X-Git-Url: https://gerrit.opnfv.org/gerrit/gitweb?a=blobdiff_plain;f=src%2Fceph%2Fsrc%2Fdmclock%2Fsim%2Fsrc%2Ftest_dmclock_main.cc;fp=src%2Fceph%2Fsrc%2Fdmclock%2Fsim%2Fsrc%2Ftest_dmclock_main.cc;h=57b733e860cede4065a36d2ad2034450c35f8399;hb=812ff6ca9fcd3e629e49d4328905f33eee8ca3f5;hp=0000000000000000000000000000000000000000;hpb=15280273faafb77777eab341909a3f495cf248d9;p=stor4nfv.git diff --git a/src/ceph/src/dmclock/sim/src/test_dmclock_main.cc b/src/ceph/src/dmclock/sim/src/test_dmclock_main.cc new file mode 100644 index 0000000..57b733e --- /dev/null +++ b/src/ceph/src/dmclock/sim/src/test_dmclock_main.cc @@ -0,0 +1,324 @@ +// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- +// vim: ts=8 sw=2 smarttab + +/* + * Copyright (C) 2016 Red Hat Inc. + */ + + +#include "test_dmclock.h" +#include "config.h" + +#ifdef PROFILE +#include "profile.h" +#endif + + +namespace dmc = crimson::dmclock; +namespace test = crimson::test_dmc; +namespace sim = crimson::qos_simulation; + +using namespace std::placeholders; + + +namespace crimson { + namespace test_dmc { + void server_data(std::ostream& out, + test::MySim* sim, + test::MySim::ServerFilter server_disp_filter, + int head_w, int data_w, int data_prec); + + void client_data(std::ostream& out, + test::MySim* sim, + test::MySim::ClientFilter client_disp_filter, + int head_w, int data_w, int data_prec); + } +} + + +int main(int argc, char* argv[]) { + std::vector args; + for (int i = 1; i < argc; ++i) { + args.push_back(argv[i]); + } + + std::string conf_file_list; + sim::ceph_argparse_early_args(args, &conf_file_list); + + sim::sim_config_t g_conf; + std::vector &cli_group = g_conf.cli_group; + std::vector &srv_group = g_conf.srv_group; + + if (!conf_file_list.empty()) { + int ret; + ret = sim::parse_config_file(conf_file_list, g_conf); + if (ret) { + // error + _exit(1); + } + } else { + // default simulation parameter + g_conf.client_groups = 2; + + sim::srv_group_t st; + srv_group.push_back(st); + + sim::cli_group_t ct1(99, 0); + cli_group.push_back(ct1); + + sim::cli_group_t ct2(1, 10); + cli_group.push_back(ct2); + } + + const uint server_groups = g_conf.server_groups; + const uint client_groups = g_conf.client_groups; + const bool server_random_selection = g_conf.server_random_selection; + const bool server_soft_limit = g_conf.server_soft_limit; + uint server_total_count = 0; + uint client_total_count = 0; + + for (uint i = 0; i < client_groups; ++i) { + client_total_count += cli_group[i].client_count; + } + + for (uint i = 0; i < server_groups; ++i) { + server_total_count += srv_group[i].server_count; + } + + std::vector client_info; + for (uint i = 0; i < client_groups; ++i) { + client_info.push_back(test::dmc::ClientInfo + { cli_group[i].client_reservation, + cli_group[i].client_weight, + cli_group[i].client_limit } ); + } + + auto ret_client_group_f = [&](const ClientId& c) -> uint { + uint group_max = 0; + uint i = 0; + for (; i < client_groups; ++i) { + group_max += cli_group[i].client_count; + if (c < group_max) { + break; + } + } + return i; + }; + + auto ret_server_group_f = [&](const ServerId& s) -> uint { + uint group_max = 0; + uint i = 0; + for (; i < server_groups; ++i) { + group_max += srv_group[i].server_count; + if (s < group_max) { + break; + } + } + return i; + }; + + auto client_info_f = [=](const ClientId& c) -> test::dmc::ClientInfo { + return client_info[ret_client_group_f(c)]; + }; + + auto client_disp_filter = [=] (const ClientId& i) -> bool { + return i < 3 || i >= (client_total_count - 3); + }; + + auto server_disp_filter = [=] (const ServerId& i) -> bool { + return i < 3 || i >= (server_total_count - 3); + }; + + + test::MySim *simulation; + + + // lambda to post a request to the identified server; called by client + test::SubmitFunc server_post_f = + [&simulation](const ServerId& server, + sim::TestRequest&& request, + const ClientId& client_id, + const test::dmc::ReqParams& req_params) { + test::DmcServer& s = simulation->get_server(server); + s.post(std::move(request), client_id, req_params); + }; + + std::vector> cli_inst; + for (uint i = 0; i < client_groups; ++i) { + if (cli_group[i].client_wait == std::chrono::seconds(0)) { + cli_inst.push_back( + { { sim::req_op, + (uint32_t)cli_group[i].client_total_ops, + (double)cli_group[i].client_iops_goal, + (uint16_t)cli_group[i].client_outstanding_ops } } ); + } else { + cli_inst.push_back( + { { sim::wait_op, cli_group[i].client_wait }, + { sim::req_op, + (uint32_t)cli_group[i].client_total_ops, + (double)cli_group[i].client_iops_goal, + (uint16_t)cli_group[i].client_outstanding_ops } } ); + } + } + + simulation = new test::MySim(); + + test::DmcServer::ClientRespFunc client_response_f = + [&simulation](ClientId client_id, + const sim::TestResponse& resp, + const ServerId& server_id, + const dmc::PhaseType& phase) { + simulation->get_client(client_id).receive_response(resp, + server_id, + phase); + }; + + test::CreateQueueF create_queue_f = + [&](test::DmcQueue::CanHandleRequestFunc can_f, + test::DmcQueue::HandleRequestFunc handle_f) -> test::DmcQueue* { + return new test::DmcQueue(client_info_f, can_f, handle_f, server_soft_limit); + }; + + + auto create_server_f = [&](ServerId id) -> test::DmcServer* { + uint i = ret_server_group_f(id); + return new test::DmcServer(id, + srv_group[i].server_iops, + srv_group[i].server_threads, + client_response_f, + test::dmc_server_accumulate_f, + create_queue_f); + }; + + auto create_client_f = [&](ClientId id) -> test::DmcClient* { + uint i = ret_client_group_f(id); + test::MySim::ClientBasedServerSelectFunc server_select_f; + uint client_server_select_range = cli_group[i].client_server_select_range; + if (!server_random_selection) { + server_select_f = simulation->make_server_select_alt_range(client_server_select_range); + } else { + server_select_f = simulation->make_server_select_ran_range(client_server_select_range); + } + return new test::DmcClient(id, + server_post_f, + std::bind(server_select_f, _1, id), + test::dmc_client_accumulate_f, + cli_inst[i]); + }; + +#if 1 + std::cout << "[global]" << std::endl << g_conf << std::endl; + for (uint i = 0; i < client_groups; ++i) { + std::cout << std::endl << "[client." << i << "]" << std::endl; + std::cout << cli_group[i] << std::endl; + } + for (uint i = 0; i < server_groups; ++i) { + std::cout << std::endl << "[server." << i << "]" << std::endl; + std::cout << srv_group[i] << std::endl; + } + std::cout << std::endl; +#endif + + simulation->add_servers(server_total_count, create_server_f); + simulation->add_clients(client_total_count, create_client_f); + + simulation->run(); + simulation->display_stats(std::cout, + &test::server_data, &test::client_data, + server_disp_filter, client_disp_filter); + + delete simulation; +} // main + + +void test::client_data(std::ostream& out, + test::MySim* sim, + test::MySim::ClientFilter client_disp_filter, + int head_w, int data_w, int data_prec) { + // report how many ops were done by reservation and proportion for + // each client + + int total_r = 0; + out << std::setw(head_w) << "res_ops:"; + for (uint i = 0; i < sim->get_client_count(); ++i) { + const auto& client = sim->get_client(i); + auto r = client.get_accumulator().reservation_count; + total_r += r; + if (!client_disp_filter(i)) continue; + out << " " << std::setw(data_w) << r; + } + out << " " << std::setw(data_w) << std::setprecision(data_prec) << + std::fixed << total_r << std::endl; + + int total_p = 0; + out << std::setw(head_w) << "prop_ops:"; + for (uint i = 0; i < sim->get_client_count(); ++i) { + const auto& client = sim->get_client(i); + auto p = client.get_accumulator().proportion_count; + total_p += p; + if (!client_disp_filter(i)) continue; + out << " " << std::setw(data_w) << p; + } + out << " " << std::setw(data_w) << std::setprecision(data_prec) << + std::fixed << total_p << std::endl; +} + + +void test::server_data(std::ostream& out, + test::MySim* sim, + test::MySim::ServerFilter server_disp_filter, + int head_w, int data_w, int data_prec) { + out << std::setw(head_w) << "res_ops:"; + int total_r = 0; + for (uint i = 0; i < sim->get_server_count(); ++i) { + const auto& server = sim->get_server(i); + auto rc = server.get_accumulator().reservation_count; + total_r += rc; + if (!server_disp_filter(i)) continue; + out << " " << std::setw(data_w) << rc; + } + out << " " << std::setw(data_w) << std::setprecision(data_prec) << + std::fixed << total_r << std::endl; + + out << std::setw(head_w) << "prop_ops:"; + int total_p = 0; + for (uint i = 0; i < sim->get_server_count(); ++i) { + const auto& server = sim->get_server(i); + auto pc = server.get_accumulator().proportion_count; + total_p += pc; + if (!server_disp_filter(i)) continue; + out << " " << std::setw(data_w) << pc; + } + out << " " << std::setw(data_w) << std::setprecision(data_prec) << + std::fixed << total_p << std::endl; + + const auto& q = sim->get_server(0).get_priority_queue(); + out << std::endl << + " k-way heap: " << q.get_heap_branching_factor() << std::endl + << std::endl; + +#ifdef PROFILE + crimson::ProfileCombiner art_combiner; + crimson::ProfileCombiner rct_combiner; + for (uint i = 0; i < sim->get_server_count(); ++i) { + const auto& q = sim->get_server(i).get_priority_queue(); + const auto& art = q.add_request_timer; + art_combiner.combine(art); + const auto& rct = q.request_complete_timer; + rct_combiner.combine(rct); + } + out << "Server add_request_timer: count:" << art_combiner.get_count() << + ", mean:" << art_combiner.get_mean() << + ", std_dev:" << art_combiner.get_std_dev() << + ", low:" << art_combiner.get_low() << + ", high:" << art_combiner.get_high() << std::endl; + out << "Server request_complete_timer: count:" << rct_combiner.get_count() << + ", mean:" << rct_combiner.get_mean() << + ", std_dev:" << rct_combiner.get_std_dev() << + ", low:" << rct_combiner.get_low() << + ", high:" << rct_combiner.get_high() << std::endl; + out << "Server combined mean: " << + (art_combiner.get_mean() + rct_combiner.get_mean()) << + std::endl; +#endif +}