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      Secrets Management with Terraform

      Updated by Linode Contributed by Linode

      Terraform is an Infrastructure as Code (IaC) tool that allows you to write declarative code to manage your infrastructure. In order to implement IaC with Terraform it is necessary to supply secrets, such as server passwords and API tokens, within your code. This guide will discuss methods for securing those secrets within Terraform.

      Keeping Secrets Out of .tf Files

      In Terraform, .tf files contain the declarative code used to create, manage, and destroy infrastructure. This code is often committed to a version control system like Git, using a platform like GitHub, and shared within a team. Because it is easy for this information to become public-facing, it is important that you make sure your committed code is free of secrets.

      Input Variables

      Terraform configurations in .tf files can accept values from input variables. These variables are included in your configuration using Terraform’s interpolation syntax.

      For example, you might have a file with a provider block that requires an API access token. The token variable definition is declared inside your .tf file and is then interpolated inside the provider declaration with the "${var.token}" syntax:
      variable "token" {
        description = "Your API access token"
      provider "linode" {
          token = "${var.token}"

      Variable definitions are written in .tf files. In this example, it’s the same file as your provider configuration, but the definition could have been in a separate .tf file too.


      Your variable definitions can have default values assigned to them. Here’s an example that encodes Linode’s Newark data center as the default value for a region variable:
      variable "region" {
        description = "The region to deploy Linode instances in"
        default = "us-east"

      You could later use this variable when declaring your Linode instances.

      Assigning Variable Values in a File

      The values assigned to your variables (aside from default values) are not included in the variable definitions in your .tf files. Instead, the values are stored in separate files with the .tfvars extension. When Terraform runs a command like plan or apply, it automatically looks through the working directory for a file named terraform.tfvars, or for files with the .auto.tfvars extension.

      Here’s an example terraform.tfvars which supplies a value for the token variable from the previous example:

      token = 'your-token-value'

      You would then add the terraform.tfvars file to your .gitignore file and keep it out of version control. This strategy allows you to safely commit the file.

      For ease of use with large terraform.tfvars files, it might be beneficial to include an example terraform.tfvars.example in your Git repository with all of the variable names recorded (but none of the values entered). Team members could then copy this example into their local repository’s terraform.tfvars and enter the appropriate values.


      Variable value files with names that don’t match terraform.tfvars or *.auto.tfvars can be specified with the -var-file option:

      terraform apply -var-file=myvars.tfvars

      Supplying multiple .tfvars files is another way to further separate secret variables and non-secret variables; e.g.:

      terraform apply 

      Assigning Values in Environment Variables

      Terraform allows you to keep input variable values in environment variables. These variables have the prefix TF_VAR_ and are supplied at the command line. Using the above example of an API access token, you could export the variable and use it like so:

      export TF_VAR_token=your-token-value
      terraform apply

      You could also include the variable on the same line when running terraform plan or terraform apply:

      TF_VAR_token=your-token-value terraform apply


      This method commits the environment variable to your shell’s history, so take care when using this method.

      Assigning Values in Command-Line Flags

      Variable values can be set with the -var option:

      terraform apply -var 'token=your-token-value'


      This method commits the command-line variable to your shell’s history, so take care when using this method.

      Supply Variables at Prompt

      If Terraform does not find a default value for a defined variable; or a value from a .tfvars file, environment variable, or CLI flag; it will prompt you for a value before running an action:

      $ terraform plan
        Your API access token
        Enter a value:

      This method is a bit easier to use than supplying environment variables, and has the added benefit of displaying the description you set up when defining your variable.

      How to Manage Your State File

      While it is relatively easy to keep secrets out of .tf files using any of the above methods, there is another file you need to be aware of when managing secrets, and that is the terraform.tfstate file.

      This state file contains a JSON object that holds your managed infrastructure’s current state. This state is a snapshot of the various attributes of your infrastructure at the time it was last modified. It is generated on terraform apply and is a necessary part of the Terraform process, as it maps the declarative code of your .tf files to your real world infrastructure.

      As of the writing of this guide, sensitive information used to generate your Terraform state can be stored as plain text in the terraform.tfstate file. For example, if you are working with the Linode provider and have supplied a root password for your Linode instance, that root password will be stored as plain text in the state file. Avoid checking your terraform.tfstate file into your version control repository. Instead, the following are some strategies for storing and sharing your state files.

      Remote Backends

      Terraform backends allow the user to securely store their state in a remote location, such as a key/value store like Consul, or an S3 compatible bucket storage like Minio. This allows the Terraform state to be read from the remote store, and because the state only ever exists locally in memory, there is no worry about storing secrets in plain text.

      Some backends, like Consul, also allow for state locking. If one user is applying a state, another user will be unable to make any changes.

      Using a Terraform backend is the preferred way to share a Terraform state file.

      Encrypting Secrets

      Third-party tools exist that allow you to encrypt your secrets. If you encrypt the secrets in your terraform.tfstate (or your .tfvars files), you can check them into version control securely:

      • git-crypt allows you to encrypt files when they are committed to a Git repository. git-crypt also decrypts files when they are checked out.


        You must initialize git-crypt in a repository before committing your state file or variable value files, or they will not be eligible for encryption.

      • Terrahelp allows you to encrypt and decrypt a whole state file, or just the variables you have include in your terraform.tfvars file.

      Use a Dummy Password

      It is possible to supply a dummy password to Terraform and later change that password manually to a more secure one. For instance, if you were to create a Linode instance with a dummy root password, you could later change that password from the command line or in the Linode Manager.


      Any attempt to change the password in a .tf file will result in the creation of new resources on terraform apply.

      Privatize Version Control

      If you are unwilling or unable to use the above options to help manage your state file, and if you are using a platform like GitHub or GitLab to share your state files, then at minimum the repository should be private.

      More Information

      You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.

      Find answers, ask questions, and help others.

      This guide is published under a CC BY-ND 4.0 license.

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