/* * The Clear BSD License * Copyright 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_FLEXRAM_H_ #define _FSL_FLEXRAM_H_ #include "fsl_common.h" /*! * @addtogroup flexram * @{ */ /****************************************************************************** * Definitions. *****************************************************************************/ /*! @name Driver version */ /*@{*/ /*! @brief Driver version 2.0.2. */ #define FSL_FLEXRAM_DRIVER_VERSION (MAKE_VERSION(2U, 0U, 2U)) /*@}*/ /*! @brief flexram write read sel */ enum _flexram_wr_rd_sel { kFLEXRAM_Read = 0U, /*!< read */ kFLEXRAM_Write = 1U, /*!< write */ }; /*! @brief Interrupt status flag mask */ enum _flexram_interrupt_status { kFLEXRAM_OCRAMAccessError = FLEXRAM_INT_STATUS_OCRAM_ERR_STATUS_MASK, /*!< ocram access unallocated address */ kFLEXRAM_DTCMAccessError = FLEXRAM_INT_STATUS_DTCM_ERR_STATUS_MASK, /*!< dtcm access unallocated address */ kFLEXRAM_ITCMAccessError = FLEXRAM_INT_STATUS_ITCM_ERR_STATUS_MASK, /*!< itcm access unallocated address */ kFLEXRAM_OCRAMMagicAddrMatch = FLEXRAM_INT_STATUS_OCRAM_MAM_STATUS_MASK, /*!< ocram maigc address match */ kFLEXRAM_DTCMMagicAddrMatch = FLEXRAM_INT_STATUS_DTCM_MAM_STATUS_MASK, /*!< dtcm maigc address match */ kFLEXRAM_ITCMMagicAddrMatch = FLEXRAM_INT_STATUS_ITCM_MAM_STATUS_MASK, /*!< itcm maigc address match */ kFLEXRAM_InterruptStatusAll = 0x3FU, /*!< all the interrupt status mask */ }; /*! @brief FLEXRAM TCM access mode * Fast access mode expected to be finished in 1-cycle * Wait access mode expected to be finished in 2-cycle * Wait access mode is a feature of the flexram and it should be used when * the cpu clock too fast to finish tcm access in 1-cycle. * Normally, fast mode is the default mode, the efficiency of the tcm access will better. */ typedef enum _flexram_tcm_access_mode { kFLEXRAM_TCMAccessFastMode = 0U, /*!< fast access mode */ kFLEXRAM_TCMAccessWaitMode = 1U, /*!< wait access mode */ } flexram_tcm_access_mode_t; /*! @brief FLEXRAM bank type */ enum _flexram_bank_type { kFLEXRAM_BankNotUsed = 0U, /*!< bank is not used */ kFLEXRAM_BankOCRAM = 1U, /*!< bank is OCRAM */ kFLEXRAM_BankDTCM = 2U, /*!< bank is DTCM */ kFLEXRAM_BankITCM = 3U, /*!< bank is ITCM */ }; /*! @brief FLEXRAM tcm support size */ enum _flexram_tcm_size { kFLEXRAM_TCMSize32KB = 32 * 1024U, /*!< TCM total size 32KB */ kFLEXRAM_TCMSize64KB = 64 * 1024U, /*!< TCM total size 64KB */ kFLEXRAM_TCMSize128KB = 128 * 1024U, /*!< TCM total size 128KB */ kFLEXRAM_TCMSize256KB = 256 * 1024U, /*!< TCM total size 256KB */ kFLEXRAM_TCMSize512KB = 512 * 1024U, /*!< TCM total size 512KB */ }; /*! @brief FLEXRAM bank allocate source */ typedef enum _flexram_bank_allocate_src { kFLEXRAM_BankAllocateThroughHardwareFuse = 0U, /*!< allocate ram through hardware fuse value */ kFLEXRAM_BankAllocateThroughBankCfg = 1U, /*!< allocate ram through FLEXRAM_BANK_CFG */ } flexram_bank_allocate_src_t; /*! @brief FLEXRAM allocate ocram, itcm, dtcm size */ typedef struct _flexram_allocate_ram { const uint8_t ocramBankNum; /*!< ocram banknumber which the SOC support */ const uint8_t dtcmBankNum; /*!< dtcm bank number to allocate, the number should be power of 2 */ const uint8_t itcmBankNum; /*!< itcm bank number to allocate, the number should be power of 2 */ } flexram_allocate_ram_t; /*! * @name Initialization and deinitialization * @{ */ /*! * @brief FLEXRAM module initialization function. * * @param base FLEXRAM base address. */ void FLEXRAM_Init(FLEXRAM_Type *base); /*! * @brief Deinitializes the FLEXRAM. * */ void FLEXRAN_Deinit(FLEXRAM_Type *base); /* @} */ /*! * @name Status * @{ */ /*! * @brief FLEXRAM module get interrupt status. * * @param base FLEXRAM base address. */ static inline uint32_t FLEXRAM_GetInterruptStatus(FLEXRAM_Type *base) { return base->INT_STATUS & kFLEXRAM_InterruptStatusAll; } /*! * @brief FLEXRAM module clear interrupt status. * * @param base FLEXRAM base address. * @param status status to clear. */ static inline void FLEXRAM_ClearInterruptStatus(FLEXRAM_Type *base, uint32_t status) { base->INT_STATUS |= status; } /*! * @brief FLEXRAM module enable interrupt status. * * @param base FLEXRAM base address. * @param status status to enable. */ static inline void FLEXRAM_EnableInterruptStatus(FLEXRAM_Type *base, uint32_t status) { base->INT_STAT_EN |= status; } /*! * @brief FLEXRAM module disable interrupt status. * * @param base FLEXRAM base address. * @param status status to disable. */ static inline void FLEXRAM_DisableInterruptStatus(FLEXRAM_Type *base, uint32_t status) { base->INT_STAT_EN &= ~status; } /* @} */ /*! * @name Interrupts * @{ */ /*! * @brief FLEXRAM module enable interrupt. * * @param base FLEXRAM base address. * @param status status interrupt to enable. */ static inline void FLEXRAM_EnableInterruptSignal(FLEXRAM_Type *base, uint32_t status) { base->INT_SIG_EN |= status; } /*! * @brief FLEXRAM module disable interrupt. * * @param base FLEXRAM base address. * @param status status interrupt to disable. */ static inline void FLEXRAM_DisableInterruptSignal(FLEXRAM_Type *base, uint32_t status) { base->INT_SIG_EN &= ~status; } /* @} */ /*! * @name functional * @{ */ /*! * @brief FLEXRAM module set TCM read access mode * * @param base FLEXRAM base address. * @param mode access mode. */ static inline void FLEXRAM_SetTCMReadAccessMode(FLEXRAM_Type *base, flexram_tcm_access_mode_t mode) { base->TCM_CTRL &= ~FLEXRAM_TCM_CTRL_TCM_RWAIT_EN_MASK; base->TCM_CTRL |= mode; } /*! * @brief FLEXRAM module set TCM write access mode * * @param base FLEXRAM base address. * @param mode access mode. */ static inline void FLEXRAM_SetTCMWriteAccessMode(FLEXRAM_Type *base, flexram_tcm_access_mode_t mode) { base->TCM_CTRL &= ~FLEXRAM_TCM_CTRL_TCM_WWAIT_EN_MASK; base->TCM_CTRL |= mode; } /*! * @brief FLEXRAM module force ram clock on * * @param base FLEXRAM base address. * @param enable enable or disable clock force on. */ static inline void FLEXRAM_EnableForceRamClockOn(FLEXRAM_Type *base, bool enable) { if (enable) { base->TCM_CTRL |= FLEXRAM_TCM_CTRL_FORCE_CLK_ON_MASK; } else { base->TCM_CTRL &= ~FLEXRAM_TCM_CTRL_FORCE_CLK_ON_MASK; } } /*! * @brief FLEXRAM OCRAM magic addr configuration * When read/write access hit magic address, it will generate interrupt * @param magicAddr magic address. * @param rwsel read write select, 0 read access , 1 write access */ static inline void FLEXRAM_SetOCRAMMagicAddr(FLEXRAM_Type *base, uint16_t magicAddr, uint32_t rwSel) { base->OCRAM_MAGIC_ADDR = FLEXRAM_OCRAM_MAGIC_ADDR_OCRAM_WR_RD_SEL(rwSel) | FLEXRAM_OCRAM_MAGIC_ADDR_OCRAM_MAGIC_ADDR(magicAddr >> 3U); } /*! * @brief FLEXRAM DTCM magic addr configuration * When read/write access hit magic address, it will generate interrupt * @param magicAddr magic address. * @param rwsel read write select, 0 read access , 1 write access */ static inline void FLEXRAM_SetDTCMMagicAddr(FLEXRAM_Type *base, uint16_t magicAddr, uint32_t rwSel) { base->DTCM_MAGIC_ADDR = FLEXRAM_DTCM_MAGIC_ADDR_DTCM_WR_RD_SEL(rwSel) | FLEXRAM_DTCM_MAGIC_ADDR_DTCM_MAGIC_ADDR(magicAddr >> 3U); } /*! * @brief FLEXRAM ITCM magic addr configuration * When read/write access hit magic address, it will generate interrupt * @param magicAddr magic address. * @param rwsel read write select, 0 read access , 1 write access */ static inline void FLEXRAM_SetITCMMagicAddr(FLEXRAM_Type *base, uint16_t magicAddr, uint32_t rwSel) { base->ITCM_MAGIC_ADDR = FLEXRAM_ITCM_MAGIC_ADDR_ITCM_WR_RD_SEL(rwSel) | FLEXRAM_ITCM_MAGIC_ADDR_ITCM_MAGIC_ADDR(magicAddr >> 3U); } /*! * @brief FLEXRAM allocate on-chip ram for OCRAM,ITCM,DTCM * This function is independent of FLEXRAM_Init, it can be called directly if ram re-allocate * is needed. * @param config allocate configuration. * @retval kStatus_InvalidArgument the argument is invalid * kStatus_Success allocate success */ status_t FLEXRAM_AllocateRam(flexram_allocate_ram_t *config); /*! * @brief FLEXRAM set allocate on-chip ram source * @param src bank config source select value. */ static inline void FLEXRAM_SetAllocateRamSrc(flexram_bank_allocate_src_t src) { IOMUXC_GPR->GPR16 &= ~IOMUXC_GPR_GPR16_FLEXRAM_BANK_CFG_SEL_MASK; IOMUXC_GPR->GPR16 |= IOMUXC_GPR_GPR16_FLEXRAM_BANK_CFG_SEL(src); } /*! @}*/ #endif