import { CBC, pkcs7Strip } from "aes-js"; import { getAddress } from "../address/index.js"; import { pbkdf2 } from "../crypto/index.js"; import { id } from "../hash/index.js"; import { getBytes, throwArgumentError } from "../utils/index.js"; import { getPassword, looseArrayify, spelunk } from "./utils.js"; export function isCrowdsaleJson(json) { try { const data = JSON.parse(json); if (data.encseed) { return true; } } catch (error) { } return false; } // See: https://github.com/ethereum/pyethsaletool export function decryptCrowdsaleJson(json, _password) { const data = JSON.parse(json); const password = getPassword(_password); // Ethereum Address const address = getAddress(spelunk(data, "ethaddr:string!")); // Encrypted Seed const encseed = looseArrayify(spelunk(data, "encseed:string!")); if (!encseed || (encseed.length % 16) !== 0) { throwArgumentError("invalid encseed", "json", json); } const key = getBytes(pbkdf2(password, password, 2000, 32, "sha256")).slice(0, 16); const iv = encseed.slice(0, 16); const encryptedSeed = encseed.slice(16); // Decrypt the seed const aesCbc = new CBC(key, iv); const seed = pkcs7Strip(getBytes(aesCbc.decrypt(encryptedSeed))); // This wallet format is weird... Convert the binary encoded hex to a string. let seedHex = ""; for (let i = 0; i < seed.length; i++) { seedHex += String.fromCharCode(seed[i]); } return { address, privateKey: id(seedHex) }; } //# sourceMappingURL=json-crowdsale.js.map