/* * Copyright (c) 2014, Freescale Semiconductor, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted 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 Freescale Semiconductor, Inc. nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * 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. */ #if !defined(__FSL_CRC_HAL_H__) #define __FSL_CRC_HAL_H__ #include #include #include "fsl_device_registers.h" #if FSL_FEATURE_SOC_CRC_COUNT /*! @addtogroup crc_hal*/ /*! @{*/ /*! @file*/ /*!***************************************************************************** * Definitions ******************************************************************************/ /*! * @brief CRC status return codes. */ typedef enum _crc_status { kStatus_CRC_Success = 0U, /*!< Success. */ kStatus_CRC_InvalidArgument = 1U, /*!< Invalid argument existed. */ kStatus_CRC_Failed = 2U /*!< Execution failed. */ } crc_status_t; /*! * @brief Define type of enumerating transpose modes for CRC peripheral. */ typedef enum _crc_transpose { kCrcNoTranspose = 0U, /*!< No transposition. @internal gui name="No Transpose" */ kCrcTransposeBits = 1U, /*!< Bits in bytes are transposed; bytes are not transposed. @internal gui name="Transpose Bits" */ kCrcTransposeBoth = 2U, /*!< Both bits in bytes and bytes are transposed. @internal gui name="Transpose Bits in Bytes and Bytes" */ kCrcTransposeBytes = 3U /*!< Only bytes are transposed; no bits in a byte are transposed. @internal gui name="Transpose Bytes" */ }crc_transpose_t; /*! * @brief Define type of enumerating CRC protocol widths for CRC peripheral. */ typedef enum _crc_prot_width { kCrc16Bits = 0U, /*!< 16-bit CRC protocol. @internal gui name="16 bits" */ kCrc32Bits = 1U, /*!< 32-bit CRC protocol. @internal gui name="32 bits" */ }crc_prot_width_t; /*!***************************************************************************** * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /* __cplusplus*/ /*! @name CRC-related feature APIs*/ /*! * @brief This function initializes the module to a known state. * * @param base The CRC peripheral base address. */ void CRC_HAL_Init(CRC_Type * base); /*! * @brief Returns the current CRC result from the data register. * * @param base The CRC peripheral base address. * @return Returns a 32-bit value. */ static inline uint32_t CRC_HAL_GetDataReg(CRC_Type * base) { #if FSL_FEATURE_CRC_HAS_CRC_REG return CRC_RD_CRC(base); #else return CRC_RD_DATA(base); #endif } /*! * @brief Returns the upper 16 bits of the current CRC result from the data register. * * @param base The CRC peripheral base address. * @return Returns a 16-bit value. */ static inline uint16_t CRC_HAL_GetDataHReg(CRC_Type * base) { #if FSL_FEATURE_CRC_HAS_CRC_REG return CRC_RD_CRCH(base); #else return CRC_RD_DATAH(base); #endif } /*! * @brief Returns the lower 16 bits of the current CRC result from the data register. * * @param base The CRC peripheral base address. * @return Returns a 16-bit value. */ static inline uint16_t CRC_HAL_GetDataLReg(CRC_Type * base) { #if FSL_FEATURE_CRC_HAS_CRC_REG return CRC_RD_CRCL(base); #else return CRC_RD_DATAL(base); #endif } /*! * @brief Sets the CRC data register (4 bytes). * * @param base The CRC peripheral base address. * @param value New data for CRC computation. This parameter is a 32-bit value. */ static inline void CRC_HAL_SetDataReg(CRC_Type * base, uint32_t value) { #if FSL_FEATURE_CRC_HAS_CRC_REG CRC_WR_CRC(base, value); #else CRC_WR_DATA(base, value); #endif } /*! * @brief Sets the CRC data register (upper 2 bytes). * * @param base The CRC peripheral base address. * @param value New data for CRC computation. This parameter is a 16-bit value. */ static inline void CRC_HAL_SetDataHReg(CRC_Type * base, uint16_t value) { #if FSL_FEATURE_CRC_HAS_CRC_REG CRC_WR_CRCH(base, value); #else CRC_WR_DATAH(base, value); #endif } /*! * @brief Sets the CRC data register (lower 2 bytes). * * @param base The CRC peripheral base address. * @param value New data for CRC computation. This parameter is a 16-bit value. */ static inline void CRC_HAL_SetDataLReg(CRC_Type * base, uint16_t value) { #if FSL_FEATURE_CRC_HAS_CRC_REG CRC_WR_CRCL(base, value); #else CRC_WR_DATAL(base, value); #endif } /*! * @brief Sets the CRC data register (HL byte). * * @param base The CRC peripheral base address. * @param value New data for CRC computation. This parameter is a 8-bit value. */ static inline void CRC_HAL_SetDataHLReg(CRC_Type * base, uint8_t value) { #if FSL_FEATURE_CRC_HAS_CRC_REG CRC_WR_CRCHL(base, value); #else CRC_WR_DATAHL(base, value); #endif } /*! * @brief Sets the CRC data register (HU byte). * * @param base The CRC peripheral base address. * @param value New data for CRC computation. This parameter is a 8-bit value. */ static inline void CRC_HAL_SetDataHUReg(CRC_Type * base, uint8_t value) { #if FSL_FEATURE_CRC_HAS_CRC_REG CRC_WR_CRCHU(base, value); #else CRC_WR_DATAHU(base, value); #endif } /*! * @brief Sets the CRC data register (LL byte). * * @param base The CRC peripheral base address. * @param value New data for CRC computation. This parameter is a 8-bit value. */ static inline void CRC_HAL_SetDataLLReg(CRC_Type * base, uint8_t value) { #if FSL_FEATURE_CRC_HAS_CRC_REG CRC_WR_CRCLL(base, value); #else CRC_WR_DATALL(base, value); #endif } /*! * @brief Sets the CRC data register (LU byte). * * @param base The CRC peripheral base address. * @param value New data for CRC computation. This parameter is a 8-bit value. */ static inline void CRC_HAL_SetDataLUReg(CRC_Type * base, uint8_t value) { #if FSL_FEATURE_CRC_HAS_CRC_REG CRC_WR_CRCLU(base, value); #else CRC_WR_DATALU(base, value); #endif } /*! * @brief Returns the polynomial register value. * * @param base The CRC peripheral base address. * @return Returns a 32-bit value. */ static inline uint32_t CRC_HAL_GetPolyReg(CRC_Type * base) { return CRC_RD_GPOLY(base); } /*! * @brief Returns the upper 16 bits of polynomial register. * * @param base The CRC peripheral base address. * @return Returns a 16-bit value. */ static inline uint16_t CRC_HAL_GetPolyHReg(CRC_Type * base) { return CRC_RD_GPOLYH(base); } /*! * @brief Returns the lower 16 bits of polynomial register. * * @param base The CRC peripheral base address. * @return Returns a 16-bit value. */ static inline uint16_t CRC_HAL_GetPolyLReg(CRC_Type * base) { return CRC_RD_GPOLYL(base); } /*! * @brief Sets the polynomial register. * * @param base The CRC peripheral base address. * @param value Polynomial value. This parameter is a 32-bit value. */ static inline void CRC_HAL_SetPolyReg(CRC_Type * base, uint32_t value) { CRC_WR_GPOLY(base, value); } /*! * @brief Sets the upper 16 bits of polynomial register. * * @param base The CRC peripheral base address. * @param value Polynomial value. This parameter is a 16-bit value. */ static inline void CRC_HAL_SetPolyHReg(CRC_Type * base, uint16_t value) { CRC_WR_GPOLYH(base, value); } /*! * @brief Sets the lower 16 bits of polynomial register. * * @param base The CRC peripheral base address. * @param value Polynomial value. This parameter is a 16-bit value. */ static inline void CRC_HAL_SetPolyLReg(CRC_Type * base, uint16_t value) { CRC_WR_GPOLYL(base, value); } /*! * @brief Returns the CRC control register. * * @param base The CRC peripheral base address. * @return Returns a 32-bit value. */ static inline uint32_t CRC_HAL_GetCtrlReg(CRC_Type * base) { return CRC_RD_CTRL(base); } /*! * @brief Sets the CRC control register. * * @param base The CRC peripheral base address. * @param value Control register value. This parameter is a 32-bit value. */ static inline void CRC_HAL_SetCtrlReg(CRC_Type * base, uint32_t value) { CRC_WR_CTRL(base, value); } /*! * @brief Gets the CRC seed mode. * * @param base The CRC peripheral base address. * @return CRC seed mode * -true: Seed mode is enabled * -false: Data mode is enabled */ static inline bool CRC_HAL_GetSeedOrDataMode(CRC_Type * base) { return (bool)CRC_BRD_CTRL_WAS(base); } /*! * @brief Sets the CRC seed mode. * * @param base The CRC peripheral base address. * @param enable Enable or disable seed mode. -true: use CRC data register for seed values -false: use CRC data register for data values */ static inline void CRC_HAL_SetSeedOrDataMode(CRC_Type * base, bool enable) { CRC_BWR_CTRL_WAS(base, enable); } /*! * @brief Gets the CRC transpose type for writes. * * @param base The CRC peripheral base address. * @return CRC input transpose type for writes. */ static inline crc_transpose_t CRC_HAL_GetWriteTranspose(CRC_Type * base) { return (crc_transpose_t)CRC_BRD_CTRL_TOT(base); } /*! * @brief Sets the CRC transpose type for writes. * * @param base The CRC peripheral base address. * @param transp The CRC input transpose type. */ static inline void CRC_HAL_SetWriteTranspose(CRC_Type * base, crc_transpose_t transp) { CRC_BWR_CTRL_TOT(base, transp); } /*! * @brief Gets the CRC transpose type for reads. * * @param base The CRC peripheral base address. * @return CRC output transpose type. */ static inline crc_transpose_t CRC_HAL_GetReadTranspose(CRC_Type * base) { return (crc_transpose_t)CRC_BRD_CTRL_TOTR(base); } /*! * @brief Sets the CRC transpose type for reads. * * @param base The CRC peripheral base address. * @param transp The CRC output transpose type. */ static inline void CRC_HAL_SetReadTranspose(CRC_Type * base, crc_transpose_t transp) { CRC_BWR_CTRL_TOTR(base, transp); } /*! * @brief Gets the CRC XOR mode. * * Some CRC protocols require the final checksum to be XORed with 0xFFFFFFFF * or 0xFFFF. XOR mode enables "on the fly" complementing of read data. * * @param base The CRC peripheral base address. * @return CRC XOR mode * -true: XOR mode is enabled * -false: XOR mode is disabled */ static inline bool CRC_HAL_GetXorMode(CRC_Type * base) { return (bool)CRC_BRD_CTRL_FXOR(base); } /*! * @brief Sets the CRC XOR mode. * * Some CRC protocols require the final checksum to be XORed with 0xFFFFFFFF * or 0xFFFF. XOR mode enables "on the fly" complementing of read data. * * @param base The CRC peripheral base address. * @param enable Enable or disable XOR mode. */ static inline void CRC_HAL_SetXorMode(CRC_Type * base, bool enable) { CRC_BWR_CTRL_FXOR(base, enable); } /*! * @brief Gets the CRC protocol width. * * @param base The CRC peripheral base address. * @return CRC protocol width * -kCrc16Bits: 16-bit CRC protocol * -kCrc32Bits: 32-bit CRC protocol */ static inline crc_prot_width_t CRC_HAL_GetProtocolWidth(CRC_Type * base) { return (crc_prot_width_t)CRC_BRD_CTRL_TCRC(base); } /*! * @brief Sets the CRC protocol width. * * @param base The CRC peripheral base address. * @param width The CRC protocol width * -kCrc16Bits: 16-bit CRC protocol * -kCrc32Bits: 32-bit CRC protocol */ static inline void CRC_HAL_SetProtocolWidth(CRC_Type * base, crc_prot_width_t width) { CRC_BWR_CTRL_TCRC(base, width); } /*! * @brief CRC_HAL_GetCrc32 * * This method appends 32-bit data to the current CRC calculation * and returns new result. If the newSeed is true, seed set and * result are calculated from the seed new value (new CRC calculation). * * @param base The CRC peripheral base address. * @param data input data for CRC calculation * @param newSeed Sets new CRC calculation. * - true: New seed set and used for new calculation. * - false: seed argument ignored, continues old calculation. * @param seed New seed if newSeed is true, else ignored * @return new CRC result. */ uint32_t CRC_HAL_GetCrc32(CRC_Type * base, uint32_t data, bool newSeed, uint32_t seed); /*! * @brief CRC_HAL_GetCrc16 * * This method appends the 16-bit data to the current CRC calculation * and returns a new result. If the newSeed is true, seed set and * result are calculated from the seed new value (new CRC calculation). * * @param base The CRC peripheral base address. * @param data input data for CRC calculation * @param newSeed Sets new CRC calculation. * - true: New seed set and used for new calculation. * - false: seed argument ignored, continues old calculation. * @param seed New seed if newSeed is true, else ignored * @return new CRC result. */ uint32_t CRC_HAL_GetCrc16(CRC_Type * base, uint16_t data, bool newSeed, uint32_t seed); /*! * @brief CRC_HAL_GetCrc8 * * This method appends the 8-bit data to the current CRC calculation * and returns the new result. If the newSeed is true, seed set and * result are calculated from the seed new value (new CRC calculation). * * @param base The CRC peripheral base address. * @param data input data for CRC calculation * @param newSeed Sets new CRC calculation. * - true: New seed set and used for new calculation. * - false: seed argument ignored, continues old calculation. * @param seed New seed if newSeed is true, else ignored * @return new CRC result. */ uint32_t CRC_HAL_GetCrc8(CRC_Type * base, uint8_t data, bool newSeed, uint32_t seed); /*! * @brief CRC_HAL_GetCrcResult * * This method returns the current result of the CRC calculation. * The result is the ReadTranspose dependent. * * @param base The CRC peripheral base address. * @return result of CRC calculation. */ uint32_t CRC_HAL_GetCrcResult(CRC_Type * base); /*@}*/ #if defined(__cplusplus) } #endif /* __cplusplus*/ /*! @}*/ #endif #endif /* __FSL_CRC_HAL_H__*/