diff --git a/src/p2p/net_node.h b/src/p2p/net_node.h index 5337106dd..57b1335eb 100644 --- a/src/p2p/net_node.h +++ b/src/p2p/net_node.h @@ -384,6 +384,7 @@ namespace nodetool bool is_addr_recently_failed(const epee::net_utils::network_address& addr); bool is_priority_node(const epee::net_utils::network_address& na); std::set get_seed_nodes(cryptonote::network_type nettype) const; + std::set get_seed_nodes(); bool connect_to_seed(); template @@ -467,7 +468,9 @@ namespace nodetool std::list m_priority_peers; std::vector m_exclusive_peers; std::vector m_seed_nodes; - bool m_fallback_seed_nodes_added; + bool m_seed_nodes_initialized = false; + boost::shared_mutex m_seed_nodes_lock; + std::atomic_flag m_fallback_seed_nodes_added; std::vector m_command_line_peers; uint64_t m_peer_livetime; //keep connections to initiate some interactions diff --git a/src/p2p/net_node.inl b/src/p2p/net_node.inl index 9ff2627d0..2d7600f7a 100644 --- a/src/p2p/net_node.inl +++ b/src/p2p/net_node.inl @@ -435,6 +435,8 @@ namespace nodetool if (command_line::has_arg(vm, arg_p2p_seed_node)) { + boost::unique_lock lock(m_seed_nodes_lock); + if (!parse_peers_and_add_to_container(vm, arg_p2p_seed_node, m_seed_nodes)) return false; } @@ -635,6 +637,115 @@ namespace nodetool } //----------------------------------------------------------------------------------- template + std::set node_server::get_seed_nodes() + { + if (!m_exclusive_peers.empty() || m_offline) + { + return {}; + } + if (m_nettype == cryptonote::TESTNET) + { + return get_seed_nodes(cryptonote::TESTNET); + } + if (m_nettype == cryptonote::STAGENET) + { + return get_seed_nodes(cryptonote::STAGENET); + } + + std::set full_addrs; + + // for each hostname in the seed nodes list, attempt to DNS resolve and + // add the result addresses as seed nodes + // TODO: at some point add IPv6 support, but that won't be relevant + // for some time yet. + + std::vector> dns_results; + dns_results.resize(m_seed_nodes_list.size()); + + // some libc implementation provide only a very small stack + // for threads, e.g. musl only gives +- 80kb, which is not + // enough to do a resolve with unbound. we request a stack + // of 1 mb, which should be plenty + boost::thread::attributes thread_attributes; + thread_attributes.set_stack_size(1024*1024); + + std::list dns_threads; + uint64_t result_index = 0; + for (const std::string& addr_str : m_seed_nodes_list) + { + boost::thread th = boost::thread(thread_attributes, [=, &dns_results, &addr_str] + { + MDEBUG("dns_threads[" << result_index << "] created for: " << addr_str); + // TODO: care about dnssec avail/valid + bool avail, valid; + std::vector addr_list; + + try + { + addr_list = tools::DNSResolver::instance().get_ipv4(addr_str, avail, valid); + MDEBUG("dns_threads[" << result_index << "] DNS resolve done"); + boost::this_thread::interruption_point(); + } + catch(const boost::thread_interrupted&) + { + // thread interruption request + // even if we now have results, finish thread without setting + // result variables, which are now out of scope in main thread + MWARNING("dns_threads[" << result_index << "] interrupted"); + return; + } + + MINFO("dns_threads[" << result_index << "] addr_str: " << addr_str << " number of results: " << addr_list.size()); + dns_results[result_index] = addr_list; + }); + + dns_threads.push_back(std::move(th)); + ++result_index; + } + + MDEBUG("dns_threads created, now waiting for completion or timeout of " << CRYPTONOTE_DNS_TIMEOUT_MS << "ms"); + boost::chrono::system_clock::time_point deadline = boost::chrono::system_clock::now() + boost::chrono::milliseconds(CRYPTONOTE_DNS_TIMEOUT_MS); + uint64_t i = 0; + for (boost::thread& th : dns_threads) + { + if (! th.try_join_until(deadline)) + { + MWARNING("dns_threads[" << i << "] timed out, sending interrupt"); + th.interrupt(); + } + ++i; + } + + i = 0; + for (const auto& result : dns_results) + { + MDEBUG("DNS lookup for " << m_seed_nodes_list[i] << ": " << result.size() << " results"); + // if no results for node, thread's lookup likely timed out + if (result.size()) + { + for (const auto& addr_string : result) + full_addrs.insert(addr_string + ":" + std::to_string(cryptonote::get_config(m_nettype).P2P_DEFAULT_PORT)); + } + ++i; + } + + // append the fallback nodes if we have too few seed nodes to start with + if (full_addrs.size() < MIN_WANTED_SEED_NODES) + { + if (full_addrs.empty()) + MINFO("DNS seed node lookup either timed out or failed, falling back to defaults"); + else + MINFO("Not enough DNS seed nodes found, using fallback defaults too"); + + for (const auto &peer: get_seed_nodes(cryptonote::MAINNET)) + full_addrs.insert(peer); + m_fallback_seed_nodes_added.test_and_set(); + } + + return full_addrs; + } + //----------------------------------------------------------------------------------- + template typename node_server::network_zone& node_server::add_zone(const epee::net_utils::zone zone) { const auto zone_ = m_network_zones.lower_bound(zone); @@ -648,123 +759,21 @@ namespace nodetool template bool node_server::init(const boost::program_options::variables_map& vm) { - std::set full_addrs; - bool res = handle_command_line(vm); CHECK_AND_ASSERT_MES(res, false, "Failed to handle command line"); - m_fallback_seed_nodes_added = false; if (m_nettype == cryptonote::TESTNET) { memcpy(&m_network_id, &::config::testnet::NETWORK_ID, 16); - full_addrs = get_seed_nodes(cryptonote::TESTNET); } else if (m_nettype == cryptonote::STAGENET) { memcpy(&m_network_id, &::config::stagenet::NETWORK_ID, 16); - full_addrs = get_seed_nodes(cryptonote::STAGENET); } else { memcpy(&m_network_id, &::config::NETWORK_ID, 16); - if (m_exclusive_peers.empty() && !m_offline) - { - // for each hostname in the seed nodes list, attempt to DNS resolve and - // add the result addresses as seed nodes - // TODO: at some point add IPv6 support, but that won't be relevant - // for some time yet. - - std::vector> dns_results; - dns_results.resize(m_seed_nodes_list.size()); - - // some libc implementation provide only a very small stack - // for threads, e.g. musl only gives +- 80kb, which is not - // enough to do a resolve with unbound. we request a stack - // of 1 mb, which should be plenty - boost::thread::attributes thread_attributes; - thread_attributes.set_stack_size(1024*1024); - - std::list dns_threads; - uint64_t result_index = 0; - for (const std::string& addr_str : m_seed_nodes_list) - { - boost::thread th = boost::thread(thread_attributes, [=, &dns_results, &addr_str] - { - MDEBUG("dns_threads[" << result_index << "] created for: " << addr_str); - // TODO: care about dnssec avail/valid - bool avail, valid; - std::vector addr_list; - - try - { - addr_list = tools::DNSResolver::instance().get_ipv4(addr_str, avail, valid); - MDEBUG("dns_threads[" << result_index << "] DNS resolve done"); - boost::this_thread::interruption_point(); - } - catch(const boost::thread_interrupted&) - { - // thread interruption request - // even if we now have results, finish thread without setting - // result variables, which are now out of scope in main thread - MWARNING("dns_threads[" << result_index << "] interrupted"); - return; - } - - MINFO("dns_threads[" << result_index << "] addr_str: " << addr_str << " number of results: " << addr_list.size()); - dns_results[result_index] = addr_list; - }); - - dns_threads.push_back(std::move(th)); - ++result_index; - } - - MDEBUG("dns_threads created, now waiting for completion or timeout of " << CRYPTONOTE_DNS_TIMEOUT_MS << "ms"); - boost::chrono::system_clock::time_point deadline = boost::chrono::system_clock::now() + boost::chrono::milliseconds(CRYPTONOTE_DNS_TIMEOUT_MS); - uint64_t i = 0; - for (boost::thread& th : dns_threads) - { - if (! th.try_join_until(deadline)) - { - MWARNING("dns_threads[" << i << "] timed out, sending interrupt"); - th.interrupt(); - } - ++i; - } - - i = 0; - for (const auto& result : dns_results) - { - MDEBUG("DNS lookup for " << m_seed_nodes_list[i] << ": " << result.size() << " results"); - // if no results for node, thread's lookup likely timed out - if (result.size()) - { - for (const auto& addr_string : result) - full_addrs.insert(addr_string + ":" + std::to_string(cryptonote::get_config(m_nettype).P2P_DEFAULT_PORT)); - } - ++i; - } - - // append the fallback nodes if we have too few seed nodes to start with - if (full_addrs.size() < MIN_WANTED_SEED_NODES) - { - if (full_addrs.empty()) - MINFO("DNS seed node lookup either timed out or failed, falling back to defaults"); - else - MINFO("Not enough DNS seed nodes found, using fallback defaults too"); - - for (const auto &peer: get_seed_nodes(cryptonote::MAINNET)) - full_addrs.insert(peer); - m_fallback_seed_nodes_added = true; - } } - } - - for (const auto& full_addr : full_addrs) - { - MDEBUG("Seed node: " << full_addr); - append_net_address(m_seed_nodes, full_addr, cryptonote::get_config(m_nettype).P2P_DEFAULT_PORT); - } - MDEBUG("Number of seed nodes: " << m_seed_nodes.size()); m_config_folder = command_line::get_arg(vm, cryptonote::arg_data_dir); network_zone& public_zone = m_network_zones.at(epee::net_utils::zone::public_); @@ -1541,6 +1550,20 @@ namespace nodetool template bool node_server::connect_to_seed() { + boost::upgrade_lock seed_nodes_upgrade_lock(m_seed_nodes_lock); + + if (!m_seed_nodes_initialized) + { + boost::upgrade_to_unique_lock seed_nodes_lock(seed_nodes_upgrade_lock); + m_seed_nodes_initialized = true; + for (const auto& full_addr : get_seed_nodes()) + { + MDEBUG("Seed node: " << full_addr); + append_net_address(m_seed_nodes, full_addr, cryptonote::get_config(m_nettype).P2P_DEFAULT_PORT); + } + MDEBUG("Number of seed nodes: " << m_seed_nodes.size()); + } + if (m_seed_nodes.empty() || m_offline || !m_exclusive_peers.empty()) return true; @@ -1561,16 +1584,19 @@ namespace nodetool break; if(++try_count > m_seed_nodes.size()) { - if (!m_fallback_seed_nodes_added) + if (!m_fallback_seed_nodes_added.test_and_set()) { MWARNING("Failed to connect to any of seed peers, trying fallback seeds"); current_index = m_seed_nodes.size() - 1; - for (const auto &peer: get_seed_nodes(m_nettype)) { - MDEBUG("Fallback seed node: " << peer); - append_net_address(m_seed_nodes, peer, cryptonote::get_config(m_nettype).P2P_DEFAULT_PORT); + boost::upgrade_to_unique_lock seed_nodes_lock(seed_nodes_upgrade_lock); + + for (const auto &peer: get_seed_nodes(m_nettype)) + { + MDEBUG("Fallback seed node: " << peer); + append_net_address(m_seed_nodes, peer, cryptonote::get_config(m_nettype).P2P_DEFAULT_PORT); + } } - m_fallback_seed_nodes_added = true; if (current_index == m_seed_nodes.size() - 1) { MWARNING("No fallback seeds, continuing without seeds"); @@ -1604,10 +1630,9 @@ namespace nodetool // Only have seeds in the public zone right now. size_t start_conn_count = get_public_outgoing_connections_count(); - if(!get_public_white_peers_count() && m_seed_nodes.size()) + if(!get_public_white_peers_count() && !connect_to_seed()) { - if (!connect_to_seed()) - return false; + return false; } if (!connect_to_peerlist(m_priority_peers)) return false;