The Keccak family of hashing algorithms.
node-sha3 compatability for browserify
Multiformats hash functions for SHA3
Sha3 Library.
Solidity sha3 in Javascript
Keccak hash (SHA3) in Node.js and in the browser. Fast & simple.
Just the sha3 method used by Etheruem dApps, and contracts.
A simple SHA-3 / Keccak / Shake hash function for JavaScript supports UTF-8 encoding.
jsSHA implements the complete Secure Hash Standard (SHA) family (SHA-1, SHA-224/256/384/512, SHA3-224/256/384/512, SHAKE128/256, cSHAKE128/256, and KMAC128/256) with HMAC
Web3API SHA3 Javascript Plugin
SHA3 wrapper compatible with ES modules.
computed data hash by webAssembly support md5,sha1,sha2,sha3,sm3
Polynomial sha3 in Javascript
AI project initializer.
Audited & minimal 0-dependency JS implementation of SHA2, SHA3, RIPEMD, BLAKE2/3, HMAC, HKDF, PBKDF2, Scrypt and groestl
JS - Solidity sha3 merkle tree bridge. Generate proofs in JS; verify in Solidity.
A simple SHA-3 / Keccak / Shake hash function for JavaScript supports UTF-8 encoding.
WebAssembly implementation of Keccak hash functions
The sha3 256 hash function for rocketprotocol.
Universal cryptographic toolkit — password hashing, AES-256-GCM, RSA, ECDSA, SHA3, BLAKE2, PBKDF2, scrypt, secure tokens. Zero external dependencies.
sha3 256 converter js and command line tool.
SPD (Secure Packaged Data) — a compressed, post-quantum-hardened encrypted data format for Node.js. Supports chunked internet transfer, large-file streaming (>2 GB), Argon2id key derivation, XChaCha20-Poly1305 AEAD, and HMAC-SHA3-512 authentication.
SHA-3 cryptographic hash function
Lightning fast hash functions for browsers and Node.js using hand-tuned WebAssembly binaries (MD4, MD5, SHA-1, SHA-2, SHA-3, Keccak, BLAKE2, BLAKE3, PBKDF2, Argon2, bcrypt, scrypt, Adler-32, CRC32, CRC32C, RIPEMD-160, HMAC, xxHash, SM3, Whirlpool)
Implementation of the SHA-3 family of cryptographic hash algorithms
Although part of the same series of standards, SHA-3 (Keccak) is internally different from the MD5-like structure of SHA-1 and SHA-2. -- Keccak is based on a novel approach called sponge construction. Sponge construction is based on a wide random function or random permutation, and allows inputting (`absorbing` in sponge terminology) any amount of data, and outputting (`squeezing`) any amount of data, while acting as a pseudorandom function with regard to all previous inputs. This leads to great flexibility. (from wikipedia)
This crate provides an implementation of the Keccak (SHA-3) cryptographic hash function family
The free opensource version of the Quantum Secure Cryptographic library in Rust (QRC)
sha3sum - compute and check SHA3 message digest.
`rs_sha3_224` is a Rust implementation of the SHA3-224 cryptographic hash algorithm, part of the larger `rs_shield` project. This package provides SHA3-224 hashing functionality in a standalone manner, ideal for when only SHA3-224 is required. Alternatively, for those seeking a comprehensive set of cryptographic functions, this same algorithm is included within the broader `rs_shield` library bundle. The focus of `rs_sha3_224` and the larger project is on performance, safety, and openness, with a commitment to ongoing maintenance and enhancement.
`rs_sha3_256` is a Rust implementation of the SHA3-256 cryptographic hash algorithm, part of the larger `rs_shield` project. This package provides SHA3-256 hashing functionality in a standalone manner, ideal for when only SHA3-256 is required. Alternatively, for those seeking a comprehensive set of cryptographic functions, this same algorithm is included within the broader `rs_shield` library bundle. The focus of `rs_sha3_256` and the larger project is on performance, safety, and openness, with a commitment to ongoing maintenance and enhancement.
`rs_sha3_384` is a Rust implementation of the SHA3-384 cryptographic hash algorithm, part of the larger `rs_shield` project. This package provides SHA3-384 hashing functionality in a standalone manner, ideal for when only SHA3-384 is required. Alternatively, for those seeking a comprehensive set of cryptographic functions, this same algorithm is included within the broader `rs_shield` library bundle. The focus of `rs_sha3_384` and the larger project is on performance, safety, and openness, with a commitment to ongoing maintenance and enhancement.
`rs_sha3_512` is a Rust implementation of the SHA3-512 cryptographic hash algorithm, part of the larger `rs_shield` project. This package provides SHA3-512 hashing functionality in a standalone manner, ideal for when only SHA3-512 is required. Alternatively, for those seeking a comprehensive set of cryptographic functions, this same algorithm is included within the broader `rs_shield` library bundle. The focus of `rs_sha3_512` and the larger project is on performance, safety, and openness, with a commitment to ongoing maintenance and enhancement.
A secure, high-performance messaging protocol library
Post-Quantum Cryptography library for Saorsa Labs projects
A proc-macro library for to create rust structs from file system entries and include content as a reference to a byte array.
A high-performance native binding to the SHA3 (FIPS 202) cryptographic hashing algorithms, based on the XKCP - eXtended Keccak Code Package. This gem provides support for the standard SHA-3 fixed-length functions (224, 256, 384, and 512 bits), as well as the SHAKE128/SHAKE256 extendable-output functions (XOFs), cSHAKE128/256, and KMAC as specified in NIST SP 800-185.'
The SHA-3 (Keccak) hash.
The SHA-3 (Keccak) hash.
An implementation of SHA3 in pure Ruby.
Ruby bindings for the (C) reference implementation of SHA-3 cryptographic hash function.
The SHA-3 (Keccak) hash.
The Keccak (SHA3) hash used by Ethereum. This does not implement the final FIPS202 standard, today known as SHA3 but rather an early version, commonly referred to as Keccak.
An implementation of SHA3 in pure Ruby.
This is a signature and verification library of ed 25519. But instead of SHA2_512, Keccak is adopted as a hash function. This implementation is a rewrite of python codes on RFC8032 as ruby.
A Ruby library for encrypting and decrypting strings in the 3ncr.org/1#... envelope format (AES-256-GCM with a 12-byte random IV). Supports raw 32-byte AES keys, SHA3-256 derivation for high-entropy secrets, and Argon2id derivation for low-entropy secrets such as passwords.
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