"use strict"; var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; Object.defineProperty(exports, "__esModule", { value: true }); var address_1 = require("@ethersproject/address"); var bignumber_1 = require("@ethersproject/bignumber"); var bytes_1 = require("@ethersproject/bytes"); var constants_1 = require("@ethersproject/constants"); var keccak256_1 = require("@ethersproject/keccak256"); var properties_1 = require("@ethersproject/properties"); var RLP = __importStar(require("@ethersproject/rlp")); var signing_key_1 = require("@ethersproject/signing-key"); var logger_1 = require("@ethersproject/logger"); var _version_1 = require("./_version"); var logger = new logger_1.Logger(_version_1.version); /////////////////////////////// function handleAddress(value) { if (value === "0x") { return null; } return address_1.getAddress(value); } function handleNumber(value) { if (value === "0x") { return constants_1.Zero; } return bignumber_1.BigNumber.from(value); } var transactionFields = [ { name: "nonce", maxLength: 32, numeric: true }, { name: "gasPrice", maxLength: 32, numeric: true }, { name: "gasLimit", maxLength: 32, numeric: true }, { name: "to", length: 20 }, { name: "value", maxLength: 32, numeric: true }, { name: "data" }, ]; var allowedTransactionKeys = { chainId: true, data: true, gasLimit: true, gasPrice: true, nonce: true, to: true, value: true }; function computeAddress(key) { var publicKey = signing_key_1.computePublicKey(key); return address_1.getAddress(bytes_1.hexDataSlice(keccak256_1.keccak256(bytes_1.hexDataSlice(publicKey, 1)), 12)); } exports.computeAddress = computeAddress; function recoverAddress(digest, signature) { return computeAddress(signing_key_1.recoverPublicKey(bytes_1.arrayify(digest), signature)); } exports.recoverAddress = recoverAddress; function serialize(transaction, signature) { properties_1.checkProperties(transaction, allowedTransactionKeys); var raw = []; transactionFields.forEach(function (fieldInfo) { var value = transaction[fieldInfo.name] || ([]); var options = {}; if (fieldInfo.numeric) { options.hexPad = "left"; } value = bytes_1.arrayify(bytes_1.hexlify(value, options)); // Fixed-width field if (fieldInfo.length && value.length !== fieldInfo.length && value.length > 0) { logger.throwArgumentError("invalid length for " + fieldInfo.name, ("transaction:" + fieldInfo.name), value); } // Variable-width (with a maximum) if (fieldInfo.maxLength) { value = bytes_1.stripZeros(value); if (value.length > fieldInfo.maxLength) { logger.throwArgumentError("invalid length for " + fieldInfo.name, ("transaction:" + fieldInfo.name), value); } } raw.push(bytes_1.hexlify(value)); }); var chainId = 0; if (transaction.chainId != null) { // A chainId was provided; if non-zero we'll use EIP-155 chainId = transaction.chainId; if (typeof (chainId) !== "number") { logger.throwArgumentError("invalid transaction.chainId", "transaction", transaction); } } else if (signature && !bytes_1.isBytesLike(signature) && signature.v > 28) { // No chainId provided, but the signature is signing with EIP-155; derive chainId chainId = Math.floor((signature.v - 35) / 2); } // We have an EIP-155 transaction (chainId was specified and non-zero) if (chainId !== 0) { raw.push(bytes_1.hexlify(chainId)); // @TODO: hexValue? raw.push("0x"); raw.push("0x"); } // Requesting an unsigned transation if (!signature) { return RLP.encode(raw); } // The splitSignature will ensure the transaction has a recoveryParam in the // case that the signTransaction function only adds a v. var sig = bytes_1.splitSignature(signature); // We pushed a chainId and null r, s on for hashing only; remove those var v = 27 + sig.recoveryParam; if (chainId !== 0) { raw.pop(); raw.pop(); raw.pop(); v += chainId * 2 + 8; // If an EIP-155 v (directly or indirectly; maybe _vs) was provided, check it! if (sig.v > 28 && sig.v !== v) { logger.throwArgumentError("transaction.chainId/signature.v mismatch", "signature", signature); } } else if (sig.v !== v) { logger.throwArgumentError("transaction.chainId/signature.v mismatch", "signature", signature); } raw.push(bytes_1.hexlify(v)); raw.push(bytes_1.stripZeros(bytes_1.arrayify(sig.r))); raw.push(bytes_1.stripZeros(bytes_1.arrayify(sig.s))); return RLP.encode(raw); } exports.serialize = serialize; function parse(rawTransaction) { var transaction = RLP.decode(rawTransaction); if (transaction.length !== 9 && transaction.length !== 6) { logger.throwArgumentError("invalid raw transaction", "rawTransaction", rawTransaction); } var tx = { nonce: handleNumber(transaction[0]).toNumber(), gasPrice: handleNumber(transaction[1]), gasLimit: handleNumber(transaction[2]), to: handleAddress(transaction[3]), value: handleNumber(transaction[4]), data: transaction[5], chainId: 0 }; // Legacy unsigned transaction if (transaction.length === 6) { return tx; } try { tx.v = bignumber_1.BigNumber.from(transaction[6]).toNumber(); } catch (error) { console.log(error); return tx; } tx.r = bytes_1.hexZeroPad(transaction[7], 32); tx.s = bytes_1.hexZeroPad(transaction[8], 32); if (bignumber_1.BigNumber.from(tx.r).isZero() && bignumber_1.BigNumber.from(tx.s).isZero()) { // EIP-155 unsigned transaction tx.chainId = tx.v; tx.v = 0; } else { // Signed Tranasaction tx.chainId = Math.floor((tx.v - 35) / 2); if (tx.chainId < 0) { tx.chainId = 0; } var recoveryParam = tx.v - 27; var raw = transaction.slice(0, 6); if (tx.chainId !== 0) { raw.push(bytes_1.hexlify(tx.chainId)); raw.push("0x"); raw.push("0x"); recoveryParam -= tx.chainId * 2 + 8; } var digest = keccak256_1.keccak256(RLP.encode(raw)); try { tx.from = recoverAddress(digest, { r: bytes_1.hexlify(tx.r), s: bytes_1.hexlify(tx.s), recoveryParam: recoveryParam }); } catch (error) { console.log(error); } tx.hash = keccak256_1.keccak256(rawTransaction); } return tx; } exports.parse = parse; //# sourceMappingURL=index.js.map