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Primary Git Repository for the Zephyr Project. Zephyr is a new generation, scalable, optimized, secure RTOS for multiple hardware architectures.
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zephyr/lib/utils/timeutil.c

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/*
* Copyright (c) 2019 Peter Bigot Consulting, LLC
*
* SPDX-License-Identifier: Apache-2.0
*/
/*
* The time_days_from_civil function is derived directly from public
* domain content written by Howard Hinnant and available at:
* http://howardhinnant.github.io/date_algorithms.html#days_from_civil
*/
#include <zephyr/types.h>
#include <errno.h>
#include <stddef.h>
#include <stdbool.h>
#include <zephyr/sys/timeutil.h>
/** Convert a civil (proleptic Gregorian) date to days relative to
* 1970-01-01.
*
* @param y the calendar year
* @param m the calendar month, in the range [1, 12]
* @param d the day of the month, in the range [1, last_day_of_month(y, m)]
*
* @return the signed number of days between the specified day and
* 1970-01-01
*
* @see http://howardhinnant.github.io/date_algorithms.html#days_from_civil
*/
static int64_t time_days_from_civil(int64_t y,
unsigned int m,
unsigned int d)
{
y -= m <= 2;
int64_t era = (y >= 0 ? y : y - 399) / 400;
unsigned int yoe = y - era * 400;
unsigned int doy = (153U * (m + (m > 2 ? -3 : 9)) + 2U) / 5U + d;
unsigned int doe = yoe * 365U + yoe / 4U - yoe / 100U + doy;
return era * 146097 + (time_t)doe - 719468;
}
int64_t timeutil_timegm64(const struct tm *tm)
{
int64_t y = 1900 + (int64_t)tm->tm_year;
unsigned int m = tm->tm_mon + 1;
unsigned int d = tm->tm_mday - 1;
int64_t ndays = time_days_from_civil(y, m, d);
int64_t time = tm->tm_sec;
time += 60LL * (tm->tm_min + 60LL * tm->tm_hour);
time += 86400LL * ndays;
return time;
}
time_t timeutil_timegm(const struct tm *tm)
{
int64_t time = timeutil_timegm64(tm);
time_t rv = (time_t)time;
errno = 0;
if ((sizeof(rv) == sizeof(int32_t))
&& ((time < (int64_t)INT32_MIN)
|| (time > (int64_t)INT32_MAX))) {
errno = ERANGE;
rv = -1;
}
return rv;
}
int timeutil_sync_state_update(struct timeutil_sync_state *tsp,
const struct timeutil_sync_instant *inst)
{
int rv = -EINVAL;
if (((tsp->base.ref == 0) && (inst->ref > 0))
|| ((inst->ref > tsp->base.ref)
&& (inst->local > tsp->base.local))) {
if (tsp->base.ref == 0) {
tsp->base = *inst;
tsp->latest = (struct timeutil_sync_instant){};
tsp->skew = 1.0f;
rv = 0;
} else {
tsp->latest = *inst;
rv = 1;
}
}
return rv;
}
int timeutil_sync_state_set_skew(struct timeutil_sync_state *tsp, float skew,
const struct timeutil_sync_instant *base)
{
int rv = -EINVAL;
if (skew > 0) {
tsp->skew = skew;
if (base != NULL) {
tsp->base = *base;
tsp->latest = (struct timeutil_sync_instant){};
}
rv = 0;
}
return rv;
}
float timeutil_sync_estimate_skew(const struct timeutil_sync_state *tsp)
{
float rv = 0;
if ((tsp->base.ref != 0) && (tsp->latest.ref != 0)
&& (tsp->latest.local > tsp->base.local)) {
const struct timeutil_sync_config *cfg = tsp->cfg;
double ref_delta = tsp->latest.ref - tsp->base.ref;
double local_delta = tsp->latest.local - tsp->base.local;
rv = ref_delta * cfg->local_Hz / local_delta / cfg->ref_Hz;
}
return rv;
}
int timeutil_sync_ref_from_local(const struct timeutil_sync_state *tsp,
uint64_t local, uint64_t *refp)
{
int rv = -EINVAL;
if ((tsp->skew > 0) && (tsp->base.ref > 0) && (refp != NULL)) {
const struct timeutil_sync_config *cfg = tsp->cfg;
int64_t local_delta = local - tsp->base.local;
/* (x * 1.0) != x for large values of x.
* Therefore only apply the multiplication if the skew is not one.
*/
if (tsp->skew != 1.0f) {
local_delta *= (double)tsp->skew;
}
int64_t ref_delta = local_delta * cfg->ref_Hz / cfg->local_Hz;
int64_t ref_abs = (int64_t)tsp->base.ref + ref_delta;
if (ref_abs < 0) {
rv = -ERANGE;
} else {
*refp = ref_abs;
rv = (int)(tsp->skew != 1.0f);
}
}
return rv;
}
int timeutil_sync_local_from_ref(const struct timeutil_sync_state *tsp,
uint64_t ref, int64_t *localp)
{
int rv = -EINVAL;
if ((tsp->skew > 0) && (tsp->base.ref > 0) && (localp != NULL)) {
const struct timeutil_sync_config *cfg = tsp->cfg;
int64_t ref_delta = (int64_t)(ref - tsp->base.ref);
/* (x / 1.0) != x for large values of x.
* Therefore only apply the division if the skew is not one.
*/
int64_t local_delta = (ref_delta * cfg->local_Hz) / cfg->ref_Hz;
if (tsp->skew != 1.0f) {
local_delta /= (double)tsp->skew;
}
int64_t local_abs = (int64_t)tsp->base.local
+ (int64_t)local_delta;
*localp = local_abs;
rv = (int)(tsp->skew != 1.0f);
}
return rv;
}
int32_t timeutil_sync_skew_to_ppb(float skew)
{
int64_t ppb64 = (int64_t)((1.0 - (double)skew) * 1E9);
int32_t ppb32 = (int32_t)ppb64;
return (ppb64 == ppb32) ? ppb32 : INT32_MIN;
}