ethers.js/lib.commonjs/crypto/scrypt.js

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.scryptSync = exports.scrypt = void 0;
const scrypt_1 = require("@noble/hashes/scrypt");
const index_js_1 = require("../utils/index.js");
let lockedSync = false, lockedAsync = false;
const _scryptAsync = async function (passwd, salt, N, r, p, dkLen, onProgress) {
return await (0, scrypt_1.scryptAsync)(passwd, salt, { N, r, p, dkLen, onProgress });
};
const _scryptSync = function (passwd, salt, N, r, p, dkLen) {
return (0, scrypt_1.scrypt)(passwd, salt, { N, r, p, dkLen });
};
let __scryptAsync = _scryptAsync;
let __scryptSync = _scryptSync;
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/**
* The [[link-wiki-scrypt]] uses a memory and cpu hard method of
* derivation to increase the resource cost to brute-force a password
* for a given key.
*
* This means this algorithm is intentionally slow, and can be tuned to
* become slower. As computation and memory speed improve over time,
* increasing the difficulty maintains the cost of an attacker.
*
* For example, if a target time of 5 seconds is used, a legitimate user
* which knows their password requires only 5 seconds to unlock their
* account. A 6 character password has 68 billion possibilities, which
* would require an attacker to invest over 10,000 years of CPU time. This
* is of course a crude example (as password generally aren't random),
* but demonstrates to value of imposing large costs to decryption.
*
* For this reason, if building a UI which involved decrypting or
* encrypting datsa using scrypt, it is recommended to use a
* [[ProgressCallback]] (as event short periods can seem lik an eternity
* if the UI freezes). Including the phrase //"decrypting"// in the UI
* can also help, assuring the user their waiting is for a good reason.
*
* @_docloc: api/crypto:Passwords
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*
* @example:
* // The password must be converted to bytes, and it is generally
* // best practices to ensure the string has been normalized. Many
* // formats explicitly indicate the normalization form to use.
* password = "hello"
* passwordBytes = toUtf8Bytes(password, "NFKC")
*
* salt = id("some-salt")
*
* // Compute the scrypt
* scrypt(passwordBytes, salt, 1024, 8, 1, 16)
* //_result:
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*/
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async function scrypt(_passwd, _salt, N, r, p, dkLen, progress) {
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const passwd = (0, index_js_1.getBytes)(_passwd, "passwd");
const salt = (0, index_js_1.getBytes)(_salt, "salt");
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return (0, index_js_1.hexlify)(await __scryptAsync(passwd, salt, N, r, p, dkLen, progress));
}
exports.scrypt = scrypt;
scrypt._ = _scryptAsync;
scrypt.lock = function () { lockedAsync = true; };
scrypt.register = function (func) {
if (lockedAsync) {
throw new Error("scrypt is locked");
}
__scryptAsync = func;
};
Object.freeze(scrypt);
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/**
* Provides a synchronous variant of [[scrypt]].
*
* This will completely lock up and freeze the UI in a browser and will
* prevent any event loop from progressing. For this reason, it is
* preferred to use the [async variant](scrypt).
*
* @_docloc: api/crypto:Passwords
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*
* @example:
* // The password must be converted to bytes, and it is generally
* // best practices to ensure the string has been normalized. Many
* // formats explicitly indicate the normalization form to use.
* password = "hello"
* passwordBytes = toUtf8Bytes(password, "NFKC")
*
* salt = id("some-salt")
*
* // Compute the scrypt
* scryptSync(passwordBytes, salt, 1024, 8, 1, 16)
* //_result:
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*/
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function scryptSync(_passwd, _salt, N, r, p, dkLen) {
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const passwd = (0, index_js_1.getBytes)(_passwd, "passwd");
const salt = (0, index_js_1.getBytes)(_salt, "salt");
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return (0, index_js_1.hexlify)(__scryptSync(passwd, salt, N, r, p, dkLen));
}
exports.scryptSync = scryptSync;
scryptSync._ = _scryptSync;
scryptSync.lock = function () { lockedSync = true; };
scryptSync.register = function (func) {
if (lockedSync) {
throw new Error("scryptSync is locked");
}
__scryptSync = func;
};
Object.freeze(scryptSync);
//# sourceMappingURL=scrypt.js.map