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Diff: targets/TARGET_NUVOTON/TARGET_NUC472/rtc_api.c
- Revision:
- 185:08ed48f1de7f
- Parent:
- 177:447f873cad2f
diff -r 5166a824ec1a -r 08ed48f1de7f targets/TARGET_NUVOTON/TARGET_NUC472/rtc_api.c
--- a/targets/TARGET_NUVOTON/TARGET_NUC472/rtc_api.c Tue Mar 20 17:01:51 2018 +0000
+++ b/targets/TARGET_NUVOTON/TARGET_NUC472/rtc_api.c Thu Apr 19 17:12:19 2018 +0100
@@ -13,7 +13,7 @@
* See the License for the specific language governing permissions and
* limitations under the License.
*/
-
+
#include "rtc_api.h"
#if DEVICE_RTC
@@ -24,8 +24,65 @@
#include "nu_miscutil.h"
#include "mbed_mktime.h"
-#define YEAR0 1900
-//#define EPOCH_YR 1970
+/* Micro seconds per second */
+#define NU_US_PER_SEC 1000000
+/* Timer clock per second
+ *
+ * NOTE: This dependents on real hardware.
+ */
+#define NU_RTCCLK_PER_SEC (__LXT)
+
+/* Strategy for implementation of RTC HAL
+ *
+ * H/W RTC just supports year range 2000~2099, which cannot fully cover POSIX time (starting since 2970)
+ * and date time of struct TM (starting since 1900).
+ *
+ * To conquer the difficulty, we don't use H/W RTC to keep real date time. Instead, we use it to keep
+ * elapsed time in seconds since one reference time point. The strategy would be:
+ *
+ * 1. Choose DATETIME_HWRTC_ORIGIN (00:00:00 UTC, Saturday, 1 January 2000) as reference time point of H/W RTC.
+ * 2. t_hwrtc_origin = DATETIME_HWRTC_ORIGIN in POSIX time
+ * 3. t_hwrtc_elapsed = t_hwrtc_origin + elapsed time since t_hwrtc_origin
+ * 4. t_write = POSIX time set by rtc_write().
+ * 5. t_present = rtc_read() = t_write + (t_hwrtc_elapsed - t_hwrtc_origin)
+ *
+ * 1900
+ * |---------------------------------------------------------------------------------|
+ * 1970 t_write t_present
+ * |---------|-------|-----------------|---------------------------------------------|
+ *
+ * 2000
+ * |-----------------|---------------------------------------------------------------|
+ * t_hwrtc_origin t_hwrtc_elapsed
+ *
+ */
+/* Start year of struct TM*/
+#define NU_TM_YEAR0 1900
+/* Start year of POSIX time (set_time()/time()) */
+#define NU_POSIX_YEAR0 1970
+/* Start year of H/W RTC */
+#define NU_HWRTC_YEAR0 2000
+
+/* RTC H/W origin time: 00:00:00 UTC, Saturday, 1 January 2000 */
+static const S_RTC_TIME_DATA_T DATETIME_HWRTC_ORIGIN = {
+ 2000, /* Year value, range between 2000 ~ 2099 */
+ 1, /* Month value, range between 1 ~ 12 */
+ 1, /* Day value, range between 1 ~ 31 */
+ RTC_SATURDAY, /* Day of the week */
+ 0, /* Hour value, range between 0 ~ 23 */
+ 0, /* Minute value, range between 0 ~ 59 */
+ 0, /* Second value, range between 0 ~ 59 */
+ RTC_CLOCK_24, /* 12-Hour (RTC_CLOCK_12) / 24-Hour (RTC_CLOCK_24) */
+ 0 /* RTC_AM / RTC_PM (used only for 12-Hour) */
+};
+/* t_hwrtc_origin initialized or not? */
+static bool t_hwrtc_origin_inited = 0;
+/* POSIX time of DATETIME_HWRTC_ORIGIN (since 00:00:00 UTC, Thursday, 1 January 1970) */
+static time_t t_hwrtc_origin = 0;
+/* POSIX time set by rtc_write() */
+static time_t t_write = 0;
+/* Convert date time from H/W RTC to struct TM */
+static void rtc_convert_datetime_hwrtc_to_tm(struct tm *datetime_tm, const S_RTC_TIME_DATA_T *datetime_hwrtc);
static const struct nu_modinit_s rtc_modinit = {RTC_0, RTC_MODULE, 0, 0, 0, RTC_IRQn, NULL};
@@ -34,8 +91,11 @@
if (rtc_isenabled()) {
return;
}
-
+
RTC_Open(NULL);
+
+ /* POSIX time origin (00:00:00 UTC, Thursday, 1 January 1970) */
+ rtc_write(0);
}
void rtc_free(void)
@@ -55,6 +115,57 @@
return !! (RTC->INIT & RTC_INIT_INIT_Active_Msk);
}
+time_t rtc_read(void)
+{
+ /* NOTE: After boot, RTC time registers are not synced immediately, about 1 sec latency.
+ * RTC time got (through RTC_GetDateAndTime()) in this sec would be last-synced and incorrect.
+ */
+ if (! rtc_isenabled()) {
+ rtc_init();
+ }
+
+ /* Used for intermediary between date time of H/W RTC and POSIX time */
+ struct tm datetime_tm;
+
+ if (! t_hwrtc_origin_inited) {
+ t_hwrtc_origin_inited = 1;
+
+ /* Convert date time from H/W RTC to struct TM */
+ rtc_convert_datetime_hwrtc_to_tm(&datetime_tm, &DATETIME_HWRTC_ORIGIN);
+ /* Convert date time of struct TM to POSIX time */
+ if (! _rtc_maketime(&datetime_tm, &t_hwrtc_origin, RTC_FULL_LEAP_YEAR_SUPPORT)) {
+ return 0;
+ }
+ }
+
+ S_RTC_TIME_DATA_T hwrtc_datetime_2K_present;
+ RTC_GetDateAndTime(&hwrtc_datetime_2K_present);
+ /* Convert date time from H/W RTC to struct TM */
+ rtc_convert_datetime_hwrtc_to_tm(&datetime_tm, &hwrtc_datetime_2K_present);
+ /* Convert date time of struct TM to POSIX time */
+ time_t t_hwrtc_elapsed;
+ if (! _rtc_maketime(&datetime_tm, &t_hwrtc_elapsed, RTC_FULL_LEAP_YEAR_SUPPORT)) {
+ return 0;
+ }
+
+ /* Present time in POSIX time */
+ time_t t_present = t_write + (t_hwrtc_elapsed - t_hwrtc_origin);
+ return t_present;
+}
+
+void rtc_write(time_t t)
+{
+ if (! rtc_isenabled()) {
+ rtc_init();
+ }
+
+ t_write = t;
+
+ RTC_SetDateAndTime((S_RTC_TIME_DATA_T *) &DATETIME_HWRTC_ORIGIN);
+ /* NOTE: When engine is clocked by low power clock source (LXT/LIRC), we need to wait for 3 engine clocks. */
+ wait_us((NU_US_PER_SEC / NU_RTCCLK_PER_SEC) * 3);
+}
+
/*
struct tm
tm_sec seconds after the minute 0-61
@@ -67,66 +178,18 @@
tm_yday days since January 1 0-365
tm_isdst Daylight Saving Time flag
*/
-
-time_t rtc_read(void)
+static void rtc_convert_datetime_hwrtc_to_tm(struct tm *datetime_tm, const S_RTC_TIME_DATA_T *datetime_hwrtc)
{
- // NOTE: After boot, RTC time registers are not synced immediately, about 1 sec latency.
- // RTC time got (through RTC_GetDateAndTime()) in this sec would be last-synced and incorrect.
- if (! rtc_isenabled()) {
- rtc_init();
- }
-
- S_RTC_TIME_DATA_T rtc_datetime;
- RTC_GetDateAndTime(&rtc_datetime);
-
- struct tm timeinfo;
-
- // Convert struct tm to S_RTC_TIME_DATA_T
- timeinfo.tm_year = rtc_datetime.u32Year - YEAR0;
- timeinfo.tm_mon = rtc_datetime.u32Month - 1;
- timeinfo.tm_mday = rtc_datetime.u32Day;
- timeinfo.tm_wday = rtc_datetime.u32DayOfWeek;
- timeinfo.tm_hour = rtc_datetime.u32Hour;
- if (rtc_datetime.u32TimeScale == RTC_CLOCK_12 && rtc_datetime.u32AmPm == RTC_PM) {
- timeinfo.tm_hour += 12;
+ datetime_tm->tm_year = datetime_hwrtc->u32Year - NU_TM_YEAR0;
+ datetime_tm->tm_mon = datetime_hwrtc->u32Month - 1;
+ datetime_tm->tm_mday = datetime_hwrtc->u32Day;
+ datetime_tm->tm_wday = datetime_hwrtc->u32DayOfWeek;
+ datetime_tm->tm_hour = datetime_hwrtc->u32Hour;
+ if (datetime_hwrtc->u32TimeScale == RTC_CLOCK_12 && datetime_hwrtc->u32AmPm == RTC_PM) {
+ datetime_tm->tm_hour += 12;
}
- timeinfo.tm_min = rtc_datetime.u32Minute;
- timeinfo.tm_sec = rtc_datetime.u32Second;
-
- // Convert to timestamp
- time_t t = _rtc_mktime(&timeinfo);
-
- return t;
-}
-
-void rtc_write(time_t t)
-{
- if (! rtc_isenabled()) {
- rtc_init();
- }
-
- // Convert timestamp to struct tm
- struct tm timeinfo;
- if (_rtc_localtime(t, &timeinfo) == false) {
- return;
- }
-
- S_RTC_TIME_DATA_T rtc_datetime;
-
- // Convert S_RTC_TIME_DATA_T to struct tm
- rtc_datetime.u32Year = timeinfo.tm_year + YEAR0;
- rtc_datetime.u32Month = timeinfo.tm_mon + 1;
- rtc_datetime.u32Day = timeinfo.tm_mday;
- rtc_datetime.u32DayOfWeek = timeinfo.tm_wday;
- rtc_datetime.u32Hour = timeinfo.tm_hour;
- rtc_datetime.u32Minute = timeinfo.tm_min;
- rtc_datetime.u32Second = timeinfo.tm_sec;
- rtc_datetime.u32TimeScale = RTC_CLOCK_24;
-
- // NOTE: Timing issue with write to RTC registers. This delay is empirical, not rational.
- RTC_SetDateAndTime(&rtc_datetime);
- //nu_nop(6000);
- wait_us(100);
+ datetime_tm->tm_min = datetime_hwrtc->u32Minute;
+ datetime_tm->tm_sec = datetime_hwrtc->u32Second;
}
#endif