Build infrastructure
With Terraform installed, you are ready to create your first infrastructure.
In this tutorial, you will provision an EC2 instance on Amazon Web Services (AWS). EC2 instances are virtual machines running on AWS, and a common component of many infrastructure projects.
Prerequisites
To follow this tutorial you will need:
- The Terraform CLI (1.2.0+) installed.
- The AWS CLI installed.
- AWS account and associated credentials that allow you to create resources.
To use your IAM credentials to authenticate the Terraform AWS provider, set the AWS_ACCESS_KEY_ID
environment variable.
$ export AWS_ACCESS_KEY_ID=
Now, set your secret key.
$ export AWS_SECRET_ACCESS_KEY=
Tip
If you don't have access to IAM user credentials, use another authentication method described in the AWS provider documentation.
This tutorial will provision resources that qualify under the AWS free tier. If your account does not qualify for free tier resources, we are not responsible for any charges that you may incur.
Write configuration
The set of files used to describe infrastructure in Terraform is known as a Terraform configuration. You will write your first configuration to define a single AWS EC2 instance.
Each Terraform configuration must be in its own working directory. Create a directory for your configuration.
$ mkdir learn-terraform-aws-instance
Change into the directory.
$ cd learn-terraform-aws-instance
Create a file to define your infrastructure.
$ touch main.tf
Open main.tf
in your text editor, paste in the configuration below, and save
the file.
Tip
The AMI ID used in this configuration is specific to the
us-west-2
region. If you would like to use a different region, see the
Troubleshooting section for guidance.
terraform { required_providers { aws = { source = "hashicorp/aws" version = "~> 4.16" } } required_version = ">= 1.2.0"} provider "aws" { region = "us-west-2"} resource "aws_instance" "app_server" { ami = "ami-830c94e3" instance_type = "t2.micro" tags = { Name = "ExampleAppServerInstance" }}
This is a complete configuration that you can deploy with Terraform. The following sections review each block of this configuration in more detail.
Terraform Block
The terraform {}
block contains Terraform settings, including the required
providers Terraform will use to provision your infrastructure. For each provider, the
source
attribute defines an optional hostname, a namespace, and the provider
type. Terraform installs providers from the Terraform
Registry by default. In this example
configuration, the aws
provider's source is defined as hashicorp/aws
, which
is shorthand for registry.terraform.io/hashicorp/aws
.
You can also set a version constraint for each provider defined in the
required_providers
block. The version
attribute is optional, but we
recommend using it to constrain the provider version so that Terraform does not
install a version of the provider that does not work with your configuration. If
you do not specify a provider version, Terraform will automatically download the
most recent version during initialization.
To learn more, reference the provider source documentation.
Providers
The provider
block configures the specified provider, in this case aws
. A
provider is a plugin that Terraform uses to create and manage your resources.
You can use multiple provider blocks in your Terraform configuration to manage resources from different providers. You can even use different providers together. For example, you could pass the IP address of your AWS EC2 instance to a monitoring resource from DataDog.
Resources
Use resource
blocks to define components of your infrastructure. A resource
might be a physical or virtual component such as an EC2 instance, or it can be a
logical resource such as a Heroku application.
Resource blocks have two strings before the block: the resource type and the
resource name. In this example, the resource type is aws_instance
and the name
is app_server
. The prefix of the type maps to the name of the provider. In the
example configuration, Terraform manages the aws_instance
resource with the
aws
provider. Together, the resource type and resource name form a unique ID
for the resource. For example, the ID for your EC2 instance is
aws_instance.app_server
.
Resource blocks contain arguments which you use to configure the resource.
Arguments can include things like machine sizes, disk image names, or VPC IDs.
Our providers reference
lists the required and optional arguments for each resource. For your EC2
instance, the example configuration sets the AMI ID to an Ubuntu image, and the instance
type to t2.micro
, which qualifies for AWS' free tier. It also sets a tag to
give the instance a name.
Initialize the directory
When you create a new configuration — or check out an existing configuration
from version control — you need to initialize the directory with terraform init
.
Initializing a configuration directory downloads and installs the providers
defined in the configuration, which in this case is the aws
provider.
Initialize the directory.
$ terraform init Initializing the backend... Initializing provider plugins...- Finding hashicorp/aws versions matching "~> 4.16"...- Installing hashicorp/aws v4.17.0...- Installed hashicorp/aws v4.17.0 (signed by HashiCorp) Terraform has created a lock file .terraform.lock.hcl to record the providerselections it made above. Include this file in your version control repositoryso that Terraform can guarantee to make the same selections by default whenyou run "terraform init" in the future. 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.
Terraform downloads the aws
provider and installs it in a hidden
subdirectory of your current working directory, named .terraform
. The
terraform init
command prints out which version of the provider was installed.
Terraform also creates a lock file named .terraform.lock.hcl
which specifies the exact provider versions
used, so that you can control when you want to update the providers used for
your project.
Format and validate the configuration
We recommend using consistent formatting in all of your configuration files. The
terraform fmt
command automatically updates configurations in the current
directory for readability and consistency.
Format your configuration. Terraform will print out the names of the files it modified, if any. In this case, your configuration file was already formatted correctly, so Terraform won't return any file names.
$ terraform fmt
You can also make sure your configuration is syntactically valid and internally
consistent by using the terraform validate
command.
Validate your configuration. The example configuration provided above is valid, so Terraform will return a success message.
$ terraform validateSuccess! The configuration is valid.
Create infrastructure
Apply the configuration now with the terraform apply
command. Terraform will
print output similar to what is shown below. We have truncated some of the
output to save space.
$ terraform apply Terraform used the selected providers to generate the following execution plan.Resource actions are indicated with the following symbols: + create Terraform will perform the following actions: # aws_instance.app_server will be created + resource "aws_instance" "app_server" { + ami = "ami-830c94e3" + arn = (known after apply)##... Plan: 1 to add, 0 to change, 0 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:
Tip
If your configuration fails to apply, you may have customized your region or removed your default VPC. Refer to the troubleshooting section of this tutorial for help.
Before it applies any changes, Terraform prints out the execution plan which describes the actions Terraform will take in order to change your infrastructure to match the configuration.
The output format is similar to the diff format generated by tools such as Git.
The output has a +
next to aws_instance.app_server
, meaning that Terraform
will create this resource. Beneath that, it shows the attributes that will be
set. When the value displayed is (known after apply)
, it means that the value
will not be known until the resource is created. For example, AWS assigns
Amazon Resource Names (ARNs) to instances upon creation, so Terraform cannot
know the value of the arn
attribute until you apply the change and the AWS
provider returns that value from the AWS API.
Terraform will now pause and wait for your approval before proceeding. If anything in the plan seems incorrect or dangerous, it is safe to abort here before Terraform modifies your infrastructure.
In this case the plan is acceptable, so type yes
at the confirmation prompt to
proceed. Executing the plan will take a few minutes since Terraform waits for
the EC2 instance to become available.
Enter a value: yesaws_instance.app_server: Creating...aws_instance.app_server: Still creating... [10s elapsed]aws_instance.app_server: Still creating... [20s elapsed]aws_instance.app_server: Still creating... [30s elapsed]aws_instance.app_server: Creation complete after 36s [id=i-01e03375ba238b384]Apply complete! Resources: 1 added, 0 changed, 0 destroyed.
You have now created infrastructure using Terraform! Visit the EC2 console and find your new EC2 instance.
Note
Per the aws
provider block, your instance was created in the
us-west-2
region. Ensure that your AWS Console is set to this region.
Inspect state
When you applied your configuration, Terraform wrote data into a file called
terraform.tfstate
. Terraform stores the IDs and properties of the resources it
manages in this file, so that it can update or destroy those resources going
forward.
The Terraform state file is the only way Terraform can track which resources it manages, and often contains sensitive information, so you must store your state file securely and restrict access to only trusted team members who need to manage your infrastructure. In production, we recommend storing your state remotely with HCP Terraform or Terraform Enterprise. Terraform also supports several other remote backends you can use to store and manage your state.
Inspect the current state using terraform show
.
$ terraform show# aws_instance.app_server:resource "aws_instance" "app_server" { ami = "ami-830c94e3" arn = "arn:aws:ec2:us-west-2:561656980159:instance/i-01e03375ba238b384" associate_public_ip_address = true availability_zone = "us-west-2c" cpu_core_count = 1 cpu_threads_per_core = 1 disable_api_termination = false ebs_optimized = false get_password_data = false hibernation = false id = "i-01e03375ba238b384" instance_state = "running" instance_type = "t2.micro" ipv6_address_count = 0 ipv6_addresses = [] monitoring = false primary_network_interface_id = "eni-068d850de6a4321b7" private_dns = "ip-172-31-0-139.us-west-2.compute.internal" private_ip = "172.31.0.139" public_dns = "ec2-18-237-201-188.us-west-2.compute.amazonaws.com" public_ip = "18.237.201.188" secondary_private_ips = [] security_groups = [ "default", ] source_dest_check = true subnet_id = "subnet-31855d6c" tags = { "Name" = "ExampleAppServerInstance" } tenancy = "default" vpc_security_group_ids = [ "sg-0edc8a5a", ] credit_specification { cpu_credits = "standard" } enclave_options { enabled = false } metadata_options { http_endpoint = "enabled" http_put_response_hop_limit = 1 http_tokens = "optional" } root_block_device { delete_on_termination = true device_name = "/dev/sda1" encrypted = false iops = 0 tags = {} throughput = 0 volume_id = "vol-031d56cc45ea4a245" volume_size = 8 volume_type = "standard" }}
When Terraform created this EC2 instance, it also gathered the resource's metadata from the AWS provider and wrote the metadata to the state file. In later tutorials, you will modify your configuration to reference these values to configure other resources and output values.
Manually Managing State
Terraform has a built-in command called terraform state
for advanced state
management. Use the list
subcommand to list of the resources in your
project's state.
$ terraform state listaws_instance.app_server
Troubleshooting
If terraform validate
was successful and your apply still failed, you may be
encountering one of these common errors.
If you use a region other than
us-west-2
, you will also need to change yourami
, since AMI IDs are region-specific. Choose an AMI ID specific to your region by following these instructions, and modifymain.tf
with this ID. Then re-runterraform apply
.If you do not have a default VPC in your AWS account in the correct region, navigate to the AWS VPC Dashboard in the web UI, create a new VPC in your region, and associate a subnet and security group to that VPC. Then add the security group ID (
vpc_security_group_ids
) and subnet ID (subnet_id
) arguments to youraws_instance
resource, and replace the values with the ones from your new security group and subnet.resource "aws_instance" "app_server" { ami = "ami-830c94e3" instance_type = "t2.micro"+ vpc_security_group_ids = ["sg-0077..."]+ subnet_id = "subnet-923a..." }
Save the changes to
main.tf
, and re-runterraform apply
.Remember to add these lines to your configuration for later tutorials. For more information, review this document from AWS on working with VPCs.
Next Steps
Now that you have created your first infrastructure using Terraform, continue to the next tutorial to modify your infrastructure.
For more detail on the concepts used in this tutorial:
- Read about the Terraform configuration language in the Terraform documentation.
- Learn more about Terraform providers.
- Find examples of other uses for Terraform in the documentation use cases section.
- Read the AWS provider documentation to learn more about AWS authentication.
- For more information about the
terraform state
command and subcommands for moving or removing resources from state, see the CLIstate
command documentation.