/** * @file sysoff.c * @brief Implements the system offset estimation method. * @note Copyright (C) 2012 Richard Cochran * * 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, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include "print.h" #include "sysoff.h" #define NS_PER_SEC 1000000000LL static int64_t pctns(struct ptp_clock_time *t) { return t->sec * NS_PER_SEC + t->nsec; } static int sysoff_precise(int fd, int64_t *result, uint64_t *ts) { struct ptp_sys_offset_precise pso; memset(&pso, 0, sizeof(pso)); if (ioctl(fd, PTP_SYS_OFFSET_PRECISE, &pso)) { pr_debug("ioctl PTP_SYS_OFFSET_PRECISE: %m"); return SYSOFF_RUN_TIME_MISSING; } *result = pctns(&pso.sys_realtime) - pctns(&pso.device); *ts = pctns(&pso.sys_realtime); return SYSOFF_PRECISE; } static int64_t sysoff_estimate(struct ptp_clock_time *pct, int extended, int n_samples, uint64_t *ts, int64_t *delay) { int64_t t1, t2, tp; int64_t interval, timestamp, offset; int64_t shortest_interval, best_timestamp, best_offset; int i = 0; if (extended) { t1 = pctns(&pct[3*i]); tp = pctns(&pct[3*i+1]); t2 = pctns(&pct[3*i+2]); } else { t1 = pctns(&pct[2*i]); tp = pctns(&pct[2*i+1]); t2 = pctns(&pct[2*i+2]); } shortest_interval = t2 - t1; best_timestamp = (t2 + t1) / 2; best_offset = best_timestamp - tp; for (i = 1; i < n_samples; i++) { if (extended) { t1 = pctns(&pct[3*i]); tp = pctns(&pct[3*i+1]); t2 = pctns(&pct[3*i+2]); } else { t1 = pctns(&pct[2*i]); tp = pctns(&pct[2*i+1]); t2 = pctns(&pct[2*i+2]); } interval = t2 - t1; timestamp = (t2 + t1) / 2; offset = timestamp - tp; if (interval < shortest_interval) { shortest_interval = interval; best_timestamp = timestamp; best_offset = offset; } } *ts = best_timestamp; *delay = shortest_interval; return best_offset; } static int sysoff_extended(int fd, int n_samples, int64_t *result, uint64_t *ts, int64_t *delay) { struct ptp_sys_offset_extended pso; memset(&pso, 0, sizeof(pso)); pso.n_samples = n_samples; if (ioctl(fd, PTP_SYS_OFFSET_EXTENDED, &pso)) { pr_debug("ioctl PTP_SYS_OFFSET_EXTENDED: %m"); return SYSOFF_RUN_TIME_MISSING; } *result = sysoff_estimate(&pso.ts[0][0], 1, n_samples, ts, delay); return SYSOFF_EXTENDED; } static int sysoff_basic(int fd, int n_samples, int64_t *result, uint64_t *ts, int64_t *delay) { struct ptp_sys_offset pso; memset(&pso, 0, sizeof(pso)); pso.n_samples = n_samples; if (ioctl(fd, PTP_SYS_OFFSET, &pso)) { perror("ioctl PTP_SYS_OFFSET"); return SYSOFF_RUN_TIME_MISSING; } *result = sysoff_estimate(pso.ts, 0, n_samples, ts, delay); return SYSOFF_BASIC; } int sysoff_measure(int fd, int method, int n_samples, int64_t *result, uint64_t *ts, int64_t *delay) { switch (method) { case SYSOFF_PRECISE: *delay = 0; return sysoff_precise(fd, result, ts); case SYSOFF_EXTENDED: return sysoff_extended(fd, n_samples, result, ts, delay); case SYSOFF_BASIC: return sysoff_basic(fd, n_samples, result, ts, delay); } return SYSOFF_RUN_TIME_MISSING; } int sysoff_probe(int fd, int n_samples) { int64_t junk, delay; uint64_t ts; int i; if (n_samples > PTP_MAX_SAMPLES) { fprintf(stderr, "warning: %d exceeds kernel max readings %d\n", n_samples, PTP_MAX_SAMPLES); fprintf(stderr, "falling back to clock_gettime method\n"); return SYSOFF_RUN_TIME_MISSING; } for (i = 0; i < SYSOFF_LAST; i++) { if (sysoff_measure(fd, i, n_samples, &junk, &ts, &delay) < 0) continue; return i; } return SYSOFF_RUN_TIME_MISSING; }