// Copyright (c) 2009-2015 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #if defined(HAVE_CONFIG_H) #include "config/dash-config.h" #endif #include "base58.h" #include "clientversion.h" #include "coins.h" #include "consensus/consensus.h" #include "core_io.h" #include "keystore.h" #include "policy/policy.h" #include "primitives/transaction.h" #include "script/script.h" #include "script/sign.h" #include #include "util.h" #include "utilmoneystr.h" #include "utilstrencodings.h" #include #include #include #include "stacktraces.h" static bool fCreateBlank; static std::map registers; static const int CONTINUE_EXECUTION=-1; // // This function returns either one of EXIT_ codes when it's expected to stop the process or // CONTINUE_EXECUTION when it's expected to continue further. // static int AppInitRawTx(int argc, char* argv[]) { // // Parameters // ParseParameters(argc, argv); // Check for -testnet or -regtest parameter (Params() calls are only valid after this clause) try { SelectParams(ChainNameFromCommandLine()); } catch (const std::exception& e) { fprintf(stderr, "Error: %s\n", e.what()); return EXIT_FAILURE; } fCreateBlank = GetBoolArg("-create", false); if (argc<2 || IsArgSet("-?") || IsArgSet("-h") || IsArgSet("-help")) { // First part of help message is specific to this utility std::string strUsage = strprintf(_("%s dash-tx utility version"), _(PACKAGE_NAME)) + " " + FormatFullVersion() + "\n\n" + _("Usage:") + "\n" + " dash-tx [options] [commands] " + _("Update hex-encoded dash transaction") + "\n" + " dash-tx [options] -create [commands] " + _("Create hex-encoded dash transaction") + "\n" + "\n"; fprintf(stdout, "%s", strUsage.c_str()); strUsage = HelpMessageGroup(_("Options:")); strUsage += HelpMessageOpt("-?", _("This help message")); strUsage += HelpMessageOpt("-create", _("Create new, empty TX.")); strUsage += HelpMessageOpt("-json", _("Select JSON output")); strUsage += HelpMessageOpt("-txid", _("Output only the hex-encoded transaction id of the resultant transaction.")); AppendParamsHelpMessages(strUsage); fprintf(stdout, "%s", strUsage.c_str()); strUsage = HelpMessageGroup(_("Commands:")); strUsage += HelpMessageOpt("delin=N", _("Delete input N from TX")); strUsage += HelpMessageOpt("delout=N", _("Delete output N from TX")); strUsage += HelpMessageOpt("in=TXID:VOUT(:SEQUENCE_NUMBER)", _("Add input to TX")); strUsage += HelpMessageOpt("locktime=N", _("Set TX lock time to N")); strUsage += HelpMessageOpt("nversion=N", _("Set TX version to N")); strUsage += HelpMessageOpt("outaddr=VALUE:ADDRESS", _("Add address-based output to TX")); strUsage += HelpMessageOpt("outpubkey=VALUE:PUBKEY[:FLAGS]", _("Add pay-to-pubkey output to TX") + ". " + _("Optionally add the \"S\" flag to wrap the output in a pay-to-script-hash.")); strUsage += HelpMessageOpt("outdata=[VALUE:]DATA", _("Add data-based output to TX")); strUsage += HelpMessageOpt("outscript=VALUE:SCRIPT[:FLAGS]", _("Add raw script output to TX") + ". " + _("Optionally add the \"S\" flag to wrap the output in a pay-to-script-hash.")); strUsage += HelpMessageOpt("outmultisig=VALUE:REQUIRED:PUBKEYS:PUBKEY1:PUBKEY2:....[:FLAGS]", _("Add Pay To n-of-m Multi-sig output to TX. n = REQUIRED, m = PUBKEYS") + ". " + _("Optionally add the \"S\" flag to wrap the output in a pay-to-script-hash.")); strUsage += HelpMessageOpt("sign=SIGHASH-FLAGS", _("Add zero or more signatures to transaction") + ". " + _("This command requires JSON registers:") + _("prevtxs=JSON object") + ", " + _("privatekeys=JSON object") + ". " + _("See signrawtransaction docs for format of sighash flags, JSON objects.")); fprintf(stdout, "%s", strUsage.c_str()); strUsage = HelpMessageGroup(_("Register Commands:")); strUsage += HelpMessageOpt("load=NAME:FILENAME", _("Load JSON file FILENAME into register NAME")); strUsage += HelpMessageOpt("set=NAME:JSON-STRING", _("Set register NAME to given JSON-STRING")); fprintf(stdout, "%s", strUsage.c_str()); if (argc < 2) { fprintf(stderr, "Error: too few parameters\n"); return EXIT_FAILURE; } return EXIT_SUCCESS; } return CONTINUE_EXECUTION; } static void RegisterSetJson(const std::string& key, const std::string& rawJson) { UniValue val; if (!val.read(rawJson)) { std::string strErr = "Cannot parse JSON for key " + key; throw std::runtime_error(strErr); } registers[key] = val; } static void RegisterSet(const std::string& strInput) { // separate NAME:VALUE in string size_t pos = strInput.find(':'); if ((pos == std::string::npos) || (pos == 0) || (pos == (strInput.size() - 1))) throw std::runtime_error("Register input requires NAME:VALUE"); std::string key = strInput.substr(0, pos); std::string valStr = strInput.substr(pos + 1, std::string::npos); RegisterSetJson(key, valStr); } static void RegisterLoad(const std::string& strInput) { // separate NAME:FILENAME in string size_t pos = strInput.find(':'); if ((pos == std::string::npos) || (pos == 0) || (pos == (strInput.size() - 1))) throw std::runtime_error("Register load requires NAME:FILENAME"); std::string key = strInput.substr(0, pos); std::string filename = strInput.substr(pos + 1, std::string::npos); FILE *f = fopen(filename.c_str(), "r"); if (!f) { std::string strErr = "Cannot open file " + filename; throw std::runtime_error(strErr); } // load file chunks into one big buffer std::string valStr; while ((!feof(f)) && (!ferror(f))) { char buf[4096]; int bread = fread(buf, 1, sizeof(buf), f); if (bread <= 0) break; valStr.insert(valStr.size(), buf, bread); } int error = ferror(f); fclose(f); if (error) { std::string strErr = "Error reading file " + filename; throw std::runtime_error(strErr); } // evaluate as JSON buffer register RegisterSetJson(key, valStr); } static CAmount ExtractAndValidateValue(const std::string& strValue) { CAmount value; if (!ParseMoney(strValue, value)) throw std::runtime_error("invalid TX output value"); return value; } static void MutateTxVersion(CMutableTransaction& tx, const std::string& cmdVal) { int64_t newVersion = atoi64(cmdVal); if (newVersion < 1 || newVersion > CTransaction::MAX_STANDARD_VERSION) throw std::runtime_error("Invalid TX version requested"); tx.nVersion = (int) newVersion; } static void MutateTxLocktime(CMutableTransaction& tx, const std::string& cmdVal) { int64_t newLocktime = atoi64(cmdVal); if (newLocktime < 0LL || newLocktime > 0xffffffffLL) throw std::runtime_error("Invalid TX locktime requested"); tx.nLockTime = (unsigned int) newLocktime; } static void MutateTxAddInput(CMutableTransaction& tx, const std::string& strInput) { std::vector vStrInputParts; boost::split(vStrInputParts, strInput, boost::is_any_of(":")); // separate TXID:VOUT in string if (vStrInputParts.size()<2) throw std::runtime_error("TX input missing separator"); // extract and validate TXID std::string strTxid = vStrInputParts[0]; if ((strTxid.size() != 64) || !IsHex(strTxid)) throw std::runtime_error("invalid TX input txid"); uint256 txid(uint256S(strTxid)); static const unsigned int minTxOutSz = 9; static const unsigned int maxVout = MaxBlockSize(true) / minTxOutSz; // extract and validate vout std::string strVout = vStrInputParts[1]; int vout = atoi(strVout); if ((vout < 0) || (vout > (int)maxVout)) throw std::runtime_error("invalid TX input vout"); // extract the optional sequence number uint32_t nSequenceIn=std::numeric_limits::max(); if (vStrInputParts.size() > 2) nSequenceIn = std::stoul(vStrInputParts[2]); // append to transaction input list CTxIn txin(txid, vout, CScript(), nSequenceIn); tx.vin.push_back(txin); } static void MutateTxAddOutAddr(CMutableTransaction& tx, const std::string& strInput) { // Separate into VALUE:ADDRESS std::vector vStrInputParts; boost::split(vStrInputParts, strInput, boost::is_any_of(":")); if (vStrInputParts.size() != 2) throw std::runtime_error("TX output missing or too many separators"); // Extract and validate VALUE CAmount value = ExtractAndValidateValue(vStrInputParts[0]); // extract and validate ADDRESS std::string strAddr = vStrInputParts[1]; CBitcoinAddress addr(strAddr); if (!addr.IsValid()) throw std::runtime_error("invalid TX output address"); // build standard output script via GetScriptForDestination() CScript scriptPubKey = GetScriptForDestination(addr.Get()); // construct TxOut, append to transaction output list CTxOut txout(value, scriptPubKey); tx.vout.push_back(txout); } static void MutateTxAddOutPubKey(CMutableTransaction& tx, const std::string& strInput) { // Separate into VALUE:PUBKEY[:FLAGS] std::vector vStrInputParts; boost::split(vStrInputParts, strInput, boost::is_any_of(":")); if (vStrInputParts.size() < 2 || vStrInputParts.size() > 3) throw std::runtime_error("TX output missing or too many separators"); // Extract and validate VALUE CAmount value = ExtractAndValidateValue(vStrInputParts[0]); // Extract and validate PUBKEY CPubKey pubkey(ParseHex(vStrInputParts[1])); if (!pubkey.IsFullyValid()) throw std::runtime_error("invalid TX output pubkey"); CScript scriptPubKey = GetScriptForRawPubKey(pubkey); CBitcoinAddress addr(scriptPubKey); // Extract and validate FLAGS bool bScriptHash = false; if (vStrInputParts.size() == 3) { std::string flags = vStrInputParts[2]; bScriptHash = (flags.find("S") != std::string::npos); } if (bScriptHash) { // Get the address for the redeem script, then call // GetScriptForDestination() to construct a P2SH scriptPubKey. CBitcoinAddress redeemScriptAddr(scriptPubKey); scriptPubKey = GetScriptForDestination(redeemScriptAddr.Get()); } // construct TxOut, append to transaction output list CTxOut txout(value, scriptPubKey); tx.vout.push_back(txout); } static void MutateTxAddOutMultiSig(CMutableTransaction& tx, const std::string& strInput) { // Separate into VALUE:REQUIRED:NUMKEYS:PUBKEY1:PUBKEY2:....[:FLAGS] std::vector vStrInputParts; boost::split(vStrInputParts, strInput, boost::is_any_of(":")); // Check that there are enough parameters if (vStrInputParts.size()<3) throw std::runtime_error("Not enough multisig parameters"); // Extract and validate VALUE CAmount value = ExtractAndValidateValue(vStrInputParts[0]); // Extract REQUIRED uint32_t required = stoul(vStrInputParts[1]); // Extract NUMKEYS uint32_t numkeys = stoul(vStrInputParts[2]); // Validate there are the correct number of pubkeys if (vStrInputParts.size() < numkeys + 3) throw std::runtime_error("incorrect number of multisig pubkeys"); if (required < 1 || required > 20 || numkeys < 1 || numkeys > 20 || numkeys < required) throw std::runtime_error("multisig parameter mismatch. Required " \ + std::to_string(required) + " of " + std::to_string(numkeys) + "signatures."); // extract and validate PUBKEYs std::vector pubkeys; for(int pos = 1; pos <= int(numkeys); pos++) { CPubKey pubkey(ParseHex(vStrInputParts[pos + 2])); if (!pubkey.IsFullyValid()) throw std::runtime_error("invalid TX output pubkey"); pubkeys.push_back(pubkey); } // Extract FLAGS bool bScriptHash = false; if (vStrInputParts.size() == numkeys + 4) { std::string flags = vStrInputParts.back(); bScriptHash = (flags.find("S") != std::string::npos); } else if (vStrInputParts.size() > numkeys + 4) { // Validate that there were no more parameters passed throw std::runtime_error("Too many parameters"); } CScript scriptPubKey = GetScriptForMultisig(required, pubkeys); if (bScriptHash) { // Get the address for the redeem script, then call // GetScriptForDestination() to construct a P2SH scriptPubKey. CBitcoinAddress addr(scriptPubKey); scriptPubKey = GetScriptForDestination(addr.Get()); } // construct TxOut, append to transaction output list CTxOut txout(value, scriptPubKey); tx.vout.push_back(txout); } static void MutateTxAddOutData(CMutableTransaction& tx, const std::string& strInput) { CAmount value = 0; // separate [VALUE:]DATA in string size_t pos = strInput.find(':'); if (pos==0) throw std::runtime_error("TX output value not specified"); if (pos != std::string::npos) { // Extract and validate VALUE value = ExtractAndValidateValue(strInput.substr(0, pos)); } // extract and validate DATA std::string strData = strInput.substr(pos + 1, std::string::npos); if (!IsHex(strData)) throw std::runtime_error("invalid TX output data"); std::vector data = ParseHex(strData); CTxOut txout(value, CScript() << OP_RETURN << data); tx.vout.push_back(txout); } static void MutateTxAddOutScript(CMutableTransaction& tx, const std::string& strInput) { // separate VALUE:SCRIPT[:FLAGS] std::vector vStrInputParts; boost::split(vStrInputParts, strInput, boost::is_any_of(":")); if (vStrInputParts.size() < 2) throw std::runtime_error("TX output missing separator"); // Extract and validate VALUE CAmount value = ExtractAndValidateValue(vStrInputParts[0]); // extract and validate script std::string strScript = vStrInputParts[1]; CScript scriptPubKey = ParseScript(strScript); // Extract FLAGS bool bScriptHash = false; if (vStrInputParts.size() == 3) { std::string flags = vStrInputParts.back(); bScriptHash = (flags.find("S") != std::string::npos); } if (bScriptHash) { CBitcoinAddress addr(scriptPubKey); scriptPubKey = GetScriptForDestination(addr.Get()); } // construct TxOut, append to transaction output list CTxOut txout(value, scriptPubKey); tx.vout.push_back(txout); } static void MutateTxDelInput(CMutableTransaction& tx, const std::string& strInIdx) { // parse requested deletion index int inIdx = atoi(strInIdx); if (inIdx < 0 || inIdx >= (int)tx.vin.size()) { std::string strErr = "Invalid TX input index '" + strInIdx + "'"; throw std::runtime_error(strErr.c_str()); } // delete input from transaction tx.vin.erase(tx.vin.begin() + inIdx); } static void MutateTxDelOutput(CMutableTransaction& tx, const std::string& strOutIdx) { // parse requested deletion index int outIdx = atoi(strOutIdx); if (outIdx < 0 || outIdx >= (int)tx.vout.size()) { std::string strErr = "Invalid TX output index '" + strOutIdx + "'"; throw std::runtime_error(strErr.c_str()); } // delete output from transaction tx.vout.erase(tx.vout.begin() + outIdx); } static const unsigned int N_SIGHASH_OPTS = 6; static const struct { const char *flagStr; int flags; } sighashOptions[N_SIGHASH_OPTS] = { {"ALL", SIGHASH_ALL}, {"NONE", SIGHASH_NONE}, {"SINGLE", SIGHASH_SINGLE}, {"ALL|ANYONECANPAY", SIGHASH_ALL|SIGHASH_ANYONECANPAY}, {"NONE|ANYONECANPAY", SIGHASH_NONE|SIGHASH_ANYONECANPAY}, {"SINGLE|ANYONECANPAY", SIGHASH_SINGLE|SIGHASH_ANYONECANPAY}, }; static bool findSighashFlags(int& flags, const std::string& flagStr) { flags = 0; for (unsigned int i = 0; i < N_SIGHASH_OPTS; i++) { if (flagStr == sighashOptions[i].flagStr) { flags = sighashOptions[i].flags; return true; } } return false; } static void MutateTxSign(CMutableTransaction& tx, const std::string& flagStr) { int nHashType = SIGHASH_ALL; if (flagStr.size() > 0) if (!findSighashFlags(nHashType, flagStr)) throw std::runtime_error("unknown sighash flag/sign option"); std::vector txVariants; txVariants.push_back(tx); // mergedTx will end up with all the signatures; it // starts as a clone of the raw tx: CMutableTransaction mergedTx(txVariants[0]); bool fComplete = true; CCoinsView viewDummy; CCoinsViewCache view(&viewDummy); if (!registers.count("privatekeys")) throw std::runtime_error("privatekeys register variable must be set."); CBasicKeyStore tempKeystore; UniValue keysObj = registers["privatekeys"]; for (unsigned int kidx = 0; kidx < keysObj.size(); kidx++) { if (!keysObj[kidx].isStr()) throw std::runtime_error("privatekey not a std::string"); CBitcoinSecret vchSecret; bool fGood = vchSecret.SetString(keysObj[kidx].getValStr()); if (!fGood) throw std::runtime_error("privatekey not valid"); CKey key = vchSecret.GetKey(); tempKeystore.AddKey(key); } // Add previous txouts given in the RPC call: if (!registers.count("prevtxs")) throw std::runtime_error("prevtxs register variable must be set."); UniValue prevtxsObj = registers["prevtxs"]; { for (unsigned int previdx = 0; previdx < prevtxsObj.size(); previdx++) { UniValue prevOut = prevtxsObj[previdx]; if (!prevOut.isObject()) throw std::runtime_error("expected prevtxs internal object"); std::map types = boost::assign::map_list_of("txid", UniValue::VSTR)("vout",UniValue::VNUM)("scriptPubKey",UniValue::VSTR); if (!prevOut.checkObject(types)) throw std::runtime_error("prevtxs internal object typecheck fail"); uint256 txid = ParseHashUV(prevOut["txid"], "txid"); int nOut = atoi(prevOut["vout"].getValStr()); if (nOut < 0) throw std::runtime_error("vout must be positive"); COutPoint out(txid, nOut); std::vector pkData(ParseHexUV(prevOut["scriptPubKey"], "scriptPubKey")); CScript scriptPubKey(pkData.begin(), pkData.end()); { const Coin& coin = view.AccessCoin(out); if (!coin.IsSpent() && coin.out.scriptPubKey != scriptPubKey) { std::string err("Previous output scriptPubKey mismatch:\n"); err = err + ScriptToAsmStr(coin.out.scriptPubKey) + "\nvs:\n"+ ScriptToAsmStr(scriptPubKey); throw std::runtime_error(err); } Coin newcoin; newcoin.out.scriptPubKey = scriptPubKey; newcoin.out.nValue = 0; // we don't know the actual output value newcoin.nHeight = 1; view.AddCoin(out, std::move(newcoin), true); } // if redeemScript given and private keys given, // add redeemScript to the tempKeystore so it can be signed: if (scriptPubKey.IsPayToScriptHash() && prevOut.exists("redeemScript")) { UniValue v = prevOut["redeemScript"]; std::vector rsData(ParseHexUV(v, "redeemScript")); CScript redeemScript(rsData.begin(), rsData.end()); tempKeystore.AddCScript(redeemScript); } } } const CKeyStore& keystore = tempKeystore; bool fHashSingle = ((nHashType & ~SIGHASH_ANYONECANPAY) == SIGHASH_SINGLE); // Sign what we can: for (unsigned int i = 0; i < mergedTx.vin.size(); i++) { CTxIn& txin = mergedTx.vin[i]; const Coin& coin = view.AccessCoin(txin.prevout); if (coin.IsSpent()) { fComplete = false; continue; } const CScript& prevPubKey = coin.out.scriptPubKey; txin.scriptSig.clear(); // Only sign SIGHASH_SINGLE if there's a corresponding output: if (!fHashSingle || (i < mergedTx.vout.size())) SignSignature(keystore, prevPubKey, mergedTx, i, nHashType); // ... and merge in other signatures: BOOST_FOREACH(const CTransaction& txv, txVariants) { txin.scriptSig = CombineSignatures(prevPubKey, mergedTx, i, txin.scriptSig, txv.vin[i].scriptSig); } if (!VerifyScript(txin.scriptSig, prevPubKey, STANDARD_SCRIPT_VERIFY_FLAGS, MutableTransactionSignatureChecker(&mergedTx, i))) fComplete = false; } if (fComplete) { // do nothing... for now // perhaps store this for later optional JSON output } tx = mergedTx; } class Secp256k1Init { ECCVerifyHandle globalVerifyHandle; public: Secp256k1Init() { ECC_Start(); } ~Secp256k1Init() { ECC_Stop(); } }; static void MutateTx(CMutableTransaction& tx, const std::string& command, const std::string& commandVal) { std::unique_ptr ecc; if (command == "nversion") MutateTxVersion(tx, commandVal); else if (command == "locktime") MutateTxLocktime(tx, commandVal); else if (command == "delin") MutateTxDelInput(tx, commandVal); else if (command == "in") MutateTxAddInput(tx, commandVal); else if (command == "delout") MutateTxDelOutput(tx, commandVal); else if (command == "outaddr") MutateTxAddOutAddr(tx, commandVal); else if (command == "outpubkey") MutateTxAddOutPubKey(tx, commandVal); else if (command == "outmultisig") MutateTxAddOutMultiSig(tx, commandVal); else if (command == "outscript") MutateTxAddOutScript(tx, commandVal); else if (command == "outdata") MutateTxAddOutData(tx, commandVal); else if (command == "sign") { if (!ecc) { ecc.reset(new Secp256k1Init()); } MutateTxSign(tx, commandVal); } else if (command == "load") RegisterLoad(commandVal); else if (command == "set") RegisterSet(commandVal); else throw std::runtime_error("unknown command"); } static void OutputTxJSON(const CTransaction& tx) { UniValue entry(UniValue::VOBJ); TxToUniv(tx, uint256(), entry); std::string jsonOutput = entry.write(4); fprintf(stdout, "%s\n", jsonOutput.c_str()); } static void OutputTxHash(const CTransaction& tx) { std::string strHexHash = tx.GetHash().GetHex(); // the hex-encoded transaction hash (aka the transaction id) fprintf(stdout, "%s\n", strHexHash.c_str()); } static void OutputTxHex(const CTransaction& tx) { std::string strHex = EncodeHexTx(tx); fprintf(stdout, "%s\n", strHex.c_str()); } static void OutputTx(const CTransaction& tx) { if (GetBoolArg("-json", false)) OutputTxJSON(tx); else if (GetBoolArg("-txid", false)) OutputTxHash(tx); else OutputTxHex(tx); } static std::string readStdin() { char buf[4096]; std::string ret; while (!feof(stdin)) { size_t bread = fread(buf, 1, sizeof(buf), stdin); ret.append(buf, bread); if (bread < sizeof(buf)) break; } if (ferror(stdin)) throw std::runtime_error("error reading stdin"); boost::algorithm::trim_right(ret); return ret; } static int CommandLineRawTx(int argc, char* argv[]) { std::string strPrint; int nRet = 0; try { // Skip switches; Permit common stdin convention "-" while (argc > 1 && IsSwitchChar(argv[1][0]) && (argv[1][1] != 0)) { argc--; argv++; } CMutableTransaction tx; int startArg; if (!fCreateBlank) { // require at least one param if (argc < 2) throw std::runtime_error("too few parameters"); // param: hex-encoded dash transaction std::string strHexTx(argv[1]); if (strHexTx == "-") // "-" implies standard input strHexTx = readStdin(); if (!DecodeHexTx(tx, strHexTx)) throw std::runtime_error("invalid transaction encoding"); startArg = 2; } else startArg = 1; for (int i = startArg; i < argc; i++) { std::string arg = argv[i]; std::string key, value; size_t eqpos = arg.find('='); if (eqpos == std::string::npos) key = arg; else { key = arg.substr(0, eqpos); value = arg.substr(eqpos + 1); } MutateTx(tx, key, value); } OutputTx(tx); } catch (const boost::thread_interrupted&) { throw; } catch (const std::exception& e) { strPrint = std::string("error: ") + e.what(); nRet = EXIT_FAILURE; } catch (...) { PrintExceptionContinue(std::current_exception(), "CommandLineRawTx()"); throw; } if (strPrint != "") { fprintf((nRet == 0 ? stdout : stderr), "%s\n", strPrint.c_str()); } return nRet; } int main(int argc, char* argv[]) { RegisterPrettyTerminateHander(); RegisterPrettySignalHandlers(); SetupEnvironment(); try { int ret = AppInitRawTx(argc, argv); if (ret != CONTINUE_EXECUTION) return ret; } catch (const std::exception& e) { PrintExceptionContinue(std::current_exception(), "AppInitRawTx()"); return EXIT_FAILURE; } int ret = EXIT_FAILURE; try { ret = CommandLineRawTx(argc, argv); } catch (...) { PrintExceptionContinue(std::current_exception(), "CommandLineRawTx()"); } return ret; }