// Copyright (c) 2014-2019, The Monero Project // // All rights reserved. // // Redistribution and use in source and binary forms, with or without modification, are // permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, this list of // conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright notice, this list // of conditions and the following disclaimer in the documentation and/or other // materials provided with the distribution. // // 3. Neither the name of the copyright holder nor the names of its contributors may be // used to endorse or promote products derived from this software without specific // prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL // THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, // STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF // THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include "common/dns_utils.h" #include "common/command_line.h" #include "daemon/command_parser_executor.h" #undef MONERO_DEFAULT_LOG_CATEGORY #define MONERO_DEFAULT_LOG_CATEGORY "daemon" namespace daemonize { t_command_parser_executor::t_command_parser_executor( uint32_t ip , uint16_t port , const boost::optional& login , const epee::net_utils::ssl_options_t& ssl_options , bool is_rpc , cryptonote::core_rpc_server* rpc_server ) : m_executor(ip, port, login, ssl_options, is_rpc, rpc_server) {} bool t_command_parser_executor::print_peer_list(const std::vector& args) { if (args.size() > 3) { std::cout << "use: print_pl [white] [gray] [] [pruned] [publicrpc]" << std::endl; return true; } bool white = false; bool gray = false; bool pruned = false; bool publicrpc = false; size_t limit = 0; for (size_t i = 0; i < args.size(); ++i) { if (args[i] == "white") { white = true; } else if (args[i] == "gray") { gray = true; } else if (args[i] == "pruned") { pruned = true; } else if (args[i] == "publicrpc") { publicrpc = true; } else if (!epee::string_tools::get_xtype_from_string(limit, args[i])) { std::cout << "unexpected argument: " << args[i] << std::endl; return true; } } const bool print_both = !white && !gray; return m_executor.print_peer_list(white | print_both, gray | print_both, limit, pruned, publicrpc); } bool t_command_parser_executor::print_peer_list_stats(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_peer_list_stats(); } bool t_command_parser_executor::save_blockchain(const std::vector& args) { if (!args.empty()) return false; return m_executor.save_blockchain(); } bool t_command_parser_executor::show_hash_rate(const std::vector& args) { if (!args.empty()) return false; return m_executor.show_hash_rate(); } bool t_command_parser_executor::hide_hash_rate(const std::vector& args) { if (!args.empty()) return false; return m_executor.hide_hash_rate(); } bool t_command_parser_executor::show_difficulty(const std::vector& args) { if (!args.empty()) return false; return m_executor.show_difficulty(); } bool t_command_parser_executor::show_status(const std::vector& args) { if (!args.empty()) return false; return m_executor.show_status(); } bool t_command_parser_executor::print_connections(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_connections(); } bool t_command_parser_executor::print_net_stats(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_net_stats(); } bool t_command_parser_executor::print_blockchain_info(const std::vector& args) { if(!args.size()) { std::cout << "need block index parameter" << std::endl; return false; } uint64_t start_index = 0; uint64_t end_index = 0; if(!epee::string_tools::get_xtype_from_string(start_index, args[0])) { std::cout << "wrong starter block index parameter" << std::endl; return false; } if(args.size() >1 && !epee::string_tools::get_xtype_from_string(end_index, args[1])) { std::cout << "wrong end block index parameter" << std::endl; return false; } return m_executor.print_blockchain_info(start_index, end_index); } bool t_command_parser_executor::set_log_level(const std::vector& args) { if(args.size() > 1) { std::cout << "use: set_log [ | ]" << std::endl; return true; } if (args.empty()) { return m_executor.set_log_categories("+"); } uint16_t l = 0; if(epee::string_tools::get_xtype_from_string(l, args[0])) { if(4 < l) { std::cout << "wrong number range, use: set_log " << std::endl; return true; } return m_executor.set_log_level(l); } else { return m_executor.set_log_categories(args.front()); } } bool t_command_parser_executor::print_height(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_height(); } bool t_command_parser_executor::print_block(const std::vector& args) { bool include_hex = false; // Assumes that optional flags come after mandatory argument for (unsigned int i = 1; i < args.size(); ++i) { if (args[i] == "+hex") include_hex = true; else { std::cout << "unexpected argument: " << args[i] << std::endl; return true; } } if (args.empty()) { std::cout << "expected: print_block ( | ) [+hex]" << std::endl; return false; } const std::string& arg = args.front(); try { uint64_t height = boost::lexical_cast(arg); return m_executor.print_block_by_height(height, include_hex); } catch (const boost::bad_lexical_cast&) { crypto::hash block_hash; if (parse_hash256(arg, block_hash)) { return m_executor.print_block_by_hash(block_hash, include_hex); } } return false; } bool t_command_parser_executor::print_transaction(const std::vector& args) { bool include_hex = false; bool include_json = false; // Assumes that optional flags come after mandatory argument for (unsigned int i = 1; i < args.size(); ++i) { if (args[i] == "+hex") include_hex = true; else if (args[i] == "+json") include_json = true; else { std::cout << "unexpected argument: " << args[i] << std::endl; return true; } } if (args.empty()) { std::cout << "expected: print_tx [+hex] [+json]" << std::endl; return true; } const std::string& str_hash = args.front(); crypto::hash tx_hash; if (parse_hash256(str_hash, tx_hash)) { m_executor.print_transaction(tx_hash, include_hex, include_json); } return true; } bool t_command_parser_executor::is_key_image_spent(const std::vector& args) { if (args.empty()) { std::cout << "expected: is_key_image_spent " << std::endl; return true; } const std::string& str = args.front(); crypto::key_image ki; crypto::hash hash; if (parse_hash256(str, hash)) { memcpy(&ki, &hash, sizeof(ki)); m_executor.is_key_image_spent(ki); } return true; } bool t_command_parser_executor::print_transaction_pool_long(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_transaction_pool_long(); } bool t_command_parser_executor::print_transaction_pool_short(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_transaction_pool_short(); } bool t_command_parser_executor::print_transaction_pool_stats(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_transaction_pool_stats(); } bool t_command_parser_executor::start_mining(const std::vector& args) { if(!args.size()) { std::cout << "Please specify a wallet address to mine for: start_mining [|auto]" << std::endl; return true; } cryptonote::address_parse_info info; cryptonote::network_type nettype = cryptonote::MAINNET; if(!cryptonote::get_account_address_from_str(info, cryptonote::MAINNET, args.front())) { if(!cryptonote::get_account_address_from_str(info, cryptonote::TESTNET, args.front())) { if(!cryptonote::get_account_address_from_str(info, cryptonote::STAGENET, args.front())) { bool dnssec_valid; std::string address_str = tools::dns_utils::get_account_address_as_str_from_url(args.front(), dnssec_valid, [](const std::string &url, const std::vector &addresses, bool dnssec_valid){return addresses[0];}); if(!cryptonote::get_account_address_from_str(info, cryptonote::MAINNET, address_str)) { if(!cryptonote::get_account_address_from_str(info, cryptonote::TESTNET, address_str)) { if(!cryptonote::get_account_address_from_str(info, cryptonote::STAGENET, address_str)) { std::cout << "target account address has wrong format" << std::endl; return true; } else { nettype = cryptonote::STAGENET; } } else { nettype = cryptonote::TESTNET; } } } else { nettype = cryptonote::STAGENET; } } else { nettype = cryptonote::TESTNET; } } if (info.is_subaddress) { tools::fail_msg_writer() << "subaddress for mining reward is not yet supported!" << std::endl; return true; } if(nettype != cryptonote::MAINNET) std::cout << "Mining to a " << (nettype == cryptonote::TESTNET ? "testnet" : "stagenet") << " address, make sure this is intentional!" << std::endl; uint64_t threads_count = 1; bool do_background_mining = false; bool ignore_battery = false; if(args.size() > 4) { return false; } if(args.size() == 4) { if(args[3] == "true" || command_line::is_yes(args[3]) || args[3] == "1") { ignore_battery = true; } else if(args[3] != "false" && !command_line::is_no(args[3]) && args[3] != "0") { return false; } } if(args.size() >= 3) { if(args[2] == "true" || command_line::is_yes(args[2]) || args[2] == "1") { do_background_mining = true; } else if(args[2] != "false" && !command_line::is_no(args[2]) && args[2] != "0") { return false; } } if(args.size() >= 2) { if (args[1] == "auto" || args[1] == "autodetect") { threads_count = 0; } else { bool ok = epee::string_tools::get_xtype_from_string(threads_count, args[1]); threads_count = (ok && 0 < threads_count) ? threads_count : 1; } } m_executor.start_mining(info.address, threads_count, nettype, do_background_mining, ignore_battery); return true; } bool t_command_parser_executor::stop_mining(const std::vector& args) { if (!args.empty()) return false; return m_executor.stop_mining(); } bool t_command_parser_executor::mining_status(const std::vector& args) { return m_executor.mining_status(); } bool t_command_parser_executor::stop_daemon(const std::vector& args) { if (!args.empty()) return false; return m_executor.stop_daemon(); } bool t_command_parser_executor::print_status(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_status(); } bool t_command_parser_executor::set_limit(const std::vector& args) { if(args.size()>1) return false; if(args.size()==0) { return m_executor.get_limit(); } int64_t limit; try { limit = std::stoll(args[0]); } catch(const std::exception& ex) { std::cout << "failed to parse argument" << std::endl; return false; } return m_executor.set_limit(limit, limit); } bool t_command_parser_executor::set_limit_up(const std::vector& args) { if(args.size()>1) return false; if(args.size()==0) { return m_executor.get_limit_up(); } int64_t limit; try { limit = std::stoll(args[0]); } catch(const std::exception& ex) { std::cout << "failed to parse argument" << std::endl; return false; } return m_executor.set_limit(0, limit); } bool t_command_parser_executor::set_limit_down(const std::vector& args) { if(args.size()>1) return false; if(args.size()==0) { return m_executor.get_limit_down(); } int64_t limit; try { limit = std::stoll(args[0]); } catch(const std::exception& ex) { std::cout << "failed to parse argument" << std::endl; return false; } return m_executor.set_limit(limit, 0); } bool t_command_parser_executor::out_peers(const std::vector& args) { bool set = false; uint32_t limit = 0; try { if (!args.empty()) { limit = std::stoi(args[0]); set = true; } } catch(const std::exception& ex) { _erro("stoi exception"); return false; } return m_executor.out_peers(set, limit); } bool t_command_parser_executor::in_peers(const std::vector& args) { bool set = false; uint32_t limit = 0; try { if (!args.empty()) { limit = std::stoi(args[0]); set = true; } } catch(const std::exception& ex) { _erro("stoi exception"); return false; } return m_executor.in_peers(set, limit); } bool t_command_parser_executor::hard_fork_info(const std::vector& args) { int version; if (args.size() == 0) { version = 0; } else if (args.size() == 1) { try { version = std::stoi(args[0]); } catch(const std::exception& ex) { return false; } if (version <= 0 || version > 255) return false; } else { return false; } return m_executor.hard_fork_info(version); } bool t_command_parser_executor::show_bans(const std::vector& args) { if (!args.empty()) return false; return m_executor.print_bans(); } bool t_command_parser_executor::ban(const std::vector& args) { if (args.size() != 1 && args.size() != 2) return false; std::string ip = args[0]; time_t seconds = P2P_IP_BLOCKTIME; if (args.size() > 1) { try { seconds = std::stoi(args[1]); } catch (const std::exception &e) { return false; } if (seconds == 0) { return false; } } return m_executor.ban(ip, seconds); } bool t_command_parser_executor::unban(const std::vector& args) { if (args.size() != 1) return false; std::string ip = args[0]; return m_executor.unban(ip); } bool t_command_parser_executor::banned(const std::vector& args) { if (args.size() != 1) return false; std::string address = args[0]; return m_executor.banned(address); } bool t_command_parser_executor::flush_txpool(const std::vector& args) { if (args.size() > 1) return false; std::string txid; if (args.size() == 1) { crypto::hash hash; if (!parse_hash256(args[0], hash)) { std::cout << "failed to parse tx id" << std::endl; return true; } txid = args[0]; } return m_executor.flush_txpool(txid); } bool t_command_parser_executor::output_histogram(const std::vector& args) { std::vector amounts; uint64_t min_count = 3; uint64_t max_count = 0; size_t n_raw = 0; for (size_t n = 0; n < args.size(); ++n) { if (args[n][0] == '@') { amounts.push_back(boost::lexical_cast(args[n].c_str() + 1)); } else if (n_raw == 0) { min_count = boost::lexical_cast(args[n]); n_raw++; } else if (n_raw == 1) { max_count = boost::lexical_cast(args[n]); n_raw++; } else { std::cout << "Invalid syntax: more than two non-amount parameters" << std::endl; return true; } } return m_executor.output_histogram(amounts, min_count, max_count); } bool t_command_parser_executor::print_coinbase_tx_sum(const std::vector& args) { if(!args.size()) { std::cout << "need block height parameter" << std::endl; return false; } uint64_t height = 0; uint64_t count = 0; if(!epee::string_tools::get_xtype_from_string(height, args[0])) { std::cout << "wrong starter block height parameter" << std::endl; return false; } if(args.size() >1 && !epee::string_tools::get_xtype_from_string(count, args[1])) { std::cout << "wrong count parameter" << std::endl; return false; } return m_executor.print_coinbase_tx_sum(height, count); } bool t_command_parser_executor::alt_chain_info(const std::vector& args) { if(args.size() > 1) { std::cout << "usage: alt_chain_info [block_hash|>N|-N]" << std::endl; return false; } std::string tip; size_t above = 0; uint64_t last_blocks = 0; if (args.size() == 1) { if (args[0].size() > 0 && args[0][0] == '>') { if (!epee::string_tools::get_xtype_from_string(above, args[0].c_str() + 1)) { std::cout << "invalid above parameter" << std::endl; return false; } } else if (args[0].size() > 0 && args[0][0] == '-') { if (!epee::string_tools::get_xtype_from_string(last_blocks, args[0].c_str() + 1)) { std::cout << "invalid last_blocks parameter" << std::endl; return false; } } else { tip = args[0]; } } return m_executor.alt_chain_info(tip, above, last_blocks); } bool t_command_parser_executor::print_blockchain_dynamic_stats(const std::vector& args) { if(args.size() != 1) { std::cout << "Exactly one parameter is needed" << std::endl; return false; } uint64_t nblocks = 0; if(!epee::string_tools::get_xtype_from_string(nblocks, args[0]) || nblocks == 0) { std::cout << "wrong number of blocks" << std::endl; return false; } return m_executor.print_blockchain_dynamic_stats(nblocks); } bool t_command_parser_executor::update(const std::vector& args) { if(args.size() != 1) { std::cout << "Exactly one parameter is needed: check, download, or update" << std::endl; return false; } return m_executor.update(args.front()); } bool t_command_parser_executor::relay_tx(const std::vector& args) { if (args.size() != 1) return false; std::string txid; crypto::hash hash; if (!parse_hash256(args[0], hash)) { std::cout << "failed to parse tx id" << std::endl; return true; } txid = args[0]; return m_executor.relay_tx(txid); } bool t_command_parser_executor::sync_info(const std::vector& args) { if (args.size() != 0) return false; return m_executor.sync_info(); } bool t_command_parser_executor::pop_blocks(const std::vector& args) { if (args.size() != 1) { std::cout << "Exactly one parameter is needed" << std::endl; return false; } try { uint64_t nblocks = boost::lexical_cast(args[0]); if (nblocks < 1) { std::cout << "number of blocks must be greater than 0" << std::endl; return false; } return m_executor.pop_blocks(nblocks); } catch (const boost::bad_lexical_cast&) { std::cout << "number of blocks must be a number greater than 0" << std::endl; } return false; } bool t_command_parser_executor::rpc_payments(const std::vector& args) { if (args.size() != 0) return false; return m_executor.rpc_payments(); } bool t_command_parser_executor::version(const std::vector& args) { return m_executor.version(); } bool t_command_parser_executor::prune_blockchain(const std::vector& args) { if (args.size() > 1) return false; if (args.empty() || args[0] != "confirm") { std::cout << "Warning: pruning from within monerod will not shrink the database file size." << std::endl; std::cout << "Instead, parts of the file will be marked as free, so the file will not grow" << std::endl; std::cout << "until that newly free space is used up. If you want a smaller file size now," << std::endl; std::cout << "exit monerod and run monero-blockchain-prune (you will temporarily need more" << std::endl; std::cout << "disk space for the database conversion though). If you are OK with the database" << std::endl; std::cout << "file keeping the same size, re-run this command with the \"confirm\" parameter." << std::endl; return true; } return m_executor.prune_blockchain(); } bool t_command_parser_executor::check_blockchain_pruning(const std::vector& args) { return m_executor.check_blockchain_pruning(); } bool t_command_parser_executor::set_bootstrap_daemon(const std::vector& args) { const size_t args_count = args.size(); if (args_count < 1 || args_count > 3) { return false; } return m_executor.set_bootstrap_daemon( args[0] != "none" ? args[0] : std::string(), args_count > 1 ? args[1] : std::string(), args_count > 2 ? args[2] : std::string()); } bool t_command_parser_executor::flush_cache(const std::vector& args) { if (args.empty()) goto show_list; if (args[0] == "bad-txs") return m_executor.flush_cache(true); show_list: std::cout << "Cache type needed: bad-txs" << std::endl; return true; } } // namespace daemonize