Terragrunt alternative to keep your Terraform code consistent and DRY
tfgen
is useful for maintaining and scaling a Terraform Monorepo, in which you provision resources in a multi-environment/account setup. It is designed to create consistent Terraform definitions, like backend (with dynamic key), provider, and variables for each environment/account, as defined in a set of YAML configuration files.
Terragrunt - a thin wrapper for Terraform that provides extra tools for working with multiple Terraform modules - is a great tool and inspired me a lot to create tfgen
, but instead of being a wrapper for the Terraform binary, tfgen
just creates Terraform files from templates and doesn't interact with Terraform at all. Terraform will be used independently on your local environment or in your CI system to deploy the resources.
- This is not just a tool, it's a way of doing things
- Keep your Terraform configuration consistent across the environments
- Reduce the risk of making mistakes while copying+pasting your backend, provider, and other common Terraform definitions
- Increase your productivity
- Scale your mono repo following the same pattern across the modules
- Builtin functionality to provide the remote state key dynamically
- YAML file configuration
- Templates are parsed using
Go templates
- Docker or Go
git clone --depth 1 git@github.com:0xDones/tfgen.git
cd tfgen
# Using Docker
docker run --rm -v $PWD:/src -w /src -e GOOS=darwin -e GOARCH=amd64 golang:alpine go build -o bin/tfgen
# Using Go
go build -o bin/tfgen
mv bin/tfgen /usr/local/bin
Note: when building using Docker, change GOOS=darwin
to GOOS=linux
or GOOS=windows
based on your system
$ tfgen help
tfgen is a devtool to keep your Terraform code consistent and DRY
Usage:
tfgen [command]
Available Commands:
clean clean templates from the target directory
completion Generate the autocompletion script for the specified shell
exec Execute the templates in the given target directory
help Help about any command
Flags:
-h, --help help for tfgen
-v, --verbose verbose output
Use "tfgen [command] --help" for more information about a command.
The configuration files are written in YAML and have the following structure:
---
root_file: bool
vars:
var1: value1
var2: value2
template_files:
template1.tf: |
template content
template2.tf: |
template content
tfgen will recursively look for all .tfgen.yaml
files from the target directory up to the parent directories until it finds the root config file, if it doesn't find the file it will exit with an error. All the other files found on the way up are merged into the root config file, and the inner config file has precedence over the outer.
We have two types of configuration files:
- Root config
- Environment specific config
In the root config file, you can set variables and templates that can be reused across all environments. You need at least 1 root config file.
# infra-live/.tfgen.yaml
---
root_file: true
vars:
company: acme
template_files:
_backend.tf: |
terraform {
backend "s3" {
bucket = "my-state-bucket"
dynamodb_table = "my-lock-table"
encrypt = true
key = "{{ .Vars.tfgen_state_key }}/terraform.tfstate"
region = "{{ .Vars.aws_region }}"
role_arn = "arn:aws:iam::{{ .Vars.aws_account_id }}:role/terraformRole"
}
}
_provider.tf: |
provider "aws" {
region = "{{ .Vars.aws_region }}"
allowed_account_ids = [
"{{ .Vars.aws_account_id }}"
]
}
_vars.tf: |
variable "env" {
type = string
default = "{{ .Vars.env }}"
}
Note that
aws_region
,aws_account
, andenv
are variables that you need to provide in the environment-specific config.tfgen_state_key
is provided by thetfgen
, it will be explained below.
In the environment-specific config file (non-root), you can pass additional configuration, or override configuration from the root config file. You can have multiple specific config files, all of them will be merged into the root one.
# infra-live/dev/.tfgen.yaml
---
root_file: false
vars:
aws_account_id: 111111111111
aws_region: us-east-1
env: dev
# infra-live/prod/.tfgen.yaml
---
root_file: false
vars:
aws_account_id: 222222222222
aws_region: us-east-2
env: prod
template_files:
additional.tf: |
# I'll just be created on modules inside the prod folder
These variables are automatically injected into the templates:
tfgen_state_key
: The path from the root config file to the target directory
The terraform-monorepo-example repository can be used as an example of how to structure your repository to leverage tfgen
and also follow Terraform best practices.
.
├── infra-live
│ ├── dev
│ │ ├── networking
│ │ ├── s3
│ │ ├── security
│ │ ├── stacks
│ │ └── .tfgen.yaml # Environment specific config
│ ├── prod
│ │ ├── networking
│ │ ├── s3
│ │ ├── security
│ │ ├── stacks
│ │ └── .tfgen.yaml # Environment specific config
│ └── .tfgen.yaml # Root config file
└── modules
└── my-custom-module
Inside our infra-live
folder, we have two environments, dev and prod. They are deployed in different aws accounts, and each one has a different role that needs to be assumed in the provider configuration. Instead of copying the files back and forth every time we need to create a new module, we'll let tfgen
create it for us based on our configuration defined on the .tfgen.yaml
config files.
Let's create the common files to start writing our Terraform module
# If you didn't clone the example repo yet
git clone git@github.com:0xDones/terraform-monorepo-example.git
cd terraform-monorepo-example
# Create a folder for our new module
mkdir -p infra-live/dev/s3/dev-tfgen-bucket
cd infra-live/dev/s3/dev-tfgen-bucket
# Generate the files
tfgen exec .
# Checking the result (See Output section)
cat _backend.tf _provider.tf _vars.tf
This execution will create all the files inside the working directory, executing the templates and passing in all the variables declared in the config files.
This will be the content of the files created by tfgen
:
terraform {
backend "s3" {
bucket = "my-state-bucket"
dynamodb_table = "my-lock-table"
encrypt = true
key = "dev/s3/dev-tfgen-bucket/terraform.tfstate"
region = "us-east-1"
role_arn = "arn:aws:iam::111111111111:role/terraformRole"
}
}
provider "aws" {
region = "us-east-1"
allowed_account_ids = [
"111111111111"
]
}
variable "env" {
type = string
default = "dev"
}
After creating the common Terraform files, you'll probably start writing your main.tf
file. So at this point, you already know what to do.
terraform init
terraform plan -out tf.out
terraform apply tf.out
- terraform-monorepo-example - Example repo used in the tutorial
- Terragrunt - Tool that inspired me to create
tfgen
Have fun!