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Hashicorp-Vault companion. Based in manifests you can upload, download and copy secrets.

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vault-handler (WIP)

Is a manifest based application to upload and download secrets from Hashicorp-Vault. Therefore, the manifest file is promoted as "source-of-authority" over secrets that a given application may consume, where engineers can use the manifest to upload secrets, and later on use it as configuration input for downloading secrets on applications' behalf.

Once a set of secrets is uploaded to Vault, you can copy them over to Kubernetes, and keep secrets in sync by running copy command at later times.

You can employ vault-handler as a Kubernetes init-container in order to download secrets, and have it as a command-line application to upload.

Installing

To install the command-line interface via go get use:

go get -u github.com/otaviof/vault-handler/cmd/vault-handler

Docker Images

Docker images can be bound at Docker-Hub. And for example, to show help message:

docker run --interactive --tty otaviof/vault-handler:latest --help

Downloading data from Vault would be, for instance:

docker run otaviof/vault-handler:latest download

Consider exporting configuration as environment variables to change the behavior of vault-handler.

HashiCorp Vault

This application is using Vault's API client to interact with the service, therefore, you can export environment variables to tweak its behavior.

You can choose either AppRole type of authentication, which will request a runtime token, or directly use a existing token. Both ways are possible, but AppRole would be the recommended method.

Configuration

All the options in command-line can be set via environment variables. The convention of environment variable names to add a prefix, VAULT_HANDLER, and the option name in capitals, replacing dashes (-) by underscore (_). For instance, --vault-addr would become VAULT_HANDLER_VAULT_ADDR in environment.

Additionally, command-line arguments overwrite what's informed via environment variables.

Usage

The command-line interface is organized as follows:

vault-handler [command] [arguments] [manifest-files]

Where as command you can use upload or download. Please check --help output in command-line to see all possible arguments.

A upload command example:

vault-handler upload --input-dir /var/tmp --dry-run /path/to/manifest.yaml

And then to download, use for instance:

vault-handler download --output-dir /tmp --dry-run /path/to/manifest.yaml

Afterwards you can copy secrets to Kubernetes:

vault-handler copy --namespace default --dry-run /path/to/manifest.yaml

Manifest

The following snippet is a manifest example, the actual secrets can be found here.

---
secrets:
  ingress:
    path: secret/data/kube/tls
    type: kubernetes.io/tls
    data:
      - name: tls.crt
        extension: secret
      - name: tls.key
        extension: secret

Description of the options used in manifest:

  • secrets: root of the manifest;
  • name: arbitrary group "name". This group-name is also employed to name final files;
  • name.path: path in Vault. When using V2 key-value store, you may need to inform /secret/data, while in V1 API it would be directly /secret;
  • name.type: Kubernetes secret type, used by copy sub-command;
  • name.data.name: file name;
  • name.data.extension: file extension;
  • name.data.zip: file contents is GZIP, needs to be compressed/decompressed;
  • name.data.nameAsSubPath: employ name as final part of the Vault path name.path;
  • name.data.key: employ a alternative key name on Vault;
  • name.data.fromEnv: instead of reading file payload from file-system, you can use a environment variable instead. The value informed for this option is the environment variable to be read;

File Naming Convention

On downloading files from Vault, the following name convention applies:

${GROUP_NAME}.${FILE_NAME}.${EXTENSION}

Therefore, if you consider the example manifest, it would produce a file named name.foo.txt in the output directory, defined as command line parameter.

Contributing

In order to build and test vault-hander you will need the following:

  • Docker-Compose: to run Vault in the background;
  • GNU/Make: to run building and testing commands;
  • Dep: to manage vendor folder (use make dep to install);
  • Vault-CLI: to apply initial configuration to Vault;

Building and Testing

Before running tests, you will need to spin up Vault in the background, and apply initial configuration to enable AppRole authentication, and secrets K/V store.

Additionally you need a Kubernetes cluster available, please consider minikube project. During CI, KinD project is used.

docker-compose -d           # run vault in development mode
.ci/bootstrap-vault.sh      # bootstrap instance
source .env                 # import environment variables to running shell

And then you can:

make bootstrap              # populate vendor
make                        # build application
make build-docker           # build docker image
make test                   # run unit-tests
make integration            # run integration-tests

Vault related bootstrap is needed only once, since data is kept over .data directory, so when you turn on development Vault instance again, it's not mandatory anymore to boostrap.

To clean it up, you can:

docker-compose down --volumes
rm -rf ./data