# Enos Enos is an quality testing framework that allows composing and executing quality requirement scenarios as code. For Vault, it is currently used to perform infrastructure integration testing using the artifacts that are created as part of the `build` workflow. While intended to be executed via Github Actions using the results of the `build` workflow, scenarios are also executable from a developer machine that has the requisite dependencies and configuration. Refer to the [Enos documentation](https://github.com/hashicorp/Enos-Docs) for further information regarding installation, execution or composing Enos scenarios. ## When to use Enos Determining whether to use `vault.NewTestCluster()` or Enos for testing a feature or scenario is ultimately up to the author. Sometimes one, the other, or both might be appropriate depending on the requirements. Generally, `vault.NewTestCluster()` is going to give you faster feedback and execution time, whereas Enos is going to give you a real-world execution and validation of the requirement. Consider the following cases as examples of when one might opt for an Enos scenario: * The feature require third-party integrations. Whether that be networked dependencies like a real Consul backend, a real KMS key to test awskms auto-unseal, auto-join discovery using AWS tags, or Cloud hardware KMS's. * The feature might behave differently under multiple configuration variants and therefore should be tested with both combinations, e.g. auto-unseal and manual shamir unseal or replication in HA mode with integrated storage or Consul storage. * The scenario requires coordination between multiple targets. For example, consider the complex lifecycle event of migrating the seal type or storage, or manually triggering a raft disaster scenario by partitioning the network between the leader and follower nodes. Or perhaps an auto-pilot upgrade between a stable version of Vault and our candidate version. * The scenario has specific deployment strategy requirements. For example, if we want to add a regression test for an issue that only arises when the software is deployed in a certain manner. * The scenario needs to use actual build artifacts that will be promoted through the pipeline. ## Requirements * AWS access. HashiCorp Vault developers should use Doormat. * Terraform >= 1.2 * Enos >= v0.0.10. You can [install it from a release channel](https://github.com/hashicorp/Enos-Docs/blob/main/installation.md). * Access to the QTI org in Terraform Cloud. HashiCorp Vault developers can access a shared token in 1Password or request their own in #team-quality on Slack. * An SSH keypair in the AWS region you wish to run the scenario. You can use Doormat to log in to the AWS console to create or upload an existing keypair. * A Vault artifact is downloaded from the GHA artifacts when using the `artifact_source:crt` variants, from Artifactory when using `artifact_source:artifactory`, and is built locally from the current branch when using `artifact_source:local` variant. ## Scenario Variables In CI, each scenario is executed via Github Actions and has been configured using environment variable inputs that follow the `ENOS_VAR_varname` pattern. For local execution you can specify all the required variables using environment variables, or you can update `enos.vars.hcl` with values and uncomment the lines. Variables that are required: * `aws_ssh_keypair_name` * `aws_ssh_private_key_path` * `tfc_api_token` * `vault_bundle_path` * `vault_license_path` (only required for non-OSS editions) See [enos.vars.hcl](./enos.vars.hcl) or [enos-variables.hcl](./enos-variables.hcl) for further descriptions of the variables. ## Executing Scenarios From the `enos` directory: ```bash # List all available scenarios enos scenario list # Run the smoke or upgrade scenario with an artifact that is built locally. Make sure # the local machine has been configured as detailed in the requirements # section. This will execute the scenario and clean up any resources if successful. enos scenario run smoke artifact_source:local enos scenario run upgrade artifact_source:local # To run the same scenario variants that are run in CI, refer to the scenarios listed # in json files under .github/enos-run-matrices directory, # adding `artifact_source:local` to run locally. enos scenario run smoke backend:consul consul_version:1.12.3 distro:ubuntu seal:awskms artifact_source:local arch:amd64 edition:oss # Launch an individual scenario but leave infrastructure up after execution enos scenario launch smoke artifact_source:local # Check an individual scenario for validity. This is useful during scenario # authoring and debugging. enos scenario validate smoke artifact_source:local # If you've run the tests and desire to see the outputs, such as the URL or # credentials, you can run the output command to see them. Please note that # after "run" or destroy there will be no "outputs" as the infrastructure # will have been destroyed and state cleared. enos scenario output smoke artifact_source:local # Explicitly destroy all existing infrastructure enos scenario destroy smoke artifact_source:local ``` Refer to the [Enos documentation](https://github.com/hashicorp/Enos-Docs) for further information regarding installation, execution or composing scenarios. # Scenarios There are current two scenarios: `smoke` and `upgrade`. Both begin by building Vault as specified by the selected `artifact_source` variant (see Variants section below for more information). ## Smoke The [`smoke` scenario](./enos-scenario-smoke.hcl) creates a Vault cluster using the version from the current branch (either in CI or locally), with the backend specified by the `backend` variant (`raft` or `consul`). Next, it unseals with the appropriate method (`awskms` or `shamir`) and performs different verifications depending on the backend and seal type. ## Upgrade The [`upgrade` scenario](./enos-scenario-upgrade.hcl) creates a Vault cluster using the version specified in `vault_upgrade_initial_release`, with the backend specified by the `backend` variant (`raft` or `consul`). Next, it upgrades the Vault binary that is determined by the `artifact_source` variant. After the upgrade, it verifies that cluster is at the desired version, along with additional verifications. ## Autopilot The [`autopilot` scenario](./enos-scenario-autopilot.hcl) creates a Vault cluster using the version specified in `vault_upgrade_initial_release`. It writes test data to the Vault cluster. Next, it creates additional nodes with the candidate version of Vault as determined by the `vault_product_version` variable set. The module uses AWS auto-join to handle discovery and unseals with auto-unseal or Shamir depending on the `seal` variant. After the new nodes have joined and been unsealed, it verifies reading stored data on the new nodes. Autopilot upgrade verification checks the upgrade status is "await-server-removal" and the target version is set to the version of upgraded nodes. This test also verifies the undo_logs status for Vault versions 1.13.x ## Replication The [`replication` scenario](./enos-scenario-replication.hcl) creates two 3-node Vault clusters and runs following verification steps: 1. Writes data on the primary cluster 1. Enables performance replication 1. Verifies reading stored data from secondary cluster 1. Verifies initial replication status between both clusters 1. Replaces the leader node and one standby node on the primary Vault cluster 1. Verifies updated replication status between both clusters This scenario verifies the performance replication status on both clusters to have their connection_status as "connected" and that the secondary cluster has known_primaries cluster addresses updated to the active nodes IP addresses of the primary Vault cluster. This scenario currently works around issues VAULT-12311 and VAULT-12309. The scenario fails when the primary storage backend is Consul due to issue VAULT-12332 # Variants Both scenarios support a matrix of variants. In order to achieve broad coverage while keeping test run time reasonable, the variants executed by the `enos-run` Github Actions are tailored to maximize variant distribution per scenario. ## `artifact_source:crt` This variant is designed for use in Github Actions. The `enos-run.yml` workflow downloads the artifact built by the `build.yml` workflow, unzips it, and sets the `vault_bundle_path` to the zip file and the `vault_local_binary_path` to the binary. ## `artifact_source:local` This variant is for running the Enos scenario locally. It builds the Vault bundle from the current branch, placing the bundle at the `vault_bundle_path` and the unzipped Vault binary at the `vault_local_binary_path`. ## `artifact_source:artifactory` This variant is for running the Enos scenario to test an artifact from Artifactory. It requires following Enos variables to be set: * `artifactory_username` * `artifactory_token` * `aws_ssh_keypair_name` * `aws_ssh_private_key_path` * `tfc_api_token` * `vault_product_version` * `vault_revision` # CI Bootstrap In order to execute any of the scenarios in this repository, it is first necessary to bootstrap the CI AWS account with the required permissions, service quotas and supporting AWS resources. There are two Terraform modules which are used for this purpose, [service-user-iam](./ci/service-user-iam) for the account permissions, and service quotas and [bootstrap](./ci/bootstrap) for the supporting resources. **Supported Regions** - enos scenarios are supported in the following regions: `"us-east-1", "us-east-2", "us-west-1", "us-west-2"` ## Bootstrap Process These steps should be followed to bootstrap this repo for enos scenario execution: ### Set up CI service user IAM role and Service Quotas The service user that is used when executing enos scenarios from any GitHub Action workflow must have a properly configured IAM role granting the access required to create resources in AWS. Additionally, service quotas need to be adjusted to ensure that normal use of the ci account does not cause any service quotas to be exceeded. The [service-user-iam](./ci/service-user-iam) module contains the IAM Policy and Role for that grants this access as well as the service quota increase requests to adjust the service quotas. This module should be updated whenever a new AWS resource type is required for a scenario or a service quota limit needs to be increased. Since this is persistent and cannot be created and destroyed each time a scenario is run, the Terraform state will be managed by Terraform Cloud. Here are the steps to configure the GitHub Actions service user: #### Pre-requisites - Access to the `hashicorp-qti` organization in Terraform Cloud. - Full access to the CI AWS account is required. **Notes:** - For help with access to Terraform Cloud and the CI Account, contact the QT team on Slack (#team-quality) for an invite. After receiving an invite to Terraform Cloud, a personal access token can be created by clicking `User Settings` --> `Tokens` --> `Create an API token`. - Access to the AWS account can be done via Doormat, at: https://doormat.hashicorp.services/. - For the vault repo the account is: `vault_ci` and for the vault-enterprise repo, the account is: `vault-enterprise_ci`. - Access can be requested by clicking: `Cloud Access` --> `AWS` --> `Request Account Access`. 1. **Create the Terraform Cloud Workspace** - The name of the workspace to be created depends on the repository for which it is being created, but the pattern is: `-ci-service-user-iam`, e.g. `vault-ci-service-user-iam`. It is important that the execution mode for the workspace be set to `local`. For help on setting up the workspace, contact the QT team on Slack (#team-quality) 2. **Execute the Terraform module** ```shell > cd ./enos/ci/service-user-iam > export TF_WORKSPACE=-ci-service-user-iam > export TF_TOKEN_app_terraform_io= > export TF_VAR_repository= > terraform init > terraform plan > terraform apply -auto-approve ``` ### Bootstrap the CI resources Bootstrapping of the resources in the CI account is accomplished via the GitHub Actions workflow: [enos-bootstrap-ci](../.github/workflows/enos-bootstrap-ci.yml). Before this workflow can be run a workspace must be created as follows: 1. **Create the Terraform Cloud Workspace** - The name workspace to be created depends on the repository for which it is being created, but the pattern is: `-ci-bootstrap`, e.g. `vault-ci-bootstrap`. It is important that the execution mode for the workspace be set to `local`. For help on setting up the workspace, contact the QT team on Slack (#team-quality). Once the workspace has been created, changes to the bootstrap module will automatically be applied via the GitHub PR workflow. Each time a PR is created for changes to files within that module the module will be planned via the workflow described above. If the plan is ok and the PR is merged, the module will automatically be applied via the same workflow.