Skip to content

Quantum-Resistant Cryptographic Hash Library for Password Hashing and Verification πŸ¦€

License

Apache-2.0, MIT licenses found

Licenses found

Apache-2.0
LICENSE-APACHE
MIT
LICENSE-MIT
Notifications You must be signed in to change notification settings

sebastienrousseau/hsh

Folders and files

NameName
Last commit message
Last commit date

Latest commit

Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 

Hash (HSH) logo

Hash (HSH)

Quantum-Resistant Cryptographic Hash Library for Password Hashing and Verification

Part of the Mini Functions family of libraries.

Hash (HSH) Banner

Made With Rust Crates.io Lib.rs Docs.rs License Codecov

β€’ Website β€’ Documentation β€’ Report Bug β€’ Request Feature β€’ Contributing Guidelines

divider

Overview πŸ“–

The Hash (HSH) Rust library provides an interface for implementing secure hash and digest algorithms, specifically designed for password encryption and verification.

The library provides a simple API that makes it easy to store and verify hashed passwords. It enables robust security for passwords, using the latest advancements in Quantum-resistant cryptography. Quantum- resistant cryptography refers to cryptographic algorithms, usually public-key algorithms, that are thought to be secure against an attack by a quantum computer. As quantum computing continues to advance, this feature of the library assures that the passwords managed through this system remain secure even against cutting-edge computational capabilities.

The library supports the following Password Hashing Schemes (Password Based Key Derivation Functions):

  • Argon2i: A cutting-edge and highly secure key derivation function designed to protect against both traditional brute-force attacks and rainbow table attacks. (Recommended)
  • Bcrypt: A password hashing function designed to be secure against brute-force attacks. It is a work-factor function, which means that it takes a certain amount of time to compute. This makes it difficult to attack with a brute-force algorithm.
  • Scrypt: A password hashing function designed to be secure against both brute-force attacks and rainbow table attacks. It is a memory-hard and work- factor function, which means that it requires a lot of memory and time to compute. This makes it very difficult to attack with a GPU or other parallel computing device.

The library is a valuable tool for developers who need to store and verify passwords in a secure manner. It is easy to use and can be integrated into a variety of applications.

Features ✨

  • Compliant with multiple Password Hashing Schemes (Password Based Key Derivation Functions) such as Argon2i, Bcrypt and Scrypt. This makes the library more versatile and can be used in a variety of applications.
  • Quantum-resistant, making it secure against future attacks using quantum computers. This is an important feature as quantum computers become more powerful.
  • Easy to use. The library provides a simple API that makes it easy to store and verify hashed passwords.
  • Can be integrated into a variety of applications. The library is written in Rust, which makes it easy to integrate into any Rust project and is fast, efficient, and secure.

Secure password storage

Hash (HSH) provides a secure way to store and verify hashed passwords. Passwords are hashed using the argon2i, bcrypt, scrypt algorithms, which are considered one of the most secure hashing algorithms available today. The library provides a simple interface for generating and verifying hashes, making it easy to implement secure password storage in any Rust application.

Easy to use

Hash (HSH) includes simple functions for generating and verifying password hashes, and managing password and salt values. Developers can easily integrate the library into their Rust projects and start using it right away. The library is designed to be intuitive and easy to use, so developers can build apps without worrying about password security.

Flexible

Hash (HSH) allows users to customize the length of passwords and salts used in generating hashes. This flexibility allows developers to tailor the library to their specific needs, whether they require shorter or longer password and salt values. The library also includes macros that make it easy to work with the Hash structure, allowing developers to quickly and easily set and retrieve password and salt values.

Lightweight

Hash (HSH) is a lightweight library that can easily integrate into any Rust project. The library has no external dependencies and is efficient. It means that developers can add secure password storage to their applications without having to worry about significant performance overheads.

Installation πŸ“¦

It takes just a few minutes to get up and running with hsh.

Requirements

The minimum supported Rust toolchain version is currently Rust 1.60 or later (stable). It is recommended that you install the latest stable version of Rust.

Platform support

hsh supports a variety of CPU architectures. It is supported and tested on MacOS, Linux, and Windows.

Documentation

ℹ️ Info: Please check out our website for more information and find our documentation on docs.rs, lib.rs and crates.io.

Usage πŸ“–

To use hsh in your project, add the following to your Cargo.toml file:

[dependencies]
hsh = "0.0.8"

Add the following to your main.rs file:

extern crate hsh;
use hsh::*;

then you can use the functions in your application code.

Examples

Hash (HSH) comes with a set of examples that you can use to get started. The examples are located in the examples directory of the project. To run the examples, clone the repository and run the following command in your terminal from the project root directory.

cargo run --example hsh

Semantic Versioning Policy πŸš₯

For transparency into our release cycle and in striving to maintain backward compatibility, Hash (HSH) follows semantic versioning.

License πŸ“

The project is licensed under the terms of both the MIT license and the Apache License (Version 2.0).

Contribution 🀝

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.

divider

Acknowledgements πŸ’™

A big thank you to all the awesome contributors of Mini Functions for their help and support.

And a special thank you goes to the Rust Reddit community for providing a lot of useful suggestions on how to improve this project.