"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); var crypto_1 = require("crypto"); var bytes_1 = require("@ethersproject/bytes"); var logger_1 = require("@ethersproject/logger"); var _version_1 = require("./_version"); var logger = new logger_1.Logger(_version_1.version); var SupportedAlgorithms; (function (SupportedAlgorithms) { SupportedAlgorithms["sha256"] = "sha256"; SupportedAlgorithms["sha512"] = "sha512"; })(SupportedAlgorithms = exports.SupportedAlgorithms || (exports.SupportedAlgorithms = {})); ; function ripemd160(data) { return "0x" + crypto_1.createHash("ripemd160").update(Buffer.from(bytes_1.arrayify(data))).digest("hex"); } exports.ripemd160 = ripemd160; function sha256(data) { return "0x" + crypto_1.createHash("sha256").update(Buffer.from(bytes_1.arrayify(data))).digest("hex"); } exports.sha256 = sha256; function sha512(data) { return "0x" + crypto_1.createHash("sha512").update(Buffer.from(bytes_1.arrayify(data))).digest("hex"); } exports.sha512 = sha512; function computeHmac(algorithm, key, data) { if (!SupportedAlgorithms[algorithm]) { logger.throwError("unsupported algorithm - " + algorithm, logger_1.Logger.errors.UNSUPPORTED_OPERATION, { operation: "computeHmac", algorithm: algorithm }); } return "0x" + crypto_1.createHmac(algorithm, Buffer.from(bytes_1.arrayify(key))).update(Buffer.from(bytes_1.arrayify(data))).digest("hex"); } exports.computeHmac = computeHmac;