Store RTC century and RTC state information in persistent BREG register.

2020-02-10 15:31:22 -08:00 · 2020-02-10 15:31:22 -08:00 · 563edb294d
parent 3fdb820b26
commit 563edb294d
1 changed files with 100 additions and 18 deletions
--- a/targets/TARGET_Cypress/TARGET_PSOC6/psoc6csp/hal/source/cyhal_rtc.c
+++ b/targets/TARGET_Cypress/TARGET_PSOC6/psoc6csp/hal/source/cyhal_rtc.c
@ -30,6 +30,25 @@
 #include "cyhal_rtc.h"
 #include "cyhal_system.h"
 /**
 * \addtogroup group_hal_psoc6_rtc RTC (Real Time Clock)
 * \ingroup group_hal_psoc6
 * \{
 *
 * Internally the PSoC6 RTC only stores the year as a two digit BCD value
 * (0-99); no century information is stored. On RTC initialization the HAL must,
 * as a result, assume a default century. If cyhal_rtc_write has been called
 * with a different century than the default, its value must be stored and that
 * value must persist through deep sleep, hibernate, software resets, etc. PSoC6
 * hardware provides a number of BREG registers which exist in the BACKUP domain
 * and will persist over these power modes and resets. The HAL uses the highest
 * indexed BACKUP->BREG register to store the century for the RTC.
 *
 * Therefore do not use the highest indexed BACKUP->BREG register as it is
 * reserved for internal HAL usage.
 * \} group_hal_psoc6_wdt
 */
 #ifdef CY_IP_MXS40SRSS_RTC_INSTANCES
 #if defined(__cplusplus)
@ -40,9 +59,15 @@ extern "C" {
 #define CYHAL_RTC_STATE_ENABLED 1
 #define CYHAL_RTC_STATE_TIME_SET 2
 #define CYHAL_RTC_DEFAULT_PRIORITY 5
-#define CYHAL_RTC_CENTURY 2000
+#define CYHAL_RTC_INIT_CENTURY 2000
 #define CYHAL_TM_YEAR_BASE 1900
 #define CYHAL_RTC_BREG (BACKUP->BREG[SRSS_BACKUP_NUM_BREG-1])
 #define CYHAL_RTC_BREG_CENTURY_Pos 0UL
 #define CYHAL_RTC_BREG_CENTURY_Msk 0x0000FFFFUL
 #define CYHAL_RTC_BREG_STATE_Pos 16UL
 #define CYHAL_RTC_BREG_STATE_Msk 0xFFFF0000UL
 /** Wrapper around the PDL Cy_RTC_DeepSleepCallback to adapt the function signature */
 static cy_en_syspm_status_t cyhal_rtc_syspm_callback(cy_stc_syspm_callback_params_t *params, cy_en_syspm_callback_mode_t mode)
 {
@ -59,7 +84,32 @@ static cy_stc_syspm_callback_t cyhal_rtc_pm_cb = {
 static cyhal_rtc_event_callback_t cyhal_rtc_user_handler;
 static void *cyhal_rtc_handler_arg;
-static uint8_t cyhal_rtc_initialized = CYHAL_RTC_STATE_UNINITIALIZED;
+
 /* Returns century portion of BREG register used to store century info */
 static inline uint16_t get_rtc_century()
 {
    return _FLD2VAL(CYHAL_RTC_BREG_CENTURY, CYHAL_RTC_BREG);
 }
 /* Sets century portion of BREG register used to store century info */
 static inline void set_rtc_century(uint16_t century)
 {
    CYHAL_RTC_BREG &= CYHAL_RTC_BREG_STATE_Msk;
    CYHAL_RTC_BREG |= _VAL2FLD(CYHAL_RTC_BREG_CENTURY, century);
 }
 /* Returns state portion of BREG register used to store century info */
 static inline uint16_t get_rtc_state()
 {
    return _FLD2VAL(CYHAL_RTC_BREG_STATE, CYHAL_RTC_BREG);
 }
 /* Sets state portion of BREG register used to store century info */
 static inline void set_rtc_state(uint16_t init)
 {
    CYHAL_RTC_BREG &= CYHAL_RTC_BREG_CENTURY_Msk;
    CYHAL_RTC_BREG |= _VAL2FLD(CYHAL_RTC_BREG_STATE, init);
 }
 /** Wrapper around the PDL RTC interrupt handler to adapt the function signature */
 static void cyhal_rtc_internal_handler(void)
@ -67,7 +117,6 @@ static void cyhal_rtc_internal_handler(void)
    Cy_RTC_Interrupt(dst, NULL != dst);
 }
 /* Override weak function from PDL */
 void Cy_RTC_Alarm1Interrupt(void)
 {
    if (NULL != cyhal_rtc_user_handler)
@ -76,24 +125,50 @@ void Cy_RTC_Alarm1Interrupt(void)
    }
 }
 void Cy_RTC_CenturyInterrupt(void)
 {
    set_rtc_century(get_rtc_century() + 100);
 }
 cy_rslt_t cyhal_rtc_init(cyhal_rtc_t *obj)
 {
    CY_ASSERT(NULL != obj);
    cy_rslt_t rslt = CY_RSLT_SUCCESS;
-    if (cyhal_rtc_initialized == CYHAL_RTC_STATE_UNINITIALIZED)
+    if (get_rtc_state() == CYHAL_RTC_STATE_UNINITIALIZED)
    {
-        static const cy_stc_sysint_t irqCfg = {.intrSrc = srss_interrupt_backup_IRQn, .intrPriority = CYHAL_RTC_DEFAULT_PRIORITY};
+        if (Cy_RTC_IsExternalResetOccurred())
-        Cy_SysInt_Init(&irqCfg, &cyhal_rtc_internal_handler);
+        {
            // Reset to default time
            static const cy_stc_rtc_config_t defaultTime = {
                .dayOfWeek = CY_RTC_SATURDAY,
                .date = 1,
                .month = 1,
                .year = 0,
            };
            Cy_RTC_SetDateAndTime(&defaultTime);
            set_rtc_century(CYHAL_RTC_INIT_CENTURY);
        }
        if (Cy_SysPm_RegisterCallback(&cyhal_rtc_pm_cb))
        {
-            cyhal_rtc_initialized = CYHAL_RTC_STATE_ENABLED;
+            set_rtc_state(CYHAL_RTC_STATE_ENABLED);
        }
        else
        {
            rslt = CY_RSLT_RTC_NOT_INITIALIZED;
        }
    }
    else if(get_rtc_state() == CYHAL_RTC_STATE_ENABLED || get_rtc_state() == CYHAL_RTC_STATE_TIME_SET)
    {
        if(Cy_RTC_GetInterruptStatus() & CY_RTC_INTR_CENTURY)
            Cy_RTC_CenturyInterrupt();
    }
    Cy_RTC_ClearInterrupt(CY_RTC_INTR_CENTURY);
    Cy_RTC_SetInterruptMask(CY_RTC_INTR_CENTURY);
    static const cy_stc_sysint_t irqCfg = {.intrSrc = srss_interrupt_backup_IRQn, .intrPriority = CYHAL_RTC_DEFAULT_PRIORITY};
    Cy_SysInt_Init(&irqCfg, &cyhal_rtc_internal_handler);
    if (rslt == CY_RSLT_SUCCESS)
    {
        dst = NULL;
@ -108,25 +183,28 @@ void cyhal_rtc_free(cyhal_rtc_t *obj)
    CY_ASSERT(NULL != obj);
    NVIC_DisableIRQ(srss_interrupt_backup_IRQn);
    Cy_RTC_SetInterruptMask(CY_RTC_INTR_CENTURY);
    dst = NULL;
 }
 bool cyhal_rtc_is_enabled(cyhal_rtc_t *obj)
 {
    CY_ASSERT(NULL != obj);
-    return (cyhal_rtc_initialized == CYHAL_RTC_STATE_TIME_SET);
+    return (get_rtc_state() == CYHAL_RTC_STATE_TIME_SET);
 }
 cy_rslt_t cyhal_rtc_read(cyhal_rtc_t *obj, struct tm *time)
 {
    // The number of days that precede each month of the year, not including Feb 29
    CY_ASSERT(NULL != obj);
    // The number of days that precede each month of the year, not including Feb 29
    static const uint16_t CUMULATIVE_DAYS[] = {0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334};
    cy_stc_rtc_config_t dateTime;
    uint32_t savedIntrStatus = cyhal_system_critical_section_enter();
    Cy_RTC_GetDateAndTime(&dateTime);
-    int year = dateTime.year + CYHAL_RTC_CENTURY;
+    int year = dateTime.year + get_rtc_century();
    cyhal_system_critical_section_exit(savedIntrStatus);
    time->tm_sec = dateTime.sec;
    time->tm_min = dateTime.min;
    time->tm_hour = dateTime.hour;
@ -137,16 +215,13 @@ cy_rslt_t cyhal_rtc_read(cyhal_rtc_t *obj, struct tm *time)
    time->tm_yday = CUMULATIVE_DAYS[time->tm_mon] + dateTime.date - 1u +
        ((dateTime.month >= 3 && Cy_RTC_IsLeapYear(year)) ? 1u : 0u);
    time->tm_isdst = -1;
    return CY_RSLT_SUCCESS;
 }
 cy_rslt_t cyhal_rtc_write(cyhal_rtc_t *obj, const struct tm *time)
 {
    CY_ASSERT(NULL != obj);
    int year = CYHAL_TM_YEAR_BASE + time->tm_year;
    if (year < 2000 || year > 2099) {
        return CY_RSLT_RTC_BAD_ARGUMENT;
    }
    uint32_t year2digit = time->tm_year % 100;
    cy_stc_rtc_config_t newtime = {
    .sec = time->tm_sec,
@ -158,18 +233,25 @@ cy_rslt_t cyhal_rtc_write(cyhal_rtc_t *obj, const struct tm *time)
    .month = time->tm_mon + 1,
    .year = year2digit
    };
    cy_rslt_t rslt;
    uint32_t retry = 0;
    static const uint32_t MAX_RETRY = 10, RETRY_DELAY_MS = 1;
    do {
        if (retry != 0)
            Cy_SysLib_Delay(RETRY_DELAY_MS);
        uint32_t savedIntrStatus = cyhal_system_critical_section_enter();
        rslt = (cy_rslt_t)Cy_RTC_SetDateAndTime(&newtime);
        if (rslt == CY_RSLT_SUCCESS)
            set_rtc_century(time->tm_year - year2digit + CYHAL_TM_YEAR_BASE);
        cyhal_system_critical_section_exit(savedIntrStatus);
        ++retry;
    } while (rslt == CY_RTC_INVALID_STATE && retry < MAX_RETRY);
    while (CY_RTC_BUSY == Cy_RTC_GetSyncStatus()) { }
    if (rslt == CY_RSLT_SUCCESS)
-        cyhal_rtc_initialized = CYHAL_RTC_STATE_TIME_SET;
+        set_rtc_state(CYHAL_RTC_STATE_TIME_SET);
    return rslt;
 }
@ -240,13 +322,13 @@ void cyhal_rtc_register_callback(cyhal_rtc_t *obj, cyhal_rtc_event_callback_t ca
    cyhal_system_critical_section_exit(savedIntrStatus);
 }
-void cyhal_rtc_enable_event(cyhal_rtc_t *obj, cyhal_rtc_event_t event, uint8_t intrPriority, bool enable)
+void cyhal_rtc_enable_event(cyhal_rtc_t *obj, cyhal_rtc_event_t event, uint8_t intr_priority, bool enable)
 {
    CY_ASSERT(NULL != obj);
    CY_ASSERT(CYHAL_RTC_ALARM == event);
    Cy_RTC_ClearInterrupt(CY_RTC_INTR_ALARM1 | CY_RTC_INTR_ALARM2);
-    Cy_RTC_SetInterruptMask(enable ? CY_RTC_INTR_ALARM1 : 0);
+    Cy_RTC_SetInterruptMask((enable ? CY_RTC_INTR_ALARM1 : 0) | CY_RTC_INTR_CENTURY);
-    NVIC_SetPriority(srss_interrupt_backup_IRQn, intrPriority);
+    NVIC_SetPriority(srss_interrupt_backup_IRQn, intr_priority);
 }
 #if defined(__cplusplus)