// This file is part of BOINC. // http://boinc.berkeley.edu // Copyright (C) 2008 University of California // // BOINC is free software; you can redistribute it and/or modify it // under the terms of the GNU Lesser General Public License // as published by the Free Software Foundation, // either version 3 of the License, or (at your option) any later version. // // BOINC is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. // See the GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with BOINC. If not, see . #ifndef SIM #include "sched_config.h" #include "sched_msgs.h" #endif #ifndef _USING_FCGI_ #include #else #include "boinc_fcgi.h" #endif #include #include #include #include #include "edf_sim.h" #ifdef SIM extern FILE* logfile; #endif using std::vector; #define SUMMARY 0 // show candidate decision #define WORKLOAD 1 // show workload #define DETAIL 2 // show every step of simulation #define TIME_SCALE 1 //#define TIME_SCALE 3600 static void log_msg(int level, const char* format, ...) { #ifdef SIM #else switch(level) { case SUMMARY: if (!config.debug_send) return; break; case WORKLOAD: if (!config.debug_edf_sim_workload) return; break; case DETAIL: if (!config.debug_edf_sim_detail) return; break; } #endif va_list va; va_start(va, format); #ifdef SIM vfprintf(logfile, format, va); #else log_messages.vprintf(MSG_NORMAL, format, va); #endif va_end(va); } bool lessthan_deadline(const IP_RESULT& p1, const IP_RESULT& p2) { if (p1.computation_deadline < p2.computation_deadline) return true; return false; } // run an EDF simulation, marking which results will miss // their deadlines and when // void mark_edf_misses (int ncpus, vector& ip_results){ vector::iterator ipp_it; double booked_to[128]; int j; log_msg(DETAIL, "[edf_detail] mark_edf_misses\n"); // keeps track of when each cpu is next free // for (j=0; j r.computation_deadline) { r.misses_deadline = true; r.estimated_completion_time = booked_to[lowest_booked_cpu]; log_msg(DETAIL, "[edf_detail] %s misses_deadline; est completion %.2f\n", r.name, booked_to[lowest_booked_cpu]/TIME_SCALE ); } else { r.misses_deadline = false; log_msg(DETAIL, "[edf_detail] %s makes deadline; est completion %.2f\n", r.name, booked_to[lowest_booked_cpu]/TIME_SCALE ); // if result doesn't miss its deadline, // then the estimated_completion_time is of no use } } } // For each ip_result, compute computation_deadline from report_deadline, // and determine if the deadline would be missed by simulating EDF // void init_ip_results( double work_buf_min, int ncpus, vector& ip_results ){ unsigned int i; log_msg(DETAIL, "[edf_detail] init_ip_results; work_buf_min %.2f ncpus %d:\n", work_buf_min/TIME_SCALE, ncpus ); for (i=0; i REQUEST_HANDLER_WORK_SEND::find_sendable_test_results ( vector test_results, int ncpus, vector ipp_results, double cpu_pessimism_factor // = 1 by default ) { //test results to send vector sendable_test_results; vector::iterator test_results_it; sort(test_results.begin(), test_results.end(), lessthan_deadline); // see if each test result can be added to the work queue without // causing deadline misses or deadline miss delays // for (test_results_it = test_results.begin(); test_results_it != test_results.end(); test_results_it++ ) { bool failed = result_cause_deadline_miss_or_delay( (*test_results_it).computation_deadline*cpu_pessimism_factor, (*test_results_it).cpu_time_remaining, ncpus, ipp_results ); if (!failed){ // add sendable result to work queue, copying by value, so that we // can evaluate what happens if we add more new results to the queue // ipp_results.push_back(*test_results_it); sendable_test_results.push_back (*test_results_it); } } return (sendable_test_results); } #endif // Return false if // 1) the candidate result X would cause another result Y to miss its deadline // (which Y would not have otherwise missed) // 2) X causes another result Y to miss its deadline by more than // it otherwise would have, or // 3) X would miss its deadline // bool check_candidate ( IP_RESULT& candidate, int ncpus, vector ip_results // passed by value (copy) ) { double booked_to[128]; // keeps track of when each cpu is free int j; log_msg(DETAIL, "[edf_detail] check_candidate %s: dl %.2f cpu %.2f\n", candidate.name, candidate.computation_deadline/TIME_SCALE, candidate.cpu_time_remaining/TIME_SCALE ); for (j=0; j computation_deadline AND // result would not have missed deadline to begin with // if (booked_to[lowest_booked_cpu] > r.computation_deadline && !r.misses_deadline ) { log_msg(SUMMARY, "[send] cand. fails; %s now misses deadline: %.2f > %.2f\n", r.name, booked_to[lowest_booked_cpu]/TIME_SCALE, r.computation_deadline/TIME_SCALE ); return false; } // check a late result (i.e., one that would have missed its // deadline) // would be made even later // if (r.misses_deadline && booked_to[lowest_booked_cpu] > r.estimated_completion_time ){ log_msg(SUMMARY, "[send] cand. fails; late result %s would be returned even later\n", r.name ); return false; } } log_msg(SUMMARY, "[send] candidate succeeds\n"); return true; } #if 0 int main() { vector ip_results; double work_buf_min = 0; double cpu_pessimism_factor = 1; int ncpus = 1; bool flag; ip_results.push_back(IP_RESULT("R1", 5, 3)); ip_results.push_back(IP_RESULT("R2", 5, 3)); init_ip_results(work_buf_min, ncpus, ip_results); IP_RESULT c1 = IP_RESULT("C1", 10, 1); if (check_candidate(c1, ncpus, ip_results)) { printf("adding %s\n", c1.name); ip_results.push_back(c1); } IP_RESULT c2 = IP_RESULT("C2", 7, 2); if (check_candidate(c2, ncpus, ip_results)) { printf("adding %s\n", c2.name); ip_results.push_back(c2); } } #endif