#include "../pchheader.hpp" #include "../conf.hpp" #include "../crypto.hpp" #include "../util.hpp" #include "../hplog.hpp" #include "../fbschema/p2pmsg_container_generated.h" #include "../fbschema/p2pmsg_content_generated.h" #include "../fbschema/p2pmsg_helpers.hpp" #include "../sock/socket_message.hpp" #include "../sock/socket_session.hpp" #include "p2p.hpp" #include "peer_session_handler.hpp" namespace p2pmsg = fbschema::p2pmsg; namespace p2p { // The set of recent peer message hashes used for duplicate detection. util::rollover_hashset recent_peermsg_hashes(200); /** * This gets hit every time a peer connects to HP via the peer port (configured in contract config). */ void peer_session_handler::on_connect(sock::socket_session *session) { if (!session->flags[sock::SESSION_FLAG::INBOUND]) { std::lock_guard lock(p2p::peer_connections_mutex); peer_connections.insert(std::make_pair(session->uniqueid, session)); LOG_DBG << "Adding peer to list: " << session->uniqueid; } } //peer session on message callback method //validate and handle each type of peer messages. void peer_session_handler::on_message(sock::socket_session *session, std::string_view message) { const p2pmsg::Container *container; if (p2pmsg::validate_and_extract_container(&container, message) != 0) return; //Get serialised message content. const flatbuffers::Vector *container_content = container->content(); //Accessing message content and size. const uint8_t *content_ptr = container_content->Data(); flatbuffers::uoffset_t content_size = container_content->size(); const p2pmsg::Content *content; if (p2pmsg::validate_and_extract_content(&content, content_ptr, content_size) != 0) return; if (!recent_peermsg_hashes.try_emplace(crypto::get_hash(message))) { session->increment_metric(sock::SESSION_THRESHOLDS::MAX_DUPMSGS_PER_MINUTE, 1); LOG_DBG << "Duplicate peer message."; return; } p2pmsg::Message content_message_type = content->message_type(); //i.e - proposal, npl, state request, state response, etc if (content_message_type == p2pmsg::Message_Proposal_Message) //message is a proposal message { // We only trust proposals coming from trusted peers. if (p2pmsg::validate_container_trust(container) != 0) { session->increment_metric(sock::SESSION_THRESHOLDS::MAX_BADSIGMSGS_PER_MINUTE, 1); LOG_DBG << "Proposal rejected due to trust failure."; return; } std::lock_guard lock(collected_msgs.proposals_mutex); // Insert proposal with lock. collected_msgs.proposals.push_back( p2pmsg::create_proposal_from_msg(*content->message_as_Proposal_Message(), container->pubkey(), container->timestamp())); } else if (content_message_type == p2pmsg::Message_NonUnl_Proposal_Message) //message is a non-unl proposal message { std::lock_guard lock(collected_msgs.nonunl_proposals_mutex); // Insert non-unl proposal with lock. collected_msgs.nonunl_proposals.push_back( p2pmsg::create_nonunl_proposal_from_msg(*content->message_as_NonUnl_Proposal_Message(), container->timestamp())); } else if (content_message_type == p2pmsg::Message_Npl_Message) //message is a NPL message { const p2pmsg::Npl_Message *npl = content->message_as_Npl_Message(); // execute npl logic here. //broadcast message. } else { session->increment_metric(sock::SESSION_THRESHOLDS::MAX_BADMSGS_PER_MINUTE, 1); LOG_DBG << "Received invalid message type from peer"; } } //peer session on message callback method void peer_session_handler::on_close(sock::socket_session *session) { { std::lock_guard lock(p2p::peer_connections_mutex); peer_connections.erase(session->uniqueid); } LOG_DBG << "Peer disonnected: " << session->uniqueid; } } // namespace p2p