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Просмотр файла: blake2.js
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.blake2s = exports.BLAKE2s = exports.blake2b = exports.BLAKE2b = exports.BLAKE2 = void 0;
exports.compress = compress;
/**
* blake2b (64-bit) & blake2s (8 to 32-bit) hash functions.
* b could have been faster, but there is no fast u64 in js, so s is 1.5x faster.
* @module
*/
const _blake_ts_1 = require("./_blake.js");
const _md_ts_1 = require("./_md.js");
const u64 = require("./_u64.js");
// prettier-ignore
const utils_ts_1 = require("./utils.js");
// Same as SHA512_IV, but swapped endianness: LE instead of BE. iv[1] is iv[0], etc.
const B2B_IV = /* @__PURE__ */ Uint32Array.from([
0xf3bcc908, 0x6a09e667, 0x84caa73b, 0xbb67ae85, 0xfe94f82b, 0x3c6ef372, 0x5f1d36f1, 0xa54ff53a,
0xade682d1, 0x510e527f, 0x2b3e6c1f, 0x9b05688c, 0xfb41bd6b, 0x1f83d9ab, 0x137e2179, 0x5be0cd19,
]);
// Temporary buffer
const BBUF = /* @__PURE__ */ new Uint32Array(32);
// Mixing function G splitted in two halfs
function G1b(a, b, c, d, msg, x) {
// NOTE: V is LE here
const Xl = msg[x], Xh = msg[x + 1]; // prettier-ignore
let Al = BBUF[2 * a], Ah = BBUF[2 * a + 1]; // prettier-ignore
let Bl = BBUF[2 * b], Bh = BBUF[2 * b + 1]; // prettier-ignore
let Cl = BBUF[2 * c], Ch = BBUF[2 * c + 1]; // prettier-ignore
let Dl = BBUF[2 * d], Dh = BBUF[2 * d + 1]; // prettier-ignore
// v[a] = (v[a] + v[b] + x) | 0;
let ll = u64.add3L(Al, Bl, Xl);
Ah = u64.add3H(ll, Ah, Bh, Xh);
Al = ll | 0;
// v[d] = rotr(v[d] ^ v[a], 32)
({ Dh, Dl } = { Dh: Dh ^ Ah, Dl: Dl ^ Al });
({ Dh, Dl } = { Dh: u64.rotr32H(Dh, Dl), Dl: u64.rotr32L(Dh, Dl) });
// v[c] = (v[c] + v[d]) | 0;
({ h: Ch, l: Cl } = u64.add(Ch, Cl, Dh, Dl));
// v[b] = rotr(v[b] ^ v[c], 24)
({ Bh, Bl } = { Bh: Bh ^ Ch, Bl: Bl ^ Cl });
({ Bh, Bl } = { Bh: u64.rotrSH(Bh, Bl, 24), Bl: u64.rotrSL(Bh, Bl, 24) });
(BBUF[2 * a] = Al), (BBUF[2 * a + 1] = Ah);
(BBUF[2 * b] = Bl), (BBUF[2 * b + 1] = Bh);
(BBUF[2 * c] = Cl), (BBUF[2 * c + 1] = Ch);
(BBUF[2 * d] = Dl), (BBUF[2 * d + 1] = Dh);
}
function G2b(a, b, c, d, msg, x) {
// NOTE: V is LE here
const Xl = msg[x], Xh = msg[x + 1]; // prettier-ignore
let Al = BBUF[2 * a], Ah = BBUF[2 * a + 1]; // prettier-ignore
let Bl = BBUF[2 * b], Bh = BBUF[2 * b + 1]; // prettier-ignore
let Cl = BBUF[2 * c], Ch = BBUF[2 * c + 1]; // prettier-ignore
let Dl = BBUF[2 * d], Dh = BBUF[2 * d + 1]; // prettier-ignore
// v[a] = (v[a] + v[b] + x) | 0;
let ll = u64.add3L(Al, Bl, Xl);
Ah = u64.add3H(ll, Ah, Bh, Xh);
Al = ll | 0;
// v[d] = rotr(v[d] ^ v[a], 16)
({ Dh, Dl } = { Dh: Dh ^ Ah, Dl: Dl ^ Al });
({ Dh, Dl } = { Dh: u64.rotrSH(Dh, Dl, 16), Dl: u64.rotrSL(Dh, Dl, 16) });
// v[c] = (v[c] + v[d]) | 0;
({ h: Ch, l: Cl } = u64.add(Ch, Cl, Dh, Dl));
// v[b] = rotr(v[b] ^ v[c], 63)
({ Bh, Bl } = { Bh: Bh ^ Ch, Bl: Bl ^ Cl });
({ Bh, Bl } = { Bh: u64.rotrBH(Bh, Bl, 63), Bl: u64.rotrBL(Bh, Bl, 63) });
(BBUF[2 * a] = Al), (BBUF[2 * a + 1] = Ah);
(BBUF[2 * b] = Bl), (BBUF[2 * b + 1] = Bh);
(BBUF[2 * c] = Cl), (BBUF[2 * c + 1] = Ch);
(BBUF[2 * d] = Dl), (BBUF[2 * d + 1] = Dh);
}
function checkBlake2Opts(outputLen, opts = {}, keyLen, saltLen, persLen) {
(0, utils_ts_1.anumber)(keyLen);
if (outputLen < 0 || outputLen > keyLen)
throw new Error('outputLen bigger than keyLen');
const { key, salt, personalization } = opts;
if (key !== undefined && (key.length < 1 || key.length > keyLen))
throw new Error('key length must be undefined or 1..' + keyLen);
if (salt !== undefined && salt.length !== saltLen)
throw new Error('salt must be undefined or ' + saltLen);
if (personalization !== undefined && personalization.length !== persLen)
throw new Error('personalization must be undefined or ' + persLen);
}
/** Class, from which others are subclassed. */
class BLAKE2 extends utils_ts_1.Hash {
constructor(blockLen, outputLen) {
super();
this.finished = false;
this.destroyed = false;
this.length = 0;
this.pos = 0;
(0, utils_ts_1.anumber)(blockLen);
(0, utils_ts_1.anumber)(outputLen);
this.blockLen = blockLen;
this.outputLen = outputLen;
this.buffer = new Uint8Array(blockLen);
this.buffer32 = (0, utils_ts_1.u32)(this.buffer);
}
update(data) {
(0, utils_ts_1.aexists)(this);
data = (0, utils_ts_1.toBytes)(data);
(0, utils_ts_1.abytes)(data);
// Main difference with other hashes: there is flag for last block,
// so we cannot process current block before we know that there
// is the next one. This significantly complicates logic and reduces ability
// to do zero-copy processing
const { blockLen, buffer, buffer32 } = this;
const len = data.length;
const offset = data.byteOffset;
const buf = data.buffer;
for (let pos = 0; pos < len;) {
// If buffer is full and we still have input (don't process last block, same as blake2s)
if (this.pos === blockLen) {
(0, utils_ts_1.swap32IfBE)(buffer32);
this.compress(buffer32, 0, false);
(0, utils_ts_1.swap32IfBE)(buffer32);
this.pos = 0;
}
const take = Math.min(blockLen - this.pos, len - pos);
const dataOffset = offset + pos;
// full block && aligned to 4 bytes && not last in input
if (take === blockLen && !(dataOffset % 4) && pos + take < len) {
const data32 = new Uint32Array(buf, dataOffset, Math.floor((len - pos) / 4));
(0, utils_ts_1.swap32IfBE)(data32);
for (let pos32 = 0; pos + blockLen < len; pos32 += buffer32.length, pos += blockLen) {
this.length += blockLen;
this.compress(data32, pos32, false);
}
(0, utils_ts_1.swap32IfBE)(data32);
continue;
}
buffer.set(data.subarray(pos, pos + take), this.pos);
this.pos += take;
this.length += take;
pos += take;
}
return this;
}
digestInto(out) {
(0, utils_ts_1.aexists)(this);
(0, utils_ts_1.aoutput)(out, this);
const { pos, buffer32 } = this;
this.finished = true;
// Padding
(0, utils_ts_1.clean)(this.buffer.subarray(pos));
(0, utils_ts_1.swap32IfBE)(buffer32);
this.compress(buffer32, 0, true);
(0, utils_ts_1.swap32IfBE)(buffer32);
const out32 = (0, utils_ts_1.u32)(out);
this.get().forEach((v, i) => (out32[i] = (0, utils_ts_1.swap8IfBE)(v)));
}
digest() {
const { buffer, outputLen } = this;
this.digestInto(buffer);
const res = buffer.slice(0, outputLen);
this.destroy();
return res;
}
_cloneInto(to) {
const { buffer, length, finished, destroyed, outputLen, pos } = this;
to || (to = new this.constructor({ dkLen: outputLen }));
to.set(...this.get());
to.buffer.set(buffer);
to.destroyed = destroyed;
to.finished = finished;
to.length = length;
to.pos = pos;
// @ts-ignore
to.outputLen = outputLen;
return to;
}
clone() {
return this._cloneInto();
}
}
exports.BLAKE2 = BLAKE2;
class BLAKE2b extends BLAKE2 {
constructor(opts = {}) {
const olen = opts.dkLen === undefined ? 64 : opts.dkLen;
super(128, olen);
// Same as SHA-512, but LE
this.v0l = B2B_IV[0] | 0;
this.v0h = B2B_IV[1] | 0;
this.v1l = B2B_IV[2] | 0;
this.v1h = B2B_IV[3] | 0;
this.v2l = B2B_IV[4] | 0;
this.v2h = B2B_IV[5] | 0;
this.v3l = B2B_IV[6] | 0;
this.v3h = B2B_IV[7] | 0;
this.v4l = B2B_IV[8] | 0;
this.v4h = B2B_IV[9] | 0;
this.v5l = B2B_IV[10] | 0;
this.v5h = B2B_IV[11] | 0;
this.v6l = B2B_IV[12] | 0;
this.v6h = B2B_IV[13] | 0;
this.v7l = B2B_IV[14] | 0;
this.v7h = B2B_IV[15] | 0;
checkBlake2Opts(olen, opts, 64, 16, 16);
let { key, personalization, salt } = opts;
let keyLength = 0;
if (key !== undefined) {
key = (0, utils_ts_1.toBytes)(key);
keyLength = key.length;
}
this.v0l ^= this.outputLen | (keyLength << 8) | (0x01 << 16) | (0x01 << 24);
if (salt !== undefined) {
salt = (0, utils_ts_1.toBytes)(salt);
const slt = (0, utils_ts_1.u32)(salt);
this.v4l ^= (0, utils_ts_1.swap8IfBE)(slt[0]);
this.v4h ^= (0, utils_ts_1.swap8IfBE)(slt[1]);
this.v5l ^= (0, utils_ts_1.swap8IfBE)(slt[2]);
this.v5h ^= (0, utils_ts_1.swap8IfBE)(slt[3]);
}
if (personalization !== undefined) {
personalization = (0, utils_ts_1.toBytes)(personalization);
const pers = (0, utils_ts_1.u32)(personalization);
this.v6l ^= (0, utils_ts_1.swap8IfBE)(pers[0]);
this.v6h ^= (0, utils_ts_1.swap8IfBE)(pers[1]);
this.v7l ^= (0, utils_ts_1.swap8IfBE)(pers[2]);
this.v7h ^= (0, utils_ts_1.swap8IfBE)(pers[3]);
}
if (key !== undefined) {
// Pad to blockLen and update
const tmp = new Uint8Array(this.blockLen);
tmp.set(key);
this.update(tmp);
}
}
// prettier-ignore
get() {
let { v0l, v0h, v1l, v1h, v2l, v2h, v3l, v3h, v4l, v4h, v5l, v5h, v6l, v6h, v7l, v7h } = this;
return [v0l, v0h, v1l, v1h, v2l, v2h, v3l, v3h, v4l, v4h, v5l, v5h, v6l, v6h, v7l, v7h];
}
// prettier-ignore
set(v0l, v0h, v1l, v1h, v2l, v2h, v3l, v3h, v4l, v4h, v5l, v5h, v6l, v6h, v7l, v7h) {
this.v0l = v0l | 0;
this.v0h = v0h | 0;
this.v1l = v1l | 0;
this.v1h = v1h | 0;
this.v2l = v2l | 0;
this.v2h = v2h | 0;
this.v3l = v3l | 0;
this.v3h = v3h | 0;
this.v4l = v4l | 0;
this.v4h = v4h | 0;
this.v5l = v5l | 0;
this.v5h = v5h | 0;
this.v6l = v6l | 0;
this.v6h = v6h | 0;
this.v7l = v7l | 0;
this.v7h = v7h | 0;
}
compress(msg, offset, isLast) {
this.get().forEach((v, i) => (BBUF[i] = v)); // First half from state.
BBUF.set(B2B_IV, 16); // Second half from IV.
let { h, l } = u64.fromBig(BigInt(this.length));
BBUF[24] = B2B_IV[8] ^ l; // Low word of the offset.
BBUF[25] = B2B_IV[9] ^ h; // High word.
// Invert all bits for last block
if (isLast) {
BBUF[28] = ~BBUF[28];
BBUF[29] = ~BBUF[29];
}
let j = 0;
const s = _blake_ts_1.BSIGMA;
for (let i = 0; i < 12; i++) {
G1b(0, 4, 8, 12, msg, offset + 2 * s[j++]);
G2b(0, 4, 8, 12, msg, offset + 2 * s[j++]);
G1b(1, 5, 9, 13, msg, offset + 2 * s[j++]);
G2b(1, 5, 9, 13, msg, offset + 2 * s[j++]);
G1b(2, 6, 10, 14, msg, offset + 2 * s[j++]);
G2b(2, 6, 10, 14, msg, offset + 2 * s[j++]);
G1b(3, 7, 11, 15, msg, offset + 2 * s[j++]);
G2b(3, 7, 11, 15, msg, offset + 2 * s[j++]);
G1b(0, 5, 10, 15, msg, offset + 2 * s[j++]);
G2b(0, 5, 10, 15, msg, offset + 2 * s[j++]);
G1b(1, 6, 11, 12, msg, offset + 2 * s[j++]);
G2b(1, 6, 11, 12, msg, offset + 2 * s[j++]);
G1b(2, 7, 8, 13, msg, offset + 2 * s[j++]);
G2b(2, 7, 8, 13, msg, offset + 2 * s[j++]);
G1b(3, 4, 9, 14, msg, offset + 2 * s[j++]);
G2b(3, 4, 9, 14, msg, offset + 2 * s[j++]);
}
this.v0l ^= BBUF[0] ^ BBUF[16];
this.v0h ^= BBUF[1] ^ BBUF[17];
this.v1l ^= BBUF[2] ^ BBUF[18];
this.v1h ^= BBUF[3] ^ BBUF[19];
this.v2l ^= BBUF[4] ^ BBUF[20];
this.v2h ^= BBUF[5] ^ BBUF[21];
this.v3l ^= BBUF[6] ^ BBUF[22];
this.v3h ^= BBUF[7] ^ BBUF[23];
this.v4l ^= BBUF[8] ^ BBUF[24];
this.v4h ^= BBUF[9] ^ BBUF[25];
this.v5l ^= BBUF[10] ^ BBUF[26];
this.v5h ^= BBUF[11] ^ BBUF[27];
this.v6l ^= BBUF[12] ^ BBUF[28];
this.v6h ^= BBUF[13] ^ BBUF[29];
this.v7l ^= BBUF[14] ^ BBUF[30];
this.v7h ^= BBUF[15] ^ BBUF[31];
(0, utils_ts_1.clean)(BBUF);
}
destroy() {
this.destroyed = true;
(0, utils_ts_1.clean)(this.buffer32);
this.set(0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
}
}
exports.BLAKE2b = BLAKE2b;
/**
* Blake2b hash function. 64-bit. 1.5x slower than blake2s in JS.
* @param msg - message that would be hashed
* @param opts - dkLen output length, key for MAC mode, salt, personalization
*/
exports.blake2b = (0, utils_ts_1.createOptHasher)((opts) => new BLAKE2b(opts));
// prettier-ignore
function compress(s, offset, msg, rounds, v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15) {
let j = 0;
for (let i = 0; i < rounds; i++) {
({ a: v0, b: v4, c: v8, d: v12 } = (0, _blake_ts_1.G1s)(v0, v4, v8, v12, msg[offset + s[j++]]));
({ a: v0, b: v4, c: v8, d: v12 } = (0, _blake_ts_1.G2s)(v0, v4, v8, v12, msg[offset + s[j++]]));
({ a: v1, b: v5, c: v9, d: v13 } = (0, _blake_ts_1.G1s)(v1, v5, v9, v13, msg[offset + s[j++]]));
({ a: v1, b: v5, c: v9, d: v13 } = (0, _blake_ts_1.G2s)(v1, v5, v9, v13, msg[offset + s[j++]]));
({ a: v2, b: v6, c: v10, d: v14 } = (0, _blake_ts_1.G1s)(v2, v6, v10, v14, msg[offset + s[j++]]));
({ a: v2, b: v6, c: v10, d: v14 } = (0, _blake_ts_1.G2s)(v2, v6, v10, v14, msg[offset + s[j++]]));
({ a: v3, b: v7, c: v11, d: v15 } = (0, _blake_ts_1.G1s)(v3, v7, v11, v15, msg[offset + s[j++]]));
({ a: v3, b: v7, c: v11, d: v15 } = (0, _blake_ts_1.G2s)(v3, v7, v11, v15, msg[offset + s[j++]]));
({ a: v0, b: v5, c: v10, d: v15 } = (0, _blake_ts_1.G1s)(v0, v5, v10, v15, msg[offset + s[j++]]));
({ a: v0, b: v5, c: v10, d: v15 } = (0, _blake_ts_1.G2s)(v0, v5, v10, v15, msg[offset + s[j++]]));
({ a: v1, b: v6, c: v11, d: v12 } = (0, _blake_ts_1.G1s)(v1, v6, v11, v12, msg[offset + s[j++]]));
({ a: v1, b: v6, c: v11, d: v12 } = (0, _blake_ts_1.G2s)(v1, v6, v11, v12, msg[offset + s[j++]]));
({ a: v2, b: v7, c: v8, d: v13 } = (0, _blake_ts_1.G1s)(v2, v7, v8, v13, msg[offset + s[j++]]));
({ a: v2, b: v7, c: v8, d: v13 } = (0, _blake_ts_1.G2s)(v2, v7, v8, v13, msg[offset + s[j++]]));
({ a: v3, b: v4, c: v9, d: v14 } = (0, _blake_ts_1.G1s)(v3, v4, v9, v14, msg[offset + s[j++]]));
({ a: v3, b: v4, c: v9, d: v14 } = (0, _blake_ts_1.G2s)(v3, v4, v9, v14, msg[offset + s[j++]]));
}
return { v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15 };
}
const B2S_IV = _md_ts_1.SHA256_IV;
class BLAKE2s extends BLAKE2 {
constructor(opts = {}) {
const olen = opts.dkLen === undefined ? 32 : opts.dkLen;
super(64, olen);
// Internal state, same as SHA-256
this.v0 = B2S_IV[0] | 0;
this.v1 = B2S_IV[1] | 0;
this.v2 = B2S_IV[2] | 0;
this.v3 = B2S_IV[3] | 0;
this.v4 = B2S_IV[4] | 0;
this.v5 = B2S_IV[5] | 0;
this.v6 = B2S_IV[6] | 0;
this.v7 = B2S_IV[7] | 0;
checkBlake2Opts(olen, opts, 32, 8, 8);
let { key, personalization, salt } = opts;
let keyLength = 0;
if (key !== undefined) {
key = (0, utils_ts_1.toBytes)(key);
keyLength = key.length;
}
this.v0 ^= this.outputLen | (keyLength << 8) | (0x01 << 16) | (0x01 << 24);
if (salt !== undefined) {
salt = (0, utils_ts_1.toBytes)(salt);
const slt = (0, utils_ts_1.u32)(salt);
this.v4 ^= (0, utils_ts_1.swap8IfBE)(slt[0]);
this.v5 ^= (0, utils_ts_1.swap8IfBE)(slt[1]);
}
if (personalization !== undefined) {
personalization = (0, utils_ts_1.toBytes)(personalization);
const pers = (0, utils_ts_1.u32)(personalization);
this.v6 ^= (0, utils_ts_1.swap8IfBE)(pers[0]);
this.v7 ^= (0, utils_ts_1.swap8IfBE)(pers[1]);
}
if (key !== undefined) {
// Pad to blockLen and update
(0, utils_ts_1.abytes)(key);
const tmp = new Uint8Array(this.blockLen);
tmp.set(key);
this.update(tmp);
}
}
get() {
const { v0, v1, v2, v3, v4, v5, v6, v7 } = this;
return [v0, v1, v2, v3, v4, v5, v6, v7];
}
// prettier-ignore
set(v0, v1, v2, v3, v4, v5, v6, v7) {
this.v0 = v0 | 0;
this.v1 = v1 | 0;
this.v2 = v2 | 0;
this.v3 = v3 | 0;
this.v4 = v4 | 0;
this.v5 = v5 | 0;
this.v6 = v6 | 0;
this.v7 = v7 | 0;
}
compress(msg, offset, isLast) {
const { h, l } = u64.fromBig(BigInt(this.length));
// prettier-ignore
const { v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14, v15 } = compress(_blake_ts_1.BSIGMA, offset, msg, 10, this.v0, this.v1, this.v2, this.v3, this.v4, this.v5, this.v6, this.v7, B2S_IV[0], B2S_IV[1], B2S_IV[2], B2S_IV[3], l ^ B2S_IV[4], h ^ B2S_IV[5], isLast ? ~B2S_IV[6] : B2S_IV[6], B2S_IV[7]);
this.v0 ^= v0 ^ v8;
this.v1 ^= v1 ^ v9;
this.v2 ^= v2 ^ v10;
this.v3 ^= v3 ^ v11;
this.v4 ^= v4 ^ v12;
this.v5 ^= v5 ^ v13;
this.v6 ^= v6 ^ v14;
this.v7 ^= v7 ^ v15;
}
destroy() {
this.destroyed = true;
(0, utils_ts_1.clean)(this.buffer32);
this.set(0, 0, 0, 0, 0, 0, 0, 0);
}
}
exports.BLAKE2s = BLAKE2s;
/**
* Blake2s hash function. Focuses on 8-bit to 32-bit platforms. 1.5x faster than blake2b in JS.
* @param msg - message that would be hashed
* @param opts - dkLen output length, key for MAC mode, salt, personalization
*/
exports.blake2s = (0, utils_ts_1.createOptHasher)((opts) => new BLAKE2s(opts));
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