seven
/
bot-28


			
				
					
						
						
							123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778
							"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.hkdf = exports.expand = exports.extract = void 0;
const _assert_js_1 = require("./_assert.js");
const utils_js_1 = require("./utils.js");
const hmac_js_1 = require("./hmac.js");
// HKDF (RFC 5869)
// https://soatok.blog/2021/11/17/understanding-hkdf/
/**
 * HKDF-Extract(IKM, salt) -> PRK
 * Arguments position differs from spec (IKM is first one, since it is not optional)
 * @param hash
 * @param ikm
 * @param salt
 * @returns
 */
function extract(hash, ikm, salt) {
    (0, _assert_js_1.hash)(hash);
    // NOTE: some libraries treat zero-length array as 'not provided';
    // we don't, since we have undefined as 'not provided'
    // https://github.com/RustCrypto/KDFs/issues/15
    if (salt === undefined)
        salt = new Uint8Array(hash.outputLen); // if not provided, it is set to a string of HashLen zeros
    return (0, hmac_js_1.hmac)(hash, (0, utils_js_1.toBytes)(salt), (0, utils_js_1.toBytes)(ikm));
}
exports.extract = extract;
// HKDF-Expand(PRK, info, L) -> OKM
const HKDF_COUNTER = /* @__PURE__ */ new Uint8Array([0]);
const EMPTY_BUFFER = /* @__PURE__ */ new Uint8Array();
/**
 * HKDF-expand from the spec.
 * @param prk - a pseudorandom key of at least HashLen octets (usually, the output from the extract step)
 * @param info - optional context and application specific information (can be a zero-length string)
 * @param length - length of output keying material in octets
 */
function expand(hash, prk, info, length = 32) {
    (0, _assert_js_1.hash)(hash);
    (0, _assert_js_1.number)(length);
    if (length > 255 * hash.outputLen)
        throw new Error('Length should be <= 255*HashLen');
    const blocks = Math.ceil(length / hash.outputLen);
    if (info === undefined)
        info = EMPTY_BUFFER;
    // first L(ength) octets of T
    const okm = new Uint8Array(blocks * hash.outputLen);
    // Re-use HMAC instance between blocks
    const HMAC = hmac_js_1.hmac.create(hash, prk);
    const HMACTmp = HMAC._cloneInto();
    const T = new Uint8Array(HMAC.outputLen);
    for (let counter = 0; counter < blocks; counter++) {
        HKDF_COUNTER[0] = counter + 1;
        // T(0) = empty string (zero length)
        // T(N) = HMAC-Hash(PRK, T(N-1) | info | N)
        HMACTmp.update(counter === 0 ? EMPTY_BUFFER : T)
            .update(info)
            .update(HKDF_COUNTER)
            .digestInto(T);
        okm.set(T, hash.outputLen * counter);
        HMAC._cloneInto(HMACTmp);
    }
    HMAC.destroy();
    HMACTmp.destroy();
    T.fill(0);
    HKDF_COUNTER.fill(0);
    return okm.slice(0, length);
}
exports.expand = expand;
/**
 * HKDF (RFC 5869): extract + expand in one step.
 * @param hash - hash function that would be used (e.g. sha256)
 * @param ikm - input keying material, the initial key
 * @param salt - optional salt value (a non-secret random value)
 * @param info - optional context and application specific information
 * @param length - length of output keying material in octets
 */
const hkdf = (hash, ikm, salt, info, length) => expand(hash, extract(hash, ikm, salt), info, length);
exports.hkdf = hkdf;
//# sourceMappingURL=hkdf.js.map