destroy that infrastructure, execute:
aws-vault exec <profile> -- ./goTo provision the module prerequisites:
aws-vault exec <profile> -- ./go deployment:prerequisites:provision[<deployment_identifier>]To provision the module contents:
aws-vault exec <profile> -- ./go deployment:root:provision[<deployment_identifier>]To destroy the module contents:
aws-vault exec <profile> -- ./go deployment:root:destroy[<deployment_identifier>]To destroy the module prerequisites:
aws-vault exec <profile> -- ./go deployment:prerequisites:destroy[<deployment_identifier>]Configuration parameters can be overridden via environment variables:
DEPLOYMENT_IDENTIFIER=testing aws-vault exec <profile> -- ./goWhen a deployment identifier is provided via an environment variable, infrastructure will not be destroyed at the end of test execution. This can be useful during development to avoid lengthy provision and destroy cycles.
By default, providers will be downloaded for each terraform execution. To cache providers between calls:
TF_PLUGIN_CACHE_DIR="$HOME/.terraform.d/plugin-cache" aws-vault exec <profile> -- ./goTo generate an SSH key pair:
ssh-keygen -m PEM -t rsa -b 4096 -C [email protected] -N '' -f config/secrets/keys/bastion/ssh
To generate a self signed certificate:
openssl req -x509 -newkey rsa:4096 -keyout key.pem -out cert.pem -days 365
To decrypt the resulting key:
openssl rsa -in key.pem -out ssl.key
To encrypt a GPG key for use by CircleCI:
openssl aes-256-cbc \
-e \
-md sha1 \
-in ./config/secrets/ci/gpg.private \
-out ./.circleci/gpg.private.enc \
-k "<passphrase>"To check decryption is working correctly:
openssl aes-256-cbc \
-d \
-md sha1 \
-in ./.circleci/gpg.private.enc \
-k "<passphrase>"Bug reports and pull requests are welcome on GitHub at https://github.com/infrablocks/terraform-aws-client-vpn. This project is intended to be a safe, welcoming space for collaboration, and contributors are expected to adhere to the Contributor Covenant code of conduct.
The library is available as open source under the terms of the MIT License.