RTC. Code compiles but not tested.
git-svn-id: svn://svn.code.sf.net/p/chibios/svn/branches/rtc_dev@3588 35acf78f-673a-0410-8e92-d51de3d6d3f4master
commit
e7e63d88db
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@ -218,6 +218,12 @@
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#define STM32_MCO2SEL_HSE (2U << 30) /**< HSE clock on MCO2 pin. */
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#define STM32_MCO2SEL_PLL (3U << 30) /**< PLL clock on MCO2 pin. */
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#define STM32_RTC_NOCLOCK (0 << 8) /**< No clock. */
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#define STM32_RTC_LSE (1 << 8) /**< LSE used as RTC clock. */
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#define STM32_RTC_LSI (2 << 8) /**< LSI used as RTC clock. */
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#define STM32_RTC_HSE (3 << 8) /**< HSE divided by programmable
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prescaler used as RTC clock*/
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/**
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* @name RCC_PLLI2SCFGR register bits definitions
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* @{
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@ -58,34 +58,13 @@ RTCDriver RTCD1;
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static void rtc_lld_serve_interrupt(RTCDriver *rtcp) {
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chSysLockFromIsr();
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if ((RTC->CRH & RTC_CRH_SECIE) && (RTC->CRL & RTC_CRL_SECF)) {
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rtcp->rtc_cb(rtcp, RTC_EVENT_SECOND);
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RTC->CRL &= ~RTC_CRL_SECF;
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}
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if ((RTC->CRH & RTC_CRH_ALRIE) && (RTC->CRL & RTC_CRL_ALRF)) {
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rtcp->rtc_cb(rtcp, RTC_EVENT_ALARM);
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RTC->CRL &= ~RTC_CRL_ALRF;
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}
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if ((RTC->CRH & RTC_CRH_OWIE) && (RTC->CRL & RTC_CRL_OWF)) {
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rtcp->rtc_cb(rtcp, RTC_EVENT_OVERFLOW);
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RTC->CRL &= ~RTC_CRL_OWF;
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}
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chSysUnlockFromIsr();
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}
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/**
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* @brief Waits for the previous registers write to finish.
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*
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* @notapi
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*/
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static void rtc_lld_wait_write(void) {
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/* Waits registers write completion.*/
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while (!(RTC->CRL & RTC_CRL_RTOFF))
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;
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}
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/*===========================================================================*/
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/* Driver interrupt handlers. */
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@ -120,8 +99,6 @@ CH_IRQ_HANDLER(RTC_IRQHandler) {
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void rtc_lld_init(void){
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uint32_t preload;
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rccEnableBKPInterface(FALSE);
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/* Enables access to BKP registers.*/
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PWR->CR |= PWR_CR_DBP;
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@ -160,29 +137,23 @@ void rtc_lld_init(void){
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/* RTC enabled regardless its previous status.*/
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RCC->BDCR |= RCC_BDCR_RTCEN;
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/* Ensure that RTC_CNT and RTC_DIV contain actual values after enabling
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clocking on APB1, because these values only update when APB1
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functioning.*/
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RTC->CRL = 0;
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while (!(RTC->CRL & RTC_CRL_RSF))
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/* Calendar not init yet. */
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if (!(RTC->ISR & RTC_ISR_INITS)){
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/* Disable write protection on RTC registers. */
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RTC->WPR = 0xCA;
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RTC->WPR = 0x53;
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/* Enter in init mode. */
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RTC->ISR |= RTC_ISR_INIT;
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while(!(RTC->ISR & RTC_ISR_INITF))
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;
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/* Prescaler registers must be written in by two separate writes. */
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RTC->PRER = 0;
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RTC->PRER = 0x007F00FF;
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/* Wait until calendar data will updated. */
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while(!(RTC->ISR & RTC_ISR_RSF))
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;
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/* Write preload register only if its value differs.*/
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if (preload != ((((uint32_t)(RTC->PRLH)) << 16) + (uint32_t)RTC->PRLL)) {
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rtc_lld_wait_write();
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/* Enters configuration mode and writes PRLx registers then leaves the
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configuration mode.*/
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RTC->CRL |= RTC_CRL_CNF;
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RTC->PRLH = (uint16_t)(preload >> 16);
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RTC->PRLL = (uint16_t)(preload & 0xFFFF);
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RTC->CRL &= ~RTC_CRL_CNF;
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}
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/* All interrupts initially disabled.*/
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RTC->CRH = 0;
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/* Callback initially disabled.*/
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RTCD1.rtc_cb = NULL;
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}
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@ -198,15 +169,18 @@ void rtc_lld_init(void){
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* @notapi
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*/
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void rtc_lld_set_time(RTCDriver *rtcp, const RTCTime *timespec) {
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(void)rtcp;
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rtc_lld_wait_write();
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RTC->ISR |= RTC_ISR_INIT;
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while(!(RTC->ISR & RTC_ISR_INITF))
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;
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RTC->CRL |= RTC_CRL_CNF;
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RTC->CNTH = (uint16_t)(timespec->tv_sec >> 16);
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RTC->CNTL = (uint16_t)(timespec->tv_sec & 0xFFFF);
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RTC->CRL &= ~RTC_CRL_CNF;
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RTC->TR = timespec->tv_time;
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RTC->DR = timespec->tv_date;
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/* Wait until calendar data will updated. */
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while(!(RTC->ISR & RTC_ISR_RSF))
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;
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}
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/**
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@ -218,14 +192,17 @@ void rtc_lld_set_time(RTCDriver *rtcp, const RTCTime *timespec) {
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* @notapi
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*/
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void rtc_lld_get_time(RTCDriver *rtcp, RTCTime *timespec) {
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uint32_t time_frac;
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(void)rtcp;
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time_frac = (((uint32_t)RTC->DIVH) << 16) + (uint32_t)RTC->DIVL;
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timespec->tv_msec = (uint16_t)(((STM32_LSECLK - time_frac) * 1000) /
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STM32_LSECLK);
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timespec->tv_sec = (RTC->CNTH << 16) + RTC->CNTL;
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/* TODO: If the frequency of the APB1 clock is less than seven times
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* the frequency of RTCCLK, BYPSHAD must be set to ‘1’ .*/
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/* Wait until calendar data will updated. */
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while(!(RTC->ISR & RTC_ISR_RSF))
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;
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timespec->tv_time = RTC->TR;
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timespec->tv_date = RTC->DR;
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}
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/**
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@ -245,21 +222,7 @@ void rtc_lld_set_alarm(RTCDriver *rtcp,
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(void)rtcp;
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(void)alarm;
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rtc_lld_wait_write();
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/* Enters configuration mode and writes ALRHx registers then leaves the
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configuration mode.*/
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RTC->CRL |= RTC_CRL_CNF;
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if (alarmspec != NULL) {
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RTC->ALRH = (uint16_t)(alarmspec->tv_sec >> 16);
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RTC->ALRL = (uint16_t)(alarmspec->tv_sec & 0xFFFF);
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}
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else {
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RTC->ALRH = 0;
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RTC->ALRL = 0;
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}
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RTC->CRL &= ~RTC_CRL_CNF;
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(void)alarmspec;
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}
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/**
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@ -281,8 +244,7 @@ void rtc_lld_get_alarm(RTCDriver *rtcp,
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(void)rtcp;
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(void)alarm;
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alarmspec->tv_sec = ((RTC->ALRH << 16) + RTC->ALRL);
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(void)alarmspec;
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}
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/**
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@ -296,22 +258,10 @@ void rtc_lld_get_alarm(RTCDriver *rtcp,
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* @notapi
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*/
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void rtc_lld_set_callback(RTCDriver *rtcp, rtccb_t callback) {
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if (callback != NULL) {
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rtcp->rtc_cb = callback;
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NVICEnableVector(RTC_IRQn, CORTEX_PRIORITY_MASK(STM32_RTC_IRQ_PRIORITY));
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/* Interrupts are enabled only after setting up the callback, this
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way there is no need to check for the NULL callback pointer inside
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the IRQ handler.*/
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RTC->CRL &= ~(RTC_CRL_OWF | RTC_CRL_ALRF | RTC_CRL_SECF);
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RTC->CRH |= RTC_CRH_OWIE | RTC_CRH_ALRIE | RTC_CRH_SECIE;
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}
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else {
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NVICDisableVector(RTC_IRQn);
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RTC->CRL = 0;
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RTC->CRH = 0;
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}
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return;
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}
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#endif /* HAL_USE_RTC */
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@ -95,15 +95,17 @@ typedef void (*rtccb_t)(RTCDriver *rtcp, rtcevent_t event);
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*/
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struct RTCTime {
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/**
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* @brief Seconds since UNIX epoch.
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* @brief RTC date register in BCD format.
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*/
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uint32_t tv_sec;
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uint32_t tv_date;
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/**
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* @brief Fractional part.
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* @brief RTC time register in BCD format.
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*/
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uint32_t tv_msec;
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uint32_t tv_time;
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};
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/**
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* @brief Structure representing an RTC alarm specification.
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*/
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@ -168,6 +168,8 @@ msg_t i2cMasterTransmit(I2CDriver *i2cp,
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((rxbytes == 0) || ((rxbytes > 0) && (rxbuf != NULL))) &&
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(timeout > TIME_IMMEDIATE) && (errors != NULL),
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"i2cMasterTransmit");
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i2c_lld_wait_bus_free(i2cp);
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i2cp->errors = I2CD_NO_ERROR; /* clear error flags from previous run */
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chDbgAssert(i2cp->id_state == I2C_READY,
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"i2cMasterTransmit(), #1", "not ready");
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(rxbytes > 0) && (rxbuf != NULL) &&
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(timeout > TIME_IMMEDIATE) && (errors != NULL),
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"i2cMasterReceive");
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i2c_lld_wait_bus_free(i2cp);
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i2cp->errors = I2CD_NO_ERROR; /* clear error flags from previous run */
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chDbgAssert(i2cp->id_state == I2C_READY,
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"i2cMasterReceive(), #1", "not ready");
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