"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.solidityPackedSha256 = exports.test = exports.solidityPackedKeccak256 = exports.solidityPacked = void 0; const index_js_1 = require("../utils/index.js"); const keccak_js_1 = require("../crypto/keccak.js"); const sha2_js_1 = require("../crypto/sha2.js"); const regexBytes = new RegExp("^bytes([0-9]+)$"); const regexNumber = new RegExp("^(u?int)([0-9]*)$"); const regexArray = new RegExp("^(.*)\\[([0-9]*)\\]$"); function _pack(type, value, isArray) { switch (type) { case "address": if (isArray) { return index_js_1.logger.getBytes((0, index_js_1.zeroPadValue)(value, 32)); } return index_js_1.logger.getBytes(value); case "string": return (0, index_js_1.toUtf8Bytes)(value); case "bytes": return index_js_1.logger.getBytes(value); case "bool": value = (!!value ? "0x01" : "0x00"); if (isArray) { return index_js_1.logger.getBytes((0, index_js_1.zeroPadValue)(value, 32)); } return index_js_1.logger.getBytes(value); } let match = type.match(regexNumber); if (match) { let size = parseInt(match[2] || "256"); if ((match[2] && String(size) !== match[2]) || (size % 8 !== 0) || size === 0 || size > 256) { return index_js_1.logger.throwArgumentError("invalid number type", "type", type); } if (isArray) { size = 256; } value = (0, index_js_1.toTwos)(value, size); return index_js_1.logger.getBytes((0, index_js_1.zeroPadValue)((0, index_js_1.toArray)(value), size / 8)); } match = type.match(regexBytes); if (match) { const size = parseInt(match[1]); if (String(size) !== match[1] || size === 0 || size > 32) { return index_js_1.logger.throwArgumentError("invalid bytes type", "type", type); } if ((0, index_js_1.dataLength)(value) !== size) { return index_js_1.logger.throwArgumentError(`invalid value for ${type}`, "value", value); } if (isArray) { return index_js_1.logger.getBytes((0, index_js_1.zeroPadBytes)(value, 32)); } return value; } match = type.match(regexArray); if (match && Array.isArray(value)) { const baseType = match[1]; const count = parseInt(match[2] || String(value.length)); if (count != value.length) { index_js_1.logger.throwArgumentError(`invalid array length for ${type}`, "value", value); } const result = []; value.forEach(function (value) { result.push(_pack(baseType, value, true)); }); return index_js_1.logger.getBytes((0, index_js_1.concat)(result)); } return index_js_1.logger.throwArgumentError("invalid type", "type", type); } // @TODO: Array Enum function solidityPacked(types, values) { if (types.length != values.length) { index_js_1.logger.throwArgumentError("wrong number of values; expected ${ types.length }", "values", values); } const tight = []; types.forEach(function (type, index) { tight.push(_pack(type, values[index])); }); return (0, index_js_1.hexlify)((0, index_js_1.concat)(tight)); } exports.solidityPacked = solidityPacked; /** * Computes the non-standard packed (tightly packed) keccak256 hash of * the values given the types. * * @param {Array} types - The Solidity types to interpret each value as [default: bar] * @param {Array} values - The values to pack * * @returns: {HexString} the hexstring of the hash * @example: * solidityPackedKeccak256([ "address", "uint" ], [ "0x1234", 45 ]); * //_result: * * @see https://docs.soliditylang.org/en/v0.8.14/abi-spec.html#non-standard-packed-mode */ function solidityPackedKeccak256(types, values) { return (0, keccak_js_1.keccak256)(solidityPacked(types, values)); } exports.solidityPackedKeccak256 = solidityPackedKeccak256; /** * Test Function, for fun * * @param foo - something fun */ function test(foo) { } exports.test = test; function solidityPackedSha256(types, values) { return (0, sha2_js_1.sha256)(solidityPacked(types, values)); } exports.solidityPackedSha256 = solidityPackedSha256; //# sourceMappingURL=solidity.js.map