frontend/.pnpm-store/v3/files/a2/1d53882ee0ad610f1f85f4ae0c53865b3cf20c36a7f1d7b454ca53b777db1e198e4cc61d7fed470dc8a94f8d88f1c036b99de37f32f2ee5aa39e753adfaaaf

"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.hmac = void 0;
const _assert_js_1 = require("./_assert.js");
const utils_js_1 = require("./utils.js");
// HMAC (RFC 2104)
class HMAC extends utils_js_1.Hash {
    constructor(hash, _key) {
        super();
        this.finished = false;
        this.destroyed = false;
        _assert_js_1.default.hash(hash);
        const key = (0, utils_js_1.toBytes)(_key);
        this.iHash = hash.create();
        if (typeof this.iHash.update !== 'function')
            throw new TypeError('Expected instance of class which extends utils.Hash');
        this.blockLen = this.iHash.blockLen;
        this.outputLen = this.iHash.outputLen;
        const blockLen = this.blockLen;
        const pad = new Uint8Array(blockLen);
        // blockLen can be bigger than outputLen
        pad.set(key.length > blockLen ? hash.create().update(key).digest() : key);
        for (let i = 0; i < pad.length; i++)
            pad[i] ^= 0x36;
        this.iHash.update(pad);
        // By doing update (processing of first block) of outer hash here we can re-use it between multiple calls via clone
        this.oHash = hash.create();
        // Undo internal XOR && apply outer XOR
        for (let i = 0; i < pad.length; i++)
            pad[i] ^= 0x36 ^ 0x5c;
        this.oHash.update(pad);
        pad.fill(0);
    }
    update(buf) {
        _assert_js_1.default.exists(this);
        this.iHash.update(buf);
        return this;
    }
    digestInto(out) {
        _assert_js_1.default.exists(this);
        _assert_js_1.default.bytes(out, this.outputLen);
        this.finished = true;
        this.iHash.digestInto(out);
        this.oHash.update(out);
        this.oHash.digestInto(out);
        this.destroy();
    }
    digest() {
        const out = new Uint8Array(this.oHash.outputLen);
        this.digestInto(out);
        return out;
    }
    _cloneInto(to) {
        // Create new instance without calling constructor since key already in state and we don't know it.
        to || (to = Object.create(Object.getPrototypeOf(this), {}));
        const { oHash, iHash, finished, destroyed, blockLen, outputLen } = this;
        to = to;
        to.finished = finished;
        to.destroyed = destroyed;
        to.blockLen = blockLen;
        to.outputLen = outputLen;
        to.oHash = oHash._cloneInto(to.oHash);
        to.iHash = iHash._cloneInto(to.iHash);
        return to;
    }
    destroy() {
        this.destroyed = true;
        this.oHash.destroy();
        this.iHash.destroy();
    }
}
/**
 * HMAC: RFC2104 message authentication code.
 * @param hash - function that would be used e.g. sha256
 * @param key - message key
 * @param message - message data
 */
const hmac = (hash, key, message) => new HMAC(hash, key).update(message).digest();
exports.hmac = hmac;
exports.hmac.create = (hash, key) => new HMAC(hash, key);
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