Defining OPA Policies
Policies are rules that Terraform Cloud enforces on runs. You use the Rego policy language to write policies for the Open Policy Agent (OPA) framework. After you define policies, you must add them to policy sets that Terraform Cloud can enforce globally or on specific projects and workspaces. OPA Policies are evaluated in Terraform Cloud's infrastructure.
Hands-on: Try the Detect Infrastructure Drift and Enforce OPA Policies tutorial.
Defining Policies
You can write Rego policies to check for any number of conditions. Common use cases include checking whether infrastructure configuration adheres to security standards or best practices. For example, you may want to write a policy to check whether Terraform plans to deploy production infrastructure to the correct region.
You can also use policies to enforce standards for your organization’s workflows. For example, you could write a policy to prevent new infrastructure deployments on Fridays, reducing the risk of production incidents outside of your team’s working hours.
Refer to How Do I Write Rego Policies? in the Rego documentation for more details. We also recommend using the Rego Policy Playground to iterate on new policies.
OPA Query
You must write a query to identify a specific policy rule within your Rego code. The query may evaluate code from multiple Rego files.
The result of each query must return an array, which Terraform Cloud uses to determine whether the policy has passed or failed. If the array is empty, Terraform Cloud reports that the policy has passed.
The query is typically a combination of the policy package name and rule name, such as data.terraform.deny
.
OPA Input
Terraform Cloud combines the output from the Terraform run and plan into a single JSON file and passes that file to OPA as input. Refer to the OPA Overview documentation for more details about how OPA uses JSON input data.
The run data contains information like workspace details and the organization name. To access the properties from the Terraform plan data in your policies, use input.plan
. To access properties from the Terraform run, use input.run
.
The following example shows sample OPA input data.
{"plan": { "format_version": "1.1", "output_changes": { }, "planned_values": { }, "resource_changes": [ ], "terraform_version": "1.2.7"}, "run": { "organization": { "name": "hashicorp" }, "workspace": { }}}
Use the Retrieve JSON Execution Plan endpoint to retrieve Terraform plan output data for testing. Refer to Terraform Run Data for the properties included in Terraform run output data.
Example Policies
The following example policy parses a Terraform plan and checks whether it includes security group updates that allow ingress traffic from all CIDRs (0.0.0.0/0
).
The OPA query for this example policy is data.terraform.policies.public_ingress.deny
.
package terraform.policies.public_ingressimport input.plan as plandeny[msg] { r := plan.resource_changes[_] r.type == "aws_security_group" r.change.after.ingress[_].cidr_blocks[_] == "0.0.0.0/0" msg := sprintf("%v has 0.0.0.0/0 as allowed ingress", [r.address])}
The following example policy ensures that databases are no larger than 128 GB.
The OPA query for this policy is data.terraform.policies.fws.database.fws_db_001.rule
.
package terraform.policies.fws.database.fws_db_001import future.keywords.inimport input.plan as tfplanactions := [ ["no-op"], ["create"], ["update"],]db_size := 128resources := [resource_changes | resource_changes := tfplan.resource_changes[_] resource_changes.type == "fakewebservices_database" resource_changes.mode == "managed" resource_changes.change.actions in actions]violations := [resource | resource := resources[_] not resource.change.after.size == db_size]violators[address] { address := violations[_].address}rule[msg] { count(violations) != 0 msg := sprintf( "%d %q severity resource violation(s) have been detected.", [count(violations), rego.metadata.rule().custom.severity] )}
Testing Policies
You can write tests for your policies by mocking the input data the policies use during Terraform runs.
The following example policy called block_auto_apply_runs
checks whether or not a Terraform Cloud workspace has been configured to automatically apply a successful Terraform plan.
package terraform.tfc.block_auto_apply_runsimport input.run as rundeny[msg] { run.workspace.auto_apply != false msg := sprintf( "Terraform Cloud workspace %s has been configured to automatically provision Terraform infrastructure. Change the workspace Apply Method settings to 'Manual Apply'", [run.workspace.name], )}
The following test validates block_auto_apply_runs
. The test is written in rego and uses the OPA test format to check that the workspace apply method is not configured to auto apply. You can run this test with the opa test
CLI command. Refer to Policy Testing in the OPA documentation for more details.
package terraform.tfc.block_auto_apply_runsimport future.keywordstest_run_workspace_auto_apply if { deny with input as {"run": {"workspace": {"auto_apply": true}}}}
Terraform Run Data
Each Terraform run outputs data describing the run settings and the associated workspace.
Schema
The following code shows the schema for Terraform run data.
run├── id (string)├── created_at (string)├── created_by (string)├── message (string)├── commit_sha (string)├── is_destroy (boolean)├── refresh (boolean)├── refresh_only (boolean)├── replace_addrs (array of strings)├── speculative (boolean)├── target_addrs (array of strings)└── project│ ├── id (string)│ └── name (string)├── variables (map of keys)├── organization│ └── name (string)└── workspace ├── id (string) ├── name (string) ├── created_at (string) ├── description (string) ├── execution_mode (string) ├── auto_apply (bool) ├── tags (array of strings) ├── working_directory (string) └── vcs_repo (map of keys)
Properties
The following sections contain details about each property in Terraform run data.
Run Namespace
The following table contains the attributes for the run
namespace.
Properties Name | Type | Description |
---|---|---|
id | String | The ID associated with the current Terraform run |
created_at | String | The time Terraform created the run. The timestamp follows the standard timestamp format in RFC 3339. |
created_by | String | A string that specifies the user name of the Terraform Cloud user for the specific run. |
message | String | The message associated with the Terraform run. The default value is "Queued manually via the Terraform Enterprise API". |
commit_sha | String | The checksum hash (SHA) that identifies the commit |
is_destroy | Boolean | Whether the plan is a destroy plan that destroys all provisioned resources |
refresh | Boolean | Whether the state refreshed prior to the plan |
refresh_only | Boolean | Whether the plan is in refresh-only mode. In refresh-only mode, Terraform ignores configuration changes and updates state with any changes made outside of Terraform. |
replace_addrs | An array of strings representing resource addresses | The targets specified using the -replace flag in the CLI or the replace-addrs property in the API. Undefined if there are no specified resource targets. |
speculative | Boolean | Whether the plan associated with the run is a speculative plan only |
target_addrs | An array of strings representing resource addresses. | The targets specified using the -target flag in the CLI or the target-addrs property in the API. Undefined if there are no specified resource targets. |
variables | A string-keyed map of values. | Provides the variables configured within the run. Each variable name maps to two properties: category and sensitive . The category property is a string indicating the variable type, either "input" or "environment". The sensitive property is a boolean, indicating whether the variable is a sensitive value. |
Project Namespace
The following table contains the properties for the project
namespace.
Property Name | Type | Description |
---|---|---|
id | String | The ID associated with the Terraform project |
name | String | The name of the project, which can only include letters, numbers, spaces, - , and _ . |
Organization Namespace
The organization
namespace has one property called name
. The name
property is a string that specifies the name of the Terraform Cloud organization for the run.
Workspace Namespace
The following table contains the properties for the workspace
namespace.
Property Name | Type | Description |
---|---|---|
id | String | The ID associated with the Terraform workspace |
name | String | The name of the workspace, which can only include letters, numbers, - , and _ |
created_at | String | The time of the workspace's creation. The timestamp follows the standard timestamp format in RFC 3339. |
description | String | The description for the workspace. This value can be null . |
auto_apply | Boolean | The workspace's auto-apply setting |
tags | Array of strings | The list of tag names for the workspace |
working_directory | String | The configured Terraform working directory of the workspace. This value can be null . |
execution_mode | String | The configured Terraform execution mode of the workspace. The default value is remote . |
vcs_repo | A string-keyed map to objects | Data associated with a VCS repository connected to the workspace. The map contains identifier (string), display_identifier (string), branch (string), and ingress_submodules (boolean). Refer to the Terraform Cloud Workspaces API documentation for details about each property. This value can be null . |