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TARGET_MAX32625NEXPAQ/TOOLCHAIN_ARM_STD/rtc.h
- Committer:
- AnnaBridge
- Date:
- 2019-02-20
- Revision:
- 172:65be27845400
- Parent:
- 171:3a7713b1edbc
File content as of revision 172:65be27845400:
/*******************************************************************************
* Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
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*
* The above copyright notice and this permission notice shall be included
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*
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* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Except as contained in this notice, the name of Maxim Integrated
* Products, Inc. shall not be used except as stated in the Maxim Integrated
* Products, Inc. Branding Policy.
*
* The mere transfer of this software does not imply any licenses
* of trade secrets, proprietary technology, copyrights, patents,
* trademarks, maskwork rights, or any other form of intellectual
* property whatsoever. Maxim Integrated Products, Inc. retains all
* ownership rights.
*
* $Date: 2016-03-21 10:05:23 -0500 (Mon, 21 Mar 2016) $
* $Revision: 22008 $
*
******************************************************************************/
/**
* @file rtc.h
* @addtogroup rtc Real-time Clock
* @{
* @brief This is the high level API for the real-time clock module
*/
#ifndef _RTC_H
#define _RTC_H
#include "mxc_config.h"
#include "rtc_regs.h"
#ifdef __cplusplus
extern "C" {
#endif
/// @enum rtc_prescale_t Defines clock divider for 4096Hz input clock.
typedef enum {
RTC_PRESCALE_DIV_2_0 = MXC_V_RTC_PRESCALE_DIV_2_0, ///< (4.096kHz) divide input clock by \f$ 2^{0} = 1 \f$ (0x001)
RTC_PRESCALE_DIV_2_1 = MXC_V_RTC_PRESCALE_DIV_2_1, ///< (2.048kHz) divide input clock by \f$ 2^{1} = 2 \f$ (0x002)
RTC_PRESCALE_DIV_2_2 = MXC_V_RTC_PRESCALE_DIV_2_2, ///< (1.024kHz) divide input clock by \f$ 2^{2} = 4 \f$
RTC_PRESCALE_DIV_2_3 = MXC_V_RTC_PRESCALE_DIV_2_3, ///< (512Hz) divide input clock by \f$ 2^{3} = 8 \f$
RTC_PRESCALE_DIV_2_4 = MXC_V_RTC_PRESCALE_DIV_2_4, ///< (256Hz) divide input clock by \f$ 2^{4} = 16 \f$
RTC_PRESCALE_DIV_2_5 = MXC_V_RTC_PRESCALE_DIV_2_5, ///< (128Hz) divide input clock by \f$ 2^{5} = 32 \f$
RTC_PRESCALE_DIV_2_6 = MXC_V_RTC_PRESCALE_DIV_2_6, ///< (64Hz) divide input clock by \f$ 2^{6} = 64 \f$
RTC_PRESCALE_DIV_2_7 = MXC_V_RTC_PRESCALE_DIV_2_7, ///< (32Hz) divide input clock by \f$ 2^{7} = 128 \f$
RTC_PRESCALE_DIV_2_8 = MXC_V_RTC_PRESCALE_DIV_2_8, ///< (16Hz) divide input clock by \f$ 2^{8} = 256 \f$
RTC_PRESCALE_DIV_2_9 = MXC_V_RTC_PRESCALE_DIV_2_9, ///< (8Hz) divide input clock by \f$ 2^{9} = 512 \f$
RTC_PRESCALE_DIV_2_10 = MXC_V_RTC_PRESCALE_DIV_2_10, ///< (4Hz) divide input clock by \f$ 2^{10} = 1024 \f$
RTC_PRESCALE_DIV_2_11 = MXC_V_RTC_PRESCALE_DIV_2_11, ///< (2Hz) divide input clock by \f$ 2^{11} = 2048 \f$ (0x07FF)
RTC_PRESCALE_DIV_2_12 = MXC_V_RTC_PRESCALE_DIV_2_12, ///< (1Hz) divide input clock by \f$ 2^{12} = 4096 \f$ (0x0FFF)
} rtc_prescale_t;
/// @def RTC_CTRL_ACTIVE_TRANS Active Transaction Flags for the RTC
#define RTC_CTRL_ACTIVE_TRANS (MXC_F_RTC_CTRL_RTC_ENABLE_ACTIVE | \
MXC_F_RTC_CTRL_OSC_GOTO_LOW_ACTIVE | \
MXC_F_RTC_CTRL_OSC_FRCE_SM_EN_ACTIVE | \
MXC_F_RTC_CTRL_OSC_FRCE_ST_ACTIVE | \
MXC_F_RTC_CTRL_RTC_SET_ACTIVE | \
MXC_F_RTC_CTRL_RTC_CLR_ACTIVE | \
MXC_F_RTC_CTRL_ROLLOVER_CLR_ACTIVE | \
MXC_F_RTC_CTRL_PRESCALE_CMPR0_ACTIVE | \
MXC_F_RTC_CTRL_PRESCALE_UPDATE_ACTIVE | \
MXC_F_RTC_CTRL_CMPR1_CLR_ACTIVE | \
MXC_F_RTC_CTRL_CMPR0_CLR_ACTIVE | \
MXC_F_RTC_CTRL_TRIM_ENABLE_ACTIVE | \
MXC_F_RTC_CTRL_TRIM_SLOWER_ACTIVE | \
MXC_F_RTC_CTRL_TRIM_CLR_ACTIVE | \
MXC_F_RTC_CTRL_ACTIVE_TRANS_0)
/// @def RTC_FLAGS_CLEAR_ALL Number of RTC compare registers
#define RTC_FLAGS_CLEAR_ALL (MXC_F_RTC_FLAGS_COMP0 | \
MXC_F_RTC_FLAGS_COMP1| \
MXC_F_RTC_FLAGS_PRESCALE_COMP | \
MXC_F_RTC_FLAGS_OVERFLOW | \
MXC_F_RTC_FLAGS_TRIM)
/// @enum rtc_snooze_t Defines the snooze modes
typedef enum {
RTC_SNOOZE_DISABLE = MXC_V_RTC_CTRL_SNOOZE_DISABLE, ///< Snooze Mode Disabled
RTC_SNOOZE_MODE_A = MXC_V_RTC_CTRL_SNOOZE_MODE_A, ///< COMP1 = COMP1 + RTC_SNZ_VALUE when snooze flag is set
RTC_SNOOZE_MODE_B = MXC_V_RTC_CTRL_SNOOZE_MODE_B, ///< COMP1 = RTC_TIMER + RTC_SNZ_VALUE when snooze flag is set
} rtc_snooze_t; /// Defines the snooze modes
/// @def RTC_NUM_COMPARE Number of RTC compare registers
#define RTC_NUM_COMPARE 2
/// @brief A structure that represents the configuration of the RTC peripheral
typedef struct {
rtc_prescale_t prescaler; /// prescale value rtc_prescale_t
rtc_prescale_t prescalerMask; /// Mask value used to compare to the rtc prescale value, when the \f$ \big((Count_{prescaler}\,\&\,Prescale\,Mask) == 0\big) \f$, the prescale compare flag will be set.
uint32_t compareCount[RTC_NUM_COMPARE]; /// Values used for the RTC alarms. See RTC_SetCompare() and RTC_GetCompare()
uint32_t snoozeCount; /// The number of RTC ticks to snooze if enabled.
rtc_snooze_t snoozeMode; /// The desired snooze mode
} rtc_cfg_t;
/**
* @brief Initializes the RTC
* @note Must setup clocking and power prior to this function.
*
* @param cfg configuration
*
* @retval E_NO_ERROR if everything is successful
* @retval E_NULL_PTR if cfg pointer is NULL
* @retval E_INVALID if comparison index, prescaler mask or snooze mask are
* out of bounds
*/
int RTC_Init(const rtc_cfg_t *cfg);
/**
* @brief Enable and start the real-time clock continuing from its current value
*/
__STATIC_INLINE void RTC_Start(void)
{
MXC_RTCTMR->ctrl |= MXC_F_RTC_CTRL_ENABLE;
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
}
/**
* @brief Disable and stop the real-time clock
*/
__STATIC_INLINE void RTC_Stop(void)
{
MXC_RTCTMR->ctrl &= ~(MXC_F_RTC_CTRL_ENABLE);
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
}
/**
* @brief Determines if the RTC is running or not.
*
* @retval 0 if Disabled, Non-zero if Active
*/
__STATIC_INLINE uint32_t RTC_IsActive(void)
{
return (MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_ENABLE);
}
/**
* @brief Set the current count of the RTC
*
* @param count count value to set current real-time count.
*/
__STATIC_INLINE void RTC_SetCount(uint32_t count)
{
MXC_RTCTMR->timer = count;
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
}
/**
* @brief Get the current timer value of the RTC.
*
* @retval The value of the RTC counter.
*/
__STATIC_INLINE uint32_t RTC_GetCount(void)
{
return (MXC_RTCTMR->timer);
}
/**
* @brief Set the comparator value
*
* @param compareIndex Index of comparator to set, see RTC_NUM_COMPARE
* for the total number of compare registers available.
* @param counts Unsigned 32-bit compare value to set.
* @retval E_NO_ERROR Compare count register set successfully for requested
* comparator.
* @retval E_INVALID compareIndex is \>= RTC_NUM_COMPARE.
*/
int RTC_SetCompare(uint8_t compareIndex, uint32_t counts);
/**
* @brief Get the comparator value
*
* @param compareIndex Index of the comparator to get. See RTC_NUM_COMPARE
* for the total number of compare registers available.
*
* @retval uint32_t The current value of the specified compare register for the RTC
*/
uint32_t RTC_GetCompare(uint8_t compareIndex);
/**
* @brief Set the prescale reload value for the real-time clock.
* @details The prescale reload value determines the number of 4kHz ticks
* occur before the timer is incremented. See @ref prescaler_val "Table"
* for accepted values and corresponding timer resolution.
*
* <table>
* <caption id="prescaler_val">Prescaler Settings and Corresponding RTC Resolutions</caption>
* <tr><th>PRESCALE <th>Prescale Reload <th>4kHz ticks in LSB <th>Min Timer Value (sec) <th> Max Timer Value (sec) <th>Max Timer Value (Days) <th> Max Timer Value (Years)
* <tr><td>0h <td> RTC_PRESCALE_DIV_2_0 <td> 1 <td> 0.00024 <td> 1048576 <td> 12 <td> 0.0
* <tr><td>1h <td> RTC_PRESCALE_DIV_2_1 <td> 2 <td> 0.00049 <td> 2097152 <td> 24 <td> 0.1
* <tr><td>2h <td> RTC_PRESCALE_DIV_2_2 <td> 4 <td> 0.00098 <td> 4194304 <td> 49 <td> 0.1
* <tr><td>3h <td> RTC_PRESCALE_DIV_2_3 <td> 8 <td> 0.00195 <td> 8388608 <td> 97 <td> 0.3
* <tr><td>4h <td> RTC_PRESCALE_DIV_2_4 <td> 16 <td> 0.00391 <td> 16777216 <td> 194 <td> 0.5
* <tr><td>5h <td> RTC_PRESCALE_DIV_2_5 <td> 32 <td> 0.00781 <td> 33554432 <td> 388 <td> 1.1
* <tr><td>6h <td> RTC_PRESCALE_DIV_2_6 <td> 64 <td> 0.01563 <td> 67108864 <td> 777 <td> 2.2
* <tr><td>7h <td> RTC_PRESCALE_DIV_2_7 <td> 128 <td> 0.03125 <td> 134217728 <td> 1553 <td> 4.4
* <tr><td>8h <td> RTC_PRESCALE_DIV_2_8 <td> 256 <td> 0.06250 <td> 268435456 <td> 3107 <td> 8.7
* <tr><td>9h <td> RTC_PRESCALE_DIV_2_9 <td> 512 <td> 0.12500 <td> 536870912 <td> 6214 <td> 17.5
* <tr><td>Ah <td> RTC_PRESCALE_DIV_2_10 <td> 1024 <td> 0.25000 <td> 1073741824 <td> 12428 <td> 34.9
* <tr><td>Bh <td> RTC_PRESCALE_DIV_2_11 <td> 2048 <td> 0.50000 <td> 2147483648 <td> 24855 <td> 69.8
* <tr><td>Ch <td> RTC_PRESCALE_DIV_2_12 <td> 4096 <td> 1.00000 <td> 4294967296 <td> 49710 <td> 139.6
* </table>
*
* @param prescaler Prescale value to set, see rtc_prescale_t.
*/
__STATIC_INLINE void RTC_SetPrescaler(rtc_prescale_t prescaler)
{
MXC_RTCTMR->prescale = prescaler;
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
}
/**
* @brief Get the current value of the real-time clock prescaler.
*
* @retval rtc_prescale_t Returns the current RTC prescaler setting,
* See rtc_prescale_t for values of the prescaler.
*/
__STATIC_INLINE rtc_prescale_t RTC_GetPrescaler(void)
{
return (rtc_prescale_t)(MXC_RTCTMR->prescale);
}
/**
* @brief Set the prescaler mask, which is used to set the RTC prescale counter
* compare flag when the prescaler timer matches the bits indicated
* by the mask.
* @param mask A bit mask that is used to set the prescale compare flag if the
* prescale timer has the corresponding bits set. @note This mask must
* be less than or equal to the prescaler reload value.
* See RTC_SetPrescaler()
* @details When \f$ \big((Count_{prescaler}\,\&\,Prescale\,Mask) == 0\big) \f$, the prescale compare flag is set
* @retval int Returns E_NO_ERROR if prescale value is valid and is set.
* @retval int Returns E_INVALID if mask is \> than prescaler value
*/
__STATIC_INLINE int RTC_SetPrescalerMask(rtc_prescale_t mask)
{
if (mask > ((rtc_prescale_t)(MXC_RTCTMR->prescale))) {
return E_INVALID;
}
MXC_RTCTMR->prescale_mask = mask;
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
return E_NO_ERROR;
}
/**
* @brief Set the number of ticks for snooze mode. See RTC_Snooze().
* @param count Sets the count used for snoozing when snooze mode is enabled and
* the snooze flag is set.
* @retval E_NO_ERROR If snooze value is set correctly and value is valid.
* @retval E_INVALID If SnoozeCount exceeds maximum supported, see MXC_F_RTC_SNZ_VAL_VALUE
*
*/
__STATIC_INLINE int RTC_SetSnoozeCount(uint32_t count)
{
// Check to make sure max value is not being exceeded
if (count > MXC_F_RTC_SNZ_VAL_VALUE)
return E_INVALID;
MXC_RTCTMR->snz_val = count;
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
return E_NO_ERROR;
}
/**
* @brief Gets the Snooze Count that is currently loaded in the RTC timer
* @details Returns the current value for the Snooze. This value is used as
* part of the snooze calculation depending on the snooze mode. @see RTC_SetSnoozeMode
* @retval uint32_t value of the snooze register
*
*/
__STATIC_INLINE uint32_t RTC_GetSnoozeCount(void)
{
return MXC_RTCTMR->snz_val;
}
/**
* @brief Set the flags to activate the snooze
* @details Begins a snooze of the RTC. When this function is called
* the snooze count is determined based on the snooze mode.
* See RTC_GetCount() and RTC_SetSnoozeMode()
*/
__STATIC_INLINE void RTC_Snooze(void)
{
MXC_RTCTMR->flags = MXC_F_RTC_FLAGS_SNOOZE_A | MXC_F_RTC_FLAGS_SNOOZE_B;
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
}
/**
* @brief Sets the Snooze Mode.
* @details <table>
* <caption id="snoozeModesTable">Snooze Modes</caption>
* <tr><th>Mode<th>Snooze Time Calculation
* <tr><td>RTC_SNOOZE_DISABLE<td>Snooze Disabled
* <tr><td>RTC_SNOOZE_MODE_A<td>\f$ compare1 = compare1 + snoozeCount \f$
* <tr><td>RTC_SNOOZE_MODE_B<td>\f$ compare1 = count + snoozeCount \f$
* </table>
* \a count is the value of the RTC counter when RTC_Snooze() is called to begin snooze
*/
__STATIC_INLINE void RTC_SetSnoozeMode(rtc_snooze_t mode)
{
uint32_t ctrl;
// Get the control register and mask off the non-snooze bits
ctrl = (MXC_RTCTMR->ctrl & ~(MXC_F_RTC_CTRL_SNOOZE_ENABLE));
// set the requested snooze mode bits and save the settings
MXC_RTCTMR->ctrl = (ctrl | (mode << MXC_F_RTC_CTRL_SNOOZE_ENABLE_POS));
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
}
/**
* @brief Enables the interrupts defined by the mask for the RTC.
* @details <table>
* <caption id="RTC_interrupts">RTC Interrupts</caption>
* <tr><th>Interrupt<th>Mask
* <tr><td>Compare 0<td>MXC_F_RTC_INTEN_COMP0
* <tr><td>Compare 1 \\ Snooze<td>MXC_F_RTC_INTEN_COMP1
* <tr><td>Prescale Comp<td>MXC_F_RTC_FLAGS_INTEN_COMP
* <tr><td>RTC Count Overflow<td>MXC_F_RTC_INTEN_OVERFLOW
* <tr><td>Trim<td>MXC_F_RTC_INTEN_TRIM
* </table>
* @param mask set the bits of the interrupts to enable
*/
__STATIC_INLINE void RTC_EnableINT(uint32_t mask)
{
MXC_RTCTMR->inten |= mask;
}
/**
* @brief Disable RTC interrupts based on the mask, See @ref RTC_interrupts
*
* @param mask set the bits of the interrupts to disable
*/
__STATIC_INLINE void RTC_DisableINT(uint32_t mask)
{
MXC_RTCTMR->inten &= ~mask;
}
/**
* @brief Gets the RTC's interrupt flags
*
* @retval uint32_t interrupt flags
*/
__STATIC_INLINE uint32_t RTC_GetFlags(void)
{
return (MXC_RTCTMR->flags);
}
/**
* @brief Clears the RTC's interrupt flags based on the mask provided
*
* @param mask masked used to clear individual interrupt flags
*/
__STATIC_INLINE void RTC_ClearFlags(uint32_t mask)
{
MXC_RTCTMR->flags = mask;
//wait for pending actions to complete
while(MXC_RTCTMR->ctrl & MXC_F_RTC_CTRL_PENDING);
}
/**
* @brief Gets the active transaction flags
*
* @retval 0 = no active transactions , nonzero = active transactions bits
*/
__STATIC_INLINE uint32_t RTC_GetActiveTrans(void)
{
return (MXC_RTCTMR->ctrl & RTC_CTRL_ACTIVE_TRANS);
}
/**
* @brief Sets the trim value and trim slow/fast option
* @note Ensure RTC is disabled prior to calling this function
*
* @param trim trim value - maximum trim value setting of 0x03FFFF
* @param trimSlow 1 = trim slow, 0 = trim fast
*
* @retval E_NO_ERROR Trim value is valid and set.
* @retval E_INVALID Trim value exceeds max trim.
* @retval E_BAD_STATE RTC is not disabled.
*
*/
int RTC_SetTrim(uint32_t trim, uint8_t trimSlow);
/**
* @brief Gets the trim value currently set
* @note Ensure RTC is disabled prior to calling this function
*
* @retval uint32_t Current trim value of RTC.
*/
uint32_t RTC_GetTrim(void);
/**
* @brief Enabled the trim.
* @note Ensure RTC is disabled prior to calling this function
* @retval E_NO_ERROR Trim enabled
* @retval E_INVALID
*/
int RTC_TrimEnable(void);
/**
* @brief Disable the trim.
*/
void RTC_TrimDisable(void);
/**
* @}
*/
#ifdef __cplusplus
}
#endif
#endif /* _RTC_H */
