Inject secrets into Terraform using the Vault provider
Traditionally, developers looking to safely provision infrastructure using Terraform are given their own set of long-lived, scoped AWS credentials. While this enables the developer's freedom, using long-lived credentials can be dangerous and difficult to secure.
Operators need to manage a large number of static, long-lived AWS IAM credentials with varying scope.
Long-lived credentials on a developer's local machine creates a large attack surface area. If a malicious actor gains access to the credentials, they could used them to damage resources.
You can address both concerns by storing your long-lived AWS credentials in HashiCorp's Vault's AWS Secrets Engine, then leverage Terraform's Vault provider to generate appropriately scoped & short-lived AWS credentials to be used by Terraform to provision resources in AWS.
As a result, operators (Vault Admin) are able to avoid managing static, long-lived secrets with varying scope and developers (Terraform Operator) are able to provision resources without having direct access to the secrets.
In this tutorial, you assume the role of both the Vault Admin and the Terraform Operator.
First, as a Vault Admin, you will configure AWS Secrets Engine in Vault.
Then, as a Terraform Operator, you will connect to the Vault instance to retrieve dynamic, short-lived AWS credentials generated by the AWS Secrets Engine to provision an Ubuntu EC2 instance.
Finally, as a Vault Admin, you will remove the Terraform Operator's ability to manipulate EC2 instances by modifying the policy for the corresponding Vault role.
Throughout this journey, you'll learn about the benefits and considerations this approach has to offer.
Warning
Warning! If you're not using an account that qualifies under the AWS free tier, you may be charged to run these examples. The most you should be charged should only be a few dollars, but we're not responsible for any charges that may incur.
Prerequisites
In order to follow this tutorial, you should be familiar with the usual Terraform plan/apply workflow and Vault. If you're new to Terraform, refer first to the Terraform Getting Started tutorial. If you're new to Vault, refer first to the Vault Getting Started tutorial.
In addition, you will need the following:
Terraform installed locally
Vault installed locally
an AWS account and AWS Access Credentials
If you don't have AWS Access Credentials, create your AWS Access Key ID and Secret Access Key by navigating to your service credentials in the IAM service on AWS. Click "Create access key" here to view your
AWS_ACCESS_KEY_ID
andAWS_SECRET_ACCESS_KEY
. You will need these values later.
Start Vault server
Start a Vault server in development mode with education
as the root token. Leave this process running in your terminal window.
$ vault server -dev -dev-root-token-id="education"
==> Vault server configuration:
Api Address: http://127.0.0.1:8200
Cgo: disabled
Cluster Address: https://127.0.0.1:8201
Go Version: go1.14.4
Listener 1: tcp (addr: "127.0.0.1:8200", cluster address: "127.0.0.1:8201", max_request_duration: "1m30s", max_request_size: "33554432", tls: "disabled")
Log Level: info
Mlock: supported: false, enabled: false
Recovery Mode: false
Storage: inmem
Version: Vault v1.4.3
Version Sha: 491533b63ec9c1343eac3a24d8a7558185a0acb7+CHANGES
Your Vault server should now be up. Navigate to localhost:8200
and login into the instance using your root token: education
.
Clone repository
In your terminal, clone the Inject Secrets repository and navigate into the directory. It contains the example configurations used in this tutorial.
$ git clone https://github.com/hashicorp-education/learn-terraform-inject-secrets-aws-vault && cd learn-terraform-inject-secrets-aws-vault
This directory should contain two Terraform workspaces — an vault-admin-workspace
and a operator-workspace
.
$ tree
.
├── README.md
├── operator-workspace
│ └── main.tf
│ └── versions.tf
└── vault-admin-workspace
└── main.tf
│ └── versions.tf
Configure AWS Secrets Engine in Vault
In another terminal window (leave the Vault instance running), navigate to the Vault Admin directory.
$ cd vault-admin-workspace
In the main.tf
file, you will find 2 resources:
the
vault_aws_secret_backend.aws
resource configures AWS Secrets Engine to generate a dynamic token that lasts for 2 minutes.the
vault_aws_secret_backend_role.admin
resource configures a role for the AWS Secrets Engine nameddynamic-aws-creds-vault-admin-role
with an IAM policy that allows itiam:*
andec2:*
permissions.
This role will be used by the Terraform Operator workspace to dynamically generate AWS credentials scoped to this IAM policy.
Before applying this configuration, set the required Terraform variable substituting <AWS_ACCESS_KEY_ID>
and <AWS_SECRET_ACCESS_KEY>
with your AWS Credentials. Notice that we're also setting the required Vault Provider arguments as environment variables: VAULT_ADDR
& VAULT_TOKEN
.
$ export TF_VAR_aws_access_key=<AWS_ACCESS_KEY_ID>
$ export TF_VAR_aws_secret_key=<AWS_SECRET_ACCESS_KEY>
$ export VAULT_ADDR=http://127.0.0.1:8200
$ export VAULT_TOKEN=education
Initialize the Vault Admin workspace.
$ terraform init
In your initialized directory, run terraform apply
, review the planned actions, and confirm the run with a yes
$ terraform apply
## ...
Apply complete! Resources: 2 added, 0 changed, 0 destroyed.
The state of your infrastructure has been saved to the path
below. This state is required to modify and destroy your
infrastructure, so keep it safe. To inspect the complete state
use the `terraform show` command.
State path: terraform.tfstate
Outputs:
backend = "dynamic-aws-creds-vault-admin-path"
role = "dynamic-aws-creds-vault-admin-role"
Notice that there are two output variables named backend
and role
. These output variables will be used by the Terraform Operator workspace in a later step.
If you go to the terminal where your Vault server is running, you should see Vault output something similar to the below. This means Terraform was successfully able to mount the AWS Secrets Engine at the specified path. The role has also been configured although it's not output in the logs.
[INFO] core: successful mount: namespace= path=dynamic-aws-creds-vault-admin-path/ type=aws
Provision compute instance
Now that you have successfully configured Vault's AWS Secrets Engine, you can retrieve dynamic short lived AWS token to provision an EC2 instance.
Navigate to the Terraform Operator workspace.
$ cd ../operator-workspace
In the main.tf
file, you should find the following data and resource blocks:
the
terraform_remote_state.admin
data block retrieves the Terraform state file generated from your Vault Admin workspacethe
vault_aws_access_credentials.creds
data block retrieves the dynamic, short-lived AWS credentials from your Vault instance. Notice that this uses the Vault Admin workspace's output variables:backend
androle
the
aws
provider is initialized with the short-lived credentials retrieved byvault_aws_access_credentials.creds
. The provider is configured to theus-east-1
region, as defined by theregion
variablethe
aws_ami.ubuntu
data block retrieves the most recent Ubuntu imagethe
aws_instance.main
resource block creates an t2.micro EC2 instance
Tip
We recommend using provider-specific data sources when convenient. terraform_remote_state
is more flexible, but requires access to the whole Terraform state.
Initialize the Terraform Operator workspace.
$ terraform init
Navigate to the IAM Users page in AWS Console. Search for the username prefix vault-token-terraform-dynamic-aws-creds-vault-admin
. Nothing should show up on your initial search. However, a user with this prefix should appear on terraform plan
or terraform apply
.
Apply the Terraform configuration, remember to confirm the run with a yes
. Terraform will provision the EC2 instance using the dynamic credentials generated from Vault.
$ terraform apply
Refresh the IAM Users and search for the vault-token-terraform-dynamic-aws-creds-vault-admin
prefix. You should see a IAM user.
This IAM user was generated by Vault with the appropriate IAM policy configured by the Vault Admin workspace. Because the default_lease_ttl_seconds
is set to 120
seconds, Vault will revoke those IAM credentials and they will be removed from the AWS IAM console after 120
seconds.
Tip
The token is generated from the moment the configuration retrieves the temporary AWS credentials (on terraform plan
or terraform apply
). If the apply run is confirmed after the 120
seconds, the run will fail because the credentials used to initialize the Terraform AWS provider has expired. For these instances or large multi-resource configurations, you may need to adjust the default_lease_ttl_seconds
.
Navigate to the EC2 page and search for dynamic-aws-creds-operator
. You should see an instance provisioned by the Terraform Operator workspace using the short-lived AWS credentials.
Every Terraform run with this configuration will use its own unique set of AWS IAM credentials that are scoped to whatever the Vault Admin has defined.
The Terraform Operator doesn't have to manage long-lived AWS credentials locally. The Vault Admin only has to manage the Vault role rather than numerous, multi-scoped, long-lived AWS credentials.
After 120
seconds, you should see the following in the terminal running Vault.
2020-07-13T16:07:55.755-0700 [INFO] expiration: revoked lease: lease_id=dynamic-aws-creds-vault-admin-path/creds/dynamic-aws-creds-vault-admin-role/z1PKR7Y623fk0ZQWW1kwaVVY
This shows that Vault has destroyed the short-lived AWS credentials generated for the apply run.
Destroy EC2 instance
Destroy the EC2 instance, remember to confirm the run with a yes
.
$ terraform destroy
This run should have generated and used another set of IAM credentials. Verify that your EC2 instance has been destroyed by viewing the EC2 page of your AWS Console.
Restrict Vault role's permissions
If the Vault Admin wanted to remove the Terraform Operator's EC2 permissions, they would only need to update the Vault role's policy.
Navigate to the Vault Admin workspace.
$ cd ../vault-admin-workspace
Remove "ec2:*"
from the vault_aws_secret_backend_role.admin
resource in your main.tf
file.
$ sed -i '' -e 's/, \"ec2:\*\"//g' main.tf
resource "vault_aws_secret_backend_role" "admin" {
backend = vault_aws_secret_backend.aws.path
name = "${var.name}-role"
credential_type = "iam_user"
policy_document = <<EOF
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": [
- "iam:*", "ec2:*"
+ "iam:*"
],
"Resource": "*"
}
]
}
EOF
}
This change restricts the Terraform Operator's ability to provision any AWS EC2 instance.
Apply the Terraform configuration, remember to confirm the run with a yes
.
$ terraform apply
Verify restricted Terraform Operator permissions
Navigate to the Terraform Operator workspace.
$ cd ../operator-workspace
Run terraform plan
. This plan should fail because the Terraform Operator no longer has CRUD permissions on EC2 instances due to changes to the dynamic-aws-creds-vault-admin
role.
$ terraform plan
Error: UnauthorizedOperation: You are not authorized to perform this operation.
status code: 403, request id: 8bb1d1f8-5667-456a-9fee-8387e0e2ceb0
Benefits and considerations
This approach to secret injection:
alleviates the Vault Admin's responsibility in managing numerous, multi-scoped, long-lived AWS credentials,
reduces the risk from a compromised AWS credential in a Terraform run (if a malicious user gains access to an AWS credential used in a Terraform run, that credential is only value for the length of the token's
TTL
),allows for management of a role's permissions through a Vault role rather than the distribution/management of static AWS credentials,
enables development to provision resources without managing local, static AWS credentials
However, this approach may run into issues when applied to large multi-resource configurations. The generated dynamic AWS Credentials are only valid for the length of the token's TTL
. As a result, if:
the apply process exceeds than the
TTL
and the configuration needs to provision another resource orthe apply confirmation time exceeds the
TTL
the apply process will fail because the short-lived AWS Credentials have expired.
You could increase the TTL
to conform to your situation; however, this also increases how long the temporary AWS credentials are valid, increasing the malicious actor's attack surface.
Summary
Congratulations! You have successfully:
- configured Vault's AWS Secret Engine through Terraform,
- used dynamic short-lived AWS credentials to provision infrastructure, and
- restricted the AWS credential's permissions by adjusting the corresponding Vault role
Remember to clean up environment by destroying all resources in both Vault Admin and Terraform Operator workspaces.
$ terraform destroy --auto-approve && cd ../vault-admin-workspace && terraform destroy --auto-approve
Remember to stop your local Vault instance used in this tutorial by hitting Ctrl + C
in the terminal window running Vault.
Now that you have inject secrets into Terraform using the Vault provider, you may like to:
Watch a video exploring Best Practices for using Terraform with Vault.
Learn how to codify management of Vault Community Edition and Vault Enterprise.
Learn more about the various Vault secret engines
You can take your security to the next level by leveraging Terraform Enterprise's Secure Storage of Variables to safely store sensitive variables like the Vault token used for authentication.
Learn more about the Terraform Vault Provider.