/* ********************************************************************** * Copyright (C) Miroslav Lichvar 2018 * * This program is free software; you can redistribute it and/or modify * it under the terms of version 2 of the GNU General Public License as * published by the Free Software Foundation. * * 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, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * ********************************************************************** */ #include #include "test.h" #define LCL_GetSysPrecisionAsQuantum() (1.0e-6) #include void test_unit(void) { NTP_Sample sample_in, sample_out; SPF_Instance filter; int i, j, k, sum_count, min_samples, max_samples; double mean, combine_ratio, sum_err; LCL_Initialise(); memset(&sample_in, 0, sizeof (sample_in)); memset(&sample_out, 0, sizeof (sample_out)); for (i = 0; i <= 100; i++) { max_samples = random() % 20 + 1; min_samples = random() % (max_samples) + 1; combine_ratio = TST_GetRandomDouble(0.0, 1.0); filter = SPF_CreateInstance(min_samples, max_samples, 2.0, combine_ratio); for (j = 0, sum_count = 0, sum_err = 0.0; j < 100; j++) { DEBUG_LOG("iteration %d/%d", i, j); mean = TST_GetRandomDouble(-1.0e3, 1.0e3); UTI_ZeroTimespec(&sample_in.time); for (k = 0; k < 100; k++) { UTI_AddDoubleToTimespec(&sample_in.time, TST_GetRandomDouble(1.0e-1, 1.0e2), &sample_in.time); sample_in.offset = mean + TST_GetRandomDouble(-1.0, 1.0); sample_in.peer_dispersion = TST_GetRandomDouble(1.0e-4, 2.0e-4); sample_in.root_dispersion = TST_GetRandomDouble(1.0e-3, 2.0e-3); sample_in.peer_delay = TST_GetRandomDouble(1.0e-2, 2.0e-2); sample_in.root_delay = TST_GetRandomDouble(1.0e-1, 2.0e-1); sample_in.stratum = random() % 16; TEST_CHECK(SPF_AccumulateSample(filter, &sample_in)); TEST_CHECK(!SPF_AccumulateSample(filter, &sample_in)); TEST_CHECK(SPF_GetNumberOfSamples(filter) == MIN(k + 1, max_samples)); SPF_GetLastSample(filter, &sample_out); TEST_CHECK(!memcmp(&sample_in, &sample_out, sizeof (sample_in))); SPF_SlewSamples(filter, &sample_in.time, 0.0, 0.0); SPF_AddDispersion(filter, 0.0); if (k + 1 < min_samples) TEST_CHECK(!SPF_GetFilteredSample(filter, &sample_out)); TEST_CHECK(SPF_GetNumberOfSamples(filter) == MIN(k + 1, max_samples)); } if (random() % 10) { TEST_CHECK(SPF_GetFilteredSample(filter, &sample_out)); TEST_CHECK(SPF_GetAvgSampleDispersion(filter) <= 2.0); sum_err += sample_out.offset - mean; sum_count++; TEST_CHECK(UTI_CompareTimespecs(&sample_out.time, &sample_in.time) <= 0 && sample_out.time.tv_sec >= 0); TEST_CHECK(fabs(sample_out.offset - mean) <= 1.0); TEST_CHECK(sample_out.peer_dispersion >= 1.0e-4 && (sample_out.peer_dispersion <= 2.0e-4 || filter->max_samples > 1)); TEST_CHECK(sample_out.root_dispersion >= 1.0e-3 && (sample_out.root_dispersion <= 2.0e-3 || filter->max_samples > 1)); TEST_CHECK(sample_out.peer_delay >= 1.0e-2 && sample_out.peer_delay <= 2.0e-2); TEST_CHECK(sample_out.root_delay >= 1.0e-1 && sample_out.root_delay <= 2.0e-1); TEST_CHECK(sample_out.stratum >= 0 && sample_out.stratum <= 15); if (max_samples == 1) TEST_CHECK(!memcmp(&sample_in, &sample_out, sizeof (sample_in))); } else { SPF_DropSamples(filter); } TEST_CHECK(SPF_GetNumberOfSamples(filter) == 0); } TEST_CHECK(fabs(sum_err / sum_count) < 0.3); SPF_DestroyInstance(filter); } LCL_Finalise(); }