dump1090/stats.c
Oliver Jowett 15ea5ba3da Rearrangements to the receive thread.
Magnitude conversion now happens immediately when sample data is
received, so there is no risk of newly received data clobbering old
data under CPU overload.
2015-04-09 18:51:31 +01:00

264 lines
12 KiB
C

// Part of dump1090, a Mode S message decoder for RTLSDR devices.
//
// stats.c: statistics helpers.
//
// Copyright (c) 2015 Oliver Jowett <oliver@mutability.co.uk>
//
// This file is free software: you may copy, redistribute 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 file 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/>.
// This file incorporates work covered by the following copyright and
// permission notice:
//
// Copyright (C) 2012 by Salvatore Sanfilippo <antirez@gmail.com>
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "dump1090.h"
void add_timespecs(const struct timespec *x, const struct timespec *y, struct timespec *z)
{
z->tv_sec = x->tv_sec + y->tv_sec;
z->tv_nsec = x->tv_nsec + y->tv_nsec;
z->tv_sec += z->tv_nsec / 1000000000L;
z->tv_nsec = z->tv_nsec % 1000000000L;
}
void display_stats(struct stats *st) {
int j;
time_t tt_start, tt_end;
struct tm tm_start, tm_end;
char tb_start[30], tb_end[30];
printf("\n\n");
if (Modes.interactive)
interactiveShowData();
tt_start = st->start/1000;
localtime_r(&tt_start, &tm_start);
strftime(tb_start, sizeof(tb_start), "%c %Z", &tm_start);
tt_end = st->end/1000;
localtime_r(&tt_end, &tm_end);
strftime(tb_end, sizeof(tb_end), "%c %Z", &tm_end);
printf("Statistics: %s - %s\n", tb_start, tb_end);
if (!Modes.net_only) {
printf("Local receiver:\n");
printf(" %llu samples processed\n", (unsigned long long)st->samples_processed);
printf(" %llu samples dropped\n", (unsigned long long)st->samples_dropped);
printf(" %u Mode A/C messages received\n", st->demod_modeac);
printf(" %u Mode-S message preambles received\n", st->demod_preambles);
printf(" %u with bad message format or invalid CRC\n", st->demod_rejected_bad);
printf(" %u with unrecognized ICAO address\n", st->demod_rejected_unknown_icao);
printf(" %u accepted with correct CRC\n", st->demod_accepted[0]);
for (j = 1; j <= Modes.nfix_crc; ++j)
printf(" %u accepted with %d-bit error repaired\n", st->demod_accepted[j], j);
if (st->noise_power_count) {
printf(" %.1f dBFS noise floor\n",
10 * log10(st->noise_power_sum / st->noise_power_count));
}
if (st->signal_power_count) {
printf(" %.1f dBFS mean signal power\n",
10 * log10(st->signal_power_sum / st->signal_power_count));
}
if (st->peak_signal_power) {
printf(" %.1f dBFS peak signal power\n",
10 * log10(st->peak_signal_power));
}
printf(" %u messages with signal power above -3dBFS\n",
st->strong_signal_count);
}
if (Modes.net) {
printf("Messages from network clients:\n");
printf(" %u Mode A/C messages received\n", st->remote_received_modeac);
printf(" %u Mode S messages received\n", st->remote_received_modes);
printf(" %u with bad message format or invalid CRC\n", st->remote_rejected_bad);
printf(" %u with unrecognized ICAO address\n", st->remote_rejected_unknown_icao);
printf(" %u accepted with correct CRC\n", st->remote_accepted[0]);
for (j = 1; j <= Modes.nfix_crc; ++j)
printf(" %u accepted with %d-bit error repaired\n", st->remote_accepted[j], j);
}
printf("%u total usable messages\n",
st->messages_total);
printf("%u surface position messages received\n"
"%u airborne position messages received\n"
"%u global CPR attempts with valid positions\n"
"%u global CPR attempts with bad data\n"
" %u global CPR attempts that failed the range check\n"
" %u global CPR attempts that failed the speed check\n"
"%u global CPR attempts with insufficient data\n"
"%u local CPR attempts with valid positions\n"
" %u aircraft-relative positions\n"
" %u receiver-relative positions\n"
"%u local CPR attempts that did not produce useful positions\n"
" %u local CPR attempts that failed the range check\n"
" %u local CPR attempts that failed the speed check\n"
"%u CPR messages that look like transponder failures filtered\n",
st->cpr_surface,
st->cpr_airborne,
st->cpr_global_ok,
st->cpr_global_bad,
st->cpr_global_range_checks,
st->cpr_global_speed_checks,
st->cpr_global_skipped,
st->cpr_local_ok,
st->cpr_local_aircraft_relative,
st->cpr_local_receiver_relative,
st->cpr_local_skipped,
st->cpr_local_range_checks,
st->cpr_local_speed_checks,
st->cpr_filtered);
printf("%u unique aircraft tracks\n", st->unique_aircraft);
printf("%u aircraft tracks where only one message was seen\n", st->single_message_aircraft);
if (Modes.net && Modes.net_http_port)
printf("%d HTTP requests\n", st->http_requests);
{
uint64_t demod_cpu_millis = (uint64_t)st->demod_cpu.tv_sec*1000UL + st->demod_cpu.tv_nsec/1000000UL;
uint64_t reader_cpu_millis = (uint64_t)st->reader_cpu.tv_sec*1000UL + st->reader_cpu.tv_nsec/1000000UL;
uint64_t background_cpu_millis = (uint64_t)st->background_cpu.tv_sec*1000UL + st->background_cpu.tv_nsec/1000000UL;
printf("CPU load: %.1f%%\n"
" %llu ms for demodulation\n"
" %llu ms for reading from USB\n"
" %llu ms for network input and background tasks\n",
100.0 * (demod_cpu_millis + reader_cpu_millis + background_cpu_millis) / (st->end - st->start + 1),
(unsigned long long) demod_cpu_millis,
(unsigned long long) reader_cpu_millis,
(unsigned long long) background_cpu_millis);
}
fflush(stdout);
}
void reset_stats(struct stats *st) {
static struct stats st_zero;
*st = st_zero;
}
void add_stats(const struct stats *st1, const struct stats *st2, struct stats *target) {
int i;
if (st1->start == 0)
target->start = st2->start;
else if (st2->start == 0)
target->start = st1->start;
else if (st1->start < st2->start)
target->start = st1->start;
else
target->start = st2->start;
target->end = st1->end > st2->end ? st1->end : st2->end;
target->demod_preambles = st1->demod_preambles + st2->demod_preambles;
target->demod_rejected_bad = st1->demod_rejected_bad + st2->demod_rejected_bad;
target->demod_rejected_unknown_icao = st1->demod_rejected_unknown_icao + st2->demod_rejected_unknown_icao;
for (i = 0; i < MODES_MAX_BITERRORS+1; ++i)
target->demod_accepted[i] = st1->demod_accepted[i] + st2->demod_accepted[i];
target->demod_modeac = st1->demod_modeac + st2->demod_modeac;
target->samples_processed = st1->samples_processed + st2->samples_processed;
target->samples_dropped = st1->samples_dropped + st2->samples_dropped;
add_timespecs(&st1->demod_cpu, &st2->demod_cpu, &target->demod_cpu);
add_timespecs(&st1->reader_cpu, &st2->reader_cpu, &target->reader_cpu);
add_timespecs(&st1->background_cpu, &st2->background_cpu, &target->background_cpu);
// noise floor:
target->noise_power_sum = st1->noise_power_sum + st2->noise_power_sum;
target->noise_power_count = st1->noise_power_count + st2->noise_power_count;
// mean signal power:
target->signal_power_sum = st1->signal_power_sum + st2->signal_power_sum;
target->signal_power_count = st1->signal_power_count + st2->signal_power_count;
// peak signal power seen
if (st1->peak_signal_power > st2->peak_signal_power)
target->peak_signal_power = st1->peak_signal_power;
else
target->peak_signal_power = st2->peak_signal_power;
// strong signals
target->strong_signal_count = st1->strong_signal_count + st2->strong_signal_count;
// remote messages:
target->remote_received_modeac = st1->remote_received_modeac + st2->remote_received_modeac;
target->remote_received_modes = st1->remote_received_modes + st2->remote_received_modes;
target->remote_rejected_bad = st1->remote_rejected_bad + st2->remote_rejected_bad;
target->remote_rejected_unknown_icao = st1->remote_rejected_unknown_icao + st2->remote_rejected_unknown_icao;
for (i = 0; i < MODES_MAX_BITERRORS+1; ++i)
target->remote_accepted[i] = st1->remote_accepted[i] + st2->remote_accepted[i];
// total messages:
target->messages_total = st1->messages_total + st2->messages_total;
// network:
target->http_requests = st1->http_requests + st2->http_requests;
// CPR decoding:
target->cpr_surface = st1->cpr_surface + st2->cpr_surface;
target->cpr_airborne = st1->cpr_airborne + st2->cpr_airborne;
target->cpr_global_ok = st1->cpr_global_ok + st2->cpr_global_ok;
target->cpr_global_bad = st1->cpr_global_bad + st2->cpr_global_bad;
target->cpr_global_skipped = st1->cpr_global_skipped + st2->cpr_global_skipped;
target->cpr_global_range_checks = st1->cpr_global_range_checks + st2->cpr_global_range_checks;
target->cpr_global_speed_checks = st1->cpr_global_speed_checks + st2->cpr_global_speed_checks;
target->cpr_local_ok = st1->cpr_local_ok + st2->cpr_local_ok;
target->cpr_local_aircraft_relative = st1->cpr_local_aircraft_relative + st2->cpr_local_aircraft_relative;
target->cpr_local_receiver_relative = st1->cpr_local_receiver_relative + st2->cpr_local_receiver_relative;
target->cpr_local_skipped = st1->cpr_local_skipped + st2->cpr_local_skipped;
target->cpr_local_range_checks = st1->cpr_local_range_checks + st2->cpr_local_range_checks;
target->cpr_local_speed_checks = st1->cpr_local_speed_checks + st2->cpr_local_speed_checks;
target->cpr_filtered = st1->cpr_filtered + st2->cpr_filtered;
// aircraft
target->unique_aircraft = st1->unique_aircraft + st2->unique_aircraft;
target->single_message_aircraft = st1->single_message_aircraft + st2->single_message_aircraft;
}