super_ball/thrower_daemon/node_modules/@noble/ciphers/esm/chacha.js

// prettier-ignore
import { wrapCipher, createView, equalBytes, setBigUint64, } from './utils.js';
import { poly1305 } from './_poly1305.js';
import { createCipher, rotl } from './_arx.js';
import { bytes as abytes } from './_assert.js';
// ChaCha20 stream cipher was released in 2008. ChaCha aims to increase
// the diffusion per round, but had slightly less cryptanalysis.
// https://cr.yp.to/chacha.html, http://cr.yp.to/chacha/chacha-20080128.pdf
/**
 * ChaCha core function.
 */
// prettier-ignore
function chachaCore(s, k, n, out, cnt, rounds = 20) {
    let y00 = s[0], y01 = s[1], y02 = s[2], y03 = s[3], // "expa"   "nd 3"  "2-by"  "te k"
    y04 = k[0], y05 = k[1], y06 = k[2], y07 = k[3], // Key      Key     Key     Key
    y08 = k[4], y09 = k[5], y10 = k[6], y11 = k[7], // Key      Key     Key     Key
    y12 = cnt, y13 = n[0], y14 = n[1], y15 = n[2]; // Counter  Counter	Nonce   Nonce
    // Save state to temporary variables
    let x00 = y00, x01 = y01, x02 = y02, x03 = y03, x04 = y04, x05 = y05, x06 = y06, x07 = y07, x08 = y08, x09 = y09, x10 = y10, x11 = y11, x12 = y12, x13 = y13, x14 = y14, x15 = y15;
    for (let r = 0; r < rounds; r += 2) {
        x00 = (x00 + x04) | 0;
        x12 = rotl(x12 ^ x00, 16);
        x08 = (x08 + x12) | 0;
        x04 = rotl(x04 ^ x08, 12);
        x00 = (x00 + x04) | 0;
        x12 = rotl(x12 ^ x00, 8);
        x08 = (x08 + x12) | 0;
        x04 = rotl(x04 ^ x08, 7);
        x01 = (x01 + x05) | 0;
        x13 = rotl(x13 ^ x01, 16);
        x09 = (x09 + x13) | 0;
        x05 = rotl(x05 ^ x09, 12);
        x01 = (x01 + x05) | 0;
        x13 = rotl(x13 ^ x01, 8);
        x09 = (x09 + x13) | 0;
        x05 = rotl(x05 ^ x09, 7);
        x02 = (x02 + x06) | 0;
        x14 = rotl(x14 ^ x02, 16);
        x10 = (x10 + x14) | 0;
        x06 = rotl(x06 ^ x10, 12);
        x02 = (x02 + x06) | 0;
        x14 = rotl(x14 ^ x02, 8);
        x10 = (x10 + x14) | 0;
        x06 = rotl(x06 ^ x10, 7);
        x03 = (x03 + x07) | 0;
        x15 = rotl(x15 ^ x03, 16);
        x11 = (x11 + x15) | 0;
        x07 = rotl(x07 ^ x11, 12);
        x03 = (x03 + x07) | 0;
        x15 = rotl(x15 ^ x03, 8);
        x11 = (x11 + x15) | 0;
        x07 = rotl(x07 ^ x11, 7);
        x00 = (x00 + x05) | 0;
        x15 = rotl(x15 ^ x00, 16);
        x10 = (x10 + x15) | 0;
        x05 = rotl(x05 ^ x10, 12);
        x00 = (x00 + x05) | 0;
        x15 = rotl(x15 ^ x00, 8);
        x10 = (x10 + x15) | 0;
        x05 = rotl(x05 ^ x10, 7);
        x01 = (x01 + x06) | 0;
        x12 = rotl(x12 ^ x01, 16);
        x11 = (x11 + x12) | 0;
        x06 = rotl(x06 ^ x11, 12);
        x01 = (x01 + x06) | 0;
        x12 = rotl(x12 ^ x01, 8);
        x11 = (x11 + x12) | 0;
        x06 = rotl(x06 ^ x11, 7);
        x02 = (x02 + x07) | 0;
        x13 = rotl(x13 ^ x02, 16);
        x08 = (x08 + x13) | 0;
        x07 = rotl(x07 ^ x08, 12);
        x02 = (x02 + x07) | 0;
        x13 = rotl(x13 ^ x02, 8);
        x08 = (x08 + x13) | 0;
        x07 = rotl(x07 ^ x08, 7);
        x03 = (x03 + x04) | 0;
        x14 = rotl(x14 ^ x03, 16);
        x09 = (x09 + x14) | 0;
        x04 = rotl(x04 ^ x09, 12);
        x03 = (x03 + x04) | 0;
        x14 = rotl(x14 ^ x03, 8);
        x09 = (x09 + x14) | 0;
        x04 = rotl(x04 ^ x09, 7);
    }
    // Write output
    let oi = 0;
    out[oi++] = (y00 + x00) | 0;
    out[oi++] = (y01 + x01) | 0;
    out[oi++] = (y02 + x02) | 0;
    out[oi++] = (y03 + x03) | 0;
    out[oi++] = (y04 + x04) | 0;
    out[oi++] = (y05 + x05) | 0;
    out[oi++] = (y06 + x06) | 0;
    out[oi++] = (y07 + x07) | 0;
    out[oi++] = (y08 + x08) | 0;
    out[oi++] = (y09 + x09) | 0;
    out[oi++] = (y10 + x10) | 0;
    out[oi++] = (y11 + x11) | 0;
    out[oi++] = (y12 + x12) | 0;
    out[oi++] = (y13 + x13) | 0;
    out[oi++] = (y14 + x14) | 0;
    out[oi++] = (y15 + x15) | 0;
}
/**
 * hchacha helper method, used primarily in xchacha, to hash
 * key and nonce into key' and nonce'.
 * Same as chachaCore, but there doesn't seem to be a way to move the block
 * out without 25% performance hit.
 */
// prettier-ignore
export function hchacha(s, k, i, o32) {
    let x00 = s[0], x01 = s[1], x02 = s[2], x03 = s[3], x04 = k[0], x05 = k[1], x06 = k[2], x07 = k[3], x08 = k[4], x09 = k[5], x10 = k[6], x11 = k[7], x12 = i[0], x13 = i[1], x14 = i[2], x15 = i[3];
    for (let r = 0; r < 20; r += 2) {
        x00 = (x00 + x04) | 0;
        x12 = rotl(x12 ^ x00, 16);
        x08 = (x08 + x12) | 0;
        x04 = rotl(x04 ^ x08, 12);
        x00 = (x00 + x04) | 0;
        x12 = rotl(x12 ^ x00, 8);
        x08 = (x08 + x12) | 0;
        x04 = rotl(x04 ^ x08, 7);
        x01 = (x01 + x05) | 0;
        x13 = rotl(x13 ^ x01, 16);
        x09 = (x09 + x13) | 0;
        x05 = rotl(x05 ^ x09, 12);
        x01 = (x01 + x05) | 0;
        x13 = rotl(x13 ^ x01, 8);
        x09 = (x09 + x13) | 0;
        x05 = rotl(x05 ^ x09, 7);
        x02 = (x02 + x06) | 0;
        x14 = rotl(x14 ^ x02, 16);
        x10 = (x10 + x14) | 0;
        x06 = rotl(x06 ^ x10, 12);
        x02 = (x02 + x06) | 0;
        x14 = rotl(x14 ^ x02, 8);
        x10 = (x10 + x14) | 0;
        x06 = rotl(x06 ^ x10, 7);
        x03 = (x03 + x07) | 0;
        x15 = rotl(x15 ^ x03, 16);
        x11 = (x11 + x15) | 0;
        x07 = rotl(x07 ^ x11, 12);
        x03 = (x03 + x07) | 0;
        x15 = rotl(x15 ^ x03, 8);
        x11 = (x11 + x15) | 0;
        x07 = rotl(x07 ^ x11, 7);
        x00 = (x00 + x05) | 0;
        x15 = rotl(x15 ^ x00, 16);
        x10 = (x10 + x15) | 0;
        x05 = rotl(x05 ^ x10, 12);
        x00 = (x00 + x05) | 0;
        x15 = rotl(x15 ^ x00, 8);
        x10 = (x10 + x15) | 0;
        x05 = rotl(x05 ^ x10, 7);
        x01 = (x01 + x06) | 0;
        x12 = rotl(x12 ^ x01, 16);
        x11 = (x11 + x12) | 0;
        x06 = rotl(x06 ^ x11, 12);
        x01 = (x01 + x06) | 0;
        x12 = rotl(x12 ^ x01, 8);
        x11 = (x11 + x12) | 0;
        x06 = rotl(x06 ^ x11, 7);
        x02 = (x02 + x07) | 0;
        x13 = rotl(x13 ^ x02, 16);
        x08 = (x08 + x13) | 0;
        x07 = rotl(x07 ^ x08, 12);
        x02 = (x02 + x07) | 0;
        x13 = rotl(x13 ^ x02, 8);
        x08 = (x08 + x13) | 0;
        x07 = rotl(x07 ^ x08, 7);
        x03 = (x03 + x04) | 0;
        x14 = rotl(x14 ^ x03, 16);
        x09 = (x09 + x14) | 0;
        x04 = rotl(x04 ^ x09, 12);
        x03 = (x03 + x04) | 0;
        x14 = rotl(x14 ^ x03, 8);
        x09 = (x09 + x14) | 0;
        x04 = rotl(x04 ^ x09, 7);
    }
    let oi = 0;
    o32[oi++] = x00;
    o32[oi++] = x01;
    o32[oi++] = x02;
    o32[oi++] = x03;
    o32[oi++] = x12;
    o32[oi++] = x13;
    o32[oi++] = x14;
    o32[oi++] = x15;
}
/**
 * Original, non-RFC chacha20 from DJB. 8-byte nonce, 8-byte counter.
 */
export const chacha20orig = /* @__PURE__ */ createCipher(chachaCore, {
    counterRight: false,
    counterLength: 8,
    allowShortKeys: true,
});
/**
 * ChaCha stream cipher. Conforms to RFC 8439 (IETF, TLS). 12-byte nonce, 4-byte counter.
 * With 12-byte nonce, it's not safe to use fill it with random (CSPRNG), due to collision chance.
 */
export const chacha20 = /* @__PURE__ */ createCipher(chachaCore, {
    counterRight: false,
    counterLength: 4,
    allowShortKeys: false,
});
/**
 * XChaCha eXtended-nonce ChaCha. 24-byte nonce.
 * With 24-byte nonce, it's safe to use fill it with random (CSPRNG).
 * https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-xchacha
 */
export const xchacha20 = /* @__PURE__ */ createCipher(chachaCore, {
    counterRight: false,
    counterLength: 8,
    extendNonceFn: hchacha,
    allowShortKeys: false,
});
/**
 * Reduced 8-round chacha, described in original paper.
 */
export const chacha8 = /* @__PURE__ */ createCipher(chachaCore, {
    counterRight: false,
    counterLength: 4,
    rounds: 8,
});
/**
 * Reduced 12-round chacha, described in original paper.
 */
export const chacha12 = /* @__PURE__ */ createCipher(chachaCore, {
    counterRight: false,
    counterLength: 4,
    rounds: 12,
});
const ZEROS16 = /* @__PURE__ */ new Uint8Array(16);
// Pad to digest size with zeros
const updatePadded = (h, msg) => {
    h.update(msg);
    const left = msg.length % 16;
    if (left)
        h.update(ZEROS16.subarray(left));
};
const ZEROS32 = /* @__PURE__ */ new Uint8Array(32);
function computeTag(fn, key, nonce, data, AAD) {
    const authKey = fn(key, nonce, ZEROS32);
    const h = poly1305.create(authKey);
    if (AAD)
        updatePadded(h, AAD);
    updatePadded(h, data);
    const num = new Uint8Array(16);
    const view = createView(num);
    setBigUint64(view, 0, BigInt(AAD ? AAD.length : 0), true);
    setBigUint64(view, 8, BigInt(data.length), true);
    h.update(num);
    const res = h.digest();
    authKey.fill(0);
    return res;
}
/**
 * AEAD algorithm from RFC 8439.
 * Salsa20 and chacha (RFC 8439) use poly1305 differently.
 * We could have composed them similar to:
 * https://github.com/paulmillr/scure-base/blob/b266c73dde977b1dd7ef40ef7a23cc15aab526b3/index.ts#L250
 * But it's hard because of authKey:
 * In salsa20, authKey changes position in salsa stream.
 * In chacha, authKey can't be computed inside computeTag, it modifies the counter.
 */
export const _poly1305_aead = (xorStream) => (key, nonce, AAD) => {
    const tagLength = 16;
    abytes(key, 32);
    abytes(nonce);
    return {
        encrypt: (plaintext, output) => {
            const plength = plaintext.length;
            const clength = plength + tagLength;
            if (output) {
                abytes(output, clength);
            }
            else {
                output = new Uint8Array(clength);
            }
            xorStream(key, nonce, plaintext, output, 1);
            const tag = computeTag(xorStream, key, nonce, output.subarray(0, -tagLength), AAD);
            output.set(tag, plength); // append tag
            return output;
        },
        decrypt: (ciphertext, output) => {
            const clength = ciphertext.length;
            const plength = clength - tagLength;
            if (clength < tagLength)
                throw new Error(`encrypted data must be at least ${tagLength} bytes`);
            if (output) {
                abytes(output, plength);
            }
            else {
                output = new Uint8Array(plength);
            }
            const data = ciphertext.subarray(0, -tagLength);
            const passedTag = ciphertext.subarray(-tagLength);
            const tag = computeTag(xorStream, key, nonce, data, AAD);
            if (!equalBytes(passedTag, tag))
                throw new Error('invalid tag');
            xorStream(key, nonce, data, output, 1);
            return output;
        },
    };
};
/**
 * ChaCha20-Poly1305 from RFC 8439.
 * With 12-byte nonce, it's not safe to use fill it with random (CSPRNG), due to collision chance.
 */
export const chacha20poly1305 = /* @__PURE__ */ wrapCipher({ blockSize: 64, nonceLength: 12, tagLength: 16 }, _poly1305_aead(chacha20));
/**
 * XChaCha20-Poly1305 extended-nonce chacha.
 * https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-xchacha
 * With 24-byte nonce, it's safe to use fill it with random (CSPRNG).
 */
export const xchacha20poly1305 = /* @__PURE__ */ wrapCipher({ blockSize: 64, nonceLength: 24, tagLength: 16 }, _poly1305_aead(xchacha20));
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