/* * @brief LPC15xx RITimer driver * * @note * Copyright(C) NXP Semiconductors, 2013 * All rights reserved. * * @par * Software that is described herein is for illustrative purposes only * which provides customers with programming information regarding the * LPC products. This software is supplied "AS IS" without any warranties of * any kind, and NXP Semiconductors and its licensor disclaim any and * all warranties, express or implied, including all implied warranties of * merchantability, fitness for a particular purpose and non-infringement of * intellectual property rights. NXP Semiconductors assumes no responsibility * or liability for the use of the software, conveys no license or rights under any * patent, copyright, mask work right, or any other intellectual property rights in * or to any products. NXP Semiconductors reserves the right to make changes * in the software without notification. NXP Semiconductors also makes no * representation or warranty that such application will be suitable for the * specified use without further testing or modification. * * @par * Permission to use, copy, modify, and distribute this software and its * documentation is hereby granted, under NXP Semiconductors' and its * licensor's relevant copyrights in the software, without fee, provided that it * is used in conjunction with NXP Semiconductors microcontrollers. This * copyright, permission, and disclaimer notice must appear in all copies of * this code. */ #ifndef __RITIMER_15XX_H_ #define __RITIMER_15XX_H_ #ifdef __cplusplus extern "C" { #endif /** @defgroup RIT_15XX CHIP: LPC15xx Repetitive Interrupt Timer driver * @ingroup CHIP_15XX_Drivers * @{ */ /** * @brief Repetitive Interrupt Timer register block structure */ typedef struct { /*!< RITIMER Structure */ __IO uint32_t COMPVAL; /*!< Compare register */ __IO uint32_t MASK; /*!< Mask register. This register holds the 32-bit mask value. A 1 written to any bit will force a compare on the corresponding bit of the counter and compare register. */ __IO uint32_t CTRL; /*!< Control register */ __IO uint32_t COUNTER; /*!< 32-bit counter */ __IO uint32_t COMPVAL_H; /*!< Compare upper register */ __IO uint32_t MASK_H; /*!< Mask upper register */ __I uint32_t RESERVED0[1]; __IO uint32_t COUNTER_H; /*!< Counter upper register */ } LPC_RITIMER_T; /* * RIT control register */ /** Set by H/W when the counter value equals the masked compare value */ #define RIT_CTRL_INT (1 << 0) /** Set timer enable clear to 0 when the counter value equals the masked compare value */ #define RIT_CTRL_ENCLR (1 << 1) /** Set timer enable on debug */ #define RIT_CTRL_ENBR (1 << 2) /** Set timer enable */ #define RIT_CTRL_TEN (1 << 3) /** * @brief Initialize the RIT * @param pRITimer : RITimer peripheral selected * @return None * @note The timer will not br running after this call. Use * Chip_RIT_Enable() to start the timer running. */ void Chip_RIT_Init(LPC_RITIMER_T *pRITimer); /** * @brief Shutdown the RIT * @param pRITimer : RITimer peripheral selected * @return None */ void Chip_RIT_DeInit(LPC_RITIMER_T *pRITimer); /** * @brief Safely sets CTRL register bits * @param pRITimer : RITimer peripheral selected * @param val : RIT bits to be set, one or more RIT_CTRL_* values * @return None */ void Chip_RIT_SetCTRL(LPC_RITIMER_T *pRITimer, uint32_t val); /** * @brief Safely clears CTRL register bits * @param pRITimer : RITimer peripheral selected * @param val : RIT bits to be cleared, one or more RIT_CTRL_* values * @return None */ void Chip_RIT_ClearCTRL(LPC_RITIMER_T *pRITimer, uint32_t val); /** * @brief Enable Timer * @param pRITimer : RITimer peripheral selected * @return None */ STATIC INLINE void Chip_RIT_Enable(LPC_RITIMER_T *pRITimer) { Chip_RIT_SetCTRL(pRITimer, RIT_CTRL_TEN); } /** * @brief Disable Timer * @param pRITimer : RITimer peripheral selected * @return None */ STATIC INLINE void Chip_RIT_Disable(LPC_RITIMER_T *pRITimer) { Chip_RIT_ClearCTRL(pRITimer, RIT_CTRL_TEN); } /** * @brief Enable timer debug mode * @param pRITimer : RITimer peripheral selected * @return None * @note This function halts the repetitive timer when * the processor is halted for debugging. */ STATIC INLINE void Chip_RIT_EnableDebug(LPC_RITIMER_T *pRITimer) { Chip_RIT_SetCTRL(pRITimer, RIT_CTRL_ENBR); } /** * @brief Disable timer debug mode * @param pRITimer : RITimer peripheral selected * @return None * @note This function allows the repetitive timer to continue running * when the processor is halted for debugging. */ STATIC INLINE void Chip_RIT_DisableDebug(LPC_RITIMER_T *pRITimer) { Chip_RIT_ClearCTRL(pRITimer, RIT_CTRL_ENBR); } /** * @brief Enables automatic counter clear on compare * @param pRITimer : RITimer peripheral selected * @return None */ STATIC INLINE void Chip_RIT_EnableCompClear(LPC_RITIMER_T *pRITimer) { Chip_RIT_SetCTRL(pRITimer, RIT_CTRL_ENCLR); } /** * @brief Disables automatic counter clear on compare * @param pRITimer : RITimer peripheral selected * @return None */ STATIC INLINE void Chip_RIT_DisableCompClear(LPC_RITIMER_T *pRITimer) { Chip_RIT_ClearCTRL(pRITimer, RIT_CTRL_ENCLR); } /** * @brief Check whether timer interrupt is pending * @param pRITimer : RITimer peripheral selected * @return true if the interrupt is pending, otherwise false */ STATIC INLINE bool Chip_RIT_GetIntStatus(LPC_RITIMER_T *pRITimer) { return (bool) ((pRITimer->CTRL & RIT_CTRL_INT) != 0); } /** * @brief Clears the timer interrupt pending state * @param pRITimer : RITimer peripheral selected * @return None */ STATIC INLINE void Chip_RIT_ClearIntStatus(LPC_RITIMER_T *pRITimer) { Chip_RIT_SetCTRL(pRITimer, RIT_CTRL_INT); } /** * @brief Set a tick value for the interrupt to time out * @param pRITimer : RITimer peripheral selected * @param val : value (in ticks) for the coounter compare value * @return None * @note The base timer tick rate can be determined by calling * Chip_Clock_GetSystemClockRate(). */ void Chip_RIT_SetCompareValue(LPC_RITIMER_T *pRITimer, uint64_t val); /** * @brief Returns the current timer compare value * @param pRITimer : RITimer peripheral selected * @return the current timer compare value */ uint64_t Chip_RIT_GetCompareValue(LPC_RITIMER_T *pRITimer); /** * @brief Sets a mask value used for bit based compare * @param pRITimer : RITimer peripheral selected * @param mask : Mask value for timer (see user manual) * @return None */ void Chip_RIT_SetMaskValue(LPC_RITIMER_T *pRITimer, uint64_t mask); /** * @brief Returns the mask value used for bit based compare * @param pRITimer : RITimer peripheral selected * @return the current mask value */ uint64_t Chip_RIT_GetMaskValue(LPC_RITIMER_T *pRITimer); /** * @brief Sets the current timer Counter value * @param pRITimer : RITimer peripheral selected * @param count : Count value to set timer to * @return Nothing */ void Chip_RIT_SetCounter(LPC_RITIMER_T *pRITimer, uint64_t count); /** * @brief Returns the current timer Counter value * @param pRITimer : RITimer peripheral selected * @return the current timer counter value */ uint64_t Chip_RIT_GetCounter(LPC_RITIMER_T *pRITimer); /** * @brief Set timer interval value in Hz (frequency) * @param pRITimer : RITimer peripheral selected * @param freq : timer interval value in Hz * @return None * @note Will not alter current counter value. Accuracy depends on * base clock rate. Timer enable/disable state is not changed. */ void Chip_RIT_SetTimerIntervalHz(LPC_RITIMER_T *pRITimer, uint32_t freq); /** * @brief Returns base clock rate for timer * @param pRITimer : RITimer peripheral selected * @return Value in Hz the timer is running at * @note This returned value contains the base clock the timer uses. * If you set the tick count to this return value with the * Chip_RIT_SetCompareValue() function, you will get a 1Hz * interval rate. */ STATIC INLINE uint32_t Chip_RIT_GetBaseClock(LPC_RITIMER_T *pRITimer) { return Chip_Clock_GetSystemClockRate(); } /** * @} */ #ifdef __cplusplus } #endif #endif /* __RITIMER_15XX_H_ */