--- stage: Verify group: Pipeline Authoring info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/product/ux/technical-writing/#assignments type: concepts, howto --- # Using external secrets in CI **(FREE)** > - [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/218746) in GitLab 13.4 and GitLab Runner 13.4. > - `file` setting [introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/250695) in GitLab 14.1 and GitLab Runner 14.1. > - `VAULT_NAMESPACE` setting [introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/255619) in GitLab 14.9 and GitLab Runner 14.9. Secrets represent sensitive information your CI job needs to complete work. This sensitive information can be items like API tokens, database credentials, or private keys. Secrets are sourced from your secrets provider. Unlike CI/CD variables, which are always presented to a job, secrets must be explicitly required by a job. Read [GitLab CI/CD pipeline configuration reference](../yaml/index.md#secrets) for more information about the syntax. GitLab has selected [Vault by HashiCorp](https://www.vaultproject.io) as the first supported provider, and [KV-V2](https://developer.hashicorp.com/vault/docs/secrets/kv/kv-v2) as the first supported secrets engine. GitLab authenticates using Vault's [JSON Web Token (JWT) authentication method](https://developer.hashicorp.com/vault/docs/auth/jwt#jwt-authentication), using the [JSON Web Token](https://gitlab.com/gitlab-org/gitlab/-/issues/207125) (`CI_JOB_JWT`) introduced in GitLab 12.10. You must [configure your Vault server](#configure-your-vault-server) before you can use [use Vault secrets in a CI job](#use-vault-secrets-in-a-ci-job). The flow for using GitLab with HashiCorp Vault is summarized by this diagram: ![Flow between GitLab and HashiCorp](../img/gitlab_vault_workflow_v13_4.png "How GitLab CI_JOB_JWT works with HashiCorp Vault") 1. Configure your vault and secrets. 1. Generate your JWT and provide it to your CI job. 1. Runner contacts HashiCorp Vault and authenticates using the JWT. 1. HashiCorp Vault verifies the JWT. 1. HashiCorp Vault checks the bounded claims and attaches policies. 1. HashiCorp Vault returns the token. 1. Runner reads secrets from the HashiCorp Vault. NOTE: Read the [Authenticating and Reading Secrets With HashiCorp Vault](../examples/authenticating-with-hashicorp-vault/index.md) tutorial for a version of this feature. It's available to all subscription levels, supports writing secrets to and deleting secrets from Vault, and supports multiple secrets engines. ## Configure your Vault server To configure your Vault server: 1. Ensure your Vault server is running on version 1.2.0 or higher. 1. Enable the authentication method by running these commands. They provide your Vault server the [JSON Web Key Set](https://www.rfc-editor.org/rfc/rfc7517) (JWKS) endpoint for your GitLab instance, so Vault can fetch the public signing key and verify the JSON Web Token (JWT) when authenticating: ```shell $ vault auth enable jwt $ vault write auth/jwt/config \ jwks_url="https://gitlab.example.com/-/jwks" \ bound_issuer="gitlab.example.com" ``` 1. Configure policies on your Vault server to grant or forbid access to certain paths and operations. This example grants read access to the set of secrets required by your production environment: ```shell vault policy write myproject-production - < [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/28321) in GitLab 13.4 and GitLab Runner 13.4. After [configuring your Vault server](#configure-your-vault-server), you can use the secrets stored in Vault by defining them with the `vault` keyword: ```yaml secrets: DATABASE_PASSWORD: vault: production/db/password@ops # translates to secret `ops/data/production/db`, field `password` ``` In this example: - `production/db` - The secret. - `password` The field. - `ops` - The path where the secrets engine is mounted. After GitLab fetches the secret from Vault, the value is saved in a temporary file. The path to this file is stored in a CI/CD variable named `DATABASE_PASSWORD`, similar to [variables of type `file`](../variables/index.md#use-file-type-cicd-variables). To overwrite the default behavior, set the `file` option explicitly: ```yaml secrets: DATABASE_PASSWORD: vault: production/db/password@ops file: false ``` In this example, the secret value is put directly in the `DATABASE_PASSWORD` variable instead of pointing to a file that holds it. For more information about the supported syntax, read the [`.gitlab-ci.yml` reference](../yaml/index.md#secretsvault). ## Configure Vault server roles When a CI job attempts to authenticate, it specifies a role. You can use roles to group different policies together. If authentication is successful, these policies are attached to the resulting Vault token. [Bound claims](https://developer.hashicorp.com/vault/docs/auth/jwt#bound-claims) are predefined values that are matched to the JWT claims. With bounded claims, you can restrict access to specific GitLab users, specific projects, or even jobs running for specific Git references. You can have as many bounded claims you need, but they must *all* match for authentication to be successful. Combining bounded claims with GitLab features like [user roles](../../user/permissions.md) and [protected branches](../../user/project/protected_branches.md), you can tailor these rules to fit your specific use case. In this example, authentication is allowed only for jobs running for protected tags with names matching the pattern used for production releases: ```shell $ vault write auth/jwt/role/myproject-production - < and the ## with the actual values you used to create the secret certsSecretName: envVars: - name: VAULT_CACERT value: "/home/gitlab-runner/.gitlab-runner/certs/" ```