// Copyright (c) 2020-2022 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #include #include #include #include #include #include #include void ConnmanTestMsg::Handshake(CNode& node, bool successfully_connected, ServiceFlags remote_services, ServiceFlags local_services, int32_t version, bool relay_txs) { auto& peerman{static_cast(*m_msgproc)}; auto& connman{*this}; peerman.InitializeNode(node, local_services); peerman.SendMessages(&node); FlushSendBuffer(node); // Drop the version message added by SendMessages. CSerializedNetMsg msg_version{ NetMsg::Make(NetMsgType::VERSION, version, // Using>(remote_services), // int64_t{}, // dummy time int64_t{}, // ignored service bits CNetAddr::V1(CService{}), // dummy int64_t{}, // ignored service bits CNetAddr::V1(CService{}), // ignored uint64_t{1}, // dummy nonce std::string{}, // dummy subver int32_t{}, // dummy starting_height relay_txs), }; (void)connman.ReceiveMsgFrom(node, std::move(msg_version)); node.fPauseSend = false; connman.ProcessMessagesOnce(node); peerman.SendMessages(&node); FlushSendBuffer(node); // Drop the verack message added by SendMessages. if (node.fDisconnect) return; assert(node.nVersion == version); assert(node.GetCommonVersion() == std::min(version, PROTOCOL_VERSION)); CNodeStateStats statestats; assert(peerman.GetNodeStateStats(node.GetId(), statestats)); assert(statestats.m_relay_txs == (relay_txs && !node.IsBlockOnlyConn())); assert(statestats.their_services == remote_services); if (successfully_connected) { CSerializedNetMsg msg_verack{NetMsg::Make(NetMsgType::VERACK)}; (void)connman.ReceiveMsgFrom(node, std::move(msg_verack)); node.fPauseSend = false; connman.ProcessMessagesOnce(node); peerman.SendMessages(&node); assert(node.fSuccessfullyConnected == true); } } void ConnmanTestMsg::NodeReceiveMsgBytes(CNode& node, Span msg_bytes, bool& complete) const { assert(node.ReceiveMsgBytes(msg_bytes, complete)); if (complete) { node.MarkReceivedMsgsForProcessing(); } } void ConnmanTestMsg::FlushSendBuffer(CNode& node) const { LOCK(node.cs_vSend); node.vSendMsg.clear(); node.m_send_memusage = 0; while (true) { const auto& [to_send, _more, _msg_type] = node.m_transport->GetBytesToSend(false); if (to_send.empty()) break; node.m_transport->MarkBytesSent(to_send.size()); } } bool ConnmanTestMsg::ReceiveMsgFrom(CNode& node, CSerializedNetMsg&& ser_msg) const { bool queued = node.m_transport->SetMessageToSend(ser_msg); assert(queued); bool complete{false}; while (true) { const auto& [to_send, _more, _msg_type] = node.m_transport->GetBytesToSend(false); if (to_send.empty()) break; NodeReceiveMsgBytes(node, to_send, complete); node.m_transport->MarkBytesSent(to_send.size()); } return complete; } CNode* ConnmanTestMsg::ConnectNodePublic(PeerManager& peerman, const char* pszDest, ConnectionType conn_type) { CNode* node = ConnectNode(CAddress{}, pszDest, /*fCountFailure=*/false, conn_type, /*use_v2transport=*/true); if (!node) return nullptr; node->SetCommonVersion(PROTOCOL_VERSION); peerman.InitializeNode(*node, ServiceFlags(NODE_NETWORK | NODE_WITNESS)); node->fSuccessfullyConnected = true; AddTestNode(*node); return node; } std::vector GetRandomNodeEvictionCandidates(int n_candidates, FastRandomContext& random_context) { std::vector candidates; candidates.reserve(n_candidates); for (int id = 0; id < n_candidates; ++id) { candidates.push_back({ .id=id, .m_connected=std::chrono::seconds{random_context.randrange(100)}, .m_min_ping_time=std::chrono::microseconds{random_context.randrange(100)}, .m_last_block_time=std::chrono::seconds{random_context.randrange(100)}, .m_last_tx_time=std::chrono::seconds{random_context.randrange(100)}, .fRelevantServices=random_context.randbool(), .m_relay_txs=random_context.randbool(), .fBloomFilter=random_context.randbool(), .nKeyedNetGroup=random_context.randrange(100u), .prefer_evict=random_context.randbool(), .m_is_local=random_context.randbool(), .m_network=ALL_NETWORKS[random_context.randrange(ALL_NETWORKS.size())], .m_noban=false, .m_conn_type=ConnectionType::INBOUND, }); } return candidates; }