#include "node.hpp" template void fill_precomputation_pre_message(CMixContext& ctx, cmix_proto::PrePre& prepre, T const& rs, T const& ms) { if(start_mix(&ctx, rs.size()) != no_error) { exit(-1); } if(initialize_mix_randomness(&ctx) != no_error) { exit(-1); } std::stringstream ss; ss << "permutation:"; for(auto i = 0; i < ctx.nr_participants; ++i) { ss << " " << ctx.permutation[i]; } BOOST_LOG_TRIVIAL(trace) << ss.str(); size_t len = get_group_element_array_size(&ctx); std::vector r_ers(ms.size(), nullptr); std::vector m_ers(ms.size(), nullptr); std::vector rsv(ms.size(), nullptr); std::vector msv(ms.size(), nullptr); for(size_t i = 0; i < ms.size(); ++i) { std::string* r = prepre.add_r_er(); r->resize(len); r_ers[i] = &(*r)[0]; std::string* m = prepre.add_m_er(); m->resize(len); m_ers[i] = &(*m)[0]; rsv[i] = rs.Get(i).data(); msv[i] = ms.Get(i).data(); } if(encrypt_r_and_multiply( &ctx, r_ers.data(), m_ers.data(), rsv.data(), msv.data() ) != no_error) { exit(-1); } } template void fill_precomputation_mix_message(CMixContext const& ctx, cmix_proto::PreMix& premix, T const& rs, T const& ms) { size_t el_len = get_group_element_array_size(&ctx); std::vector r_epirs(ms.size(), nullptr); std::vector m_epirs(ms.size(), nullptr); std::vector rsv(ms.size(), nullptr); std::vector msv(ms.size(), nullptr); for(size_t i = 0; i < ms.size(); ++i) { std::string* r = premix.add_r_epirs(); r->resize(el_len); r_epirs[i] = &(*r)[0]; std::string* m = premix.add_m_epirs(); m->resize(el_len); m_epirs[i] = &(*m)[0]; rsv[i] = rs.Get(i).data(); msv[i] = ms.Get(i).data(); } permute_and_multiply_encrypted_s( &ctx, r_epirs.data(), m_epirs.data(), rsv.data(), msv.data() ); } template void fill_precomputation_post_message(CMixContext& ctx, cmix_proto::PrePost& prepost, T const& rs, T const& ms) { size_t len = get_group_element_array_size(&ctx); std::vector r_epirs(ms.size(), nullptr); std::vector m_epirs(ms.size(), nullptr); std::vector rsv(ms.size(), nullptr); std::vector msv(ms.size(), nullptr); for(size_t i = 0; i < ms.size(); ++i) { std::string* r = prepost.add_r_epirs(); r->resize(len); r_epirs[i] = &(*r)[0]; std::string* m = prepost.add_m_epirs(); m->resize(len); m_epirs[i] = &(*m)[0]; rsv[i] = rs.Get(i).data(); msv[i] = ms.Get(i).data(); } post_process( &ctx, r_epirs.data(), m_epirs.data(), rsv.data(), msv.data() ); } template void fill_realtime_pre_message(CMixContext& ctx, cmix_proto::RealPre& realpre, T const& hs, T const& ms, Node::ClientData const& data) { size_t len = get_group_element_array_size(&ctx); std::vector msv1(ms.size(), nullptr); std::vector msv2(ms.size(), nullptr); std::vector gs(ms.size(), nullptr); for(int i = 0; i < ms.size(); ++i) { std::string* m = realpre.add_m(); m->resize(len); msv1[i] = &(*m)[0]; msv2[i] = ms.Get(i).data(); realpre.add_h(hs.Get(i)); gs[i] = data.at(hs.Get(i)).shared_value; } swap_k_for_r( &ctx, msv1.data(), msv2.data(), gs.data() ); } template void fill_realtime_mix_message(CMixContext& ctx, cmix_proto::RealMix& realmix, T const& ms) { size_t len = get_group_element_array_size(&ctx); std::vector mv(ms.size(), nullptr); std::vector msv(ms.size(), nullptr); for(int i = 0; i < ms.size(); ++i) { std::string* m = realmix.add_m(); m->resize(len); mv[i] = &(*m)[0]; msv[i] = ms.Get(i).data(); } permute_and_multiply_s( &ctx, mv.data(), msv.data() ); } void Node::handle_node_initialization(const cmix_proto::Initialization& init) { if(network_settings.is_first) { set_network_key(&cmix_ctx, init.public_share().data()); cmix_proto::SecretKey sec; sec.set_secret_key(init.public_share().data(), init.public_share().size()); next_node.async_send(sec); } else { size_t len = get_group_element_array_size(&cmix_ctx); cmix_proto::Initialization n_init; n_init.mutable_public_share()->resize(len); add_public_share(&cmix_ctx, &(*n_init.mutable_public_share())[0], init.public_share().data()); BOOST_LOG_TRIVIAL(trace) << "sending message: " << n_init.ShortDebugString(); next_node.async_send(n_init); } } void Node::handle_node_secretkey(cmix_proto::SecretKey const& secret) { std::string share = secret.secret_key(); if(network_settings.is_first) { start_timer_delayed_mix(); } else { set_network_key(&cmix_ctx, secret.secret_key().data()); next_node.async_send(secret); } } void Node::handle_node_prepre(cmix_proto::PrePre const& pre) { if(network_settings.is_first) { if(performance) { performance->send("pre_mix_start"); } ArenaMessage arena; auto& premix = arena.get(); fill_precomputation_mix_message(cmix_ctx, premix, pre.r_er(), pre.m_er()); next_node.async_send(premix); if(performance) { performance->send("pre_mix_end"); } } else { if(performance) { performance->send("pre_pre_start"); } ArenaMessage arena; auto& prepre = arena.get(); fill_precomputation_pre_message(cmix_ctx, prepre, pre.r_er(), pre.m_er()); next_node.async_send(prepre); if(performance) { performance->send("pre_pre_end"); } } } void Node::handle_node_premix(cmix_proto::PreMix const& premix) { if(network_settings.is_first) { if(performance) { performance->send("pre_post_start"); } ArenaMessage arena; auto& prepost = arena.get(); fill_precomputation_post_message(cmix_ctx, prepost, premix.r_epirs(), premix.m_epirs()); next_node.async_send(prepost); if(performance) { performance->send("pre_post_end"); } } else { if(performance) { performance->send("pre_mix_start"); } ArenaMessage arena; auto& n_premix = arena.get(); fill_precomputation_mix_message(cmix_ctx, n_premix, premix.r_epirs(), premix.m_epirs()); next_node.async_send(n_premix); if(performance) { performance->send("pre_mix_end"); } } } void Node::handle_node_prepost(cmix_proto::PrePost const& prepost) { if(network_settings.is_first) { start_realtime_phase(); } else { if(performance) { performance->send("pre_post_start"); } ArenaMessage arena; auto& n_prepost = arena.get(); fill_precomputation_post_message(cmix_ctx, n_prepost, prepost.r_epirs(), prepost.m_epirs()); next_node.async_send(n_prepost); if(performance) { performance->send("pre_post_end"); } } } void Node::handle_node_realpre(cmix_proto::RealPre const& realpre) { if(network_settings.is_first) { if(performance) { performance->send("real_mix_start"); } ArenaMessage arena; auto& realmix = arena.get(); fill_realtime_mix_message(cmix_ctx, realmix, realpre.m()); next_node.async_send(realmix); if(performance) { performance->send("real_mix_end"); } } else { if(performance) { performance->send("real_pre_start"); } ArenaMessage arena; auto& n_realpre = arena.get(); fill_realtime_pre_message(cmix_ctx, n_realpre, realpre.h(), realpre.m(), data); next_node.async_send(n_realpre); if(performance) { performance->send("real_pre_end"); } } } void Node::handle_node_realmix(cmix_proto::RealMix const& realmix) { if(network_settings.is_last) { BOOST_LOG_TRIVIAL(trace) << "Doing the last step:"; if(performance) { performance->send("real_mix_start"); } ArenaMessage arena; auto& n_realmix = arena.get(); fill_realtime_mix_message(cmix_ctx, n_realmix, realmix.m()); if(performance) { performance->send("real_mix_end"); } if(performance) { performance->send("real_post_start"); } size_t len = get_group_element_array_size(&cmix_ctx); std::string str; str.resize(len); for(int i = 0; i < n_realmix.m_size(); i++) { remove_r_and_s(&cmix_ctx, &str[0], n_realmix.m(i).data(), i); { std::stringstream ss; for(auto&& c : str) { ss << "\\" << std::setw(3) << std::setfill('0') << std::oct << (unsigned int) c; } BOOST_LOG_TRIVIAL(trace) << ss.str(); } char* dest; size_t dest_len; char* payload; size_t payload_len; split_message(&cmix_ctx, &dest, &dest_len, &payload, &payload_len, str.data()); std::string dest_s = std::string(dest, dest_len); cmix_proto::Payload pay; pay.set_payload(payload, payload_len); clients.at(dest_s).async_send(pay); free(dest); free(payload); } if(performance) { performance->send("real_post_end"); } } else { if(performance) { performance->send("real_mix_start"); } ArenaMessage arena; auto& n_realmix = arena.get(); fill_realtime_mix_message(cmix_ctx, n_realmix, realmix.m()); next_node.async_send(n_realmix); if(performance) { performance->send("real_mix_end"); } } } void Node::handle_node_message(cmix_proto::CMixMessage message) { BOOST_LOG_TRIVIAL(trace) << "Message: " << message.ShortDebugString(); switch(message.contents_case()) { case cmix_proto::CMixMessage::ContentsCase::kInitialization: { BOOST_LOG_TRIVIAL(trace) << "Handling initialization"; handle_node_initialization(message.initialization()); break; } case cmix_proto::CMixMessage::ContentsCase::kBye: { BOOST_LOG_TRIVIAL(trace) << "Handling bye"; if(send_bye(true)) { return; } else { break; } } case cmix_proto::CMixMessage::ContentsCase::kSecretkey: { BOOST_LOG_TRIVIAL(trace) << "Handling SecretKey"; handle_node_secretkey(message.secretkey()); break; } case cmix_proto::CMixMessage::ContentsCase::kPrepre: { BOOST_LOG_TRIVIAL(trace) << "Handling PrePre"; handle_node_prepre(message.prepre()); break; } case cmix_proto::CMixMessage::ContentsCase::kPremix: { BOOST_LOG_TRIVIAL(trace) << "Handling PreMix"; handle_node_premix(message.premix()); break; } case cmix_proto::CMixMessage::ContentsCase::kPrepost: { BOOST_LOG_TRIVIAL(trace) << "Handling PrePost"; handle_node_prepost(message.prepost()); break; } case cmix_proto::CMixMessage::ContentsCase::kRealpre: { BOOST_LOG_TRIVIAL(trace) << "Handling RealPre"; handle_node_realpre(message.realpre()); break; } case cmix_proto::CMixMessage::ContentsCase::kRealmix: { BOOST_LOG_TRIVIAL(trace) << "Handling RealMix"; handle_node_realmix(message.realmix()); break; } default: { BOOST_LOG_TRIVIAL(error) << "handle_node_message: CMixMessage contains unknown contents."; } } prev_node.async_receive([this](cmix_proto::CMixMessage message) { handle_node_message(message); }); }