/* * Auxiliary functions to handle date/time along with lwIP sntp implementation. * * Jesus Alonso (doragasu) */ #include #include #include #include #include #include #include #include #include #include #include "sntp.h" #ifdef SNTP_LOGD_WITH_PRINTF #define SNTP_LOGD(FMT, ...) printf(FMT "\n", ##__VA_ARGS__) #endif #ifndef SNTP_LOGD #define SNTP_LOGD(...) #define SKIP_DIAGNOSTICS #endif #define TIMER_COUNT RTC.COUNTER // daylight settings // Base calculated with value obtained from NTP server (64 bits) #define sntp_base (*((uint64_t*)RTC.SCRATCH)) // Timer value when sntp_base was obtained #define tim_ref (RTC.SCRATCH[2]) // Calibration value #define cal (RTC.SCRATCH[3]) // To protect access to the above. static SemaphoreHandle_t sntp_sem = NULL; // Timezone related data. static struct timezone stz; // Implemented in sntp.c void sntp_init(void); // Sets time zone. // NOTE: Settings do not take effect until SNTP time is updated. void sntp_set_timezone(const struct timezone *tz) { if (tz) { stz = *tz; } else { stz.tz_minuteswest = 0; stz.tz_dsttime = 0; } } // Initialization void sntp_initialize(const struct timezone *tz) { if (tz) { stz = *tz; } else { stz.tz_minuteswest = 0; stz.tz_dsttime = 0; } sntp_base = 0; // To avoid div by 0 exceptions if requesting time before SNTP config cal = 1; tim_ref = TIMER_COUNT; sntp_sem = xSemaphoreCreateMutex(); assert(sntp_sem == NULL); sntp_init(); } // Return usecs. static inline uint64_t sntp_get_rtc_time() { xSemaphoreTake(sntp_sem, portMAX_DELAY); uint32_t tim = TIMER_COUNT; // Assume the difference does not overflow in which case // wrapping of the RTC timer still yields a good difference. uint32_t diff = tim - tim_ref; tim_ref = tim; uint64_t diff_us = ((uint64_t)diff * cal) >> 12; uint64_t base = sntp_base + diff_us; sntp_base = base; xSemaphoreGive(sntp_sem); return base; } // Syscall implementation. doesn't seem to use tzp. int _gettimeofday_r(struct _reent *r, struct timeval *tp, void *tzp) { (void)r; // Syscall defined by xtensa newlib defines tzp as void* // So it looks like it is not used. Also check tp is not NULL if (tzp || !tp) return EINVAL; if (sntp_base == 0) { printf("Time not valid yet"); return EINVAL; } uint64_t base = sntp_get_rtc_time(); tp->tv_sec = base / 1000000U; tp->tv_usec = base % 1000000U; return 0; } // Update RTC timer. Called by SNTP module each time it receives an update. void sntp_update_rtc(time_t t, uint32_t us) { // Apply daylight and timezone correction t += (stz.tz_minuteswest + stz.tz_dsttime * 60) * 60; int64_t sntp_correct = (uint64_t)us + (uint64_t)t * 1000000U; xSemaphoreTake(sntp_sem, portMAX_DELAY); uint32_t tim = TIMER_COUNT; tim_ref = tim; sntp_base = sntp_correct; #ifndef SKIP_DIAGNOSTICS // Assume the difference does not overflow in which case // wrapping of the RTC timer still yields a good difference. uint32_t diff = tim - tim_ref; uint64_t diff_us = ((uint64_t)diff * cal) >> 12; uint64_t sntp_current = sntp_base + diff_us; #endif cal = sdk_system_rtc_clock_cali_proc(); xSemaphoreGive(sntp_sem); SNTP_LOGD("SNTP RTC Adjust: drift = %d usec, cal = %d", (int)(sntp_correct - sntp_current), cal); }