/*
* Copyright (C) 2010 Miroslav Lichvar <mlichvar@redhat.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "stats.h"
#include "sysheaders.h"
Stats::Stats() {
reset();
}
Stats::~Stats() {
}
void Stats::reset() {
reset_clock_stats();
packets_in_sum2 = 0.0;
packets_out_sum2 = 0.0;
packets_in = 0;
packets_out = 0;
packets_in_time_last = 0.0;
packets_out_time_last = 0.0;
packets_in_int_sum = 0.0;
packets_out_int_sum = 0.0;
packets_in_int_min = 0.0;
packets_out_int_min = 0.0;
wakeups_int_sum = 0;
wakeups = 0;
}
void Stats::reset_clock_stats() {
offset_sum2 = 0.0;
offset_abs_sum = 0.0;
offset_sum = 0.0;
offset_abs_max = 0.0;
freq_sum2 = 0.0;
freq_abs_sum = 0.0;
freq_sum = 0.0;
freq_abs_max = 0.0;
rawfreq_sum2 = 0.0;
rawfreq_abs_sum = 0.0;
rawfreq_sum = 0.0;
rawfreq_abs_max = 0.0;
samples = 0;
}
void Stats::update_clock_stats(double offset, double freq, double rawfreq) {
offset_sum2 += offset * offset;
offset_abs_sum += fabs(offset);
offset_sum += offset;
if (offset_abs_max < fabs(offset))
offset_abs_max = fabs(offset);
freq_sum2 += freq * freq;
freq_abs_sum += fabs(freq);
freq_sum += freq;
if (freq_abs_max < fabs(freq))
freq_abs_max = fabs(freq);
rawfreq_sum2 += rawfreq * rawfreq;
rawfreq_abs_sum += fabs(rawfreq);
rawfreq_sum += rawfreq;
if (rawfreq_abs_max < fabs(rawfreq))
rawfreq_abs_max = fabs(rawfreq);
samples++;
wakeups_int_sum++;
}
void Stats::update_packet_stats(bool incoming, double time, double delay) {
if (delay < 0.0)
delay = 0.0;
if (incoming) {
packets_in++;
packets_in_sum2 += delay * delay;
if (packets_in >= 2) {
packets_in_int_sum += time - packets_in_time_last;
if (packets_in == 2 || packets_in_int_min > time - packets_in_time_last)
packets_in_int_min = time - packets_in_time_last;
}
packets_in_time_last = time;
} else {
packets_out++;
packets_out_sum2 += delay * delay;
if (packets_out >= 2) {
packets_out_int_sum += time - packets_out_time_last;
if (packets_out == 2 || packets_out_int_min > time - packets_out_time_last)
packets_out_int_min = time - packets_out_time_last;
}
packets_out_time_last = time;
}
}
void Stats::update_wakeup_stats() {
wakeups++;
}
void Stats::print(int verbosity) const {
if (verbosity <= 0)
return;
if (verbosity <= 1) {
printf("%e ", sqrt(offset_sum2 / samples));
return;
}
printf("RMS offset: \t%e\n", sqrt(offset_sum2 / samples));
printf("Maximum absolute offset: \t%e\n", offset_abs_max);
printf("Mean absolute offset: \t%e\n", offset_abs_sum / samples);
printf("Mean offset: \t%e\n", offset_sum / samples);
printf("RMS frequency: \t%e\n", sqrt(freq_sum2 / samples));
printf("Maximum absolute frequency: \t%e\n", freq_abs_max);
printf("Mean absolute frequency: \t%e\n", freq_abs_sum / samples);
printf("Mean frequency: \t%e\n", freq_sum / samples);
printf("RMS raw frequency: \t%e\n", sqrt(rawfreq_sum2 / samples));
printf("Maximum absolute raw frequency: \t%e\n", rawfreq_abs_max);
printf("Mean absolute raw frequency: \t%e\n", rawfreq_abs_sum / samples);
printf("Mean raw frequency: \t%e\n", rawfreq_sum / samples);
if (packets_in) {
printf("RMS incoming packet delay: \t%e\n", (double)sqrt(packets_in_sum2 / packets_in));
} else {
printf("RMS incoming packet delay: \tinf\n");
}
if (packets_in >= 2) {
printf("Mean incoming packet interval: \t%e\n", packets_in_int_sum / (packets_in - 1));
printf("Minimum incoming packet interval: \t%e\n", packets_in_int_min);
} else {
printf("Mean incoming packet interval: \tinf\n");
printf("Minimum incoming packet interval: \tinf\n");
}
if (packets_out) {
printf("RMS outgoing packet delay: \t%e\n", (double)sqrt(packets_out_sum2 / packets_out));
} else {
printf("RMS outgoing packet delay: \tinf\n");
}
if (packets_out >= 2) {
printf("Mean outgoing packet interval: \t%e\n", packets_out_int_sum / (packets_out - 1));
printf("Minimum outgoing packet interval: \t%e\n", packets_out_int_min);
} else {
printf("Mean outgoing packet interval: \tinf\n");
printf("Minimum outgoing packet interval: \tinf\n");
}
if (wakeups)
printf("Mean wakeup interval: \t%e\n", (double)wakeups_int_sum / wakeups);
else
printf("Mean wakeup interval: \tinf\n");
}