/* * The Clear BSD License * Copyright (c) 2016, Freescale Semiconductor, Inc. * Copyright 2016-2017 NXP * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted (subject to the limitations in the disclaimer below) provided * that the following conditions are met: * * o Redistributions of source code must retain the above copyright notice, this list * of conditions and the following disclaimer. * * o Redistributions in binary form must reproduce the above copyright notice, this * list of conditions and the following disclaimer in the documentation and/or * other materials provided with the distribution. * * o Neither the name of the copyright holder nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE GRANTED BY THIS LICENSE. * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef _FSL_MRT_H_ #define _FSL_MRT_H_ #include "fsl_common.h" /*! * @addtogroup mrt * @{ */ /*! @file */ /******************************************************************************* * Definitions ******************************************************************************/ /*! @name Driver version */ /*@{*/ #define FSL_MRT_DRIVER_VERSION (MAKE_VERSION(2, 0, 0)) /*!< Version 2.0.0 */ /*@}*/ /*! @brief List of MRT channels */ typedef enum _mrt_chnl { kMRT_Channel_0 = 0U, /*!< MRT channel number 0*/ kMRT_Channel_1, /*!< MRT channel number 1 */ kMRT_Channel_2, /*!< MRT channel number 2 */ kMRT_Channel_3 /*!< MRT channel number 3 */ } mrt_chnl_t; /*! @brief List of MRT timer modes */ typedef enum _mrt_timer_mode { kMRT_RepeatMode = (0 << MRT_CHANNEL_CTRL_MODE_SHIFT), /*!< Repeat Interrupt mode */ kMRT_OneShotMode = (1 << MRT_CHANNEL_CTRL_MODE_SHIFT), /*!< One-shot Interrupt mode */ kMRT_OneShotStallMode = (2 << MRT_CHANNEL_CTRL_MODE_SHIFT) /*!< One-shot stall mode */ } mrt_timer_mode_t; /*! @brief List of MRT interrupts */ typedef enum _mrt_interrupt_enable { kMRT_TimerInterruptEnable = MRT_CHANNEL_CTRL_INTEN_MASK /*!< Timer interrupt enable*/ } mrt_interrupt_enable_t; /*! @brief List of MRT status flags */ typedef enum _mrt_status_flags { kMRT_TimerInterruptFlag = MRT_CHANNEL_STAT_INTFLAG_MASK, /*!< Timer interrupt flag */ kMRT_TimerRunFlag = MRT_CHANNEL_STAT_RUN_MASK, /*!< Indicates state of the timer */ } mrt_status_flags_t; /*! * @brief MRT configuration structure * * This structure holds the configuration settings for the MRT peripheral. To initialize this * structure to reasonable defaults, call the MRT_GetDefaultConfig() function and pass a * pointer to your config structure instance. * * The config struct can be made const so it resides in flash */ typedef struct _mrt_config { bool enableMultiTask; /*!< true: Timers run in multi-task mode; false: Timers run in hardware status mode */ } mrt_config_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*! * @name Initialization and deinitialization * @{ */ /*! * @brief Ungates the MRT clock and configures the peripheral for basic operation. * * @note This API should be called at the beginning of the application using the MRT driver. * * @param base Multi-Rate timer peripheral base address * @param config Pointer to user's MRT config structure. If MRT has MULTITASK bit field in * MODCFG reigster, param config is useless. */ void MRT_Init(MRT_Type *base, const mrt_config_t *config); /*! * @brief Gate the MRT clock * * @param base Multi-Rate timer peripheral base address */ void MRT_Deinit(MRT_Type *base); /*! * @brief Fill in the MRT config struct with the default settings * * The default values are: * @code * config->enableMultiTask = false; * @endcode * @param config Pointer to user's MRT config structure. */ static inline void MRT_GetDefaultConfig(mrt_config_t *config) { assert(config); #if !(defined(FSL_FEATURE_MRT_HAS_NO_MODCFG_MULTITASK) && FSL_FEATURE_MRT_HAS_NO_MODCFG_MULTITASK) /* Use hardware status operating mode */ config->enableMultiTask = false; #endif } /*! * @brief Sets up an MRT channel mode. * * @param base Multi-Rate timer peripheral base address * @param channel Channel that is being configured. * @param mode Timer mode to use for the channel. */ static inline void MRT_SetupChannelMode(MRT_Type *base, mrt_chnl_t channel, const mrt_timer_mode_t mode) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); uint32_t reg = base->CHANNEL[channel].CTRL; /* Clear old value */ reg &= ~MRT_CHANNEL_CTRL_MODE_MASK; /* Add the new mode */ reg |= mode; base->CHANNEL[channel].CTRL = reg; } /*! @}*/ /*! * @name Interrupt Interface * @{ */ /*! * @brief Enables the MRT interrupt. * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number * @param mask The interrupts to enable. This is a logical OR of members of the * enumeration ::mrt_interrupt_enable_t */ static inline void MRT_EnableInterrupts(MRT_Type *base, mrt_chnl_t channel, uint32_t mask) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); base->CHANNEL[channel].CTRL |= mask; } /*! * @brief Disables the selected MRT interrupt. * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number * @param mask The interrupts to disable. This is a logical OR of members of the * enumeration ::mrt_interrupt_enable_t */ static inline void MRT_DisableInterrupts(MRT_Type *base, mrt_chnl_t channel, uint32_t mask) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); base->CHANNEL[channel].CTRL &= ~mask; } /*! * @brief Gets the enabled MRT interrupts. * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number * * @return The enabled interrupts. This is the logical OR of members of the * enumeration ::mrt_interrupt_enable_t */ static inline uint32_t MRT_GetEnabledInterrupts(MRT_Type *base, mrt_chnl_t channel) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); return (base->CHANNEL[channel].CTRL & MRT_CHANNEL_CTRL_INTEN_MASK); } /*! @}*/ /*! * @name Status Interface * @{ */ /*! * @brief Gets the MRT status flags * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number * * @return The status flags. This is the logical OR of members of the * enumeration ::mrt_status_flags_t */ static inline uint32_t MRT_GetStatusFlags(MRT_Type *base, mrt_chnl_t channel) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); return (base->CHANNEL[channel].STAT & (MRT_CHANNEL_STAT_INTFLAG_MASK | MRT_CHANNEL_STAT_RUN_MASK)); } /*! * @brief Clears the MRT status flags. * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number * @param mask The status flags to clear. This is a logical OR of members of the * enumeration ::mrt_status_flags_t */ static inline void MRT_ClearStatusFlags(MRT_Type *base, mrt_chnl_t channel, uint32_t mask) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); base->CHANNEL[channel].STAT = (mask & MRT_CHANNEL_STAT_INTFLAG_MASK); } /*! @}*/ /*! * @name Read and Write the timer period * @{ */ /*! * @brief Used to update the timer period in units of count. * * The new value will be immediately loaded or will be loaded at the end of the current time * interval. For one-shot interrupt mode the new value will be immediately loaded. * * @note User can call the utility macros provided in fsl_common.h to convert to ticks * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number * @param count Timer period in units of ticks * @param immediateLoad true: Load the new value immediately into the TIMER register; * false: Load the new value at the end of current timer interval */ void MRT_UpdateTimerPeriod(MRT_Type *base, mrt_chnl_t channel, uint32_t count, bool immediateLoad); /*! * @brief Reads the current timer counting value. * * This function returns the real-time timer counting value, in a range from 0 to a * timer period. * * @note User can call the utility macros provided in fsl_common.h to convert ticks to usec or msec * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number * * @return Current timer counting value in ticks */ static inline uint32_t MRT_GetCurrentTimerCount(MRT_Type *base, mrt_chnl_t channel) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); return base->CHANNEL[channel].TIMER; } /*! @}*/ /*! * @name Timer Start and Stop * @{ */ /*! * @brief Starts the timer counting. * * After calling this function, timers load period value, counts down to 0 and * depending on the timer mode it will either load the respective start value again or stop. * * @note User can call the utility macros provided in fsl_common.h to convert to ticks * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number. * @param count Timer period in units of ticks */ static inline void MRT_StartTimer(MRT_Type *base, mrt_chnl_t channel, uint32_t count) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); /* Write the timer interval value */ base->CHANNEL[channel].INTVAL = count; } /*! * @brief Stops the timer counting. * * This function stops the timer from counting. * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number. */ static inline void MRT_StopTimer(MRT_Type *base, mrt_chnl_t channel) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); /* Stop the timer immediately */ base->CHANNEL[channel].INTVAL = MRT_CHANNEL_INTVAL_LOAD_MASK; } /*! @}*/ /*! * @name Get & release channel * @{ */ /*! * @brief Find the available channel. * * This function returns the lowest available channel number. * * @param base Multi-Rate timer peripheral base address */ static inline uint32_t MRT_GetIdleChannel(MRT_Type *base) { return base->IDLE_CH; } #if !(defined(FSL_FEATURE_MRT_HAS_NO_CHANNEL_STAT_INUSE) && FSL_FEATURE_MRT_HAS_NO_CHANNEL_STAT_INUSE) /*! * @brief Release the channel when the timer is using the multi-task mode. * * In multi-task mode, the INUSE flags allow more control over when MRT channels are released for * further use. The user can hold on to a channel acquired by calling MRT_GetIdleChannel() for as * long as it is needed and release it by calling this function. This removes the need to ask for * an available channel for every use. * * @param base Multi-Rate timer peripheral base address * @param channel Timer channel number. */ static inline void MRT_ReleaseChannel(MRT_Type *base, mrt_chnl_t channel) { assert(channel < FSL_FEATURE_MRT_NUMBER_OF_CHANNELS); uint32_t reg = base->CHANNEL[channel].STAT; /* Clear flag bits to prevent accidentally clearing anything when writing back */ reg = ~MRT_CHANNEL_STAT_INTFLAG_MASK; reg |= MRT_CHANNEL_STAT_INUSE_MASK; base->CHANNEL[channel].STAT = reg; } #endif /*! @}*/ #if defined(__cplusplus) } #endif /*! @}*/ #endif /* _FSL_MRT_H_ */