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pezkuwi-sdk/bizinikiwi/primitives/crypto/hashing/src/lib.rs
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pezkuwichain 1c0e57d984 feat: Rebrand Polkadot/Substrate references to PezkuwiChain 
This commit systematically rebrands various references from Parity Technologies'
Polkadot/Substrate ecosystem to PezkuwiChain within the kurdistan-sdk.

Key changes include:
- Updated external repository URLs (zombienet-sdk, parity-db, parity-scale-codec, wasm-instrument) to point to pezkuwichain forks.
- Modified internal documentation and code comments to reflect PezkuwiChain naming and structure.
- Replaced direct references to  with  or specific paths within the  for XCM, Pezkuwi, and other modules.
- Cleaned up deprecated  issue and PR references in various  and  files, particularly in  and  modules.
- Adjusted image and logo URLs in documentation to point to PezkuwiChain assets.
- Removed or rephrased comments related to external Polkadot/Substrate PRs and issues.

This is a significant step towards fully customizing the SDK for the PezkuwiChain ecosystem.
2025-12-14 00:04:10 +03:00

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// This file is part of Bizinikiwi.
// Copyright (C) Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: Apache-2.0
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//! Hashing Functions.
#![warn(missing_docs)]
#![cfg_attr(not(feature = "std"), no_std)]
use core::hash::Hasher;
use byteorder::{ByteOrder, LittleEndian};
use digest::Digest;
#[inline(always)]
fn blake2<const N: usize>(data: &[u8]) -> [u8; N] {
blake2b_simd::Params::new()
.hash_length(N)
.hash(data)
.as_bytes()
.try_into()
.expect("slice is always the necessary length")
}
/// Do a Blake2 512-bit hash and place result in `dest`.
pub fn blake2_512_into(data: &[u8], dest: &mut [u8; 64]) {
*dest = blake2(data);
}
/// Do a Blake2 512-bit hash and return result.
pub fn blake2_512(data: &[u8]) -> [u8; 64] {
blake2(data)
}
/// Do a Blake2 256-bit hash and return result.
pub fn blake2_256(data: &[u8]) -> [u8; 32] {
blake2(data)
}
/// Do a Blake2 128-bit hash and return result.
pub fn blake2_128(data: &[u8]) -> [u8; 16] {
blake2(data)
}
/// Do a Blake2 64-bit hash and return result.
pub fn blake2_64(data: &[u8]) -> [u8; 8] {
blake2(data)
}
/// Do a XX 64-bit hash and place result in `dest`.
pub fn twox_64_into(data: &[u8], dest: &mut [u8; 8]) {
let r0 = twox_hash::XxHash::with_seed(0).chain_update(data).finish();
LittleEndian::write_u64(&mut dest[0..8], r0);
}
/// Do a XX 64-bit hash and return result.
pub fn twox_64(data: &[u8]) -> [u8; 8] {
let mut r: [u8; 8] = [0; 8];
twox_64_into(data, &mut r);
r
}
/// Do a XX 128-bit hash and place result in `dest`.
pub fn twox_128_into(data: &[u8], dest: &mut [u8; 16]) {
let r0 = twox_hash::XxHash::with_seed(0).chain_update(data).finish();
let r1 = twox_hash::XxHash::with_seed(1).chain_update(data).finish();
LittleEndian::write_u64(&mut dest[0..8], r0);
LittleEndian::write_u64(&mut dest[8..16], r1);
}
/// Do a XX 128-bit hash and return result.
pub fn twox_128(data: &[u8]) -> [u8; 16] {
let mut r: [u8; 16] = [0; 16];
twox_128_into(data, &mut r);
r
}
/// Do a XX 256-bit hash and place result in `dest`.
pub fn twox_256_into(data: &[u8], dest: &mut [u8; 32]) {
let r0 = twox_hash::XxHash::with_seed(0).chain_update(data).finish();
let r1 = twox_hash::XxHash::with_seed(1).chain_update(data).finish();
let r2 = twox_hash::XxHash::with_seed(2).chain_update(data).finish();
let r3 = twox_hash::XxHash::with_seed(3).chain_update(data).finish();
LittleEndian::write_u64(&mut dest[0..8], r0);
LittleEndian::write_u64(&mut dest[8..16], r1);
LittleEndian::write_u64(&mut dest[16..24], r2);
LittleEndian::write_u64(&mut dest[24..32], r3);
}
/// Do a XX 256-bit hash and return result.
pub fn twox_256(data: &[u8]) -> [u8; 32] {
let mut r: [u8; 32] = [0; 32];
twox_256_into(data, &mut r);
r
}
/// Do a keccak 256-bit hash and return result.
pub fn keccak_256(data: &[u8]) -> [u8; 32] {
sha3::Keccak256::digest(data).into()
}
/// Do a keccak 512-bit hash and return result.
pub fn keccak_512(data: &[u8]) -> [u8; 64] {
sha3::Keccak512::digest(data).into()
}
/// Do a sha2 256-bit hash and return result.
pub fn sha2_256(data: &[u8]) -> [u8; 32] {
sha2::Sha256::digest(data).into()
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn blake2b() {
assert_eq!(pezsp_crypto_hashing_proc_macro::blake2b_64!(b""), blake2_64(b"")[..]);
assert_eq!(pezsp_crypto_hashing_proc_macro::blake2b_256!(b"test"), blake2_256(b"test")[..]);
assert_eq!(pezsp_crypto_hashing_proc_macro::blake2b_512!(b""), blake2_512(b"")[..]);
}
#[test]
fn keccak() {
assert_eq!(pezsp_crypto_hashing_proc_macro::keccak_256!(b"test"), keccak_256(b"test")[..]);
assert_eq!(pezsp_crypto_hashing_proc_macro::keccak_512!(b"test"), keccak_512(b"test")[..]);
}
#[test]
fn sha2() {
assert_eq!(pezsp_crypto_hashing_proc_macro::sha2_256!(b"test"), sha2_256(b"test")[..]);
}
#[test]
fn twox() {
assert_eq!(pezsp_crypto_hashing_proc_macro::twox_128!(b"test"), twox_128(b"test")[..]);
assert_eq!(pezsp_crypto_hashing_proc_macro::twox_64!(b""), twox_64(b"")[..]);
}
#[test]
fn twox_concats() {
assert_eq!(
pezsp_crypto_hashing_proc_macro::twox_128!(b"test", b"123", b"45", b"", b"67890"),
twox_128(&b"test1234567890"[..]),
);
assert_eq!(
pezsp_crypto_hashing_proc_macro::twox_128!(b"test", test, b"45", b"", b"67890"),
twox_128(&b"testtest4567890"[..]),
);
}
}
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