Multi purpose cryptography tool for encryption/decryption using AES256 GCM.
A "swiss-army" encryption/decryption knife with focus on developer experience, ease-of-use and integration capabilities in infrastructure-as-code software such as https://github.com/hashicorp/terraform.
Combined with https://github.com/sumup-oss/terraform-provider-vaulted, it's shown at https://medium.com/@syndbg/provisioning-vault-encrypted-secrets-using-terraform-using-sumup-oss-vaulted-and-4aa9721d082c?source=friends_link&sk=9eabe1bbe6ba089fe176d94cf413862d
- Ease-of-use.
- First-class terraform support. Also check https://github.com/sumup-oss/terraform-provider-vaulted/.
- Asymmetric encryption.
- Large files are supported due to AES256 GCM encryption/decryption used.
- GPG/PGP keychain-less which means you don't need external GPG/PGP keychain and neither do your users. (Support for this may be added in the future)
- Completely testable and high test coverage consisting of unit, integration and e2e tests.
- Encryption,
- Decryption,
- Secret rotation,
- Secret re-keying.
- https://github.com/sumup-oss/terraform-provider-vaulted to provide encryption/decryption capabilities.
- SumUp inner-source large-scale provision orchestration software projects.
- SumUp inner-source projects that deploy using Ansible. Used to encrypt/decrypt the initial Ansible-Vault passphrase.
- SumUp infrastructure provisioning via Terraform to provide Vault secrets and enable developers to encrypt and submit secrets as PRs without anyone other than system administrators, devops, site-reliability engineers be able to decrypt them.
- SumUp inner-source CI systems that need to encrypt/decrypt secrets in sandboxes.
- RSA public and private key pair for asymmetric encryption (using
openssl
,cfssl
or whichever works for you).
# Generate PKCS#1 private key
> openssl genrsa -f4 -out private.pem 4096
# Generate from private key, a public key
> openssl rsa -in private.pem -outform PEM -pubout -out public.pem
Make sure that your private and public keys are PEM-formatted.
Example valid public key
-----BEGIN PUBLIC KEY-----
...
-----END PUBLIC KEY-----
Your private key must be PKCS#1
-formatted.
Example PKCS#1
-formatted private key
-----BEGIN RSA PRIVATE KEY-----
...
<content>
...
-----END RSA PRIVATE KEY-----
Example unusable with vaulted
PKCS#8
-formatted private key
-----BEGIN PRIVATE KEY-----
...
<content>
...
-----END PRIVATE KEY-----
What is the difference in base64-encoded content?
Obvious different is in the PEM block names.
However in terms of content, PKCS#8
PEM contains the version
and algorithm
identifiers and
private key
content.
The PKCS#1
PEM contains just the private key
content.
Check out COMMANDS
Check out CONTRIBUTING
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