terragrunt

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Published: Jan 26, 2017 License: MIT Imports: 6 Imported by: 0

README

Terragrunt

Terragrunt is a thin wrapper for Terraform that supports locking and enforces best practices for Terraform state:

  1. Locking: Terragrunt can use Amazon's DynamoDB as a distributed locking mechanism to ensure that two team members working on the same Terraform state files do not overwrite each other's changes. DynamoDB is part of the AWS free tier, so using it as a locking mechanism should not cost you anything.
  2. Remote state management: A common mistake when using Terraform is to forget to configure remote state or to configure it incorrectly. Terragrunt can prevent these sorts of errors by automatically configuring remote state for everyone on your team.
  3. Managing multiple modules: Terragrunt has tools that make it easier to work with multiple Terraform folders, and therefore, multiple state files.

Other types of locking mechanisms and automation for more best practices may be added in the future.

Motivation

When you use Terraform to provision infrastructure, it records the state of your infrastructure in state files. In order to make changes to your infrastructure, everyone on your team needs access to these state files. You could check the files into version control (not a great idea, as the state files may contain secrets) or use a supported remote state backend to store the state files in a shared location such as S3, Consul, or etcd. All of these options have three problems:

  1. They do not provide locking. If two team members run terraform apply on the same state files at the same time, they may overwrite each other's changes. The official solution to this problem is to use Hashicorp's Atlas, but that can be a fairly expensive option, and it requires you to use a SaaS platform for all Terraform operations.
  2. They are error prone. Very often, you do a fresh checkout of a bunch of Terraform templates from version control, forget to enable remote state storage before applying them, and end up creating a bunch of duplicate resources. Sometimes you do remember to enable remote state storage, but you use the wrong configuration (e.g. the wrong S3 bucket name or key) and you end up overwriting the state for a totally different set of templates.
  3. If you define all of your environments (stage, prod) and components (database, app server) in one set of templates (and therefore one state file), then a mistake anywhere can cause problems everywhere. To isolate different environments and components, you need to define your Terraform code in multiple different folders (see How to manage Terraform state), but this makes it harder to manage state and quickly spin up and tear down environments.

The goal of Terragrunt is to take Terraform, which is a fantastic tool, and make it even better for teams by providing a simple, free locking mechanism, and enforcing best practices around CLI usage and state management.

Install

  1. Install Terraform, and let Terragrunt know where to find it using one of the following options:

    • Place terraform in a directory on your PATH.

      Caution: this makes it easy to accidentally invoke Terraform directly from the command line (thus bypassing the protections offered by Terragrunt).

    • Specify the full path to the Terraform binary in the environment variable TERRAGRUNT_TFPATH.

    • Specify the full path to the Terraform binary in --terragrunt-tfpath each time you run Terragrunt (see CLI Options).

  2. Install Terragrunt by going to the Releases Page, downloading the binary for your OS, renaming it to terragrunt, and adding it to your PATH.

Quick start

Go into the folder with your Terraform templates and create a .terragrunt file. This file uses the same HCL syntax as Terraform. Here is an example .terragrunt file that configures Terragrunt to use DynamoDB for locking and to automatically manage remote state for you using the S3 backend:

# Configure Terragrunt to use DynamoDB for locking
lock = {
  backend = "dynamodb"
  config {
    state_file_id = "my-app"
  }
}

# Configure Terragrunt to automatically store tfstate files in an S3 bucket
remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "my-bucket"
    key = "terraform.tfstate"
    region = "us-east-1"
  }
}

Once you check this .terragrunt file into source control, everyone on your team can use Terragrunt to run all the standard Terraform commands:

terragrunt get
terragrunt plan
terragrunt apply
terragrunt output
terragrunt destroy

Terragrunt forwards almost all commands, arguments, and options directly to Terraform, using whatever version of Terraform you already have installed. However, before running Terraform, Terragrunt will ensure your remote state is configured according to the settings in the .terragrunt file. Moreover, for the apply, refresh, and destroy commands, Terragrunt will first try to acquire a lock using DynamoDB:

terragrunt apply
[terragrunt] 2016/05/30 16:55:28 Configuring remote state for the s3 backend
[terragrunt] 2016/05/30 16:55:28 Running command: terraform remote config -backend s3 -backend-config=key=terraform.tfstate -backend-config=region=us-east-1 -backend-config=encrypt=true -backend-config=bucket=my-bucket
Initialized blank state with remote state enabled!
[terragrunt] 2016/05/30 16:55:29 Attempting to acquire lock for state file my-app in DynamoDB
[terragrunt] 2016/05/30 16:55:30 Attempting to create lock item for state file my-app in DynamoDB table terragrunt_locks
[terragrunt] 2016/05/30 16:55:30 Lock acquired!
[terragrunt] 2016/05/30 16:55:30 Running command: terraform apply
terraform apply

aws_instance.example: Creating...
  ami:                      "" => "ami-0d729a60"
  instance_type:            "" => "t2.micro"

[...]

Apply complete! Resources: 1 added, 0 changed, 0 destroyed.

[terragrunt] 2016/05/27 00:39:19 Attempting to release lock for state file my-app in DynamoDB
[terragrunt] 2016/05/27 00:39:19 Lock released!

Locking using DynamoDB

Terragrunt can use Amazon's DynamoDB to acquire and release locks. DynamoDB supports strongly consistent reads as well as conditional writes, which are all the primitives we need for a very basic distributed lock system. It's also part of AWS's free tier, and given the tiny amount of data we are working with and the relatively small number of times per day you're likely to run Terraform, it should be a free option for teams already using AWS. We take no responsibility for any charges you may incur.

DynamoDB locking prerequisites

To use DynamoDB for locking, you must:

  1. Set your AWS credentials in the environment using one of the following options:

    1. Set your credentials as the environment variables AWS_ACCESS_KEY_ID and AWS_SECRET_ACCESS_KEY (and also AWS_SESSION_TOKEN if using STS temporary credentials)
    2. Run aws configure and fill in the details it asks for.
    3. Run Terragrunt on an EC2 instance with an IAM Role.
  2. Your AWS user must have an IAM policy granting all DynamoDB actions (dynamodb:*) on the table terragrunt_locks (see the DynamoDB locking configuration for how to configure this table name).

    Here is an example IAM policy that grants the necessary permissions on the terragrunt_locks table in region us-west-2 for an account with account id 1234567890:

    {
      "Version": "2012-10-17",
      "Statement": [
          {
            "Sid": "ReadWriteToDynamoDB",
            "Effect": "Allow",
            "Action": "dynamodb:*",
            "Resource": "arn:aws:dynamodb:us-west-2:1234567890:table/terragrunt_locks"
          }
      ]
    }
    
DynamoDB locking configuration

For DynamoDB locking, Terragrunt supports the following settings in .terragrunt:

lock = {
  backend = "dynamodb"
  config {
    state_file_id = "my-app"
    aws_region = "us-east-1"
    table_name = "terragrunt_locks"
    max_lock_retries = 360
  }
}
  • state_file_id: (Required) A unique id for the state file for these Terraform templates. Many teams have more than one set of templates, and therefore more than one state file, so this setting is used to disambiguate locks for one state file from another.
  • aws_region: (Optional) The AWS region to use. Default: us-east-1.
  • table_name: (Optional) The name of the table in DynamoDB to use to store lock information. Default: terragrunt_locks.
  • max_lock_retries: (Optional) The maximum number of times to retry acquiring a lock. Terragrunt waits 10 seconds between retries. Default: 360 retries (one hour).
How DynamoDB locking works

When you run terragrunt apply or terragrunt destroy, Terragrunt does the following:

  1. Create the terragrunt_locks table if it doesn't already exist.
  2. Try to write an item to the terragrunt_locks table with StateFileId equal to the state_file_id specified in your .terragrunt file. This item will include useful metadata about the lock, such as who created it (e.g. your username) and when.
  3. Note that the write is a conditional write that will fail if an item with the same state_file_id already exists.
    1. If the write succeeds, it means we have a lock!
    2. If the write does not succeed, it means someone else has a lock. Keep retrying every 10 seconds until we get a lock.
  4. Run terraform apply or terraform destroy.
  5. When Terraform is done, delete the item from the terragrunt_locks table to release the lock.

Acquiring a long-term lock

Occasionally, you may want to lock a set of Terraform files and not allow further changes, perhaps during maintenance work or as a precaution for templates that rarely change. To do that, you can use the acquire-lock command:

terragrunt acquire-lock
Are you sure you want to acquire a long-term lock? (y/n): y

See the next section for how to release this lock.

Manually releasing a lock

You can use the release-lock command to manually release a lock. This is useful if you used the acquire-lock command to create a long-term lock or if Terragrunt shut down before it released a lock (e.g. because of CTRL+C or a crash).

terragrunt release-lock
Are you sure you want to forcibly remove the lock for stateFileId "my-app"? (y/n): y

Managing remote state

Terragrunt can automatically manage remote state for you, preventing manual errors such as forgetting to enable remote state or using the wrong settings.

Remote state management prerequisites

Terragrunt works with all backends supported by Terraform. Check out the Terraform remote state docs for the requirements to use a particular remote state backend.

Remote state management configuration

For remote state management, Terragrunt supports the following settings in .terragrunt:

remote_state = {
  backend = "s3"
  config {
    key1 = "value1"
    key2 = "value2"
    key3 = "value3"
  }
}
  • backend: (Required) The name of the remote state backend to use (e.g. s3, consul).
  • config: (Optional) A map of additional key/value pairs to pass to the backend. Each backend requires different key/value pairs, so consult the Terraform remote state docs for details.

Managing multiple .terragrunt files

With Terraform, it can be a good idea to store your templates in separate folders (and therefore, separate state files) to provide isolation between different environments,such as stage and prod, and different components, such as a database and an app cluster (for more info, see How to Manage Terraform State). That means you will need a .terragrunt file in each folder:

my-terraform-repo
  └ qa
      └ my-app
          └ main.tf
          └ .terragrunt
  └ stage
      └ my-app
          └ main.tf
          └ .terragrunt
  └ prod
      └ my-app
          └ main.tf
          └ .terragrunt

Most of these .terragrunt files will have almost the same content. For example, qa/my-app/.terragrunt may look like this:

# Configure Terragrunt to use DynamoDB for locking
lock = {
  backend = "dynamodb"
  config {
    state_file_id = "qa/my-app"
  }
}

# Configure Terragrunt to automatically store tfstate files in an S3 bucket
remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "my-bucket"
    key = "qa/my-app/terraform.tfstate"
    region = "us-east-1"
  }
}

And stage/my-app/.terragrunt may look like this:

# Configure Terragrunt to use DynamoDB for locking
lock = {
  backend = "dynamodb"
  config {
    state_file_id = "stage/my-app"
  }
}

# Configure Terragrunt to automatically store tfstate files in an S3 bucket
remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "my-bucket"
    key = "stage/my-app/terraform.tfstate"
    region = "us-east-1"
  }
}

Note how most of the content is copy/pasted, except for the state_file_id and key parameters, which match the path of the .terragrunt file itself. How do you avoid having to manually maintain the contents of all of these similar-looking .terragrunt files? Also, if you want to spin up an entire environment (e.g. stage, prod), how do you do it without having to manually run terragrunt apply in each of the Terraform folders within that environment?

The solution is to use the following features of Terragrunt:

  • Includes
  • Find parent helper
  • Relative path helper
  • Overriding included settings
  • The spin-up and tear-down commands
  • Dependencies between modules
Includes

One .terragrunt file can automatically "include" the contents of another .terragrunt file using the include block. For example, imagine you have the following file layout:

my-terraform-repo
  └ .terragrunt
  └ qa
      └ my-app
          └ main.tf
          └ .terragrunt
  └ stage
      └ my-app
          └ main.tf
          └ .terragrunt
  └ prod
      └ my-app
          └ main.tf
          └ .terragrunt

The .terragrunt file in the root folder defines the typical lock and remote_state settings. The .terragrunt files in all the subfolders (e.g. qa/my-app/.terragrunt) can automatically include all the settings from a parent file using the include block:

include = {
  path = "../../.terragrunt"
}

When you run Terragrunt in the qa/my-app folder, it will see the include block in the qa/my-app/.terragrunt file and realize that it should load the contents of the root .terragrunt file instead. It's almost as if you had copy/pasted the contents of the root .terragrunt file into qa/my-app/.terragrunt, but much easier to maintain!

Note: only one level of includes is allowed. If root/qa/my-app/.terragrunt includes root/.terragrunt, then root/.terragrunt may NOT specify an include block.

There are a few problems with the simple approach above, so read on before using it!

  1. Having to manually manage the file paths to the included .terragrunt file is tedious and error prone. To solve this problem, you can use the find_in_parent_folders() helper.
  2. If the included .terragrunt file hard-codes the state_file_id and key settings, then every child that includes it would end up using the same lock and write state to the same location. To avoid this problem, you can use the path_relative_to_include() helper.
  3. Some of the child .terragrunt files may want to override the settings they include. To do this, see the section on overriding included settings.

Each of these items is discussed next.

find_in_parent_folders helper

Terragrunt supports the use of a few helper functions using the same syntax as Terraform: ${some_function()}. One of the supported helper functions is find_in_parent_folders(), which returns the path to the first .terragrunt file it finds in the parent folders above the current .terragrunt file.

Example:

include = {
  path = "${find_in_parent_folders()}"
}

If you ran this in qa/my-app/.terragrunt, this would automatically set path to ../../.terragrunt. You will almost always want to use this function, as it allows you to copy/paste the same .terragrunt file to all child folders with no changes.

find_in_parent_folders() will search up the directory tree until it hits the root folder of your file system, and if no .terragrunt file is found, Terragrunt will exit with an error.

path_relative_to_include helper

Another helper function supported by Terragrunt is path_relative_to_include(), which returns the relative path between the current .terragrunt file and the path specified in its include block. For example, in the root .terragrunt file, you could do the following:

# Configure Terragrunt to use DynamoDB for locking
lock = {
  backend = "dynamodb"
  config {
    state_file_id = "${path_relative_to_include()}"
  }
}

# Configure Terragrunt to automatically store tfstate files in an S3 bucket
remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "my-bucket"
    key = "${path_relative_to_include()}/terraform.tfstate"
    region = "us-east-1"
  }
}

Each child .terragrunt file that references the configuration above in its include block will get a unique path for its state_file_id and key settings. For example, in qa/my-app/.terragrunt, the state_file_id will resolve to qa/my-app and the key will resolve to qa/my-app/terraform.tfstate.

You will almost always want to use this helper too. The only time you may want to specify the state_file_id or key manually is if you moved a child folder. In that case, to ensure it can reuse its old state and lock, you may want to hard-code the state_file_id and key to the old file path. However, a safer approach would be to move the state files themselves to match the new location of the child folder, as that makes things more consistent!

Overriding included settings

Any settings in the child .terragrunt file will override the settings pulled in via an include. For example, imagine if qa/my-app/.terragrunt had the following contents:

include = {
  path = "${find_in_parent_folders()}"
}

remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "some-other-bucket"
    key = "/foo/bar/terraform.tfstate"
    region = "us-west-2"
  }
}

The result is that when you run terragrunt commands in the qa/my-app folder, you get the lock settings from the parent, but the remote_state settings of the child.

Environment variables replacement

You can read in environment variables in your .terragrunt file using the get_env() helper function:

remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "${get_env("ENVIRONMENT_VARIABLE_NAME", "development")}-bucket"
    key = "/foo/bar/terraform.tfstate"
    region = "us-west-2"
  }
}

This function takes two parameters: ENVIRONMENT_VARIABLE_NAME and default. When parsing the file, terragrunt will evaluate the environment variable ENVIRONMENT_VARIABLE_NAME and replace with the registered value. If there is no environment variable with that name or is empty, it will use the one registered in the default. The default value is mandatory but can be empty ${get_env("ENVIRONMENT_VARIABLE_NAME", "")}.

If there is no environment variable with that name registered in the system, the configuration file would be evaluated to:

remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "development-bucket"
    key = "/foo/bar/terraform.tfstate"
    region = "us-west-2"
  }
}

But if the variable is set

ENVIRONMENT_VARIABLE="value" terragrunt

then the previous example would evaluate to:

remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "value-bucket"
    key = "/foo/bar/terraform.tfstate"
    region = "us-west-2"
  }
}

Terraform itself also supports loading variables via the environment. Is possible to use the same variables by correctly using the terrraform prefix TF_VAR_.

TF_VAR_variable="value" terragrunt
remote_state = {
  backend = "s3"
  config {
    encrypt = "true"
    bucket = "${get_env("TF_VAR_variable", "value")}-bucket"
    key = "/foo/bar/terraform.tfstate"
    region = "us-west-2"
  }
}
The spin-up and tear-down commands

Let's say you have a single environment (e.g. stage or prod) that has a number of Terraform modules within it:

my-terraform-repo
  └ .terragrunt
  └ stage
      └ frontend-app
          └ main.tf
          └ .terragrunt
      └ backend-app
          └ main.tf
          └ .terragrunt
      └ search-app
          └ main.tf
          └ .terragrunt
      └ mysql
          └ main.tf
          └ .terragrunt
      └ redis
          └ main.tf
          └ .terragrunt
      └ vpc
          └ main.tf
          └ .terragrunt

There is one module to deploy a frontend-app, another to deploy a backend-app, another for the MySQL database, and so on. To deploy such an environment, you'd have to manually run terragrunt apply in each of the subfolders. How do you avoid this tedious and time-consuming process?

The answer is that you can use the spin-up command:

cd my-terraform-repo/stage
terragrunt spin-up

When you run this command, Terragrunt will find all .terragrunt files in the subfolders of the current working directory, and run terragrunt apply in each one concurrently.

Similarly, to undeploy all the Terraform modules, you can use the tear-down command:

cd my-terraform-repo/stage
terragrunt tear-down

Of course, if your modules have dependencies between them—for example, you can't deploy the backend-app until the MySQL database is deployed—you'll need to express those dependencines in your .terragrunt config as explained in the next section.

Dependencies between modules

Consider the following file structure for the stage environment:

my-terraform-repo
  └ .terragrunt
  └ stage
      └ frontend-app
          └ main.tf
          └ .terragrunt
      └ backend-app
          └ main.tf
          └ .terragrunt
      └ search-app
          └ main.tf
          └ .terragrunt
      └ mysql
          └ main.tf
          └ .terragrunt
      └ redis
          └ main.tf
          └ .terragrunt
      └ vpc
          └ main.tf
          └ .terragrunt

Let's assume you have the following dependencies between Terraform modules:

  • Every module depends on the VPC being deployed
  • The backend-app depends on the MySQL database and Redis
  • The frontend-app and search-app depend on the backend-app

You can express these dependencies in your .terragrunt config files using the dependencies block. For example, in stage/backend-app/.terragrunt you would specify:

include = {
  path = "${find_in_parent_folders()}"
}

dependencies = {
  paths = ["../vpc", "../mysql", "../redis"]
}

Similarly, in stage/frontend-app/.terragrunt, you would specify:

include = {
  path = "${find_in_parent_folders()}"
}

dependencies = {
  paths = ["../vpc", "../backend-app"]
}

Once you've specified the depenedencies in each .terragrunt file, when you run the terragrunt spin-up and terragrunt tear-down, Terragrunt will ensure that the dependencies are applied or destroyed, respectively, in the correct order. For the example at the start of this section, the order for the spin-up command would be:

  1. Deploy the VPC
  2. Deploy MySQL and Redis in parallel
  3. Deploy the backend-app
  4. Deploy the frontend-app and search-app in parallel

If any of the modules fail to deploy, then Terragrunt will not attempt to deploy the modules that depend on them. Once you've fixed the error, it's usually safe to re-run the spin-up or tear-down command again, since it'll be a noop for the modules that already deployed successfully, and should only affect the ones that had an error the last time around.

Remote Terraform configurations

A common problem with Terraform is figuring out how to minimize copy/paste between environments (i.e. stage, prod). For example, consider the following file structure:

infrastructure-live
  └ stage
    └ frontend-app
        └ main.tf
        └ vars.tf
        └ outputs.tf
    └ backend-app
    └ mysql
    └ vpc
  └ prod
    └ frontend-app
        └ main.tf
        └ vars.tf
        └ outputs.tf
    └ backend-app
    └ mysql
    └ vpc

For each environment, you have to copy/paste main.tf, vars.tf, and outputs.tf for each component (e.g. frontend-app, backend-app, vpc, etc). As the number of components and environments grows, having to maintain more and more code can become error prone. You can significantly reduce the amount of copy paste using Terraform modules, but even the code to instantiate the module and set up input variables, output variables, providers, and remote state can still create a lot of maintenance overhead.

To solve this problem, Terragrunt has the ability to download Terraform configurations. How does that help? Well, imagine you defined the Terraform code for all of your infrastructure in a single repo, called, for example, infrastructure-modules:

infrastructure-modules
  └ frontend-app
      └ main.tf
      └ vars.tf
      └ outputs.tf
  └ backend-app
  └ mysql
  └ vpc

This repo contains typical Terraform code, with one difference: anything in your code that should be different between environments should be exposed as an input variable. For example, the frontend-app might expose a variable called instance_count to determine how many instances to run and instance_type to determine what kind of server to deploy, as you may want to run smaller/fewer servers in staging than in prod to save money.

In a separate repo, called, for example, infrastructure-live, you define the code for all of your environments, which now consists of just two files per component:

  1. terraform.tfvars: This file defines the environment-specific values for all of your input variables. For example, for stage/frontend-app/terraform.tfvars, you might have:

    instance_count = 3
    instance_type = "t2.micro"
    

    Whereas for prod/frontend-app/terraform.tfvars, you might have:

    instance_count = 10
    instance_type = "m2.large"
    
  2. .terragrunt: This is the typical Terragrunt configuration file, which specifies how to manage remote state and locking.

This gives you the following folder structure:

infrastructure-live
  └ stage
    └ frontend-app
        └ .terragrunt
        └ terraform.tfvars
    └ backend-app
    └ mysql
    └ vpc
  └ prod
    └ frontend-app
        └ .terragrunt
        └ terraform.tfvars
    └ backend-app
    └ mysql
    └ vpc

Notice how there are no Terraform configurations (.tf files) in any of the folders. To tell Terragrunt where to find your Terraform code, each .terragrunt file can contain a terraform block:

terraform {
  source = "git::git@github.com:foo/bar.git//frontend-app?ref=v0.0.1"
}

When you run Terragrunt and it finds a terraform block in your configuration, Terragrunt will:

  1. Download the configurations specified via the source parameter into a temporary folder. This is done using the terraform init command, so the source parameter supports the exact same syntax as the module source parameter, including local file paths, Git URLs, and Git URLs with ref parameters (useful for checking out a specific tag, commit, or branch of Git repo).
  2. Copy all files from the current working directory into the temporary folder. This is useful if you have .tfvars files in your local path that you are using to set variables within your templates.
  3. Execute whatever Terraform command you specified in that temporary folder. Note: if you are passing any file paths (other than paths to files in the current working directory) to Terraform via command-line options, those paths must be absolute paths since we will be running Terraform from the temporary folder!

With new approach, copy/paste between environments is minimized. terraform.tfvars contains solely the variables that are different between environments and .terragrunt specifies from where to download the actual Terraform code. To create a new environment, you copy and old one and update just the environment-specific values in terraform.tfvars, which is about as close to the "essential complexity" of the problem as you can get.

Just as importantly, since the Terraform code is now defined in a single repo, you can version it (e.g. using Git tags and referencing them using the ref parameter in the source URL), and promote a single, immutable version through each environment (e.g. qa -> stage -> prod). This idea is inspired by Kief Morris' blog post Using Pipelines to Manage Environments with Infrastructure as Code.

Note that you can also use the --terragrunt-source command-line option or the TERRAGRUNT_SOURCE environment variable to override the source parameter. This is useful to point Terragrunt at a local checkout of your code so you can do rapid, iterative, make-a-change-and-rerun development:

cd infrastructure-live/stage/frontend-app
terragrunt apply --terragrunt-source ../../../infrastructure-modules/frontend-app

CLI Options

Terragrunt forwards all arguments and options to Terraform. The only exceptions are the options that start with the prefix --terragrunt-. The currently available options are:

  • --terragrunt-config: A custom path to the .terragrunt file. May also be specified via the TERRAGRUNT_CONFIG environment variable. The default path is .terragrunt in the current directory.
  • --terragrunt-tfpath: A custom path to the Terraform binary. May also be specified via the TERRAGRUNT_TFPATH environment variable. The default is terraform in a directory on your PATH.
  • --terragrunt-non-interactive: Don't show interactive user prompts. This will default the answer for all prompts to 'yes'. Useful if you need to run Terragrunt in an automated setting (e.g. from a script).
  • --terragrunt-working-dir: Set the directory where Terragrunt should execute the terraform command. Default is the current working directory. Note that for the spin-up and tear-down directories, this parameter has a different meaning: Terragrunt will apply or destroy all the Terraform modules in the subfolders of the terragrunt-working-dir, running terraform in the root of each module it finds.
  • --terragrunt-source: Download Terraform configurations from the specified source into a temporary folder, and run Terraform in that temporary folder. May also be specified via the TERRAGRUNT_SOURCE environment variable. The source should use the same syntax as the Terraform module source parameter.

Developing terragrunt

Running locally

To run Terragrunt locally, use the go run command:

go run main.go plan
Running tests

Note: The tests in the dynamodb folder for Terragrunt run against a real AWS account and will add and remove real data from DynamoDB. DO NOT hit CTRL+C while the tests are running, as this will prevent them from cleaning up temporary tables and data in DynamoDB. We are not responsible for any charges you may incur.

Before running the tests, you must configure your AWS credentials as explained in the DynamoDB locking prerequisites section.

To run all the tests:

go test -v -parallel 128 $(glide novendor)

To run only the tests in a specific package, such as the package remote:

cd remote
go test -v -parallel 128

And to run a specific test, such as TestToTerraformRemoteConfigArgsNoBackendConfigs in package remote:

cd remote
go test -v -parallel 128 -run TestToTerraformRemoteConfigArgsNoBackendConfigs
Debug logging

If you set the TERRAGRUNT_DEBUG environment variable to "true", the stack trace for any error will be printed to stdout when you run the app.

Error handling

In this project, we try to ensure that:

  1. Every error has a stacktrace. This makes debugging easier.
  2. Every error generated by our own code (as opposed to errors from Go built-in functions or errors from 3rd party libraries) has a custom type. This makes error handling more precise, as we can decide to handle different types of errors differently.

To accomplish these two goals, we have created an errors package that has several helper methods, such as errors.WithStackTrace(err error), which wraps the given error in an Error object that contains a stacktrace. Under the hood, the errors package is using the go-errors library, but this may change in the future, so the rest of the code should not depend on go-errors directly.

Here is how the errors package should be used:

  1. Any time you want to create your own error, create a custom type for it, and when instantiating that type, wrap it with a call to errors.WithStackTrace. That way, any time you call a method defined in the Terragrunt code, you know the error it returns already has a stacktrace and you don't have to wrap it yourself.
  2. Any time you get back an error object from a function built into Go or a 3rd party library, immediately wrap it with errors.WithStackTrace. This gives us a stacktrace as close to the source as possible.
  3. If you need to get back the underlying error, you can use the errors.IsError and errors.Unwrap functions.
Releasing new versions

To release a new version, just go to the Releases Page and create a new release. The CircleCI job for this repo has been configured to:

  1. Automatically detect new tags.
  2. Build binaries for every OS using that tag as a version number.
  3. Upload the binaries to the release in GitHub.

See circle.yml and _ci/build-and-push-release-asset.sh for details.

License

This code is released under the MIT License. See LICENSE.txt.

TODO

  • Add a check that modules have been downloaded using terraform get.
  • Add a check that all local changes have been committed before running terraform apply.
  • Consider implementing alternative locking mechanisms, such as using Git instead of DynamoDB.
  • Consider embedding the Terraform Go code within Terragrunt instead of calling out to it.
  • Add a show-lock command.
  • Add a command to automatically set up best-practices remote state storage in a versioned, encrypted, S3 bucket.
  • Add a command to list the different versions of state available in a versioned S3 bucket and to diff any two state files.

Documentation

The Go Gopher

There is no documentation for this package.

Directories

Path Synopsis
test

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