// Berkeley Open Infrastructure for Network Computing // http://boinc.berkeley.edu // Copyright (C) 2005 University of California // // This 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 2.1 of the License, or (at your option) any later version. // // This software 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. // // To view the GNU Lesser General Public License visit // http://www.gnu.org/copyleft/lesser.html // or write to the Free Software Foundation, Inc., // 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA #ifdef _WIN32 #include "boinc_win.h" #endif #ifndef _WIN32 #include "config.h" #include #include #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #include #include "parse.h" #include "util.h" #include "filesys.h" #include "error_numbers.h" #include "client_msgs.h" #include "file_names.h" #ifdef SIM #include "sim.h" #else #include "client_state.h" #endif #include "network.h" #include "log_flags.h" #include "time_stats.h" #define CONNECTED_STATE_UNINITIALIZED -1 #define CONNECTED_STATE_NOT_CONNECTED 0 #define CONNECTED_STATE_CONNECTED 1 #define CONNECTED_STATE_UNKNOWN 2 #ifndef SIM #ifdef _WIN32 #include int get_connected_state() { DWORD flags; return IsNetworkAlive(&flags)?CONNECTED_STATE_CONNECTED:CONNECTED_STATE_NOT_CONNECTED; } #else // anyone know how to see if this host has physical network connection? // int get_connected_state() { return CONNECTED_STATE_UNKNOWN; } #endif #endif // exponential decay constant. // The last 10 days have a weight of 1/e; // everything before that has a weight of (1-1/e) const float ALPHA = (SECONDS_PER_DAY*10); //const float ALPHA = 60; // for testing TIME_STATS::TIME_STATS() { last_update = 0; first = true; on_frac = 1; connected_frac = 1; active_frac = 1; cpu_efficiency = 1; previous_connected_state = CONNECTED_STATE_UNINITIALIZED; inactive_start = 0; trim_stats_log(); time_stats_log = NULL; } // if log file is over a meg, discard everything older than a year // void TIME_STATS::trim_stats_log() { #ifndef SIM double size; char buf[256]; int retval; double x; retval = file_size(TIME_STATS_LOG, size); if (retval) return; if (size < 1e6) return; FILE* f = fopen(TIME_STATS_LOG, "r"); if (!f) return; FILE* f2 = fopen(TEMP_FILE_NAME, "w"); if (!f2) { fclose(f); return; } while (fgets(buf, 256, f)) { int n = sscanf(buf, "%lf", &x); if (n != 1) continue; if (x < gstate.now-86400*365) continue; fputs(buf, f2); } fclose(f); fclose(f2); #endif } void send_log_after(const char* filename, double t, MIOFILE& mf) { char buf[256]; double x; FILE* f = fopen(filename, "r"); if (!f) return; while (fgets(buf, 256, f)) { int n = sscanf(buf, "%lf", &x); if (n != 1) continue; if (x < t) continue; mf.printf("%s", buf); } fclose(f); } // copy the log file after a given time // void TIME_STATS::get_log_after(double t, MIOFILE& mf) { fclose(time_stats_log); // win: can't open twice send_log_after(TIME_STATS_LOG, t, mf); time_stats_log = fopen(TIME_STATS_LOG, "a"); } // Update time statistics based on current activities // NOTE: we don't set the state-file dirty flag here, // so these get written to disk only when other activities // cause this to happen. Maybe should change this. // void TIME_STATS::update(int suspend_reason) { double dt, w1, w2; bool is_active = !(suspend_reason & ~SUSPEND_REASON_CPU_USAGE_LIMIT); if (last_update == 0) { // this is the first time this client has executed. // Assume that everything is active on_frac = 1; connected_frac = 1; active_frac = 1; first = false; last_update = gstate.now; log_append("power_on", gstate.now); } else { dt = gstate.now - last_update; if (dt <= 10) return; w1 = 1 - exp(-dt/ALPHA); // weight for recent period w2 = 1 - w1; // weight for everything before that // (close to zero if long gap) int connected_state; #ifdef SIM connected_state = CONNECTED_STATE_NOT_CONNECTED; #else connected_state = get_connected_state(); if (gstate.network_suspend_reason) { connected_state = CONNECTED_STATE_NOT_CONNECTED; } #endif if (first) { // the client has just started; this is the first call. // on_frac *= w2; first = false; log_append("power_off", last_update); char buf[256]; #ifndef SIM sprintf(buf, "platform %s", gstate.get_primary_platform()); log_append(buf, gstate.now); #endif sprintf(buf, "version %d.%d.%d", BOINC_MAJOR_VERSION, BOINC_MINOR_VERSION, BOINC_RELEASE); log_append(buf, gstate.now); log_append("power_on", gstate.now); } else { on_frac = w1 + w2*on_frac; if (connected_frac < 0) connected_frac = 0; switch (connected_state) { case CONNECTED_STATE_NOT_CONNECTED: connected_frac *= w2; break; case CONNECTED_STATE_CONNECTED: connected_frac *= w2; connected_frac += w1; break; case CONNECTED_STATE_UNKNOWN: connected_frac = -1; } if (connected_state != previous_connected_state) { log_append_net(connected_state); previous_connected_state = connected_state; } active_frac *= w2; if (is_active) { active_frac += w1; if (inactive_start) { inactive_start = 0; log_append("proc_start", gstate.now); } } else if (inactive_start == 0){ inactive_start = gstate.now; log_append("proc_stop", gstate.now); } //msg_printf(NULL, MSG_INFO, "is_active %d, active_frac %f", is_active, active_frac); } last_update = gstate.now; if (log_flags.time_debug) { msg_printf(0, MSG_INFO, "[time_debug] dt %f w2 %f on %f; active %f; conn %f", dt, w2, on_frac, active_frac, connected_frac ); } } } void TIME_STATS::update_cpu_efficiency(double cpu_wall_time, double cpu_time) { double old_cpu_efficiency = cpu_efficiency; if (cpu_wall_time < .01) return; double w = exp(-cpu_wall_time/SECONDS_PER_DAY); double e = cpu_time/cpu_wall_time; if (e<0) { return; } cpu_efficiency = w*cpu_efficiency + (1-w)*e; if (log_flags.cpu_sched_debug){ msg_printf(0, MSG_INFO, "[cpu_sched_debug] CPU efficiency old %f new %f wall %f CPU %f w %f e %f", old_cpu_efficiency, cpu_efficiency, cpu_wall_time, cpu_time, w, e ); } } // Write XML based time statistics // int TIME_STATS::write(MIOFILE& out, bool to_server) { out.printf( "\n" " %f\n" " %f\n" " %f\n" " %f\n", on_frac, connected_frac, active_frac, cpu_efficiency ); if (!to_server) { out.printf( " %f\n", last_update ); } out.printf("\n"); return 0; } // Parse XML based time statistics, usually from client_state.xml // int TIME_STATS::parse(MIOFILE& in) { char buf[256]; while (in.fgets(buf, 256)) { if (match_tag(buf, "")) return 0; else if (parse_double(buf, "", last_update)) continue; else if (parse_double(buf, "", on_frac)) continue; else if (parse_double(buf, "", connected_frac)) continue; else if (parse_double(buf, "", active_frac)) continue; else if (parse_double(buf, "", cpu_efficiency)) { if (cpu_efficiency < 0) cpu_efficiency = 1; if (cpu_efficiency > 1) cpu_efficiency = 1; continue; } else { if (log_flags.unparsed_xml) { msg_printf(0, MSG_INFO, "[unparsed_xml] TIME_STATS::parse(): unrecognized: %s\n", buf ); } } } return ERR_XML_PARSE; } void TIME_STATS::start() { time_stats_log = fopen(TIME_STATS_LOG, "a"); if (time_stats_log) { setbuf(time_stats_log, 0); } } void TIME_STATS::quit() { log_append("power_off", gstate.now); } void TIME_STATS::log_append(const char* msg, double t) { #ifndef SIM if (!time_stats_log) return; fprintf(time_stats_log, "%f %s\n", t, msg); #endif } void TIME_STATS::log_append_net(int new_state) { switch(new_state) { case CONNECTED_STATE_NOT_CONNECTED: log_append("net_not_connected", gstate.now); break; case CONNECTED_STATE_CONNECTED: log_append("net_connected", gstate.now); break; case CONNECTED_STATE_UNKNOWN: log_append("net_unknown", gstate.now); break; } } const char *BOINC_RCSID_472504d8c2 = "$Id$";