.github/workflows | ||
spec | ||
src/crypto-secret | ||
.editorconfig | ||
.gitignore | ||
LICENSE | ||
README.md | ||
shard.yml |
crypto-secret.cr
Secrets hold sensitive information
The Secret interface manages limited time access to the secret and securely erasing the secret when no longer needed.
Secret providers may implement additional protections via:
#noaccess
,#readonly
orreadwrite
.- Using mprotect to control access
- Encrypting the data when not in use
- Deriving keys on demand from a HSM
- Preventing the Secret from entering swap (mlock)
- Preventing the Secret from entering core dumps
- Other
Installation
-
Add the dependency to your
shard.yml
:dependencies: crypto-secret: github: didactic-drunk/crypto-secret
-
Run
shards install
Usage
require "crypto-secret/not"
not_secret = Crypto::Secret::Not.new 32
not_secret.wipe do
not_secret.readonly do |slice|
# May only read slice
end
not_secret.readwrite do |slice|
# May read or write to slice
end
end # Secret is erased
What is a Secret?
Secrets are Keys
That's complicated and specific to the application. Some examples:
- Passwords
- A crypto key is always a Secret. Except when used for verification (sometimes)
- A decrypted password vault (but it's not a Key)
Not secrets:
- Digest output. Except when used for key derivation, then it's a Secret, including the Digest state
- IO::Memory or writing a file. Except when the file is a password vault, cryptocurrency wallet, encrypted mail/messages, goat porn, maybe normal porn, sometimes scat porn, occassionally furry, not vanilla porn
Why?
The Secret interface is designed to handle varied levels of confidentiality with a unified API for cryptography libraries.
There is no one size fits all solution. Different applications have different security requirements. Sometimes for the same algorithm.
A master key (kgk) may reside on a HSM and generate subkeys on demand. Or for most applications the master key may use best effort protection using a combination of [guard pages, mlock, mprotect]. Other keys in the same application may handle a high volume of messages where [guard pages, mlock, mprotect] overhead is too high. A key verifying a public key signature may not be Secret.
Implementing a new Secret holding class
Only intended for use by crypto library authors
class MySecret
include Crypto::Secret
def initialize(size)
# allocate storage
# optionally mlock
end
def to_slice(& : Bytes -> Nil)
# yield Slice.new(pointer, size)
ensure
# optionally reencrypt or signal HSM
end
def bytesize : Int32
# return the size
end
# optionally override [noaccess, readonly, readwrite]
# optionally override (almost) any other method with implementation specific version
end
Contributing
Open a discussion before creating PR's
- Fork it (https://github.com/your-github-user/crypto-secret/fork)
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create a new Pull Request
Contributors
- didactic-drunk - current maintainer