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Текущая директория: /usr/lib/node_modules/bitgo/node_modules/micro-eth-signer/node_modules/@noble/hashes/src
Просмотр файла: sha3.ts
import { bytes, exists, number, output } from './_assert.js';
import { rotlBH, rotlBL, rotlSH, rotlSL, split } from './_u64.js';
import {
Hash,
u32,
Input,
toBytes,
wrapConstructor,
wrapXOFConstructorWithOpts,
HashXOF,
} from './utils.js';
// SHA3 (keccak) is based on a new design: basically, the internal state is bigger than output size.
// It's called a sponge function.
// Various per round constants calculations
const [SHA3_PI, SHA3_ROTL, _SHA3_IOTA]: [number[], number[], bigint[]] = [[], [], []];
const _0n = /* @__PURE__ */ BigInt(0);
const _1n = /* @__PURE__ */ BigInt(1);
const _2n = /* @__PURE__ */ BigInt(2);
const _7n = /* @__PURE__ */ BigInt(7);
const _256n = /* @__PURE__ */ BigInt(256);
const _0x71n = /* @__PURE__ */ BigInt(0x71);
for (let round = 0, R = _1n, x = 1, y = 0; round < 24; round++) {
// Pi
[x, y] = [y, (2 * x + 3 * y) % 5];
SHA3_PI.push(2 * (5 * y + x));
// Rotational
SHA3_ROTL.push((((round + 1) * (round + 2)) / 2) % 64);
// Iota
let t = _0n;
for (let j = 0; j < 7; j++) {
R = ((R << _1n) ^ ((R >> _7n) * _0x71n)) % _256n;
if (R & _2n) t ^= _1n << ((_1n << /* @__PURE__ */ BigInt(j)) - _1n);
}
_SHA3_IOTA.push(t);
}
const [SHA3_IOTA_H, SHA3_IOTA_L] = /* @__PURE__ */ split(_SHA3_IOTA, true);
// Left rotation (without 0, 32, 64)
const rotlH = (h: number, l: number, s: number) => (s > 32 ? rotlBH(h, l, s) : rotlSH(h, l, s));
const rotlL = (h: number, l: number, s: number) => (s > 32 ? rotlBL(h, l, s) : rotlSL(h, l, s));
// Same as keccakf1600, but allows to skip some rounds
export function keccakP(s: Uint32Array, rounds: number = 24) {
const B = new Uint32Array(5 * 2);
// NOTE: all indices are x2 since we store state as u32 instead of u64 (bigints to slow in js)
for (let round = 24 - rounds; round < 24; round++) {
// Theta θ
for (let x = 0; x < 10; x++) B[x] = s[x] ^ s[x + 10] ^ s[x + 20] ^ s[x + 30] ^ s[x + 40];
for (let x = 0; x < 10; x += 2) {
const idx1 = (x + 8) % 10;
const idx0 = (x + 2) % 10;
const B0 = B[idx0];
const B1 = B[idx0 + 1];
const Th = rotlH(B0, B1, 1) ^ B[idx1];
const Tl = rotlL(B0, B1, 1) ^ B[idx1 + 1];
for (let y = 0; y < 50; y += 10) {
s[x + y] ^= Th;
s[x + y + 1] ^= Tl;
}
}
// Rho (ρ) and Pi (π)
let curH = s[2];
let curL = s[3];
for (let t = 0; t < 24; t++) {
const shift = SHA3_ROTL[t];
const Th = rotlH(curH, curL, shift);
const Tl = rotlL(curH, curL, shift);
const PI = SHA3_PI[t];
curH = s[PI];
curL = s[PI + 1];
s[PI] = Th;
s[PI + 1] = Tl;
}
// Chi (χ)
for (let y = 0; y < 50; y += 10) {
for (let x = 0; x < 10; x++) B[x] = s[y + x];
for (let x = 0; x < 10; x++) s[y + x] ^= ~B[(x + 2) % 10] & B[(x + 4) % 10];
}
// Iota (ι)
s[0] ^= SHA3_IOTA_H[round];
s[1] ^= SHA3_IOTA_L[round];
}
B.fill(0);
}
export class Keccak extends Hash<Keccak> implements HashXOF<Keccak> {
protected state: Uint8Array;
protected pos = 0;
protected posOut = 0;
protected finished = false;
protected state32: Uint32Array;
protected destroyed = false;
// NOTE: we accept arguments in bytes instead of bits here.
constructor(
public blockLen: number,
public suffix: number,
public outputLen: number,
protected enableXOF = false,
protected rounds: number = 24
) {
super();
// Can be passed from user as dkLen
number(outputLen);
// 1600 = 5x5 matrix of 64bit. 1600 bits === 200 bytes
if (0 >= this.blockLen || this.blockLen >= 200)
throw new Error('Sha3 supports only keccak-f1600 function');
this.state = new Uint8Array(200);
this.state32 = u32(this.state);
}
protected keccak() {
keccakP(this.state32, this.rounds);
this.posOut = 0;
this.pos = 0;
}
update(data: Input) {
exists(this);
const { blockLen, state } = this;
data = toBytes(data);
const len = data.length;
for (let pos = 0; pos < len; ) {
const take = Math.min(blockLen - this.pos, len - pos);
for (let i = 0; i < take; i++) state[this.pos++] ^= data[pos++];
if (this.pos === blockLen) this.keccak();
}
return this;
}
protected finish() {
if (this.finished) return;
this.finished = true;
const { state, suffix, pos, blockLen } = this;
// Do the padding
state[pos] ^= suffix;
if ((suffix & 0x80) !== 0 && pos === blockLen - 1) this.keccak();
state[blockLen - 1] ^= 0x80;
this.keccak();
}
protected writeInto(out: Uint8Array): Uint8Array {
exists(this, false);
bytes(out);
this.finish();
const bufferOut = this.state;
const { blockLen } = this;
for (let pos = 0, len = out.length; pos < len; ) {
if (this.posOut >= blockLen) this.keccak();
const take = Math.min(blockLen - this.posOut, len - pos);
out.set(bufferOut.subarray(this.posOut, this.posOut + take), pos);
this.posOut += take;
pos += take;
}
return out;
}
xofInto(out: Uint8Array): Uint8Array {
// Sha3/Keccak usage with XOF is probably mistake, only SHAKE instances can do XOF
if (!this.enableXOF) throw new Error('XOF is not possible for this instance');
return this.writeInto(out);
}
xof(bytes: number): Uint8Array {
number(bytes);
return this.xofInto(new Uint8Array(bytes));
}
digestInto(out: Uint8Array) {
output(out, this);
if (this.finished) throw new Error('digest() was already called');
this.writeInto(out);
this.destroy();
return out;
}
digest() {
return this.digestInto(new Uint8Array(this.outputLen));
}
destroy() {
this.destroyed = true;
this.state.fill(0);
}
_cloneInto(to?: Keccak): Keccak {
const { blockLen, suffix, outputLen, rounds, enableXOF } = this;
to ||= new Keccak(blockLen, suffix, outputLen, enableXOF, rounds);
to.state32.set(this.state32);
to.pos = this.pos;
to.posOut = this.posOut;
to.finished = this.finished;
to.rounds = rounds;
// Suffix can change in cSHAKE
to.suffix = suffix;
to.outputLen = outputLen;
to.enableXOF = enableXOF;
to.destroyed = this.destroyed;
return to;
}
}
const gen = (suffix: number, blockLen: number, outputLen: number) =>
wrapConstructor(() => new Keccak(blockLen, suffix, outputLen));
export const sha3_224 = /* @__PURE__ */ gen(0x06, 144, 224 / 8);
/**
* SHA3-256 hash function
* @param message - that would be hashed
*/
export const sha3_256 = /* @__PURE__ */ gen(0x06, 136, 256 / 8);
export const sha3_384 = /* @__PURE__ */ gen(0x06, 104, 384 / 8);
export const sha3_512 = /* @__PURE__ */ gen(0x06, 72, 512 / 8);
export const keccak_224 = /* @__PURE__ */ gen(0x01, 144, 224 / 8);
/**
* keccak-256 hash function. Different from SHA3-256.
* @param message - that would be hashed
*/
export const keccak_256 = /* @__PURE__ */ gen(0x01, 136, 256 / 8);
export const keccak_384 = /* @__PURE__ */ gen(0x01, 104, 384 / 8);
export const keccak_512 = /* @__PURE__ */ gen(0x01, 72, 512 / 8);
export type ShakeOpts = { dkLen?: number };
const genShake = (suffix: number, blockLen: number, outputLen: number) =>
wrapXOFConstructorWithOpts<HashXOF<Keccak>, ShakeOpts>(
(opts: ShakeOpts = {}) =>
new Keccak(blockLen, suffix, opts.dkLen === undefined ? outputLen : opts.dkLen, true)
);
export const shake128 = /* @__PURE__ */ genShake(0x1f, 168, 128 / 8);
export const shake256 = /* @__PURE__ */ genShake(0x1f, 136, 256 / 8);
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