"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.decode = exports.encode = void 0; //See: https://github.com/ethereum/wiki/wiki/RLP 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); function arrayifyInteger(value) { var result = []; while (value) { result.unshift(value & 0xff); value >>= 8; } return result; } function unarrayifyInteger(data, offset, length) { var result = 0; for (var i = 0; i < length; i++) { result = (result * 256) + data[offset + i]; } return result; } function _encode(object) { if (Array.isArray(object)) { var payload_1 = []; object.forEach(function (child) { payload_1 = payload_1.concat(_encode(child)); }); if (payload_1.length <= 55) { payload_1.unshift(0xc0 + payload_1.length); return payload_1; } var length_1 = arrayifyInteger(payload_1.length); length_1.unshift(0xf7 + length_1.length); return length_1.concat(payload_1); } if (!(0, bytes_1.isBytesLike)(object)) { logger.throwArgumentError("RLP object must be BytesLike", "object", object); } var data = Array.prototype.slice.call((0, bytes_1.arrayify)(object)); if (data.length === 1 && data[0] <= 0x7f) { return data; } else if (data.length <= 55) { data.unshift(0x80 + data.length); return data; } var length = arrayifyInteger(data.length); length.unshift(0xb7 + length.length); return length.concat(data); } function encode(object) { return (0, bytes_1.hexlify)(_encode(object)); } exports.encode = encode; function _decodeChildren(data, offset, childOffset, length) { var result = []; while (childOffset < offset + 1 + length) { var decoded = _decode(data, childOffset); result.push(decoded.result); childOffset += decoded.consumed; if (childOffset > offset + 1 + length) { logger.throwError("child data too short", logger_1.Logger.errors.BUFFER_OVERRUN, {}); } } return { consumed: (1 + length), result: result }; } // returns { consumed: number, result: Object } function _decode(data, offset) { if (data.length === 0) { logger.throwError("data too short", logger_1.Logger.errors.BUFFER_OVERRUN, {}); } // Array with extra length prefix if (data[offset] >= 0xf8) { var lengthLength = data[offset] - 0xf7; if (offset + 1 + lengthLength > data.length) { logger.throwError("data short segment too short", logger_1.Logger.errors.BUFFER_OVERRUN, {}); } var length_2 = unarrayifyInteger(data, offset + 1, lengthLength); if (offset + 1 + lengthLength + length_2 > data.length) { logger.throwError("data long segment too short", logger_1.Logger.errors.BUFFER_OVERRUN, {}); } return _decodeChildren(data, offset, offset + 1 + lengthLength, lengthLength + length_2); } else if (data[offset] >= 0xc0) { var length_3 = data[offset] - 0xc0; if (offset + 1 + length_3 > data.length) { logger.throwError("data array too short", logger_1.Logger.errors.BUFFER_OVERRUN, {}); } return _decodeChildren(data, offset, offset + 1, length_3); } else if (data[offset] >= 0xb8) { var lengthLength = data[offset] - 0xb7; if (offset + 1 + lengthLength > data.length) { logger.throwError("data array too short", logger_1.Logger.errors.BUFFER_OVERRUN, {}); } var length_4 = unarrayifyInteger(data, offset + 1, lengthLength); if (offset + 1 + lengthLength + length_4 > data.length) { logger.throwError("data array too short", logger_1.Logger.errors.BUFFER_OVERRUN, {}); } var result = (0, bytes_1.hexlify)(data.slice(offset + 1 + lengthLength, offset + 1 + lengthLength + length_4)); return { consumed: (1 + lengthLength + length_4), result: result }; } else if (data[offset] >= 0x80) { var length_5 = data[offset] - 0x80; if (offset + 1 + length_5 > data.length) { logger.throwError("data too short", logger_1.Logger.errors.BUFFER_OVERRUN, {}); } var result = (0, bytes_1.hexlify)(data.slice(offset + 1, offset + 1 + length_5)); return { consumed: (1 + length_5), result: result }; } return { consumed: 1, result: (0, bytes_1.hexlify)(data[offset]) }; } function decode(data) { var bytes = (0, bytes_1.arrayify)(data); var decoded = _decode(bytes, 0); if (decoded.consumed !== bytes.length) { logger.throwArgumentError("invalid rlp data", "data", data); } return decoded.result; } exports.decode = decode; //# sourceMappingURL=index.js.map