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Просмотр файла: pbkdf2.js

import { hash as assertHash, number as assertNumber } from './_assert.js';
import { hmac } from './hmac.js';
import { createView, toBytes, checkOpts, asyncLoop } from './utils.js';
// Common prologue and epilogue for sync/async functions
function pbkdf2Init(hash, _password, _salt, _opts) {
    assertHash(hash);
    const opts = checkOpts({ dkLen: 32, asyncTick: 10 }, _opts);
    const { c, dkLen, asyncTick } = opts;
    assertNumber(c);
    assertNumber(dkLen);
    assertNumber(asyncTick);
    if (c < 1)
        throw new Error('PBKDF2: iterations (c) should be >= 1');
    const password = toBytes(_password);
    const salt = toBytes(_salt);
    // DK = PBKDF2(PRF, Password, Salt, c, dkLen);
    const DK = new Uint8Array(dkLen);
    // U1 = PRF(Password, Salt + INT_32_BE(i))
    const PRF = hmac.create(hash, password);
    const PRFSalt = PRF._cloneInto().update(salt);
    return { c, dkLen, asyncTick, DK, PRF, PRFSalt };
}
function pbkdf2Output(PRF, PRFSalt, DK, prfW, u) {
    PRF.destroy();
    PRFSalt.destroy();
    if (prfW)
        prfW.destroy();
    u.fill(0);
    return DK;
}
/**
 * PBKDF2-HMAC: RFC 2898 key derivation function
 * @param hash - hash function that would be used e.g. sha256
 * @param password - password from which a derived key is generated
 * @param salt - cryptographic salt
 * @param opts - {c, dkLen} where c is work factor and dkLen is output message size
 */
export function pbkdf2(hash, password, salt, opts) {
    const { c, dkLen, DK, PRF, PRFSalt } = pbkdf2Init(hash, password, salt, opts);
    let prfW; // Working copy
    const arr = new Uint8Array(4);
    const view = createView(arr);
    const u = new Uint8Array(PRF.outputLen);
    // DK = T1 + T2 + ⋯ + Tdklen/hlen
    for (let ti = 1, pos = 0; pos < dkLen; ti++, pos += PRF.outputLen) {
        // Ti = F(Password, Salt, c, i)
        const Ti = DK.subarray(pos, pos + PRF.outputLen);
        view.setInt32(0, ti, false);
        // F(Password, Salt, c, i) = U1 ^ U2 ^ ⋯ ^ Uc
        // U1 = PRF(Password, Salt + INT_32_BE(i))
        (prfW = PRFSalt._cloneInto(prfW)).update(arr).digestInto(u);
        Ti.set(u.subarray(0, Ti.length));
        for (let ui = 1; ui < c; ui++) {
            // Uc = PRF(Password, Uc−1)
            PRF._cloneInto(prfW).update(u).digestInto(u);
            for (let i = 0; i < Ti.length; i++)
                Ti[i] ^= u[i];
        }
    }
    return pbkdf2Output(PRF, PRFSalt, DK, prfW, u);
}
export async function pbkdf2Async(hash, password, salt, opts) {
    const { c, dkLen, asyncTick, DK, PRF, PRFSalt } = pbkdf2Init(hash, password, salt, opts);
    let prfW; // Working copy
    const arr = new Uint8Array(4);
    const view = createView(arr);
    const u = new Uint8Array(PRF.outputLen);
    // DK = T1 + T2 + ⋯ + Tdklen/hlen
    for (let ti = 1, pos = 0; pos < dkLen; ti++, pos += PRF.outputLen) {
        // Ti = F(Password, Salt, c, i)
        const Ti = DK.subarray(pos, pos + PRF.outputLen);
        view.setInt32(0, ti, false);
        // F(Password, Salt, c, i) = U1 ^ U2 ^ ⋯ ^ Uc
        // U1 = PRF(Password, Salt + INT_32_BE(i))
        (prfW = PRFSalt._cloneInto(prfW)).update(arr).digestInto(u);
        Ti.set(u.subarray(0, Ti.length));
        await asyncLoop(c - 1, asyncTick, () => {
            // Uc = PRF(Password, Uc−1)
            PRF._cloneInto(prfW).update(u).digestInto(u);
            for (let i = 0; i < Ti.length; i++)
                Ti[i] ^= u[i];
        });
    }
    return pbkdf2Output(PRF, PRFSalt, DK, prfW, u);
}
//# sourceMappingURL=pbkdf2.js.map

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