No description
Find a file
2021-03-08 18:27:18 +05:30
.github/workflows org name change 2021-03-07 20:18:35 +05:30
examples u32 difficulty factor 2021-03-08 18:27:18 +05:30
src u32 difficulty factor 2021-03-08 18:27:18 +05:30
.gitignore CI, readme and deps version bump 2021-03-06 09:48:58 +05:30
Cargo.lock u32 difficulty factor 2021-03-08 18:27:18 +05:30
Cargo.toml u32 difficulty factor 2021-03-08 18:27:18 +05:30
CHANGELOG.md u32 difficulty factor 2021-03-08 18:27:18 +05:30
LICENSE-APACHE Updated naming and minor details on several things 2019-07-22 13:54:13 -04:00
LICENSE-MIT explict license at user request, https://rust-lang-nursery.github.io/api-guidelines/necessities.html?highlight=license#crate-and-its-dependencies-have-a-permissive-license-c-permissive 2019-07-19 14:36:57 -07:00
main u32 difficulty factor 2021-03-08 18:27:18 +05:30
main.rs u32 difficulty factor 2021-03-08 18:27:18 +05:30
README.md u32 difficulty factor 2021-03-08 18:27:18 +05:30

PoW-SHA256

PoW-SHA256 - SHA256 based Proof-of-Work

Documentation CI (Linux) dependency status
codecov

pow_sha256's copy of pow_sha256 by robkorn which is a modified version of pow library. All copyrights belong to the original authors.

Rust crate which generates SHA256 Proofs of Work on serializable datatypes.

Whether for blockchain-related projects or Hashcash-like schemes, this crate can be used to prove work was done on a given serializable input. The input merely needs to implement serde::Deserialize to be used.

This is a fork of the pow library by @robkorn) with some new additions. Primary of these being:

  • PoW datatype now offers a constructor
  • Salt is no longer hard coded into the library, users can provide unique salts.

Other small changes have also been included of various importance but mostly just stylistic/ease of use improvements.

Examples

Prove work specifically targeting a phrase.


use pow_sha256::{ConfigBuilder, PoW};

fn main() {
    let config = ConfigBuilder::default()
        .salt("myrandomsaltisnotlongenoug".into())
        .build()
        .unwrap();

    let phrase = "ironmansucks";

    const DIFFICULTY: u32 = 1000;

    let work = config.prove_work(&phrase, DIFFICULTY).unwrap();
    assert!(config.calculate(&work, &phrase).unwrap() >= DIFFICULTY);
    assert!(config.is_valid_proof(&work, &phrase));
    assert!(config.is_sufficient_difficulty(&work, DIFFICULTY));
}

Prove more difficult work. This time targeting a time.

// Greater difficulty this time around. Takes around 100,000 hashes
// to find a nonce of the correct difficulty.


use pow_sha256::{ConfigBuilder, PoW};

fn main() {
    let config = ConfigBuilder::default()
        .salt("myrandomsaltisnotlongenoug".into())
        .build()
        .unwrap();

    let phrase = "ironmansucks";

    const DIFFICULTY: u32 = 100_000;

    let work = config.prove_work(&phrase, DIFFICULTY).unwrap();

    assert!(config.calculate(&work, &phrase).unwrap() >= DIFFICULTY);
    assert!(config.is_valid_proof(&work, &phrase));
    assert!(config.is_sufficient_difficulty(&work, DIFFICULTY));
}

Hashing Scheme

SALT is used as prefix to prevent PoW reuse from other systems such as proof of work blockchains.

SHA256 is calculated over the concatenation of the:

  • SALT
  • Serialized Input T
  • Nonce

The first 16 bytes of the resulting hash are interpreted as a 128 bit unsigned integer and saved as the final result.

Choosing a difficulty setting.

Depending on your use case, difficulty settings often are best set dynamically a la bitcoin.

However if your use case requires manual setting then it is trivial to set one yourself. One way to do so is to choose the average number of hashes desired with a function like this:

fn get_difficulty(average: u128) -> u128 {
    debug_assert_ne!(average, 0, "It is impossible to prove work in zero attempts.");
    let m = u128::max_value();
    m - m / average
}

Conversely we can use the same equation to calculate the probable number of hashes required to satisfy a given difficulty:

fn est_average(difficulty: u128) -> u128 {
    let m = u128::max_value();
    if difficulty == m {
        return m;
    }
    m / (m - difficulty)
}

Changelog

See CHANGELOG.md

License

This project is dual-licensed under Apache License Version 2.0 or MIT license.