Derive util for Valtio
Common functions used across Polkadot, derived from RPC calls and storage queries.
Cryptographic key pairs for the XRP Ledger
Pure javascript implementation of Bip32Ed25519, used for Cardano blockchain key pair.
Ethereum Name Service (ENS) Name Normalizer
Additional polkadot.js derives for Acala Network
Set the title on a pad in Etherpad, also includes real time updates to the UI
A function to create a derived Zustand store from stores
Cryptographic types and functions for Cardano
Universal Module for HKDF (Hash-based Key Derivation Function) in JavaScript
Pure JS Cardano Wallet library
IOTA Signing Scheme
This package holds key identifiers for Exodus' own BIP43 purpose
Utilities for working with bolt07 data formats
Webb JS API derived methods
Cryptographic key pairs for the XRP Ledger
Port of the OpenBSD bcrypt_pbkdf function to pure JS
Bitcoin BIP32 ('HD Wallet') path helpers.
This is a library that allows you to derive ed25519 private and public keys from mnemonic words(or seed, or other keys).
Simple runtime TypeScript validator library
Key derivation based on Hierarchical Deterministic (HD)/Mnemonic keys and BIP32, for Kadena
A command line interface for programmatic operations across Transcend.
Common functions used across Polkadot, derived from RPC calls and storage queries.
This package provides support for Hierarchical Deterministic (HD) Wallet.
pg_space_cadet is a simple hack for postgreSQL and ActiveRecord which provides a uuids table of distributable identities of space cadets -- ActiveRecord::Base instances which use the SpaceCadetWrapper. Each space cadet has a default ActiveRecord id unique in the set of all local space cadets; a space cadet's id is derived from its uuid - UUID's are by design universally distributable.
SessionKeys is a cryptographic tool for the deterministic generation of NaCl compatible Curve25519 encryption and Ed25519 digital signature keys. The strength of the system is rooted in the fact that the keypairs are derived from passing an identifier, such as a username or email address, and a high-entropy passphrase through the SHA256 one-way hash and the scrypt key derivation functions. This means that no private key material need ever be writter to disk or transmitted. The generated keys are deterministic; for any given ID, password, and strength combination the same keys will always be returned.
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