X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/loba.git/blobdiff_plain/e9c3c48dfa8ea8ebddb2550a1cdd9981c8874bf8..3cd6600dbcb87137c7adde8e4e310aefaea2a2e7:/main.cpp?ds=sidebyside diff --git a/main.cpp b/main.cpp index 9a33928..a682dfd 100644 --- a/main.cpp +++ b/main.cpp @@ -1,4 +1,7 @@ -#include +#include +#include +#include +#include // strchr #include #include #include @@ -26,6 +29,8 @@ XBT_LOG_EXTERNAL_DEFAULT_CATEGORY(main); #include "tracing.h" #include "version.h" +#define DATA_DESCR_WIDTH 39 + namespace { // Failure exit status enum { @@ -34,14 +39,29 @@ namespace { EXIT_FAILURE_INIT = 0x02, // failed to initialize simulator EXIT_FAILURE_SIMU = 0x04, // simulation failed EXIT_FAILURE_CLEAN = 0x08, // error at cleanup + EXIT_FAILURE_INTR = 0x10, // interrupted by user + EXIT_FAILURE_LOAD = 0x20, // lost load on exit + EXIT_FAILURE_OTHER = 0x40, // other error }; - mutex_t proc_mutex; - condition_t proc_cond; + // Cannot be globally initialized... + mutex_t* proc_mutex; + condition_t* proc_cond; unsigned proc_counter = 0; - statistics comps; statistics loads; + statistics comps; + statistics comp_iterations; + statistics all_comp_iterations; + statistics data_send_amount; + statistics data_recv_amount; + statistics data_send_count; + statistics data_recv_count; + statistics ctrl_send_amount; + statistics ctrl_recv_amount; + statistics ctrl_send_count; + statistics ctrl_recv_count; + statistics convergence; } @@ -52,15 +72,28 @@ static int simulation_main(int argc, char* argv[]) try { proc = opt::loba_algorithms.new_instance(opt::loba_algo, argc, argv); - proc_mutex.acquire(); + proc_mutex->acquire(); ++proc_counter; - proc_mutex.release(); + proc_mutex->release(); result = proc->run(); - proc_mutex.acquire(); - comps.push(proc->get_comp()); + proc_mutex->acquire(); loads.push(proc->get_real_load()); + comps.push(proc->get_comp_amount()); + comp_iterations.push(proc->get_comp_iter()); + all_comp_iterations.push(proc->get_all_comp_iter()); + data_send_amount.push(proc->get_data_send_amount()); + data_recv_amount.push(proc->get_data_recv_amount()); + data_send_count.push(proc->get_data_send_count()); + data_recv_count.push(proc->get_data_recv_count()); + ctrl_send_amount.push(proc->get_ctrl_send_amount()); + ctrl_recv_amount.push(proc->get_ctrl_recv_amount()); + ctrl_send_count.push(proc->get_ctrl_send_count()); + ctrl_recv_count.push(proc->get_ctrl_recv_count()); + double c = proc->get_convergence(); + if (c != -1.0) + convergence.push(c); // Synchronization barrier... // The goal is to circumvent a limitation in SimGrid (at least @@ -68,54 +101,91 @@ static int simulation_main(int argc, char* argv[]) // destroys a communication they had together. --proc_counter; - proc_cond.broadcast(); + proc_cond->broadcast(); while (proc_counter > 0) - proc_cond.wait(proc_mutex); - proc_mutex.release(); + proc_cond->wait(*proc_mutex); + proc_mutex->release(); delete proc; } catch (const std::invalid_argument& e) { - THROW1(arg_error, 0, "%s", e.what()); + THROWF(arg_error, 0, "%s", e.what()); } catch (const std::exception& e) { - THROW1(0, 0, "%s", e.what()); + THROWF(0, 0, "%s", e.what()); } return result; } -static void check_for_lost_load() +static bool check_for_lost_load() { + bool res = true; double total_init = process::get_total_load_init(); - double total_exit = process::get_total_load_exit(); double lost = total_init - total_exit; double lost_ratio = 100.0 * lost / total_init; - if (lost_ratio < -opt::load_ratio_threshold) + if (lost_ratio < -opt::load_ratio_threshold) { XBT_ERROR("Gained load at exit! %g (%g%%) <============", -lost, -lost_ratio); - else if (lost_ratio > opt::load_ratio_threshold) + res = false; + } else if (lost_ratio > opt::load_ratio_threshold) { XBT_ERROR("Lost load at exit! %g (%g%%) <============", lost, lost_ratio); - else + res = false; + } else XBT_VERB("Total load at exit looks good: %g (%g%%)", lost, lost_ratio); double total_running = process::get_total_load_running(); double running_ratio = 100.0 * total_running / total_init; - if (running_ratio < -opt::load_ratio_threshold) + if (running_ratio < -opt::load_ratio_threshold) { XBT_ERROR("Negative running load at exit! %g (%g%%) <============", total_running, running_ratio); - else if (running_ratio > opt::load_ratio_threshold) + res = false; + } else if (running_ratio > opt::load_ratio_threshold) { XBT_ERROR("Remaining running load at exit! %g (%g%%) <============", total_running, running_ratio); - else + res = false; + } else XBT_VERB("Running load at exit looks good: %g (%g%%)", total_running, running_ratio); + return res; +} + +static void signal_handler(int /*sig*/) +{ + if (!opt::exit_request) { + XBT_CRITICAL(">>>>>>>>>>" + " caught CTRL-C: global exit requested " + "<<<<<<<<<<"); + opt::exit_request = 1; + } else { + XBT_CRITICAL(">>>>>>>>>>" + " caught CTRL-C for the 2nd time: exit immediately " + "<<<<<<<<<<"); + exit(EXIT_FAILURE_INTR); + } +} + +static void install_signal_handler() +{ + struct sigaction action; + action.sa_handler = signal_handler; + sigemptyset(&action.sa_mask); + action.sa_flags = SA_RESTART; + if (sigaction(SIGINT, &action, NULL) == -1) { + std::cerr << "sigaction: " << strerror(errno) << "\n"; + exit(EXIT_FAILURE_OTHER); + } } +#define PR_VALUE(descr, format, ...) \ + XBT_INFO("| %.*s: " format, DATA_DESCR_WIDTH, \ + descr ".................................................", \ + __VA_ARGS__) + #define PR_STATS(descr, st) \ - XBT_INFO("| %.*s: %g / %g / %g", 39, \ - descr " total/avg./stddev. at exit.........................", \ + XBT_INFO("| %.*s: %g / %g / %g", DATA_DESCR_WIDTH, \ + descr " (total/avg./stddev).............................", \ st.get_sum(), st.get_mean(), st.get_stddev()) int main(int argc, char* argv[]) @@ -123,10 +193,12 @@ int main(int argc, char* argv[]) // Note: variables used after THROW must be declared as volatile. volatile int exit_status = 0; // global exit status volatile double simulated_time = -1.0; - timestamp simulation_time; + timestamp elapsed_time(timestamp::wallclock_time); + timestamp simulation_time(timestamp::cpu_time); xbt_ex_t ex; MSG_error_t res; + elapsed_time.start(); simulation_time.start(); // Set default logging parameters @@ -144,6 +216,7 @@ int main(int argc, char* argv[]) // Note: MSG_global_init() may throw an exception, but it seems // impossible to catch it correctly :-( MSG_global_init(&argc, argv); + install_signal_handler(); // Parse global parameters bool parse_res = opt::parse_args(&argc, argv); @@ -171,8 +244,12 @@ int main(int argc, char* argv[]) MSG_function_register_default(simulation_main); // Create the platform and the application. + XBT_DEBUG("Loading platform file..."); MSG_create_environment(opt::platform_file.c_str()); + XBT_DEBUG("Creating hostdata..."); hostdata::create(); + XBT_INFO("Loaded description of %zd hosts.", hostdata::size()); + XBT_DEBUG("Deploying processes..."); if (opt::auto_depl::enabled) { if (!opt::auto_depl::nhosts) opt::auto_depl::nhosts = hostdata::size(); @@ -181,28 +258,45 @@ int main(int argc, char* argv[]) opt::auto_depl::nhosts, hostdata::size()); opt::auto_depl::nhosts = hostdata::size(); } - if (!opt::auto_depl::load) + if (opt::auto_depl::load == 0.0) { + XBT_WARN("Initial load is zero! " + "Falling back on old behaviour (load = nhosts)."); opt::auto_depl::load = opt::auto_depl::nhosts; + } else if (opt::auto_depl::load < 0.0) + opt::auto_depl::load = + -opt::auto_depl::load * opt::auto_depl::nhosts; + double iload = std::trunc(opt::auto_depl::load); + if (opt::integer_transfer && opt::auto_depl::load != iload) { + XBT_WARN("Total load %g is not an integer. Truncate it.", + opt::auto_depl::load); + opt::auto_depl::load = iload; + } MY_launch_application(); // it is already opt::* aware... } else { MSG_launch_application(opt::deployment_file.c_str()); } // Register tracing categories - TRACE_category(TRACE_CAT_COMP); - TRACE_category(TRACE_CAT_CTRL); - TRACE_category(TRACE_CAT_DATA); + TRACE_category_with_color(TRACE_CAT_COMP, TRACE_COLOR_COMP); + TRACE_category_with_color(TRACE_CAT_CTRL, TRACE_COLOR_CTRL); + TRACE_category_with_color(TRACE_CAT_DATA, TRACE_COLOR_DATA); exit_status = EXIT_FAILURE_SIMU; // ===== + proc_mutex = new mutex_t(); + proc_cond = new condition_t(); + // Launch the MSG simulation. XBT_INFO("Starting simulation at %f...", MSG_get_clock()); res = MSG_main(); simulated_time = MSG_get_clock(); XBT_INFO("Simulation ended at %f.", simulated_time); + delete proc_cond; + delete proc_mutex; + if (res != MSG_OK) - THROW1(0, 0, "MSG_main() failed with status %#x", res); + THROWF(0, 0, "MSG_main() failed with status %#x", res); exit_status = EXIT_NO_FAILURE; // ===== } @@ -226,15 +320,43 @@ int main(int argc, char* argv[]) // Report final simulation status. if (simulated_time >= 0.0) { simulation_time.stop(); - check_for_lost_load(); + elapsed_time.stop(); + if (!check_for_lost_load()) + exit_status |= EXIT_FAILURE_LOAD; + XBT_INFO(",----[ Results ]"); PR_STATS("Load", loads); PR_STATS("Computation", comps); - XBT_INFO("| Total simulated time...................: %g", - simulated_time); - XBT_INFO("| Total simulation time..................: %g", - simulation_time.duration()); + PR_STATS("Comp. iterations", comp_iterations); + PR_STATS("X-Comp. iterations", all_comp_iterations); + PR_STATS("Data send amount", data_send_amount); + PR_STATS("Data recv amount", data_recv_amount); + PR_STATS("Data send count", data_send_count); + PR_STATS("Data recv count", data_recv_count); + PR_STATS("Ctrl send amount", ctrl_send_amount); + PR_STATS("Ctrl recv amount", ctrl_recv_amount); + PR_STATS("Ctrl send count", ctrl_send_count); + PR_STATS("Ctrl recv count", ctrl_recv_count); + PR_VALUE("Total simulated time", "%g", simulated_time); + PR_VALUE("Total simulation time", "%g", simulation_time.duration()); + PR_VALUE("Elapsed (wall clock) time", "%g", elapsed_time.duration()); XBT_INFO("`----"); + + double load_imbalance = 100.0 * loads.get_stddev() / loads.get_mean(); + double transfer_amount = + data_send_amount.get_sum() / opt::comm_cost(loads.get_sum()); + + XBT_INFO(",----[ Useful metrics ]"); + PR_VALUE("Final load imbalance", "%g %s", load_imbalance, + "percent of the load average"); + PR_VALUE("Data transfer amount", "%g %s", transfer_amount, + "times the total amount of data"); + PR_VALUE("Number of hosts that converged", "%u / %u", + convergence.get_count(), loads.get_count()); + PR_VALUE("Times of convergence (min/max)", "%g / %g", + convergence.get_min(), convergence.get_max()); + XBT_INFO("`----"); + } if (exit_status) XBT_ERROR("Simulation failed (%#x).", exit_status);