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Secret management by contract toolchain

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License Go Report Card made-with-Go GitHub release Maintenance

Harp

Harp is for Harpocrates (Ancient Greek: Ἁρποκράτης) the god of silence, secrets and confidentiality in the Hellenistic religion. - Wikipedia

This tool was initially developed while I was at Elastic, to be able to continue to maintain Harp without the upstream dependency, I decided to do a hard-fork of the Elastic repository.

I'm going to introduce breaking changes from the Elastic original version.

TL;DR.

Harp is an innovative toolset that emphasizes secret management through contracts. Its primary objective revolves around mitigating value-centric management by offering a structured approach to handling secret data in a reproducible manner. Harp aims to enhance security and efficiency in managing sensitive information by providing a technical stack that describes contract-managed values within pipelines.

One of Harp's standout features is its ability to establish consistent associations between secrets and predictable identifiers. This ensures referencable secrets can be accessed within the system, contributing to a more organized and controlled secret management environment. Including metadata associated with each secret provides comprehensive insights into the nature and context of the managed data, empowering developers with a clear understanding of their data.

Furthermore, Harp leverages a concept known as Bundles stored in immutable containers, which serve as pivotal elements in facilitating communication between different components within the system. These Bundles enable seamless interaction among various modules, promoting cohesion and integrity in secret management operations.

In addition to its core functionalities, Harp offers a template engine that empowers users to generate diverse confidence values such as passwords, passphrases, encryption keys, and more. This feature enhances Harp's flexibility and versatility by enabling users to create tailored configurations based on specific requirements and security considerations.

Harp provides a robust SDK that allows developers to integrate its functionalities into their applications seamlessly. This fosters seamless integration and interoperability with existing systems and promotes collaboration and innovation within the software development ecosystem. This aspect of Harp opens up exciting possibilities for developers, inspiring them to explore and create.

In conclusion, Harp represents a comprehensive solution for enhancing secret management practices through contract-based mechanisms. By offering a range of features such as predictable identifiers, metadata associations, bundle storage in immutable containers, template engine capabilities, and an SDK for integration, Harp stands out as a valuable toolset for safeguarding sensitive data and promoting efficient workflows in information security.

Visual overview

Visual overview

Why harp?

  • Secret management is in essence a collection of processes that must be auditable, executable and reproducible for infosec and operation requirements;
  • Secret provisioning must be designed with secret rotation as a day one task, due to the fact that secret data must be rotated periodically to keep its secret property;
  • Developers should negotiate secret value for the secret consumer they are currently developing, by the contract based on a path (reference to the secret) and a value specification (for code contract) without the knowledge of the final deployed value;
  • Secret Operators use different set of tools to achieve secret management operation which increases the error/secret exposure probability due to tool count involved in the process (incompatibility, changes, etc.);
  • Without a defined secret naming convention, the secret storage becomes difficult to handle in time (naming is hard) and secret naming could not be helped to get a consistent, reliable and flexible secret tree;
  • Secret storage backend can use various implementations in different environments and should be provisioned consistently;
  • When you use Terraform for secret management, you have the cleartext value stored in the state. To protect the state you have to deploy a complex infrastructure. To simplify this we use harp for secret provisioning and use the secret reference in the Terraform topology.

Use cases

  • You want to have a single secret value and you are asking yourself how to generate a strong password - Harp has a template engine with secret value generation functions to allow you to generate such values.
  • You have thousands secrets to handle to deploy your platform/customers on multiple cloud providers with different secret storages - Harp will help you to define consistent secret provisioning bundles and pipelines.
  • You need a ephemeral secret storage to bootstrap your long term cloud secret storage - Harp will help you to create secret containers that can be consumed on deployment.
  • You want to migrate massively your secrets from one secret storage to another - Harp provides you a secret container to store these secrets while they are going to be distributed in other secret storage implementations.
  • You have to alter/modifiy a secret (rotation/deprecation/renewal) - Harp provides you a GitOps-able secret storage agnostic operation set, so that you can define a specification to describe how your secret operation is going to be applied offline on the secret container.

How does it work?

Secret management Pipeline

Like a Data pipeline but for secret

harp allows you to handle secrets using deterministic pipelines expressed using an atomic series of CLI operations applied to a commonly shared container immutable and standalone file system used to store secret collection (Bundle) generated from a template engine via user specification, or external secret value coming from files or external secret storage.

Pipelines

These pipelines use the immutable container file system as a data exchange protocol and could be extended for new input, intermediary operation or output via plugins created with the harp SDK.

Immutable transformation

Each applied transformation creates a container with transformed data inside. This will enforce container reproducibility by eliminating cumulative side effects applied to the same container.

The container handles for you the confidentiality and integrity protection applied to the secret collection stored inside and manipulated by copy during the pipeline execution.

What can I do?

New to harp, let's start with onboarding tutorial ! TL;DR - Features overview

Harp provides :

  • A methodology to design your secret management;
    • Secret naming convention (CSO);
    • A defined common language and complete processes to achieve secret management operations;
  • A SDK to create your own tools to orchestrate your secret management pipelines;
    • A container manipulation library exposed as zntr.io/harp/v2/pkg/container;
    • A secret bundle specification to store and manipulate secrets exposed as zntr.io/harp/v2/pkg/bundle;
    • An on-steroid template engine exposed as zntr.io/harp/v2/pkg/template
    • A path name validation library exposed as zntr.io/harp/v2/pkg/cso
  • A CLI for secret management implementation
    • CI/CD integration;
    • Based on human-readable definitions (YAML);
    • In order to create auditable and reproducible pipelines.
    • An extensible tool which can be enhanced via plugins.

And allows :

  • Bundle level operations
    • Create a bundle from scratch / template / JSON (more via plugins);
    • Generate a complete bundle using a YAML Descriptor (BundleTemplate) to describe secret and their usages;
    • Read value stored in the K/V virtual file system;
    • Update the K/V virtual file system;
    • Reproducible patch applied on immutable container (copy-on-write);
    • Import / Export to Vault.
  • Immutable container level operations
    • Seal / Unseal a container for integrity and confidentiality property conservation to enforce at-rest encryption (aes256-gcm96 or chacha20-poly1305);
    • Multiple identities sealing algorithm;

FAQ

  • Is it used internally at zntrio? - Yes. It is used to generate bootstrap secrets used to bootstrap the new region infrastructure components. #ChickenEggProblem

  • Harp is only supporting Vault? - No, it has been published with only vault support built-in, but it supports many other secret storage implementations via plugins.

  • What's the difference with Vault? - HashiCorp Vault is an encrypted highly available K/V store with advanced authorization engine, it doesn't handle secret provisioning for you. You can't ask Vault to generate secrets for your application and store them using a defined logic. Harp is filling this requirement.

License

harp artifacts and source code is released under Apache 2.0 Software License.

Build instructions

Download a release or build from source.

Clone repository

$ git clone git@github.com:zntrio/harp.git
$ export HARP_REPOSITORY=$(pwd)/harp

Setup dev environment

With nix flake

Install nix on your system, if not already installed.

$ sudo install -d -m755 -o $(id -u) -g $(id -g) /nix
$ curl -L https://nixos.org/nix/install | sh

More information? - https://nixos.wiki/wiki/Nix_Installation_Guide

$ cd $HARP_REPOSITORY
$ nix develop

Non-nix managed environment

Check your go version

Only last 2 minor versions of a major are supported.

Harp is compiled with :

$ go version
go version go1.21 linux/amd64

Simple go version manager - https://github.com/stefanmaric/g

Install mage

Mage is an alternative to Make where language used is Go. You can install it using 2 different methods.

From source
# Install mage
git clone https://github.com/magefile/mage
cd mage
go run bootstrap.go

Bootstrap tools

# Go to tools submodule
cd $HARP_REPOSITORY/tools
# Resolve dependencies
go mod tidy
go mod vendor
# Pull tools sources, compile them and install executable in tools/bin
mage

Mage targets

❯ mage -l
Targets:
  api:generate     protobuf objects from proto definitions.
  build*           harp executable.
  code:format      source code and process imports.
  code:generate    SDK code (mocks, tests, etc.)
  code:licenser    apply copyright banner to source code.
  code:lint        code using golangci-lint.
  compile          harp code to create an executable.
  docker:harp      build harp docker image
  docker:tools     prepares docker images with go toolchain and project tools.
  homebrew         generates homebrew formula from compiled artifacts.
  release          harp version and cross-compile code to produce all artifacts.
  releaser:harp    releases harp artifacts using docker pipeline.
  test:cli         Test harp application.
  test:unit        Test harp application.

* default target

Plugins

You can find more Harp feature extensions - https://github.com/zntrio/harp-plugins

Community

Here is the list of external projects used as inspiration :