/* This file is part of cpp-ethereum. cpp-ethereum is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. cpp-ethereum is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** @file main.cpp * @author Gav Wood * @date 2014 * Ethereum client. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if ETH_JSCONSOLE || !ETH_TRUE #include #endif #if ETH_READLINE || !ETH_TRUE #include #include #endif #if ETH_JSONRPC || !ETH_TRUE #include #include #include #include #endif #include "BuildInfo.h" #if ETH_JSONRPC || !ETH_TRUE #include "PhoneHome.h" #include "Farm.h" #endif #include using namespace std; using namespace dev; using namespace dev::p2p; using namespace dev::eth; using namespace boost::algorithm; using dev::eth::Instruction; static bool g_silence = false; void interactiveHelp() { cout << "Commands:" << endl << " netstart Starts the network subsystem on a specific port." << endl << " netstop Stops the network subsystem." << endl << " jsonstart Starts the JSON-RPC server." << endl << " jsonstop Stops the JSON-RPC server." << endl << " connect Connects to a specific peer." << endl << " verbosity () Gets or sets verbosity level." << endl << " setetherprice

Resets the ether price." << endl << " setpriority

Resets the transaction priority." << endl << " minestart Starts mining." << endl << " minestop Stops mining." << endl << " mineforce Forces mining, even when there are no transactions." << endl << " block Gives the current block height." << endl << " blockhashfromnumber Gives the block hash with the givne number." << endl << " numberfromblockhash Gives the block number with the given hash." << endl << " blockqueue Gives the current block queue status." << endl << " findblock Searches for the block in the blockchain and blockqueue." << endl << " firstunknown Gives the first unknown block from the blockqueue." << endl << " retryunknown retries to import all unknown blocks from the blockqueue." << endl << " accounts Gives information on all owned accounts (balances, mining beneficiary and default signer)." << endl << " newaccount Creates a new account with the given name." << endl << " transact Execute a given transaction." << endl << " transactnonce Execute a given transaction with a specified nonce." << endl << " txcreate Execute a given contract creation transaction." << endl << " send Execute a given transaction with current secret." << endl << " contract Create a new contract with current secret." << endl << " peers List the peers that are connected" << endl #if ETH_FATDB || !ETH_TRUE << " listaccounts List the accounts on the network." << endl << " listcontracts List the contracts on the network." << endl << " balanceat

Gives the balance of the given account." << endl << " balanceatblock
Gives the balance of the given account." << endl << " storageat
Gives the storage of the given account." << endl << " storageatblock
Gives the storahe of the given account at a given blocknumber." << endl << " codeat
Gives the code of the given account." << endl #endif << " setsigningkey Set the address with which to sign transactions." << endl << " setaddress Set the coinbase (mining payout) address." << endl << " exportconfig Export the config (.RLP) to the path provided." << endl << " importconfig Import the config (.RLP) from the path provided." << endl << " inspect Dumps a contract to /.evm." << endl << " reprocess Reprocess a given block." << endl << " dumptrace Dumps a transaction trace" << endl << "to . should be one of pretty, standard, standard+." << endl << " dumpreceipt Dumps a transation receipt." << endl << " hashrate Print the current hashrate in hashes per second if the client is mining." << endl << " exit Exits the application." << endl; } void help() { cout << "Usage eth [OPTIONS]" << endl << "Options:" << endl << endl << "Client mode (default):" << endl << " -o,--mode Start a full node or a peer node (default: full)." << endl << " -i,--interactive Enter interactive mode (default: non-interactive)." << endl #if ETH_JSONRPC || !ETH_TRUE << " -j,--json-rpc Enable JSON-RPC server (default: off)." << endl << " --json-rpc-port Specify JSON-RPC server port (implies '-j', default: " << SensibleHttpPort << ")." << endl << " --admin Specify admin session key for JSON-RPC (default: auto-generated and printed at startup)." << endl #endif << " -K,--kill First kill the blockchain." << endl << " -R,--rebuild Rebuild the blockchain from the existing database." << endl << " --genesis-nonce Set the Genesis Nonce to the given hex nonce." << endl << " -s,--import-secret Import a secret key into the key store and use as the default." << endl << " -S,--import-session-secret Import a secret key into the key store and use as the default for this session only." << endl << " --sign-key
Sign all transactions with the key of the given address." << endl << " --session-sign-key
Sign all transactions with the key of the given address for this session only." << endl << " --master Give the master password for the key store." << endl << " --password Give a password for a private key." << endl << " --sentinel Set the sentinel for reporting bad blocks or chain issues." << endl << " --prime Specify n as the 6 digit prime number to start Frontier." << endl << endl << "Client transacting:" << endl /*<< " -B,--block-fees Set the block fee profit in the reference unit e.g. ¢ (default: 15)." << endl << " -e,--ether-price Set the ether price in the reference unit e.g. ¢ (default: 30.679)." << endl << " -P,--priority <0 - 100> Default % priority of a transaction (default: 50)." << endl*/ << " --ask Set the minimum ask gas price under which no transactions will be mined (default 500000000000)." << endl << " --bid Set the bid gas price for to pay for transactions (default 500000000000)." << endl << endl << "Client mining:" << endl << " -a,--address Set the coinbase (mining payout) address to addr (default: auto)." << endl << " -m,--mining Enable mining, optionally for a specified number of blocks (default: off)" << endl << " -f,--force-mining Mine even when there are no transactions to mine (default: off)" << endl << " --mine-on-wrong-chain Mine even when we know it's the wrong chain (default: off)" << endl << " -C,--cpu When mining, use the CPU." << endl << " -G,--opencl When mining use the GPU via OpenCL." << endl << " --opencl-platform When mining using -G/--opencl use OpenCL platform n (default: 0)." << endl << " --opencl-device When mining using -G/--opencl use OpenCL device n (default: 0)." << endl << " -t, --mining-threads Limit number of CPU/GPU miners to n (default: use everything available on selected platform)" << endl << endl << "Client networking:" << endl << " --client-name Add a name to your client's version string (default: blank)." << endl << " -b,--bootstrap Connect to the default Ethereum peerserver." << endl << " -x,--peers Attempt to connect to given number of peers (default: 5)." << endl << " --public-ip Force public ip to given (default: auto)." << endl << " --listen-ip (:) Listen on the given IP for incoming connections (default: 0.0.0.0)." << endl << " --listen Listen on the given port for incoming connections (default: 30303)." << endl << " -r,--remote (:) Connect to remote host (default: none)." << endl << " --port Connect to remote port (default: 30303)." << endl << " --network-id Only connect to other hosts with this network id (default:0)." << endl << " --upnp Use UPnP for NAT (default: on)." << endl << " --no-discovery Disable Node discovery. (experimental)" << endl << " --pin Only connect to required (trusted) peers. (experimental)" << endl // << " --require-peers List of required (trusted) peers. (experimental)" << endl << endl; MinerCLI::streamHelp(cout); cout << "Client structured logging:" << endl << " --structured-logging Enable structured logging (default output to stdout)." << endl << " --structured-logging-format Set the structured logging time format." << endl << " --structured-logging-url Set the structured logging destination (currently only file:// supported)." << endl << "Import/export modes:" << endl << " -I,--import Import file as a concatenated series of blocks and exit." << endl << " -E,--export Export file as a concatenated series of blocks and exit." << endl << " --from Export only from block n; n may be a decimal, a '0x' prefixed hash, or 'latest'." << endl << " --to Export only to block n (inclusive); n may be a decimal, a '0x' prefixed hash, or 'latest'." << endl << " --only Equivalent to --export-from n --export-to n." << endl << " --dont-check Avoids checking some of the aspects of blocks. Faster importing, but only do if you know the data is valid." << endl << endl << "General Options:" << endl << " -d,--db-path Load database from path (default: " << getDataDir() << ")" << endl #if ETH_EVMJIT || !ETH_TRUE << " --vm Select VM. Options are: interpreter, jit, smart. (default: interpreter)" << endl #endif << " -v,--verbosity <0 - 9> Set the log verbosity from 0 to 9 (default: 8)." << endl << " -V,--version Show the version and exit." << endl << " -h,--help Show this help message and exit." << endl #if ETH_JSCONSOLE || !ETH_TRUE << " --console Use interactive javascript console" << endl #endif ; exit(0); } string ethCredits(bool _interactive = false) { std::ostringstream cout; if (_interactive) cout << "Type 'exit' to quit" << endl << endl; return credits() + cout.str(); } void version() { cout << "eth version " << dev::Version << endl; cout << "eth network protocol version: " << dev::eth::c_protocolVersion << endl; cout << "Client database version: " << dev::eth::c_databaseVersion << endl; cout << "Build: " << DEV_QUOTED(ETH_BUILD_PLATFORM) << "/" << DEV_QUOTED(ETH_BUILD_TYPE) << endl; exit(0); } Address c_config = Address("ccdeac59d35627b7de09332e819d5159e7bb7250"); string pretty(h160 _a, dev::eth::State const& _st) { string ns; h256 n; if (h160 nameReg = (u160)_st.storage(c_config, 0)) n = _st.storage(nameReg, (u160)(_a)); if (n) { std::string s((char const*)n.data(), 32); if (s.find_first_of('\0') != string::npos) s.resize(s.find_first_of('\0')); ns = " " + s; } return ns; } bool g_exit = false; inline bool isPrime(unsigned _number) { if (((!(_number & 1)) && _number != 2 ) || (_number < 2) || (_number % 3 == 0 && _number != 3)) return false; for(unsigned k = 1; 36 * k * k - 12 * k < _number; ++k) if ((_number % (6 * k + 1) == 0) || (_number % (6 * k - 1) == 0)) return false; return true; } void sighandler(int) { g_exit = true; } enum class NodeMode { PeerServer, Full }; enum class OperationMode { Node, Import, Export }; enum class Format { Binary, Hex, Human }; void stopMiningAfterXBlocks(eth::Client* _c, unsigned _start, unsigned _mining) { if (_c->isMining() && _c->blockChain().details().number - _start == _mining) _c->stopMining(); this_thread::sleep_for(chrono::milliseconds(100)); } void interactiveMode(eth::Client* c, std::shared_ptr gasPricer, WebThreeDirect& web3, KeyManager& keyManager, string& logbuf, string& additional, function getPassword, function getAccountPassword, NetworkPreferences netPrefs, Address beneficiary, Address signingKey, TransactionPriority priority) { additional = "Press Enter"; string l; while (!g_exit) { g_silence = false; cout << logbuf << "Press Enter" << flush; std::getline(cin, l); logbuf.clear(); g_silence = true; #if ETH_READLINE if (l.size()) add_history(l.c_str()); if (auto c = readline("> ")) { l = c; free(c); } else break; #else string l; cout << "> " << flush; std::getline(cin, l); #endif istringstream iss(l); string cmd; iss >> cmd; boost::to_lower(cmd); if (cmd == "netstart") { iss >> netPrefs.listenPort; web3.setNetworkPreferences(netPrefs); web3.startNetwork(); } else if (cmd == "connect") { string addrPort; iss >> addrPort; web3.addNode(p2p::NodeId(), addrPort); } else if (cmd == "netstop") web3.stopNetwork(); else if (c && cmd == "minestart") c->startMining(); else if (c && cmd == "minestop") c->stopMining(); else if (c && cmd == "mineforce") { string enable; iss >> enable; c->setForceMining(isTrue(enable)); } else if (cmd == "verbosity") { if (iss.peek() != -1) iss >> g_logVerbosity; cout << "Verbosity: " << g_logVerbosity << endl; } else if (cmd == "address") { cout << "Current mining beneficiary:" << endl << beneficiary << endl; cout << "Current signing account:" << endl << signingKey << endl; } else if (c && cmd == "blockhashfromnumber") { if (iss.peek() != -1) { unsigned number; iss >> number; cout << " hash of block: " << c->hashFromNumber(number).hex() << endl; } } else if (c && cmd == "numberfromblockhash") { if (iss.peek() != -1) { string stringHash; iss >> stringHash; h256 hash = h256(fromHex(stringHash)); cout << " number of block: " << c->numberFromHash(hash) << endl; } } else if (c && cmd == "block") cout << "Current block: " << c->blockChain().details().number << endl; else if (c && cmd == "blockqueue") cout << "Current blockqueue status: " << endl << c->blockQueueStatus() << endl; else if (c && cmd == "hashrate") cout << "Current hash rate: " << toString(c->hashrate()) << " hashes per second." << endl; else if (c && cmd == "findblock") { if (iss.peek() != -1) { string stringHash; iss >> stringHash; h256 hash = h256(fromHex(stringHash)); // search in blockchain cout << "search in blockchain... " << endl; try { cout << c->blockInfo(hash) << endl; } catch(Exception& _e) { cout << "block not in blockchain" << endl; cout << boost::diagnostic_information(_e) << endl; } cout << "search in blockqueue... " << endl; switch(c->blockQueue().blockStatus(hash)) { case QueueStatus::Ready: cout << "Ready" << endl; break; case QueueStatus::Importing: cout << "Importing" << endl; break; case QueueStatus::UnknownParent: cout << "UnknownParent" << endl; break; case QueueStatus::Bad: cout << "Bad" << endl; break; case QueueStatus::Unknown: cout << "Unknown" << endl; break; default: cout << "invalid queueStatus" << endl; } } else cwarn << "Require parameter: findblock HASH"; } else if (c && cmd == "firstunknown") cout << "first unknown blockhash: " << c->blockQueue().firstUnknown().hex() << endl; else if (c && cmd == "retryunknown") c->retryUnknown(); else if (cmd == "peers") { for (auto it: web3.peers()) cout << it.host << ":" << it.port << ", " << it.clientVersion << ", " << std::chrono::duration_cast(it.lastPing).count() << "ms" << endl; } else if (cmd == "newaccount") { string name; std::getline(iss, name); auto s = Secret::random(); string password; while (password.empty()) { password = getPassword("Please enter a password to protect this key (press enter for protection only be the MASTER password/keystore): "); string confirm = getPassword("Please confirm the password by entering it again: "); if (password != confirm) { cout << "Passwords were different. Try again." << endl; password.clear(); } } if (!password.empty()) { cout << "Enter a hint for this password: " << flush; string hint; std::getline(cin, hint); keyManager.import(s, name, password, hint); } else keyManager.import(s, name); cout << "New account created: " << toAddress(s); } else if (c && cmd == "accounts") { cout << "Accounts:" << endl; u256 total = 0; for (auto const& address: keyManager.accounts()) { auto b = c->balanceAt(address); cout << ((address == signingKey) ? "SIGNING " : " ") << ((address == beneficiary) ? "COINBASE " : " ") << keyManager.accountName(address) << " (" << address << "): " << formatBalance(b) << " = " << b << " wei" << endl; total += b; } cout << "Total: " << formatBalance(total) << " = " << total << " wei" << endl; } else if (c && cmd == "transact") { auto const& bc =c->blockChain(); auto h = bc.currentHash(); auto blockData = bc.block(h); BlockInfo info(blockData); if (iss.peek() != -1) { string hexAddr; u256 amount; u256 gasPrice; u256 gas; string sechex; string sdata; iss >> hexAddr >> amount >> gasPrice >> gas >> sechex >> sdata; if (!gasPrice) gasPrice = gasPricer->bid(priority); cnote << "Data:"; cnote << sdata; bytes data = dev::eth::parseData(sdata); cnote << "Bytes:"; string sbd = asString(data); bytes bbd = asBytes(sbd); stringstream ssbd; ssbd << bbd; cnote << ssbd.str(); int ssize = sechex.length(); int size = hexAddr.length(); u256 minGas = (u256)Transaction::gasRequired(data, 0); if (size < 40) { if (size > 0) cwarn << "Invalid address length:" << size; } else if (gas < minGas) cwarn << "Minimum gas amount is" << minGas; else if (ssize < 40) { if (ssize > 0) cwarn << "Invalid secret length:" << ssize; } else { try { Secret secret = h256(fromHex(sechex)); Address dest = h160(fromHex(hexAddr)); c->submitTransaction(secret, amount, dest, data, gas, gasPrice); } catch (BadHexCharacter& _e) { cwarn << "invalid hex character, transaction rejected"; cwarn << boost::diagnostic_information(_e); } catch (...) { cwarn << "transaction rejected"; } } } else cwarn << "Require parameters: submitTransaction ADDRESS AMOUNT GASPRICE GAS SECRET DATA"; } else if (c && cmd == "transactnonce") { auto const& bc =c->blockChain(); auto h = bc.currentHash(); auto blockData = bc.block(h); BlockInfo info(blockData); if (iss.peek() != -1) { string hexAddr; u256 amount; u256 gasPrice; u256 gas; string sechex; string sdata; u256 nonce; iss >> hexAddr >> amount >> gasPrice >> gas >> sechex >> sdata >> nonce; if (!gasPrice) gasPrice = gasPricer->bid(priority); cnote << "Data:"; cnote << sdata; bytes data = dev::eth::parseData(sdata); cnote << "Bytes:"; string sbd = asString(data); bytes bbd = asBytes(sbd); stringstream ssbd; ssbd << bbd; cnote << ssbd.str(); int ssize = sechex.length(); int size = hexAddr.length(); u256 minGas = (u256)Transaction::gasRequired(data, 0); if (size < 40) { if (size > 0) cwarn << "Invalid address length:" << size; } else if (gas < minGas) cwarn << "Minimum gas amount is" << minGas; else if (ssize < 40) { if (ssize > 0) cwarn << "Invalid secret length:" << ssize; } else { try { Secret secret = h256(fromHex(sechex)); Address dest = h160(fromHex(hexAddr)); c->submitTransaction(secret, amount, dest, data, gas, gasPrice, nonce); } catch (BadHexCharacter& _e) { cwarn << "invalid hex character, transaction rejected"; cwarn << boost::diagnostic_information(_e); } catch (...) { cwarn << "transaction rejected"; } } } else cwarn << "Require parameters: submitTransaction ADDRESS AMOUNT GASPRICE GAS SECRET DATA NONCE"; } else if (c && cmd == "txcreate") { auto const& bc =c->blockChain(); auto h = bc.currentHash(); auto blockData = bc.block(h); BlockInfo info(blockData); if (iss.peek() != -1) { u256 amount; u256 gasPrice; u256 gas; string sechex; string sdata; iss >> amount >> gasPrice >> gas >> sechex >> sdata; if (!gasPrice) gasPrice = gasPricer->bid(priority); cnote << "Data:"; cnote << sdata; bytes data = dev::eth::parseData(sdata); cnote << "Bytes:"; string sbd = asString(data); bytes bbd = asBytes(sbd); stringstream ssbd; ssbd << bbd; cnote << ssbd.str(); int ssize = sechex.length(); u256 minGas = (u256)Transaction::gasRequired(data, 0); if (gas < minGas) cwarn << "Minimum gas amount is" << minGas; else if (ssize < 40) { if (ssize > 0) cwarn << "Invalid secret length:" << ssize; } else { try { Secret secret = h256(fromHex(sechex)); cout << " new contract address : " << c->submitTransaction(secret, amount, data, gas, gasPrice) << endl; } catch (BadHexCharacter& _e) { cwarn << "invalid hex character, transaction rejected"; cwarn << boost::diagnostic_information(_e); } catch (...) { cwarn << "transaction rejected"; } } } else cwarn << "Require parameters: submitTransaction ADDRESS AMOUNT GASPRICE GAS SECRET INIT"; } #if ETH_FATDB else if (c && cmd == "listcontracts") { auto acs =c->addresses(); string ss; for (auto const& i: acs) if ( c->codeAt(i, PendingBlock).size()) { ss = toString(i) + " : " + toString( c->balanceAt(i)) + " [" + toString((unsigned) c->countAt(i)) + "]"; cout << ss << endl; } } else if (c && cmd == "listaccounts") { auto acs =c->addresses(); string ss; for (auto const& i: acs) if ( c->codeAt(i, PendingBlock).empty()) { ss = toString(i) + " : " + toString( c->balanceAt(i)) + " [" + toString((unsigned) c->countAt(i)) + "]"; cout << ss << endl; } } else if (c && cmd == "balanceat") { if (iss.peek() != -1) { string stringHash; iss >> stringHash; Address address = h160(fromHex(stringHash)); cout << "balance of " << stringHash << " is: " << toString(c->balanceAt(address)) << endl; } } else if (c && cmd == "balanceatblock") { if (iss.peek() != -1) { string stringHash; unsigned blocknumber; iss >> stringHash >> blocknumber; Address address = h160(fromHex(stringHash)); cout << "balance of " << stringHash << " is: " << toString(c->balanceAt(address, blocknumber)) << endl; } } else if (c && cmd == "storageat") { if (iss.peek() != -1) { string stringHash; iss >> stringHash; Address address = h160(fromHex(stringHash)); cout << "storage at " << stringHash << " is: " << endl; for (auto s: c->storageAt(address)) cout << toHex(s.first) << " : " << toHex(s.second) << endl; } } else if (c && cmd == "storageatblock") { if (iss.peek() != -1) { string stringHash; unsigned blocknumber; iss >> stringHash >> blocknumber; Address address = h160(fromHex(stringHash)); cout << "storage at " << stringHash << " is: " << endl; for (auto s: c->storageAt(address, blocknumber)) cout << "\"0x" << toHex(s.first) << "\" : \"0x" << toHex(s.second) << "\"," << endl; } } else if (c && cmd == "codeat") { if (iss.peek() != -1) { string stringHash; iss >> stringHash; Address address = h160(fromHex(stringHash)); cout << "code at " << stringHash << " is: " << toHex(c->codeAt(address)) << endl; } } #endif else if (c && cmd == "send") { if (iss.peek() != -1) { string hexAddr; u256 amount; iss >> hexAddr >> amount; int size = hexAddr.length(); if (size < 40) { if (size > 0) cwarn << "Invalid address length:" << size; } else { auto const& bc =c->blockChain(); auto h = bc.currentHash(); auto blockData = bc.block(h); BlockInfo info(blockData); u256 minGas = (u256)Transaction::gasRequired(bytes(), 0); try { Address dest = h160(fromHex(hexAddr, WhenError::Throw)); c->submitTransaction(keyManager.secret(signingKey, [&](){ return getAccountPassword(signingKey); }), amount, dest, bytes(), minGas); } catch (BadHexCharacter& _e) { cwarn << "invalid hex character, transaction rejected"; cwarn << boost::diagnostic_information(_e); } catch (...) { cwarn << "transaction rejected"; } } } else cwarn << "Require parameters: send ADDRESS AMOUNT"; } else if (c && cmd == "contract") { auto const& bc =c->blockChain(); auto h = bc.currentHash(); auto blockData = bc.block(h); BlockInfo info(blockData); if (iss.peek() != -1) { u256 endowment; u256 gas; u256 gasPrice; string sinit; iss >> endowment >> gasPrice >> gas >> sinit; trim_all(sinit); int size = sinit.length(); bytes init; cnote << "Init:"; cnote << sinit; cnote << "Code size:" << size; if (size < 1) cwarn << "No code submitted"; else { cnote << "Assembled:"; stringstream ssc; try { init = fromHex(sinit, WhenError::Throw); } catch (BadHexCharacter& _e) { cwarn << "invalid hex character, code rejected"; cwarn << boost::diagnostic_information(_e); init = bytes(); } catch (...) { cwarn << "code rejected"; init = bytes(); } ssc.str(string()); ssc << disassemble(init); cnote << "Init:"; cnote << ssc.str(); } u256 minGas = (u256)Transaction::gasRequired(init, 0); if (!init.size()) cwarn << "Contract creation aborted, no init code."; else if (endowment < 0) cwarn << "Invalid endowment"; else if (gas < minGas) cwarn << "Minimum gas amount is" << minGas; else c->submitTransaction(keyManager.secret(signingKey, [&](){ return getAccountPassword(signingKey); }), endowment, init, gas, gasPrice); } else cwarn << "Require parameters: contract ENDOWMENT GASPRICE GAS CODEHEX"; } else if (c && cmd == "dumpreceipt") { unsigned block; unsigned index; iss >> block >> index; dev::eth::TransactionReceipt r = c->blockChain().receipts(c->blockChain().numberHash(block)).receipts[index]; auto rb = r.rlp(); cout << "RLP: " << RLP(rb) << endl; cout << "Hex: " << toHex(rb) << endl; cout << r << endl; } else if (c && cmd == "reprocess") { string block; iss >> block; h256 blockHash; try { if (block.size() == 64 || block.size() == 66) blockHash = h256(block); else blockHash = c->blockChain().numberHash(stoi(block)); c->state(blockHash); } catch (...) {} } else if (c && cmd == "dumptrace") { unsigned block; unsigned index; string filename; string format; iss >> block >> index >> filename >> format; ofstream f; f.open(filename); dev::eth::State state = c->state(index + 1,c->blockChain().numberHash(block)); if (index < state.pending().size()) { Executive e(state, c->blockChain(), 0); Transaction t = state.pending()[index]; state = state.fromPending(index); try { OnOpFunc oof; if (format == "pretty") oof = [&](uint64_t steps, Instruction instr, bigint newMemSize, bigint gasCost, bigint gas, dev::eth::VM* vvm, dev::eth::ExtVMFace const* vextVM) { dev::eth::VM* vm = vvm; dev::eth::ExtVM const* ext = static_cast(vextVM); f << endl << " STACK" << endl; for (auto i: vm->stack()) f << (h256)i << endl; f << " MEMORY" << endl << dev::memDump(vm->memory()); f << " STORAGE" << endl; for (auto const& i: ext->state().storage(ext->myAddress)) f << showbase << hex << i.first << ": " << i.second << endl; f << dec << ext->depth << " | " << ext->myAddress << " | #" << steps << " | " << hex << setw(4) << setfill('0') << vm->curPC() << " : " << dev::eth::instructionInfo(instr).name << " | " << dec << gas << " | -" << dec << gasCost << " | " << newMemSize << "x32"; }; else if (format == "standard") oof = [&](uint64_t, Instruction instr, bigint, bigint, bigint gas, dev::eth::VM* vvm, dev::eth::ExtVMFace const* vextVM) { dev::eth::VM* vm = vvm; dev::eth::ExtVM const* ext = static_cast(vextVM); f << ext->myAddress << " " << hex << toHex(dev::toCompactBigEndian(vm->curPC(), 1)) << " " << hex << toHex(dev::toCompactBigEndian((int)(byte)instr, 1)) << " " << hex << toHex(dev::toCompactBigEndian((uint64_t)gas, 1)) << endl; }; else if (format == "standard+") oof = [&](uint64_t, Instruction instr, bigint, bigint, bigint gas, dev::eth::VM* vvm, dev::eth::ExtVMFace const* vextVM) { dev::eth::VM* vm = vvm; dev::eth::ExtVM const* ext = static_cast(vextVM); if (instr == Instruction::STOP || instr == Instruction::RETURN || instr == Instruction::SUICIDE) for (auto const& i: ext->state().storage(ext->myAddress)) f << toHex(dev::toCompactBigEndian(i.first, 1)) << " " << toHex(dev::toCompactBigEndian(i.second, 1)) << endl; f << ext->myAddress << " " << hex << toHex(dev::toCompactBigEndian(vm->curPC(), 1)) << " " << hex << toHex(dev::toCompactBigEndian((int)(byte)instr, 1)) << " " << hex << toHex(dev::toCompactBigEndian((uint64_t)gas, 1)) << endl; }; e.initialize(t); if (!e.execute()) e.go(oof); e.finalize(); } catch(Exception const& _e) { // TODO: a bit more information here. this is probably quite worrying as the transaction is already in the blockchain. cwarn << diagnostic_information(_e); } } } else if (c && cmd == "inspect") { string rechex; iss >> rechex; if (rechex.length() != 40) cwarn << "Invalid address length"; else { auto h = h160(fromHex(rechex)); stringstream s; try { auto storage =c->storageAt(h, PendingBlock); for (auto const& i: storage) s << "@" << showbase << hex << i.first << " " << showbase << hex << i.second << endl; s << endl << disassemble( c->codeAt(h, PendingBlock)) << endl; string outFile = getDataDir() + "/" + rechex + ".evm"; ofstream ofs; ofs.open(outFile, ofstream::binary); ofs.write(s.str().c_str(), s.str().length()); ofs.close(); cnote << "Saved" << rechex << "to" << outFile; } catch (dev::InvalidTrie) { cwarn << "Corrupted trie."; } } } else if (cmd == "setsigningkey") { if (iss.peek() != -1) { string hexSec; iss >> hexSec; signingKey = Address(fromHex(hexSec)); } else cwarn << "Require parameter: setSecret HEXSECRETKEY"; } else if (cmd == "setaddress") { if (iss.peek() != -1) { string hexAddr; iss >> hexAddr; if (hexAddr.length() != 40) cwarn << "Invalid address length: " << hexAddr.length(); else { try { beneficiary = h160(fromHex(hexAddr, WhenError::Throw)); } catch (BadHexCharacter& _e) { cwarn << "invalid hex character, coinbase rejected"; cwarn << boost::diagnostic_information(_e); } catch (...) { cwarn << "coinbase rejected"; } } } else cwarn << "Require parameter: setAddress HEXADDRESS"; } else if (cmd == "exportconfig") { if (iss.peek() != -1) { string path; iss >> path; RLPStream config(2); config << signingKey << beneficiary; writeFile(path, config.out()); } else cwarn << "Require parameter: exportConfig PATH"; } else if (cmd == "importconfig") { if (iss.peek() != -1) { string path; iss >> path; bytes b = contents(path); if (b.size()) { RLP config(b); signingKey = config[0].toHash
(); beneficiary = config[1].toHash
(); } else cwarn << path << "has no content!"; } else cwarn << "Require parameter: importConfig PATH"; } else if (cmd == "help") interactiveHelp(); else if (cmd == "exit") break; else cout << "Unrecognised command. Type 'help' for help in interactive mode." << endl; } } int main(int argc, char** argv) { // Init defaults Defaults::get(); /// Operating mode. OperationMode mode = OperationMode::Node; string dbPath; unsigned prime = 0; bool yesIReallyKnowWhatImDoing = false; /// File name for import/export. string filename; bool safeImport = false; /// Hashes/numbers for export range. string exportFrom = "1"; string exportTo = "latest"; Format exportFormat = Format::Binary; /// General params for Node operation NodeMode nodeMode = NodeMode::Full; bool interactive = false; #if ETH_JSONRPC int jsonrpc = -1; #endif string jsonAdmin; bool upnp = true; WithExisting killChain = WithExisting::Trust; bool jit = false; string sentinel; /// Networking params. string clientName; string listenIP; unsigned short listenPort = 30303; string publicIP; string remoteHost; unsigned short remotePort = 30303; unsigned peers = 11; bool bootstrap = false; bool disableDiscovery = false; bool pinning = false; unsigned networkId = 0; /// Mining params unsigned mining = 0; bool forceMining = false; bool mineOnWrongChain = false; Address signingKey; Address sessionKey; Address beneficiary = signingKey; /// Structured logging params bool structuredLogging = false; string structuredLoggingFormat = "%Y-%m-%dT%H:%M:%S"; string structuredLoggingURL; /// Transaction params TransactionPriority priority = TransactionPriority::Medium; // double etherPrice = 30.679; // double blockFees = 15.0; u256 askPrice("500000000000"); u256 bidPrice("500000000000"); // javascript console bool useConsole = false; /// Wallet password stuff string masterPassword; string configFile = getDataDir() + "/config.rlp"; bytes b = contents(configFile); strings passwordsToNote; Secrets toImport; if (b.size()) { RLP config(b); if (config[0].size() == 32) // secret key - import and forget. { Secret s = config[0].toHash(); toImport.push_back(s); } else // new format - just use it as an address. signingKey = config[0].toHash
(); beneficiary = config[1].toHash
(); } MinerCLI m(MinerCLI::OperationMode::None); for (int i = 1; i < argc; ++i) { string arg = argv[i]; if (m.interpretOption(i, argc, argv)) {} else if (arg == "--listen-ip" && i + 1 < argc) listenIP = argv[++i]; else if ((arg == "-l" || arg == "--listen" || arg == "--listen-port") && i + 1 < argc) { if (arg == "-l") cerr << "-l is DEPRECATED. It will be removed for the Frontier. Use --listen-port instead." << endl; listenPort = (short)atoi(argv[++i]); } else if ((arg == "-u" || arg == "--public-ip" || arg == "--public") && i + 1 < argc) { if (arg == "-u") cerr << "-u is DEPRECATED. It will be removed for the Frontier. Use --public-ip instead." << endl; publicIP = argv[++i]; } else if ((arg == "-r" || arg == "--remote") && i + 1 < argc) remoteHost = argv[++i]; else if ((arg == "-p" || arg == "--port") && i + 1 < argc) { if (arg == "-p") cerr << "-p is DEPRECATED. It will be removed for the Frontier. Use --port instead (or place directly as host:port)." << endl; remotePort = (short)atoi(argv[++i]); } else if (arg == "--password" && i + 1 < argc) passwordsToNote.push_back(argv[++i]); else if (arg == "--master" && i + 1 < argc) masterPassword = argv[++i]; else if ((arg == "-I" || arg == "--import") && i + 1 < argc) { mode = OperationMode::Import; filename = argv[++i]; } else if (arg == "--dont-check") safeImport = true; else if ((arg == "-E" || arg == "--export") && i + 1 < argc) { mode = OperationMode::Export; filename = argv[++i]; } else if (arg == "--prime" && i + 1 < argc) try { prime = stoi(argv[++i]); } catch (...) { cerr << "Bad " << arg << " option: " << argv[i] << endl; return -1; } else if (arg == "--yes-i-really-know-what-im-doing") yesIReallyKnowWhatImDoing = true; else if (arg == "--sentinel" && i + 1 < argc) sentinel = argv[++i]; else if (arg == "--mine-on-wrong-chain") mineOnWrongChain = true; else if (arg == "--format" && i + 1 < argc) { string m = argv[++i]; if (m == "binary") exportFormat = Format::Binary; else if (m == "hex") exportFormat = Format::Hex; else if (m == "human") exportFormat = Format::Human; else { cerr << "Bad " << arg << " option: " << m << endl; return -1; } } else if (arg == "--to" && i + 1 < argc) exportTo = argv[++i]; else if (arg == "--from" && i + 1 < argc) exportFrom = argv[++i]; else if (arg == "--only" && i + 1 < argc) exportTo = exportFrom = argv[++i]; else if ((arg == "-n" || arg == "-u" || arg == "--upnp") && i + 1 < argc) { if (arg == "-n") cerr << "-n is DEPRECATED. It will be removed for the Frontier. Use --upnp instead." << endl; string m = argv[++i]; if (isTrue(m)) upnp = true; else if (isFalse(m)) upnp = false; else { cerr << "Bad " << arg << " option: " << m << endl; return -1; } } else if (arg == "--network-id" && i + 1 < argc) try { networkId = stol(argv[++i]); } catch (...) { cerr << "Bad " << arg << " option: " << argv[i] << endl; return -1; } else if (arg == "-K" || arg == "--kill-blockchain" || arg == "--kill") killChain = WithExisting::Kill; else if (arg == "-R" || arg == "--rebuild") killChain = WithExisting::Verify; else if ((arg == "-c" || arg == "--client-name") && i + 1 < argc) { if (arg == "-c") cerr << "-c is DEPRECATED. It will be removed for the Frontier. Use --client-name instead." << endl; clientName = argv[++i]; } else if ((arg == "-a" || arg == "--address" || arg == "--coinbase-address") && i + 1 < argc) try { beneficiary = h160(fromHex(argv[++i], WhenError::Throw)); } catch (BadHexCharacter&) { cerr << "Bad hex in " << arg << " option: " << argv[i] << endl; return -1; } catch (...) { cerr << "Bad " << arg << " option: " << argv[i] << endl; return -1; } else if ((arg == "-s" || arg == "--import-secret") && i + 1 < argc) { Secret s(fromHex(argv[++i])); toImport.push_back(s); signingKey = toAddress(s); } else if ((arg == "-S" || arg == "--import-session-secret") && i + 1 < argc) { Secret s(fromHex(argv[++i])); toImport.push_back(s); sessionKey = toAddress(s); } else if ((arg == "--sign-key") && i + 1 < argc) sessionKey = Address(fromHex(argv[++i])); else if ((arg == "--session-sign-key") && i + 1 < argc) sessionKey = Address(fromHex(argv[++i])); else if (arg == "--structured-logging-format" && i + 1 < argc) structuredLoggingFormat = string(argv[++i]); else if (arg == "--structured-logging") structuredLogging = true; else if (arg == "--structured-logging-url" && i + 1 < argc) { structuredLogging = true; structuredLoggingURL = argv[++i]; } else if ((arg == "-d" || arg == "--path" || arg == "--db-path") && i + 1 < argc) dbPath = argv[++i]; else if (arg == "--genesis-nonce" && i + 1 < argc) { try { CanonBlockChain::setGenesisNonce(Nonce(argv[++i])); } catch (...) { cerr << "Bad " << arg << " option: " << argv[i] << endl; return -1; } } /* else if ((arg == "-B" || arg == "--block-fees") && i + 1 < argc) { try { blockFees = stof(argv[++i]); } catch (...) { cerr << "Bad " << arg << " option: " << argv[i] << endl; return -1; } } else if ((arg == "-e" || arg == "--ether-price") && i + 1 < argc) { try { etherPrice = stof(argv[++i]); } catch (...) { cerr << "Bad " << arg << " option: " << argv[i] << endl; return -1; } }*/ else if (arg == "--ask" && i + 1 < argc) { try { askPrice = u256(argv[++i]); } catch (...) { cerr << "Bad " << arg << " option: " << argv[i] << endl; return -1; } } else if (arg == "--bid" && i + 1 < argc) { try { bidPrice = u256(argv[++i]); } catch (...) { cerr << "Bad " << arg << " option: " << argv[i] << endl; return -1; } } else if ((arg == "-P" || arg == "--priority") && i + 1 < argc) { string m = boost::to_lower_copy(string(argv[++i])); if (m == "lowest") priority = TransactionPriority::Lowest; else if (m == "low") priority = TransactionPriority::Low; else if (m == "medium" || m == "mid" || m == "default" || m == "normal") priority = TransactionPriority::Medium; else if (m == "high") priority = TransactionPriority::High; else if (m == "highest") priority = TransactionPriority::Highest; else try { priority = (TransactionPriority)(max(0, min(100, stoi(m))) * 8 / 100); } catch (...) { cerr << "Unknown " << arg << " option: " << m << endl; return -1; } } else if ((arg == "-m" || arg == "--mining") && i + 1 < argc) { string m = argv[++i]; if (isTrue(m)) mining = ~(unsigned)0; else if (isFalse(m)) mining = 0; else try { mining = stoi(m); } catch (...) { cerr << "Unknown " << arg << " option: " << m << endl; return -1; } } else if (arg == "-b" || arg == "--bootstrap") bootstrap = true; else if (arg == "--no-discovery") disableDiscovery = true; else if (arg == "--pin") pinning = true; else if (arg == "-f" || arg == "--force-mining") forceMining = true; else if (arg == "-i" || arg == "--interactive") interactive = true; #if ETH_JSONRPC else if ((arg == "-j" || arg == "--json-rpc")) jsonrpc = jsonrpc == -1 ? SensibleHttpPort : jsonrpc; else if (arg == "--json-rpc-port" && i + 1 < argc) jsonrpc = atoi(argv[++i]); else if (arg == "--json-admin" && i + 1 < argc) jsonAdmin = argv[++i]; #endif #if ETH_JSCONSOLE else if (arg == "--console") useConsole = true; #endif else if ((arg == "-v" || arg == "--verbosity") && i + 1 < argc) g_logVerbosity = atoi(argv[++i]); else if ((arg == "-x" || arg == "--peers") && i + 1 < argc) peers = atoi(argv[++i]); else if ((arg == "-o" || arg == "--mode") && i + 1 < argc) { string m = argv[++i]; if (m == "full") nodeMode = NodeMode::Full; else if (m == "peer") nodeMode = NodeMode::PeerServer; else { cerr << "Unknown mode: " << m << endl; return -1; } } #if ETH_EVMJIT else if (arg == "--vm" && i + 1 < argc) { string vmKind = argv[++i]; if (vmKind == "interpreter") VMFactory::setKind(VMKind::Interpreter); else if (vmKind == "jit") VMFactory::setKind(VMKind::JIT); else if (vmKind == "smart") VMFactory::setKind(VMKind::Smart); else { cerr << "Unknown VM kind: " << vmKind << endl; return -1; } } #endif else if (arg == "-h" || arg == "--help") help(); else if (arg == "-V" || arg == "--version") version(); else { cerr << "Invalid argument: " << arg << endl; exit(-1); } } m.execute(); KeyManager keyManager; for (auto const& s: passwordsToNote) keyManager.notePassword(s); { RLPStream config(2); config << signingKey << beneficiary; writeFile(configFile, config.out()); } if (sessionKey) signingKey = sessionKey; if (!clientName.empty()) clientName += "/"; string logbuf; std::string additional; if (interactive) g_logPost = [&](std::string const& a, char const*){ static SpinLock s_lock; SpinGuard l(s_lock); if (g_silence) logbuf += a + "\n"; else cout << "\r \r" << a << endl << additional << flush; // helpful to use OutputDebugString on windows #ifdef _WIN32 { OutputDebugStringA(a.data()); OutputDebugStringA("\n"); } #endif }; auto getPassword = [&](string const& prompt){ auto s = g_silence; g_silence = true; cout << endl; string ret = dev::getPassword(prompt); g_silence = s; return ret; }; auto getAccountPassword = [&](Address const& a){ return getPassword("Enter password for address " + keyManager.accountName(a) + " (" + a.abridged() + "; hint:" + keyManager.passwordHint(a) + "): "); }; StructuredLogger::get().initialize(structuredLogging, structuredLoggingFormat, structuredLoggingURL); VMFactory::setKind(jit ? VMKind::JIT : VMKind::Interpreter); auto netPrefs = publicIP.empty() ? NetworkPreferences(listenIP ,listenPort, upnp) : NetworkPreferences(publicIP, listenIP ,listenPort, upnp); netPrefs.discovery = !disableDiscovery; netPrefs.pin = pinning; auto nodesState = contents((dbPath.size() ? dbPath : getDataDir()) + "/network.rlp"); dev::WebThreeDirect web3( WebThreeDirect::composeClientVersion("++eth", clientName), dbPath, killChain, nodeMode == NodeMode::Full ? set{"eth"/*, "shh"*/} : set(), netPrefs, &nodesState); web3.ethereum()->setMineOnBadChain(mineOnWrongChain); web3.ethereum()->setSentinel(sentinel); auto toNumber = [&](string const& s) -> unsigned { if (s == "latest") return web3.ethereum()->number(); if (s.size() == 64 || (s.size() == 66 && s.substr(0, 2) == "0x")) return web3.ethereum()->blockChain().number(h256(s)); try { return stol(s); } catch (...) { cerr << "Bad block number/hash option: " << s << endl; exit(-1); } }; if (mode == OperationMode::Export) { ofstream fout(filename, std::ofstream::binary); ostream& out = (filename.empty() || filename == "--") ? cout : fout; unsigned last = toNumber(exportTo); for (unsigned i = toNumber(exportFrom); i <= last; ++i) { bytes block = web3.ethereum()->blockChain().block(web3.ethereum()->blockChain().numberHash(i)); switch (exportFormat) { case Format::Binary: out.write((char const*)block.data(), block.size()); break; case Format::Hex: out << toHex(block) << endl; break; case Format::Human: out << RLP(block) << endl; break; default:; } } return 0; } if (mode == OperationMode::Import) { ifstream fin(filename, std::ifstream::binary); istream& in = (filename.empty() || filename == "--") ? cin : fin; unsigned alreadyHave = 0; unsigned good = 0; unsigned futureTime = 0; unsigned unknownParent = 0; unsigned bad = 0; chrono::steady_clock::time_point t = chrono::steady_clock::now(); double last = 0; unsigned lastImported = 0; unsigned imported = 0; while (in.peek() != -1) { bytes block(8); in.read((char*)block.data(), 8); block.resize(RLP(block, RLP::LaissezFaire).actualSize()); in.read((char*)block.data() + 8, block.size() - 8); switch (web3.ethereum()->queueBlock(block, safeImport)) { case ImportResult::Success: good++; break; case ImportResult::AlreadyKnown: alreadyHave++; break; case ImportResult::UnknownParent: unknownParent++; break; case ImportResult::FutureTimeUnknown: unknownParent++; futureTime++; break; case ImportResult::FutureTimeKnown: futureTime++; break; default: bad++; break; } // sync chain with queue tuple r = web3.ethereum()->syncQueue(10); imported += get<2>(r); double e = chrono::duration_cast(chrono::steady_clock::now() - t).count() / 1000.0; if ((unsigned)e >= last + 10) { auto i = imported - lastImported; auto d = e - last; cout << i << " more imported at " << (round(i * 10 / d) / 10) << " blocks/s. " << imported << " imported in " << e << " seconds at " << (round(imported * 10 / e) / 10) << " blocks/s (#" << web3.ethereum()->number() << ")" << endl; last = (unsigned)e; lastImported = imported; // cout << web3.ethereum()->blockQueueStatus() << endl; } } while (web3.ethereum()->blockQueue().items().first + web3.ethereum()->blockQueue().items().second > 0) { this_thread::sleep_for(chrono::seconds(1)); web3.ethereum()->syncQueue(100000); } double e = chrono::duration_cast(chrono::steady_clock::now() - t).count() / 1000.0; cout << imported << " imported in " << e << " seconds at " << (round(imported * 10 / e) / 10) << " blocks/s (#" << web3.ethereum()->number() << ")" << endl; return 0; } if (c_network == eth::Network::Frontier && !yesIReallyKnowWhatImDoing) { auto pd = contents(getDataDir() + "primes"); unordered_set primes = RLP(pd).toUnorderedSet(); while (true) { if (!prime) try { prime = stoi(getPassword("To enter the Frontier, enter a 6 digit prime that you have not entered before: ")); } catch (...) {} if (isPrime(prime) && !primes.count(prime)) break; prime = 0; } primes.insert(prime); writeFile(getDataDir() + "primes", rlp(primes)); } if (keyManager.exists()) { if (masterPassword.empty() || !keyManager.load(masterPassword)) while (true) { masterPassword = getPassword("Please enter your MASTER password: "); if (keyManager.load(masterPassword)) break; cout << "Password invalid. Try again." << endl; } } else { while (masterPassword.empty()) { masterPassword = getPassword("Please enter a MASTER password to protect your key store (make it strong!): "); string confirm = getPassword("Please confirm the password by entering it again: "); if (masterPassword != confirm) { cout << "Passwords were different. Try again." << endl; masterPassword.clear(); } } keyManager.create(masterPassword); } for (auto const& s: toImport) { keyManager.import(s, "Imported key (UNSAFE)"); if (!signingKey) signingKey = toAddress(s); } if (keyManager.accounts().empty()) keyManager.import(Secret::random(), "Default key"); cout << ethCredits(); web3.setIdealPeerCount(peers); // std::shared_ptr gasPricer = make_shared(u256(double(ether / 1000) / etherPrice), u256(blockFees * 1000)); std::shared_ptr gasPricer = make_shared(askPrice, bidPrice); eth::Client* c = nodeMode == NodeMode::Full ? web3.ethereum() : nullptr; StructuredLogger::starting(WebThreeDirect::composeClientVersion("++eth", clientName), dev::Version); if (c) { c->setGasPricer(gasPricer); c->setForceMining(forceMining); c->setTurboMining(m.minerType() == MinerCLI::MinerType::GPU); c->setAddress(beneficiary); c->setNetworkId(networkId); } cout << "Transaction Signer: " << signingKey << endl; cout << "Mining Benefactor: " << beneficiary << endl; if (bootstrap || !remoteHost.empty()) { web3.startNetwork(); cout << "Node ID: " << web3.enode() << endl; } else cout << "Networking disabled. To start, use netstart or pass -b or a remote host." << endl; if (useConsole && jsonrpc == -1) jsonrpc = SensibleHttpPort; #if ETH_JSONRPC || !ETH_TRUE shared_ptr jsonrpcServer; unique_ptr jsonrpcConnector; if (jsonrpc > -1) { jsonrpcConnector = unique_ptr(new jsonrpc::HttpServer(jsonrpc, "", "", SensibleHttpThreads)); jsonrpcServer = make_shared(*jsonrpcConnector.get(), web3, make_shared([&](){ return web3.ethereum(); }, getAccountPassword, keyManager), vector(), keyManager, *gasPricer); jsonrpcServer->setMiningBenefactorChanger([&](Address const& a) { beneficiary = a; }); jsonrpcServer->StartListening(); if (jsonAdmin.empty()) jsonAdmin = jsonrpcServer->newSession(SessionPermissions{{Priviledge::Admin}}); else jsonrpcServer->addSession(jsonAdmin, SessionPermissions{{Priviledge::Admin}}); cout << "JSONRPC Admin Session Key: " << jsonAdmin << endl; } #endif if (bootstrap) for (auto const& i: Host::pocHosts()) web3.requirePeer(i.first, i.second); if (!remoteHost.empty()) web3.addNode(p2p::NodeId(), remoteHost + ":" + toString(remotePort)); signal(SIGABRT, &sighandler); signal(SIGTERM, &sighandler); signal(SIGINT, &sighandler); if (interactive) interactiveMode(c, gasPricer, web3, keyManager, logbuf, additional, getPassword, getAccountPassword, netPrefs, beneficiary, signingKey, priority); else if (c) { unsigned n = c->blockChain().details().number; if (mining) c->startMining(); if (useConsole) { #if ETH_JSCONSOLE || !ETH_TRUE JSLocalConsole console; shared_ptr rpcServer = make_shared(*console.connector(), web3, make_shared([&](){ return web3.ethereum(); }, getAccountPassword, keyManager), vector(), keyManager, *gasPricer); while (!g_exit) { console.readExpression(); stopMiningAfterXBlocks(c, n, mining); } rpcServer->StopListening(); #endif } else while (!g_exit) stopMiningAfterXBlocks(c, n, mining); } else while (!g_exit) this_thread::sleep_for(chrono::milliseconds(1000)); #if ETH_JSONRPC if (jsonrpcServer.get()) jsonrpcServer->StopListening(); #endif StructuredLogger::stopping(WebThreeDirect::composeClientVersion("++eth", clientName), dev::Version); auto netData = web3.saveNetwork(); if (!netData.empty()) writeFile((dbPath.size() ? dbPath : getDataDir()) + "/network.rlp", netData); return 0; }