nash-protocol
Implementation of Nash cryptographic routines.
Documentation
Currently, you should clone the repository to access the HTML documentation. This may be statically hosted separately at some point for convenience.
Getting started
yarn install
yarn build
yarn test
Usage Summary
Onboarding
The Nash Protocol contains functions necessary to create, setup, and authenticate into an account.
Account creation
This step registers a new user with Nash's Central Accounts System.
- A user signs up for an account and provides a password.
-
hashPassword()
should be called to hash the password, andgetHKDFKeysFromPassword()
should be called on the hasked password to get an authentication key and encryption key. - The authentication key is sent to Nash's Central Accounts System in lieu of the original password, and is what is used hereafter for authentication. The encryption key is never sent to Nash, and must be computed on the fly from the user's password by the client.
Account setup
This step creates blockchain wallets for a user.
-
getEntropy()
is called to generate a secret key. -
secretKeyToMnemonic()
is called on the secret key to provide a user's mnemonic. The user should persist this and never share this value. -
mnemonicToMasterSeed()
is called on the mnemonic to create the master seed, which is the seed value for BIP-44 HD wallet generation. -
generateWallet
is called using the master seed for all supported coin types. - Wallet public keys are sent to Nash. Private keys are never sent to Nash, and should be computed on the fly by the client.
- The secret key is encrypted with
encryptSecretKey()
, which produces an encrypted secret key AEAD object. This is sent to Nash.
Authentication
- User provides their password.
-
getHKDFKeysFromPassword()
is used to get the authentication key and encryption key. - The authentication key is sent to Nash, which responds with the encrypted secret key AEAD object and some wallet metadata (public keys and chain heights).
- The client calls
initialize()
with the encrypted secret key AEAD object, encryption key, wallet metadata, and some Nash Matching Engine market and asset data to receive a config. - This config contains all necessary values to interact with the Nash Matching Engine, including the ability to sign payloads needed for operations such as order placement, viewing private account information, asset transfers, and staking.
Glossary
Secret values are never sent to Nash. Values that are visible to Nash are. A combination of secret values and values accessible by Nash are needed for all sensitive operations. Both types of values are sensitive and should be carefully guarded.
- Authentication key: Derived from password. Used to authentcate into Nash's systems. Visible to Nash.
- BIP-39: Protocol for generating master seed from private key.
- BIP-44: Protocol for generating wallet addresses from master seed.
- Chain: an ID for each blockchain we want to generate a private key for. Constant. Nash uses the coin types as defined by BIP044.
- Encrypted secret key: The secret key encrypted via the encryption key via AEAD. Cannot be decrypted without the encryption key. Visible to Nash.
- Encryption key: Derived from password. Used to encrypt the private key for server side storage. Secret.
- Master seed: Value used to generate wallets. Derived from mnemonic. Secret.
- Mnemonic: A n-word phrase generated from the secret key using a wordlist. Can be used along with passphrase to (re)generate the master seed. Secret.
- Password: User's login credential. Used to generate encryption key and auth key via HKDF. Secret.
- Secret key: A random value. Abstracted into the mnemonic for better user experience. We use this as the "master key" -- the ultimate password from which everything is derived, that should be protected at all costs. Secret. (An encrypted version is visible to Nash.)
Notes
External wallet keys
We will NOT support the user supplying their own wallet keys. While users will control their own wallets, we will generate the wallets for them. This is partially because we want wallets to be deterministically derivable from the master seed.
Development
Publishing to NPM
Gitlab CI will automatically publish a version if it receives a new Git tag (see also the publish_to_npm
step in .gitlab-ci.yml
).
Here's the specific steps: Start with decide on a new release version, eg. v1.2.3
. Then create a branch and tag and push everything to Gitlab:
# Make sure you are on master and that all work for this release is committed and merged.
# Next step is to create a branch for this release:
git checkout -b release/v1.2.3
# `yarn prepare-release` will do a hard git reset, run the tests and update the version
# number based on the input you provide in the prompt. It also creates a git tag.
yarn prepare-release
git push origin release/v1.2.3
# Based on that branch, create a PR, and as soon as that is in master, push the tag
# that was created with `yarn prepare-release`:
git push origin refs/tags/v1.2.3
# At this point, the CI will run and if successful push to npm