Derive a named key from a master key
Security kernel for Rickydata - TPM sealing, encryption, and sign-to-derive key derivation
load, save and derive key pairs
Derive util for Valtio
Cryptographic key pairs for the XRP Ledger
Common functions used across Polkadot, derived from RPC calls and storage queries.
Port of the OpenBSD bcrypt_pbkdf function to pure JS
Pure javascript implementation of Bip32Ed25519, used for Cardano blockchain key pair.
Universal Module for HKDF (Hash-based Key Derivation Function) in JavaScript
This package holds key identifiers for Exodus' own BIP43 purpose
The insecure key derivation algorithm from OpenSSL
Pure JS Cardano Wallet library
IOTA Signing Scheme
HKDF with no dependencies using runtime's native crypto
Derive a named key from a master key
Key derivation based on Hierarchical Deterministic (HD)/Mnemonic keys and BIP32, for Kadena
Cryptographic key pairs for the XRP Ledger
TypeScript definitions for eccrypto
Ethereum Name Service (ENS) Name Normalizer
This package provides an implementation of a 'Bootstrap' P2P node. It's purpose is to assist new network participants in acquiring peers.
Bitcoin BIP32 ('HD Wallet') path helpers.
Additional polkadot.js derives for Acala Network
A signing library for Cosmos
Set the title on a pad in Etherpad, also includes real time updates to the UI
BLAKE3 cryptographic hash functions exposed as Clojure native functions
Universal Polymarket CLI trading tool
WebCrypto compatible encryption CLI
a command line implementation of the BLAKE3 hash function
A minimal const-evaluable subset of BLAKE3 used by TribleSpace for schema identifier derivation.
Derive-Key-AES and Double-Nonce-Derive-Key-AES nonce extension mechanisms (DNDK-GCM)
A tracing layer for aliyun sls
A utility crate for deriving secure device-specific keys on Raspberry Pi.
Argon2 key derivation for Ruby
A ruby implementation of RFC5869: HMAC-based Extract-and-Expand Key Derivation Function (HKDF). The goal of HKDF is to take some source key material and generate suitable cryptographic keys from it.
This implementation conforms to RFC 2898, and has been tested using the test vectors in Appendix B of RFC 3962. Note, however, that while those specifications use HMAC-SHA-1, this implementation defaults to HMAC-SHA-256. (SHA-256 provides a longer bit length. In addition, NIST has stated that SHA-1 should be phased out due to concerns over recent cryptanalytic attacks.)
This implementation conforms to RFC 2898, and has been tested using the test vectors in Appendix B of RFC 3962. Note, however, that while those specifications use HMAC-SHA-1, this implementation defaults to HMAC-SHA-256. (SHA-256 provides a longer bit length. In addition, NIST has stated that SHA-1 should be phased out due to concerns over recent cryptanalytic attacks.)
Implements a Derived Unique Key Per Transaction (DUKPT) decrypter
A high-level encryption toolkit providing AES-256-GCM encryption and decryption, key rotation, envelope encryption, PBKDF2 key derivation, secure random generation, configurable hashing (SHA-256/384/512), and constant-time string comparison using Ruby's built-in OpenSSL.
Ruby hd key derivation for ED25519
Forked from https://github.com/emerose/pbkdf2-ruby by Sam Quigley. This implementation conforms to RFC 2898, and has been tested using the test vectors in Appendix B of RFC 3962. Note, however, that while those specifications use HMAC-SHA-1, this implementation defaults to HMAC-SHA-256. (SHA-256 provides a longer bit length. In addition, NIST has stated that SHA-1 should be phased out due to concerns over recent cryptanalytic attacks.)
Reformat Enumerables into Hashes, using derived keys / values
A utility script for encrypting and decrypting files using a randomly generated 256-bit AES key and initialization vector secured using the PBKDF2 password/passphrase key derivation algorithm to secure the file key and IV.
The scrypt key derivation function is designed to be far more secure against hardware brute-force attacks than alternative functions such as PBKDF2 or bcrypt.
A toolkit for the Nano cryptocurrency, allowing you to derive keys, generate seeds, hashes, signatures, proofs of work and blocks.
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