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stage | group | info |
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Configure | Configure | To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments |
GitLab managed Terraform State
Introduced in GitLab 13.0.
Terraform remote backends enable you to store the state file in a remote, shared store. GitLab uses the Terraform HTTP backend to securely store the state files in local storage (the default) or the remote store of your choice.
The GitLab managed Terraform state backend can store your Terraform state easily and securely, and spares you from setting up additional remote resources like Amazon S3 or Google Cloud Storage. Its features include:
- Supporting encryption of the state file both in transit and at rest.
- Locking and unlocking state.
- Remote Terraform plan and apply execution.
Permissions for using Terraform
In GitLab version 13.1, Maintainer access was required to use a
GitLab managed Terraform state backend. In GitLab versions 13.2 and greater,
Maintainer access is required to lock, unlock and write to the state
(using terraform apply
), while Developer access is required to read
the state (using terraform plan -lock=false
).
Set up GitLab-managed Terraform state
To get started with a GitLab-managed Terraform state, there are two different options:
Terraform States can be found by navigating to a Project's {cloud-gear} Operations > Terraform page.
Get started using local development
If you plan to only run terraform plan
and terraform apply
commands from your
local machine, this is a simple way to get started:
-
Create your project on your GitLab instance.
-
Navigate to Settings > General and note your Project name and Project ID.
-
Define the Terraform backend in your Terraform project to be:
terraform { backend "http" { } }
-
Create a Personal Access Token with the
api
scope. -
On your local machine, run
terraform init
, passing in the following options, replacing<YOUR-STATE-NAME>
,<YOUR-PROJECT-ID>
,<YOUR-USERNAME>
and<YOUR-ACCESS-TOKEN>
with the relevant values. This command initializes your Terraform state, and stores that state within your GitLab project. The name of your state can contain only uppercase and lowercase letters, decimal digits, hyphens, and underscores. This example usesgitlab.com
:terraform init \ -backend-config="address=https://gitlab.com/api/v4/projects/<YOUR-PROJECT-ID>/terraform/state/<YOUR-STATE-NAME>" \ -backend-config="lock_address=https://gitlab.com/api/v4/projects/<YOUR-PROJECT-ID>/terraform/state/<YOUR-STATE-NAME>/lock" \ -backend-config="unlock_address=https://gitlab.com/api/v4/projects/<YOUR-PROJECT-ID>/terraform/state/<YOUR-STATE-NAME>/lock" \ -backend-config="username=<YOUR-USERNAME>" \ -backend-config="password=<YOUR-ACCESS-TOKEN>" \ -backend-config="lock_method=POST" \ -backend-config="unlock_method=DELETE" \ -backend-config="retry_wait_min=5"
You can now run terraform plan
and terraform apply
as you normally would.
Get started using GitLab CI
If you don't want to start with local development, you can also use GitLab CI to
run your terraform plan
and terraform apply
commands.
Next, configure the backend.
Configure the backend
After executing the terraform init
command, you must configure the Terraform backend
and the CI YAML file:
-
In your Terraform project, define the HTTP backend by adding the following code block in a
.tf
file (such asbackend.tf
) to define the remote backend:terraform { backend "http" { } }
-
In the root directory of your project repository, configure a
.gitlab-ci.yaml
file. This example uses a pre-built image which includes agitlab-terraform
helper. For supported Terraform versions, see the GitLab Terraform Images project.image: registry.gitlab.com/gitlab-org/terraform-images/stable:latest
-
In the
.gitlab-ci.yaml
file, define some environment variables to ease development. In this example,TF_ROOT
is the directory where the Terraform commands must be executed,TF_ADDRESS
is the URL to the state on the GitLab instance where this pipeline runs, and the final path segment inTF_ADDRESS
is the name of the Terraform state. Projects may have multiple states, and this name is arbitrary, so in this example we set it toexample-production
which corresponds with the directory we're using as ourTF_ROOT
, and we ensure that the.terraform
directory is cached between jobs in the pipeline using a cache key based on the state name (example-production
):variables: TF_ROOT: ${CI_PROJECT_DIR}/environments/example/production TF_ADDRESS: ${CI_API_V4_URL}/projects/${CI_PROJECT_ID}/terraform/state/example-production cache: key: example-production paths: - ${TF_ROOT}/.terraform
-
In a
before_script
, change to yourTF_ROOT
:before_script: - cd ${TF_ROOT} stages: - prepare - validate - build - deploy init: stage: prepare script: - gitlab-terraform init validate: stage: validate script: - gitlab-terraform validate plan: stage: build script: - gitlab-terraform plan - gitlab-terraform plan-json artifacts: name: plan paths: - ${TF_ROOT}/plan.cache reports: terraform: ${TF_ROOT}/plan.json apply: stage: deploy environment: name: production script: - gitlab-terraform apply dependencies: - plan when: manual only: - master
-
Push your project to GitLab, which triggers a CI job pipeline. This pipeline runs the
gitlab-terraform init
,gitlab-terraform validate
, andgitlab-terraform plan
commands.
The output from the above terraform
commands should be viewable in the job logs.
WARNING: Like any other job artifact, Terraform plan data is viewable by anyone with Guest access to the repository. Neither Terraform nor GitLab encrypts the plan file by default. If your Terraform plan includes sensitive data such as passwords, access tokens, or certificates, GitLab strongly recommends encrypting plan output or modifying the project visibility settings.
Example project
See this reference project using GitLab and Terraform to deploy a basic AWS EC2 within a custom VPC.
Using a GitLab managed Terraform state backend as a remote data source
You can use a GitLab-managed Terraform state as a Terraform data source. To use your existing Terraform state backend as a data source, provide the following details as Terraform input variables:
- address: The URL of the remote state backend you want to use as a data source.
For example,
https://gitlab.com/api/v4/projects/<TARGET-PROJECT-ID>/terraform/state/<TARGET-STATE-NAME>
. - username: The username to authenticate with the data source. If you are using a Personal Access Token for
authentication, this is your GitLab username. If you are using GitLab CI, this is
'gitlab-ci-token'
. - password: The password to authenticate with the data source. If you are using a Personal Access Token for
authentication, this is the token value. If you are using GitLab CI, it is the contents of the
${CI_JOB_TOKEN}
CI variable.
An example setup is shown below:
-
Create a file named
example.auto.tfvars
with the following contents:example_remote_state_address=https://gitlab.com/api/v4/projects/<TARGET-PROJECT-ID>/terraform/state/<TARGET-STATE-NAME> example_username=<GitLab username> example_access_token=<GitLab Personal Acceess Token>
-
Define the data source by adding the following code block in a
.tf
file (such asdata.tf
):data "terraform_remote_state" "example" { backend = "http" config = { address = var.example_remote_state_address username = var.example_username password = var.example_access_token } }
Outputs from the data source can now be referenced within your Terraform resources
using data.terraform_remote_state.example.outputs.<OUTPUT-NAME>
.
You need at least developer access to the target project to read the Terraform state.
Migrating to GitLab Managed Terraform state
Terraform supports copying the state when the backend is changed or reconfigured. This can be useful if you need to migrate from another backend to GitLab managed Terraform state. Using a local terminal is recommended to run the commands needed for migrating to GitLab Managed Terraform state.
The following example demonstrates how to change the state name, the same workflow is needed to migrate to GitLab Managed Terraform state from a different state storage backend.
Setting up the initial backend
PROJECT_ID="<gitlab-project-id>"
TF_USERNAME="<gitlab-username>"
TF_PASSWORD="<gitlab-personal-access-token>"
TF_ADDRESS="https://gitlab.com/api/v4/projects/${PROJECT_ID}/terraform/state/old-state-name"
terraform init \
-backend-config=address=${TF_ADDRESS} \
-backend-config=lock_address=${TF_ADDRESS}/lock \
-backend-config=unlock_address=${TF_ADDRESS}/lock \
-backend-config=username=${TF_USERNAME} \
-backend-config=password=${TF_PASSWORD} \
-backend-config=lock_method=POST \
-backend-config=unlock_method=DELETE \
-backend-config=retry_wait_min=5
Initializing the backend...
Successfully configured the backend "http"! Terraform will automatically
use this backend unless the backend configuration changes.
Initializing provider plugins...
Terraform has been successfully initialized!
You may now begin working with Terraform. Try running "terraform plan" to see
any changes that are required for your infrastructure. All Terraform commands
should now work.
If you ever set or change modules or backend configuration for Terraform,
rerun this command to reinitialize your working directory. If you forget, other
commands will detect it and remind you to do so if necessary.
Changing the backend
Now that terraform init
has created a .terraform/
directory that knows where
the old state is, you can tell it about the new location:
TF_ADDRESS="https://gitlab.com/api/v4/projects/${PROJECT_ID}/terraform/state/new-state-name"
terraform init \
-backend-config=address=${TF_ADDRESS} \
-backend-config=lock_address=${TF_ADDRESS}/lock \
-backend-config=unlock_address=${TF_ADDRESS}/lock \
-backend-config=username=${TF_USERNAME} \
-backend-config=password=${TF_PASSWORD} \
-backend-config=lock_method=POST \
-backend-config=unlock_method=DELETE \
-backend-config=retry_wait_min=5
Initializing the backend...
Backend configuration changed!
Terraform has detected that the configuration specified for the backend
has changed. Terraform will now check for existing state in the backends.
Acquiring state lock. This may take a few moments...
Do you want to copy existing state to the new backend?
Pre-existing state was found while migrating the previous "http" backend to the
newly configured "http" backend. No existing state was found in the newly
configured "http" backend. Do you want to copy this state to the new "http"
backend? Enter "yes" to copy and "no" to start with an empty state.
Enter a value: yes
Successfully configured the backend "http"! Terraform will automatically
use this backend unless the backend configuration changes.
Initializing provider plugins...
Terraform has been successfully initialized!
You may now begin working with Terraform. Try running "terraform plan" to see
any changes that are required for your infrastructure. All Terraform commands
should 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, other
commands will detect it and remind you to do so if necessary.
If you type yes
, it copies your state from the old location to the new
location. You can then go back to running it from within GitLab CI.
Managing state files
NOTE: We are currently working on providing a graphical interface for managing state files.
The state files attached to a project can be found under Operations / Terraform.
Removing a State file
You can only remove a state file by making a request to the API, like the following example:
curl --header "Private-Token: <your_access_token>" --request DELETE "https://gitlab.example.com/api/v4/projects/<your_project_id>/terraform/state/<your_state_name>"