Customize Terraform configuration with variables
Input variables make your Terraform configuration more flexible by defining values that your end users can assign to customize the configuration. They provide a consistent interface to change how a given configuration behaves.
Unlike variables found in programming languages, Terraform's input variables don't change values during a Terraform run such as plan, apply, or destroy. Instead, they allow users to more safely customize their infrastructure by assigning different values to the variables before execution begins, rather than editing configuration files manually.
In this tutorial, you will use Terraform to deploy a web application on AWS. The supporting infrastructure includes a VPC, load balancer, and EC2 instances. You will parameterize this configuration with Terraform input variables. Finally, you will interpolate variables into strings, use variables with functions, and use variable validation.
Prerequisites
You can complete this tutorial using the same workflow with either Terraform Community Edition or HCP Terraform. HCP Terraform is a platform that you can use to manage and execute your Terraform projects. It includes features like remote state and execution, structured plan output, workspace resource summaries, and more.
Select the HCP Terraform tab to complete this tutorial using HCP Terraform.
This tutorial assumes that you are familiar with the Terraform workflow. If you are new to Terraform, complete the Get Started collection first.
In order to complete this tutorial, you will need the following:
- Terraform v1.2+ installed locally.
- An AWS account with local credentials configured for use with Terraform.
Note
Some of the infrastructure in this tutorial may not qualify for the AWS free tier. Destroy the infrastructure at the end of the guide to avoid unnecessary charges. We are not responsible for any charges that you incur.
Create infrastructure
Clone the Learn Terraform variables GitHub repository for this tutorial.
$ git clone https://github.com/hashicorp/learn-terraform-variables.git
Change to the repository directory.
$ cd learn-terraform-variables
The configuration in main.tf
defines a web application, including a VPC,
load balancer, and EC2 instances.
Initialize this configuration.
$ terraform initInitializing the backend...##...Terraform has been successfully initialized!You may now begin working with Terraform. Try running "terraform plan" to seeany changes that are required for your infrastructure. All Terraform commandsshould now work.If you ever set or change modules or backend configuration for Terraform,rerun this command to reinitialize your working directory. If you forget, othercommands will detect it and remind you to do so if necessary.
Now apply the configuration. Respond to the confirmation prompt with a yes
to create the example
infrastructure.
$ terraform apply##...Plan: 43 to add, 0 to change, 0 to destroy. Changes to Outputs: + public_dns_name = (known after apply) Do you want to perform these actions? Terraform will perform the actions described above. Only 'yes' will be accepted to approve. Enter a value: yes##... Apply complete! Resources: 43 added, 0 changed, 0 destroyed. Outputs: public_dns_name = "lb-CVB-project-alpha-dev-1778105170.us-west-2.elb.amazonaws.com"
Parameterize your configuration
Variable declarations can appear anywhere in your configuration files. However,
we recommend putting them into a separate file called variables.tf
to make it
easier for users to understand how they can customize the configuration.
To parameterize an argument with an input variable, you must first define the variable, then replace the hardcoded value with a reference to that variable in your configuration.
Add a block declaring a variable named aws_region
to variables.tf
.
variables.tf
variable "aws_region" { description = "AWS region" type = string default = "us-west-2"}
Variable blocks have three optional arguments.
- Description: A short description to document the purpose of the variable.
- Type: The type of data contained in the variable.
- Default: The default value.
We recommend setting a description and type for all variables, and setting a default value when practical.
If you do not set a default value for a variable, you must assign a value before Terraform can apply the configuration. Terraform does not support unassigned variables. You will review some of the ways to assign values to variables later in this tutorial.
Variable values must be literal values, and cannot use computed values like
resource attributes, expressions, or other variables. You can refer to variables in your configuration with var.<variable_name>
.
Edit the provider block in main.tf
to use the new aws_region
variable.
main.tf
provider "aws" {- region = "us-west-2"+ region = var.aws_region }
Add another declaration for the vpc_cidr_block
variable to variables.tf
.
variables.tf
variable "vpc_cidr_block" { description = "CIDR block for VPC" type = string default = "10.0.0.0/16"}
Now, replace the hard-coded value for the VPC's CIDR block with a variable in
main.tf
.
main.tf
module "vpc" { source = "terraform-aws-modules/vpc/aws" version = "5.7.0" - cidr = "10.0.0.0/16"+ cidr = var.vpc_cidr_block ## ... }
Apply the updated configuration. Since the default values of these variables are the same as the hard-coded values they replaced, there will be no changes.
$ terraform apply##...No changes. Your infrastructure matches the configuration. Terraform has compared your real infrastructure against your configurationand found no differences, so no changes are needed.
Set the number of instances
Terraform supports several variable types in addition to string
.
Use a number
type to define the number of instances supported by this
configuration. Add the following to variables.tf
.
variables.tf
variable "instance_count" { description = "Number of instances to provision." type = number default = 2}
Update EC2 instances to use the instance_count
variable in main.tf
.
main.tf
module "ec2_instances" { source = "./modules/aws-instance" depends_on = [module.vpc] - instance_count = 2+ instance_count = var.instance_count ## ... }
When Terraform interprets values, either hard-coded or from variables, it will
convert them into the correct type if possible. So the instance_count
variable
would also work using a string ("2"
) instead of a number (2
). We recommend
using the most appropriate type in variable definitions to helps users of your
configuration know the appropriate data type to use, as well as to catch
configuration errors early.
Toggle VPN gateway support
In addition to strings and numbers, Terraform supports several other variable
types.
A variable with type bool
represents true/false values.
Use a bool
type variable to control whether to configure a
VPN gateway for your VPC. Add the following to variables.tf
.
variables.tf
variable "enable_vpn_gateway" { description = "Enable a VPN gateway in your VPC." type = bool default = false}
Use this new variable in your VPC configuration by editing main.tf
as follows.
module "vpc" { source = "terraform-aws-modules/vpc/aws" version = "5.7.0" ## ... enable_nat_gateway = true- enable_vpn_gateway = false+ enable_vpn_gateway = var.enable_vpn_gateway ## ... }
Leave the value for enable_nat_gateway
hard-coded. In any configuration, there
may be some values that you want to let users configure with variables and
others you wish to hard-code.
When developing Terraform modules, you will often use variables to make the module's attributes configurable, to make the module more flexible.
In contrast, when writing Terraform configuration for a specific project, you may choose to hard-code attributes if you do not want to let users configure them.
List public and private subnets
The variables you have used so far have all been single values. Terraform calls these types of variables simple. Terraform also supports collection variable types that contain more than one value. Terraform supports several collection variable types.
- List: A sequence of values of the same type.
- Map: A lookup table, matching keys to values, all of the same type.
- Set: An unordered collection of unique values, all of the same type.
In this tutorial, you will use lists and a map, which are the most commonly used of these types. Sets are useful when you need a unique collection of values is needed, and the order of the items in the collection does not matter.
A likely place to use list variables is when setting the private_subnets
and
public_subnets
arguments for the VPC. Make this configuration easier to use
and customizable by using lists and the slice()
function.
Add the following variable declarations to variables.tf
.
variables.tf
variable "public_subnet_count" { description = "Number of public subnets." type = number default = 2} variable "private_subnet_count" { description = "Number of private subnets." type = number default = 2} variable "public_subnet_cidr_blocks" { description = "Available cidr blocks for public subnets." type = list(string) default = [ "10.0.1.0/24", "10.0.2.0/24", "10.0.3.0/24", "10.0.4.0/24", "10.0.5.0/24", "10.0.6.0/24", "10.0.7.0/24", "10.0.8.0/24", ]} variable "private_subnet_cidr_blocks" { description = "Available cidr blocks for private subnets." type = list(string) default = [ "10.0.101.0/24", "10.0.102.0/24", "10.0.103.0/24", "10.0.104.0/24", "10.0.105.0/24", "10.0.106.0/24", "10.0.107.0/24", "10.0.108.0/24", ]}
Notice that the type for the list variables is list(string)
. Each element in
these lists must be a string. List elements must all be the same type, but can
be any type, including complex types like list(list)
and list(map)
.
Like lists and arrays used in most programming languages, you can refer to individual items in a list by index, starting with 0. Terraform also includes several functions that allow you to manipulate lists and other variable types.
Use the
slice()
function to get a subset of these lists.
The Terraform console
command opens an interactive console that you can use to
evaluate expressions in the context of your configuration. This can be very
useful when working with and troubleshooting variable definitions.
Open a console with the terraform console
command.
$ terraform console>
Now use the Terraform console to inspect the list of private subnet blocks.
Refer to the variable by name to return the entire list.
> var.private_subnet_cidr_blockstolist([ "10.0.101.0/24", "10.0.102.0/24", "10.0.103.0/24", "10.0.104.0/24", "10.0.105.0/24", "10.0.106.0/24", "10.0.107.0/24", "10.0.108.0/24",])
Retrieve the second element from the list by index with square brackets.
> var.private_subnet_cidr_blocks[1]"10.0.102.0/24"
Now use the slice()
function to return the first three elements from the list.
> slice(var.private_subnet_cidr_blocks, 0, 3)tolist([ "10.0.101.0/24", "10.0.102.0/24", "10.0.103.0/24",])
The slice()
function takes three arguments: the list to slice, the start index,
and the end index (exclusive). It returns a new list with the specified
elements copied ("sliced") from the original list.
Leave the console by typing exit
or pressing Control-D
.
> exit
Now update the VPC module configuration in main.tf
to use the slice function to extract a subset of the CIDR block lists for your public and private subnet configuration.
main.tf
module "vpc" { source = "terraform-aws-modules/vpc/aws" version = "5.7.0" cidr = var.vpc_cidr_block azs = data.aws_availability_zones.available.names- private_subnets = ["10.0.101.0/24", "10.0.102.0/24"]- public_subnets = ["10.0.1.0/24", "10.0.2.0/24"]+ private_subnets = slice(var.private_subnet_cidr_blocks, 0, var.private_subnet_count)+ public_subnets = slice(var.public_subnet_cidr_blocks, 0, var.public_subnet_count) ## ... }
This way, users of this configuration can specify the number of public and private subnets they want without worrying about defining CIDR blocks.
Map resource tags
Each of the resources and modules declared in main.tf
includes two tags:
project_name
and environment
. Assign these tags with a map
variable type.
Declare a new map
variable for resource tags in variables.tf
.
variables.tf
variable "resource_tags" { description = "Tags to set for all resources" type = map(string) default = { project = "project-alpha", environment = "dev" }}
Setting the type to map(string)
tells Terraform to expect strings for the
values in the map. Map keys are always strings. Like dictionaries or maps from
programming languages, you can retrieve values from a map with the corresponding
key. See how this works with the Terraform console.
Start the console.
$ terraform console>
Retrieve the value of the environment
key from the resource_tags
map.
> var.resource_tags["environment"]"dev"
Leave the console by typing exit
or pressing Control-D
.
> exit
Note
The terraform console
command loads your Terraform configuration
only when it starts. Be sure to exit and restart the console to pick up your
most recent changes.
Now, replace the hard coded tags in main.tf
with references to the new
variable.
main.tf
- tags = {- project = "project-alpha",- environment = "dev"- }+ tags = var.resource_tags ## ... replace all five occurrences of `tags = {...}`
Be sure to replace all five references to these hard-coded tags in your configuration.
Apply these changes. Once again, Terraform does not propose any changes since the default values of your variables match the original hard-coded values.
$ terraform apply
The lists and maps you used are collection types. Terraform also supports two structural types. Structural types have a fixed number of values that can be of different types.
- Tuple: A fixed-length sequence of values of specified types.
- Object: A lookup table, matching a fixed set of keys to values of specified types.
Assign values to variables
Terraform requires a value for every variable. There are several ways to assign variable values.
Use command line flag
In the examples so far, all of the variable definitions have included a default
value. Add a new variable without a default value to variables.tf
.
variables.tf
variable "ec2_instance_type" { description = "AWS EC2 instance type." type = string}
Replace the reference to the EC2 instance type in main.tf
.
main.tf
module "ec2_instances" { source = "./modules/aws-instance" instance_count = var.instance_count- instance_type = "t2.micro"+ instance_type = var.ec2_instance_type ## ... }
Apply this configuration now, using the -var
command line flag to set the variable value. Since the value you entered is the same as the old value, there will be no
changes to apply.
$ terraform apply -var ec2_instance_type=t2.micro## ... Apply complete! Resources: 0 added, 0 changed, 0 destroyed. Outputs: public_dns_name = "lb-3Bn-project-alpha-dev-542453763.us-west-2.elb.amazonaws.com"
When using Terraform Community Edition, Terraform will prompt you for a value if you do not set it in the configuration or pass one to the Terraform command.
Assign values with a file
Entering variable values manually is time consuming and error prone. Instead, you can capture variable values in a file.
Create a file named terraform.tfvars
with the following contents.
terraform.tfvars
resource_tags = { project = "project-alpha", environment = "dev", owner = "me@example.com"} ec2_instance_type = "t3.micro" instance_count = 3
Terraform automatically loads all files in the current directory with the exact
name terraform.tfvars
or matching *.auto.tfvars
. You can also use the
-var-file
flag to specify other files by name.
These files use syntax similar to Terraform configuration files (HCL), but they cannot contain configuration such as resource definitions. Like Terraform configuration files, these files can also contain JSON.
Apply the configuration with these new values.
$ terraform apply##...Plan: 6 to add, 19 to change, 4 to destroy. Do you want to perform these actions? Terraform will perform the actions described above. Only 'yes' will be accepted to approve. Enter a value: yes##...
Respond to the confirmation prompt with yes
to apply these changes.
In addition to command line flags and variable files, you can use environment variables to set input variables. Check out the documentation for more details. If there are different values assigned for a variable through these methods, Terraform will use the last value it finds, in order of precedence.
Interpolate variables in strings
Terraform configuration supports string interpolation — inserting the output of an expression into a string. This allows you to use variables, local values, and the output of functions to create strings in your configuration.
Update the names of the security groups to use the project and environment
values from the resource_tags
map.
main.tf
module "app_security_group" { source = "terraform-aws-modules/security-group/aws//modules/web" version = "4.17.0" - name = "web-sg-project-alpha-dev"+ name = "web-sg-${var.resource_tags["project"]}-${var.resource_tags["environment"]}" ## ... } module "lb_security_group" { source = "terraform-aws-modules/security-group/aws//modules/web" version = "4.17.0" - name = "lb-sg-project-alpha-dev"+ name = "lb-sg-${var.resource_tags["project"]}-${var.resource_tags["environment"]}" ## ... } module "elb_http" { source = "terraform-aws-modules/elb/aws" version = "4.0.1" # Ensure load balancer name is unique- name = "lb-${random_string.lb_id.result}-project-alpha-dev"+ name = "lb-${random_string.lb_id.result}-${var.resource_tags["project"]}-${var.resource_tags["environment"]}" ## ... }
Apply the updated configuration. Since the values of the interpolated strings are the same as the hard-coded values, there will be no changes.
$ terraform apply##...No changes. Your infrastructure matches the configuration. Terraform has compared your real infrastructure against your configuration andfound no differences, so no changes are needed. Apply complete! Resources: 0 added, 0 changed, 0 destroyed. Outputs: public_dns_name = "lb-CVB-project-alpha-dev-1778105170.us-west-2.elb.amazonaws.com"
Validate variables
This configuration has a potential problem. AWS load balancers have naming restrictions. Load balancer names must be no more than 32 characters long, and can only contain a limited set of characters.
Now, use variable validation to restrict the possible values for the project and environment tags.
Replace your existing resource tags
variable in variables.tf
with the below code snippet, which includes validation blocks to enforce character limits and character sets on both project
and environment
values.
variables.tf
variable "resource_tags" { description = "Tags to set for all resources" type = map(string) default = { project = "my-project", environment = "dev" } validation { condition = length(var.resource_tags["project"]) <= 16 && length(regexall("[^a-zA-Z0-9-]", var.resource_tags["project"])) == 0 error_message = "The project tag must be no more than 16 characters, and only contain letters, numbers, and hyphens." } validation { condition = length(var.resource_tags["environment"]) <= 8 && length(regexall("[^a-zA-Z0-9-]", var.resource_tags["environment"])) == 0 error_message = "The environment tag must be no more than 8 characters, and only contain letters, numbers, and hyphens." }}
The regexall()
function takes a regular expression and a string to test it
against, and returns a list of matches found in the string. In this case, the
regular expression will match a string that contains anything other than a
letter, number, or hyphen.
This ensures that the length of the load balancer name does not exceed 32 characters, or contain invalid characters. Using variable validation can be a good way to catch configuration errors early.
Apply this change to add validation to these two variables. There will be no changes to apply, since your infrastructure configuration has not changed.
$ terraform apply##...No changes. Your infrastructure matches the configuration. Terraform has compared your real infrastructure against your configuration and found nodifferences, so no changes are needed. Apply complete! Resources: 0 added, 0 changed, 0 destroyed. Outputs: public_dns_name = "lb-CVB-project-alpha-dev-1778105170.us-west-2.elb.amazonaws.com"
Now test the validation rules by specifying an environment tag that is too long. Notice that the command will fail and return the error message specified in the validation block.
$ terraform apply -var='resource_tags={project="my-project",environment="development"}'random_string.lb_id: Refreshing state... [id=CVB]data.aws_availability_zones.available: Reading...data.aws_availability_zones.available: Read complete after 1s [id=us-west-2] Planning failed. Terraform encountered an error while generating this plan. ╷│ Error: Invalid value for variable││ on variables.tf line 72:│ 72: variable "resource_tags" {│ ├────────────────│ │ var.resource_tags["environment"] is "development"││ The environment tag must be no more than 8 characters, and only contain│ letters, numbers, and hyphens.││ This was checked by the validation rule at variables.tf:85,3-13.╵
Clean up your infrastructure
Before moving on, destroy the infrastructure you created by running the
terraform destroy
command. Remember to confirm the operation with a yes
.
$ terraform destroy## ... Plan: 0 to add, 0 to change, 45 to destroy. Changes to Outputs: - public_dns_name = "lb-CVB-project-alpha-dev-1778105170.us-west-2.elb.amazonaws.com" -> null Do you really want to destroy all resources? Terraform will destroy all your managed infrastructure, as shown above. There is no undo. Only 'yes' will be accepted to confirm. Enter a value: yes ## ...Apply complete! Resources: 0 added, 0 changed, 45 destroyed.
If you used HCP Terraform for this tutorial, after destroying your resources, delete the workspace-name
workspace from your HCP Terraform organization.
Next steps
In this tutorial, you defined and used Terraform variables. Adding variables to your configuration makes it easier to modify over its lifecycle. Variables also make it easier to re-use configuration for other projects, or turn it into a module. It can also make your configuration more generic, letting you save project-specific configuration in the variables file.
Review the following resources to learn more about variables and how to make your Terraform configuration more flexible.
- Read the Input variables documentation.
- Read the Local variables documentation.
- Learn how to create and use Terraform modules.
- Learn how to validate modules with custom conditions.
- Read more about structural types in the documentation.
- Learn how to manage variable sets in HCP Terraform.