/*================================================================================================== * Project : RTD AUTOSAR 4.4 * Platform : CORTEXM * Peripheral : FLEXCAN * Dependencies : * * Autosar Version : 4.4.0 * Autosar Revision : ASR_REL_4_4_REV_0000 * Autosar Conf.Variant : * SW Version : 1.0.0 * Build Version : S32K1_RTD_1_0_0_HF01_D2109_ASR_REL_4_4_REV_0000_20210907 * * (c) Copyright 2020-2021 NXP Semiconductors * All Rights Reserved. * * NXP Confidential. This software is owned or controlled by NXP and may only be * used strictly in accordance with the applicable license terms. By expressly * accepting such terms or by downloading, installing, activating and/or otherwise * using the software, you are agreeing that you have read, and that you agree to * comply with and are bound by, such license terms. If you do not agree to be * bound by the applicable license terms, then you may not retain, install, * activate or otherwise use the software. ==================================================================================================*/ #ifndef FLEXCAN_FLEXCAN_IP_HWACCESS_H_ #define FLEXCAN_FLEXCAN_IP_HWACCESS_H_ /** * @file FlexCAN_Ip_HwAccess.h * * @brief FlexCAN HardWare Access Header File * * @addtogroup FlexCAN * @{ */ #ifdef __cplusplus extern "C"{ #endif /*================================================================================================== * INCLUDE FILES * 1) system and project includes * 2) needed interfaces from external units * 3) internal and external interfaces from this unit ==================================================================================================*/ #include "FlexCAN_Ip.h" #if (FLEXCAN_IP_DEV_ERROR_DETECT == STD_ON) #include "Devassert.h" #endif #include "OsIf.h" /*================================================================================================== * SOURCE FILE VERSION INFORMATION ==================================================================================================*/ #define FLEXCAN_IP_HWACCESS_VENDOR_ID_H 43 #define FLEXCAN_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION_H 4 #define FLEXCAN_IP_HWACCESS_AR_RELEASE_MINOR_VERSION_H 4 #define FLEXCAN_IP_HWACCESS_AR_RELEASE_REVISION_VERSION_H 0 #define FLEXCAN_IP_HWACCESS_SW_MAJOR_VERSION_H 1 #define FLEXCAN_IP_HWACCESS_SW_MINOR_VERSION_H 0 #define FLEXCAN_IP_HWACCESS_SW_PATCH_VERSION_H 0 /*================================================================================================== * FILE VERSION CHECKS ==================================================================================================*/ /* Check if current file and FlexCAN_Ip header file are of the same vendor */ #if (FLEXCAN_IP_HWACCESS_VENDOR_ID_H != FLEXCAN_IP_VENDOR_ID_H) #error "FlexCAN_Ip_HwAccess.h and FlexCAN_Ip.h have different vendor ids" #endif /* Check if current file and FlexCAN_Ip header file are of the same Autosar version */ #if ((FLEXCAN_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION_H != FLEXCAN_IP_AR_RELEASE_MAJOR_VERSION_H) || \ (FLEXCAN_IP_HWACCESS_AR_RELEASE_MINOR_VERSION_H != FLEXCAN_IP_AR_RELEASE_MINOR_VERSION_H) || \ (FLEXCAN_IP_HWACCESS_AR_RELEASE_REVISION_VERSION_H != FLEXCAN_IP_AR_RELEASE_REVISION_VERSION_H) \ ) #error "AutoSar Version Numbers of FlexCAN_Ip_HwAccess.h and FlexCAN_Ip.h are different" #endif /* Check if current file and FlexCAN_Ip header file are of the same Software version */ #if ((FLEXCAN_IP_HWACCESS_SW_MAJOR_VERSION_H != FLEXCAN_IP_SW_MAJOR_VERSION_H) || \ (FLEXCAN_IP_HWACCESS_SW_MINOR_VERSION_H != FLEXCAN_IP_SW_MINOR_VERSION_H) || \ (FLEXCAN_IP_HWACCESS_SW_PATCH_VERSION_H != FLEXCAN_IP_SW_PATCH_VERSION_H) \ ) #error "Software Version Numbers of FlexCAN_Ip_HwAccess.h and FlexCAN_Ip.h are different" #endif #ifndef DISABLE_MCAL_INTERMODULE_ASR_CHECK /* Check if current file and Devassert header file are of the same version */ #if (FLEXCAN_IP_DEV_ERROR_DETECT == STD_ON) #if ((FLEXCAN_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION_H != DEVASSERT_AR_RELEASE_MAJOR_VERSION) || \ (FLEXCAN_IP_HWACCESS_AR_RELEASE_MINOR_VERSION_H != DEVASSERT_AR_RELEASE_MINOR_VERSION) \ ) #error "AUTOSAR Version Numbers of FlexCAN_Ip_HwAccess.h and Devassert.h are different" #endif #endif /* Check if current file and osif header file are of the same version */ #if ((FLEXCAN_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION_H != OSIF_AR_RELEASE_MAJOR_VERSION) || \ (FLEXCAN_IP_HWACCESS_AR_RELEASE_MINOR_VERSION_H != OSIF_AR_RELEASE_MINOR_VERSION) \ ) #error "AUTOSAR Version Numbers of FlexCAN_Ip_HwAccess.h and OsIf.h are different" #endif #endif /*================================================================================================== * CONSTANTS ==================================================================================================*/ /*================================================================================================== * DEFINES AND MACROS ==================================================================================================*/ /* @brief Frames available in Rx FIFO flag shift */ #define FLEXCAN_IP_LEGACY_RXFIFO_FRAME_AVAILABLE (5U) /* @brief Rx FIFO warning flag shift */ #define FLEXCAN_IP_LEGACY_RXFIFO_WARNING (6U) /* @brief Rx FIFO overflow flag shift */ #define FLEXCAN_IP_LEGACY_RXFIFO_OVERFLOW (7U) #if (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) /* @brief Frames available in Enhanced Rx FIFO flag shift */ #define FLEXCAN_IP_ENHANCED_RXFIFO_FRAME_AVAILABLE (28U) /* @brief Enhanced Rx FIFO Watermark Indication flag shift */ #define FLEXCAN_IP_ENHANCED_RXFIFO_WATERMARK (29U) /* @brief Enhanced Rx FIFO Overflow flag shift */ #define FLEXCAN_IP_ENHANCED_RXFIFO_OVERFLOW (30U) /* @brief Enhanced Rx FIFO Underflow flag shift */ #define FLEXCAN_IP_ENHANCED_RXFIFO_UNDERFLOW (31U) /*! @brief FlexCAN Enhanced Fifo Embedded RAM address offset */ #define FLEXCAN_IP_FEATURE_ENHANCED_FIFO_RAM_OFFSET (0x00002000u) #endif /* (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) */ /*! @brief FlexCAN Embedded RAM address offset */ #define FLEXCAN_IP_FEATURE_RAM_OFFSET (0x00000080u) #if (STD_ON == FLEXCAN_IP_FEATURE_HAS_EXPANDABLE_MEMORY) /*! @brief FlexCAN Expandable Embedded RAM address offset */ #define FLEXCAN_IP_FEATURE_EXP_RAM_OFFSET (0x00001000u) #endif /* (STD_ON == FLEXCAN_IP_FEATURE_HAS_EXPANDABLE_MEMORY) */ #define FLEXCAN_IP_ALL_INT (0x3B0006U) /*!< Masks for wakeup, error, bus off*/ #if (FLEXCAN_IP_FEATURE_BUSOFF_ERROR_INTERRUPT_UNIFIED == STD_OFF) #define FLEXCAN_IP_BUS_OFF_INT (0xB0004U) /*!< Masks for busOff, Tx/Rx Warning */ #define FLEXCAN_IP_ERROR_INT (0x300002U) /*!< Masks for ErrorOvr, ErrorFast, Error */ #endif #define FLEXCAN_IP_ESR1_FLTCONF_BUS_OFF (0x00000020U) #define FLEXCAN_IP_ID_EXT_MASK 0x3FFFFu #define FLEXCAN_IP_ID_EXT_SHIFT 0 #define FLEXCAN_IP_ID_EXT_WIDTH 18 #define FLEXCAN_IP_ID_STD_MASK 0x1FFC0000u #define FLEXCAN_IP_ID_STD_SHIFT 18 #define FLEXCAN_IP_ID_STD_WIDTH 11 #define FLEXCAN_IP_ID_PRIO_MASK 0xE0000000u #define FLEXCAN_IP_ID_PRIO_SHIFT 29 #define FLEXCAN_IP_ID_PRIO_WIDTH 3 /* CS Bit Fields */ #define FLEXCAN_IP_CS_TIME_STAMP_MASK 0xFFFFu #define FLEXCAN_IP_CS_TIME_STAMP_SHIFT 0 #define FLEXCAN_IP_CS_TIME_STAMP_WIDTH 16 #define FLEXCAN_IP_CS_DLC_MASK 0xF0000u #define FLEXCAN_IP_CS_DLC_SHIFT 16 #define FLEXCAN_IP_CS_DLC_WIDTH 4 #define FLEXCAN_IP_CS_RTR_MASK 0x100000u #define FLEXCAN_IP_CS_RTR_SHIFT 20 #define FLEXCAN_IP_CS_RTR_WIDTH 1 #define FLEXCAN_IP_CS_IDE_MASK 0x200000u #define FLEXCAN_IP_CS_IDE_SHIFT 21 #define FLEXCAN_IP_CS_IDE_WIDTH 1 #define FLEXCAN_IP_CS_SRR_MASK 0x400000u #define FLEXCAN_IP_CS_SRR_SHIFT 22 #define FLEXCAN_IP_CS_SRR_WIDTH 1 #define FLEXCAN_IP_CS_CODE_MASK 0xF000000u #define FLEXCAN_IP_CS_CODE_SHIFT 24 #define FLEXCAN_IP_CS_CODE_WIDTH 4 #define FLEXCAN_IP_CS_IDHIT_MASK 0xFF800000u #define FLEXCAN_IP_CS_IDHIT_SHIFT 23 #define FLEXCAN_IP_CS_IDHIT_WIDTH 9 #define FLEXCAN_IP_MB_EDL_MASK 0x80000000u #define FLEXCAN_IP_MB_BRS_MASK 0x40000000u #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATAB_RTR_SHIFT (31U) /*!< FlexCAN RX FIFO ID filter*/ /*! format A&B RTR mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATAB_IDE_SHIFT (30U) /*!< FlexCAN RX FIFO ID filter*/ /*! format A&B IDE mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_RTR_SHIFT (15U) /*!< FlexCAN RX FIFO ID filter*/ /*! format B RTR-2 mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_IDE_SHIFT (14U) /*!< FlexCAN RX FIFO ID filter*/ /*! format B IDE-2 mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATA_EXT_MASK (0x3FFFFFFFU) /*!< FlexCAN RX FIFO ID filter*/ /*! format A extended mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATA_EXT_SHIFT (1U) /*!< FlexCAN RX FIFO ID filter*/ /*! format A extended shift.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATA_STD_MASK (0x3FF80000U) /*!< FlexCAN RX FIFO ID filter*/ /*! format A standard mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATA_STD_SHIFT (19U) /*!< FlexCAN RX FIFO ID filter*/ /*! format A standard shift.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_EXT_MASK (0x1FFF8000U) /*!< FlexCAN RX FIFO ID filter*/ /*! format B extended mask1.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_EXT_SHIFT1 (16U) /*!< FlexCAN RX FIFO ID filter*/ /*! format B extended shift 1.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_EXT_SHIFT2 (0U) /*!< FlexCAN RX FIFO ID filter*/ /*! format B extended shift 2.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_STD_MASK (0x7FFU) /*!< FlexCAN RX FIFO ID filter*/ /*! format B standard mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_STD_SHIFT1 (19U) /*!< FlexCAN RX FIFO ID filter*/ /*! format B standard shift1.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_STD_SHIFT2 (3U) /*!< FlexCAN RX FIFO ID filter*/ /*! format B standard shift2.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATB_EXT_CMP_SHIFT (15U) /*!< FlexCAN RX FIFO ID filter*/ /*! format B extended compare shift.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATC_EXT_MASK (0x1FE00000U) /*!< FlexCAN RX FIFO ID filter*/ /*! format C mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATC_STD_MASK (0x7F8U) /*!< FlexCAN RX FIFO ID filter*/ /*! format C mask.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATC_SHIFT1 (24U) /*!< FlexCAN RX FIFO ID filter*/ /*! format C shift1.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATC_SHIFT2 (16U) /*!< FlexCAN RX FIFO ID filter*/ /*! format C shift2.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATC_SHIFT3 (8U) /*!< FlexCAN RX FIFO ID filter*/ /*! format C shift3.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATC_SHIFT4 (0U) /*!< FlexCAN RX FIFO ID filter*/ /*! format C shift4.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATC_EXT_CMP_SHIFT (21U) /*!< FlexCAN RX FIFO ID filter*/ /*! format C extended compare shift.*/ #define FLEXCAN_IP_RX_FIFO_ID_FILTER_FORMATC_STD_CMP_SHIFT (3U) /*!< FlexCAN RX FIFO ID filter*/ #if (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) #define FLEXCAN_IP_ENHANCED_IDHIT_MASK 0x7Fu #define FLEXCAN_IP_ENHANCED_IDHIT_SHIFT 0 #define FLEXCAN_IP_ENHANCED_IDHIT_WIDTH 7 #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_FSCH_SHIFT (30U) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Standard & Extended FSCH shift.*/ #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_STD_RTR2_SHIFT (27U) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Standard RTR-2 shift.*/ #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_STD_RTR1_SHIFT (11U) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Standard RTR-1 shift.*/ #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_EXT_RTR_SHIFT (29U) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Extended RTR shift.*/ #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_STD_SHIFT2 (16U) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Standard ID-2 shift.*/ #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_STD_SHIFT1 (0U) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Standard ID-1 shift.*/ #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_STD_MASK (0x7FFU) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Standard ID mask.*/ #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_EXT_SHIFT (0U) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Extended ID shift.*/ #define FLEXCAN_IP_ENHANCED_RX_FIFO_ID_FILTER_EXT_MASK (0x1FFFFFFFU) /*!< FlexCAN Enhanced RX FIFO ID filter*/ /*! Mask for enable all enhanced interrupts */ #define FLEXCAN_IP_ENHACED_RX_FIFO_ALL_INTERRUPT_MASK (FLEXCAN_ERFIER_ERFUFWIE_MASK | FLEXCAN_ERFIER_ERFOVFIE_MASK | \ FLEXCAN_ERFIER_ERFWMIIE_MASK | FLEXCAN_ERFIER_ERFDAIE_MASK \ ) /*! Mask for disable all enhanced interrupts */ #define FLEXCAN_IP_ENHACED_RX_FIFO_NO_INTERRUPT_MASK (0U) #endif /* (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_On) */ /* This are for little endians cores and supporting rev32 asm instuction */ #define FLEXCAN_IP_SWAP_BYTES_IN_WORD_INDEX(index) (((index) & ~3U) + (3U - ((index) & 3U))) #define FLEXCAN_IP_SWAP_BYTES_IN_WORD(a, b) FLEXCAN_IP_REV_BYTES_32(a, b) #define FLEXCAN_IP_REV_BYTES_32(a, b) ((b) = (((a) & 0xFF000000U) >> 24U) | (((a) & 0xFF0000U) >> 8U) \ | (((a) & 0xFF00U) << 8U) | (((a) & 0xFFU) << 24U)) /*================================================================================================== * ENUMS ==================================================================================================*/ /*! @brief FlexCAN message buffer CODE for Rx buffers*/ enum { FLEXCAN_RX_INACTIVE = 0x0, /*!< MB is not active.*/ FLEXCAN_RX_FULL = 0x2, /*!< MB is full.*/ FLEXCAN_RX_EMPTY = 0x4, /*!< MB is active and empty.*/ FLEXCAN_RX_OVERRUN = 0x6, /*!< MB is overwritten into a full buffer.*/ FLEXCAN_RX_BUSY = 0x8, /*!< FlexCAN is updating the contents of the MB.*/ /*! The CPU must not access the MB.*/ FLEXCAN_RX_RANSWER = 0xA, /*!< A frame was configured to recognize a Remote Request Frame*/ /*! and transmit a Response Frame in return.*/ FLEXCAN_RX_NOT_USED = 0xF /*!< Not used*/ }; /*! @brief FlexCAN message buffer CODE FOR Tx buffers*/ enum { FLEXCAN_TX_INACTIVE = 0x08, /*!< MB is not active.*/ FLEXCAN_TX_ABORT = 0x09, /*!< MB is aborted.*/ FLEXCAN_TX_DATA = 0x0C, /*!< MB is a TX Data Frame(MB RTR must be 0).*/ FLEXCAN_TX_REMOTE = 0x1C, /*!< MB is a TX Remote Request Frame (MB RTR must be 1).*/ FLEXCAN_TX_TANSWER = 0x0E, /*!< MB is a TX Response Request Frame from.*/ /*! an incoming Remote Request Frame.*/ FLEXCAN_TX_NOT_USED = 0xF /*!< Not used*/ }; /*! @brief FlexCAN error interrupt types */ typedef enum { FLEXCAN_INT_RX_WARNING = FLEXCAN_CTRL1_RWRNMSK_MASK, /*!< RX warning interrupt*/ FLEXCAN_INT_TX_WARNING = FLEXCAN_CTRL1_TWRNMSK_MASK, /*!< TX warning interrupt*/ FLEXCAN_INT_ERR = FLEXCAN_CTRL1_ERRMSK_MASK, /*!< Error interrupt*/ FLEXCAN_INT_ERR_FAST, /*!< Error Fast interrupt*/ FLEXCAN_INT_BUSOFF = FLEXCAN_CTRL1_BOFFMSK_MASK, /*!< Bus off interrupt*/ } flexcan_int_type_t; /*================================================================================================== * STRUCTURES AND OTHER TYPEDEFS ==================================================================================================*/ /*! @brief FlexCAN Message Buffer code and status for transmit and receive */ typedef struct { uint32 code; /*!< MB code for TX or RX buffers.*/ /*! Defined by flexcan_mb_code_rx_t and flexcan_mb_code_tx_t */ Flexcan_Ip_MsgBuffIdType msgIdType; /*!< Type of message ID (standard or extended)*/ uint32 dataLen; /*!< Length of Data in Bytes*/ boolean fd_enable; uint8 fd_padding; boolean enable_brs; /* Enable bit rate switch*/ } Flexcan_Ip_MsbuffCodeStatusType; /*================================================================================================== * GLOBAL VARIABLE DECLARATIONS ==================================================================================================*/ /*================================================================================================== * FUNCTION PROTOTYPES ==================================================================================================*/ #define CAN_START_SEC_CODE #include "Can_MemMap.h" void FLEXCAN_ClearMsgBuffIntCmd(FLEXCAN_Type * pBase, uint8 u8Instance, uint32 mb_idx, boolean bIsIntActive ); void FlexCAN_SetErrIntCmd(FLEXCAN_Type * base, flexcan_int_type_t errType, boolean enable ); Flexcan_Ip_StatusType FlexCAN_EnterFreezeMode(FLEXCAN_Type * base); /*! * @brief Sets the FlexCAN Rx FIFO fields. * * @param base The FlexCAN base address * @param idFormat The format of the Rx FIFO ID Filter Table Elements * @param idFilterTable The ID filter table elements which contain RTR bit, * IDE bit, and RX message ID. */ void FlexCAN_SetRxFifoFilter(FLEXCAN_Type * base, Flexcan_Ip_RxFifoIdElementFormatType idFormat, const Flexcan_Ip_IdTableType * idFilterTable ); /*! * @brief Gets the FlexCAN Rx FIFO data. * * @param base The FlexCAN base address * @param rxFifo The FlexCAN receive FIFO data */ void FlexCAN_ReadRxFifo(const FLEXCAN_Type * base, Flexcan_Ip_MsgBuffType * rxFifo ); /*! * @brief Un freezes the FlexCAN module. * * @param base The FlexCAN base address * @return FLEXCAN_STATUS_SUCCESS successfully exit from freeze * FLEXCAN_STATUS_TIMEOUT fail to exit from freeze */ Flexcan_Ip_StatusType FlexCAN_ExitFreezeMode(FLEXCAN_Type * base); Flexcan_Ip_StatusType FlexCAN_Disable(FLEXCAN_Type * base); Flexcan_Ip_StatusType FlexCAN_Enable(FLEXCAN_Type * base); /*! * @brief Locks the FlexCAN Rx message buffer. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * */ void FlexCAN_LockRxMsgBuff(const FLEXCAN_Type * base, uint32 msgBuffIdx ); /*! * @brief Enables/Disables the FlexCAN Message Buffer interrupt. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * @param enable choose enable or disable * @return FLEXCAN_STATUS_SUCCESS if successful; * FLEXCAN_STATUS_CAN_BUFF_OUT_OF_RANGE if the index of the * message buffer is invalid */ Flexcan_Ip_StatusType FlexCAN_SetMsgBuffIntCmd(FLEXCAN_Type * base, uint8 u8Instance, uint32 msgBuffIdx, boolean enable, boolean bIsIntActive ); /*! * @brief Disable all interrupts. * * @param pBase The FlexCAN base address */ void FlexCAN_DisableInterrupts(FLEXCAN_Type * pBase); /*! * @brief Enable all interrupts configured. * * @param pBase The FlexCAN base address * @param u8Instance A FlexCAN instance number */ void FlexCAN_EnableInterrupts(FLEXCAN_Type * pBase, uint8 u8Instance); /*! * @brief Sets the FlexCAN message buffer fields for transmitting. * * @param pMbAddr The Message buffer address * @param cs CODE/status values (TX) * @param msgId ID of the message to transmit * @param msgData Bytes of the FlexCAN message * @param isRemote Will set RTR remote Flag * @return FLEXCAN_STATUS_SUCCESS if successful; * FLEXCAN_STATUS_CAN_BUFF_OUT_OF_RANGE if the index of the * message buffer is invalid */ void FlexCAN_SetTxMsgBuff(volatile uint32 * const pMbAddr, const Flexcan_Ip_MsbuffCodeStatusType * cs, uint32 msgId, const uint8 * msgData, const boolean isRemote ); /*! * @brief Enables the Rx FIFO. * * @param base The FlexCAN base address * @param numOfFilters The number of Rx FIFO filters * @return The status of the operation * @retval FLEXCAN_STATUS_SUCCESS RxFIFO was successfully enabled * @retval FLEXCAN_STATUS_ERROR RxFIFO could not be enabled (e.g. the FD feature * was enabled, and these two features are not compatible) */ Flexcan_Ip_StatusType FlexCAN_EnableRxFifo(FLEXCAN_Type * base, uint32 numOfFilters); /*! * @brief Sets the maximum number of Message Buffers. * * @param base The FlexCAN base address * @param maxMsgBuffNum Maximum number of message buffers * @return FLEXCAN_STATUS_SUCCESS if successful; * FLEXCAN_STATUS_BUFF_OUT_OF_RANGE if the index of the * message buffer is invalid */ Flexcan_Ip_StatusType FlexCAN_SetMaxMsgBuffNum(FLEXCAN_Type * base, uint32 maxMsgBuffNum); /*! * @brief Sets the FlexCAN message buffer fields for receiving. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * @param cs CODE/status values (RX) * @param msgId ID of the message to receive * @return FLEXCAN_STATUS_SUCCESS if successful; * FLEXCAN_STATUS_BUFF_OUT_OF_RANGE if the index of the * message buffer is invalid */ void FlexCAN_SetRxMsgBuff(const FLEXCAN_Type * base, uint32 msgBuffIdx, const Flexcan_Ip_MsbuffCodeStatusType * cs, uint32 msgId ); /*! * @brief Gets the message buffer timestamp value. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * @return value of timestamp for selected message buffer. */ uint32 FlexCAN_GetMsgBuffTimestamp(const FLEXCAN_Type * base, uint32 msgBuffIdx); /*! * @brief Gets the FlexCAN message buffer fields. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * @param msgBuff The fields of the message buffer */ void FlexCAN_GetMsgBuff(const FLEXCAN_Type * base, uint32 msgBuffIdx, Flexcan_Ip_MsgBuffType * msgBuff ); #if (FLEXCAN_IP_FEATURE_HAS_FD == STD_ON) #if defined(CAN_FEATURE_S32K1XX) /*! * @brief Check if instance support FD. * * @param[in] base The FlexCAN base address * @return TRUE\FALSE if support FD. */ boolean FlexCAN_IsFDAvailable(const FLEXCAN_Type * base); #endif /*! * @brief Sets the payload size of the MBs. * * @param base The FlexCAN base address * @param payloadSize The payload size */ void FlexCAN_SetPayloadSize(FLEXCAN_Type * base, const Flexcan_Ip_PayloadSizeType * payloadSize); /*! * @brief Check If mb index is out of range or not. * * @param pBase The FlexCAN base address * @param u8MbIndex MB index * @param bIsLegacyFifoEn Legacy fifo enabled or not * @param u32MaxMbNum Max mb number */ boolean FlexCAN_IsMbOutOfRange ( const FLEXCAN_Type * pBase, uint8 u8MbIndex, boolean bIsLegacyFifoEn, uint32 u32MaxMbNum ); /*! * @brief Sets the FlexCAN RX FIFO global mask. * * @param[in] base The FlexCAN base address * @param[in] Mask Sets mask */ static inline void FlexCAN_SetRxFifoGlobalMask(FLEXCAN_Type * base, uint32 Mask) { (base->RXFGMASK) = Mask; } /*! * @brief Enables/Disables the Transceiver Delay Compensation feature and sets * the Transceiver Delay Compensation Offset (offset value to be added to the * measured transceiver's loop delay in order to define the position of the * delayed comparison point when bit rate switching is active). * * @param base The FlexCAN base address * @param enable Enable/Disable Transceiver Delay Compensation * @param offset Transceiver Delay Compensation Offset */ static inline void FlexCAN_SetTDCOffset(FLEXCAN_Type * base, boolean enable, uint8 offset ) { uint32 tmp; tmp = base->FDCTRL; tmp &= ~(FLEXCAN_FDCTRL_TDCEN_MASK | FLEXCAN_FDCTRL_TDCOFF_MASK); if (enable) { tmp = tmp | FLEXCAN_FDCTRL_TDCEN_MASK; tmp = tmp | FLEXCAN_FDCTRL_TDCOFF(offset); } base->FDCTRL = tmp; } #if (FLEXCAN_IP_FEATURE_HAS_ENHANCE_CBT == STD_ON) /*! * @brief Enables/Disables the Transceiver Delay Compensation feature and sets * the Transceiver Delay Compensation Offset (offset value to be added to the * measured transceiver's loop delay in order to define the position of the * delayed comparison point when bit rate switching is active). * * @param base The FlexCAN base address * @param enable Enable/Disable Transceiver Delay Compensation * @param offset Transceiver Delay Compensation Offset */ static inline void FlexCAN_SetEnhancedTDCOffset(FLEXCAN_Type * base, boolean enable, uint8 offset ) { uint32 tmp; tmp = base->ETDC; tmp &= ~(FLEXCAN_ETDC_ETDCEN_MASK | FLEXCAN_ETDC_ETDCOFF_MASK); if (enable) { tmp = tmp | FLEXCAN_ETDC_ETDCEN_MASK; tmp = tmp | FLEXCAN_ETDC_ETDCOFF(offset); } base->ETDC = tmp; } #endif #endif /* FLEXCAN_IP_FEATURE_HAS_FD */ /*! * @brief Gets the payload size of the MBs. * * @param base The FlexCAN base address * @return The payload size in bytes */ uint8 FlexCAN_GetMbPayloadSize(const FLEXCAN_Type * base, uint32 maxMsgBuffNum); /*! * @brief Initializes the FlexCAN controller. * * @param base The FlexCAN base address */ Flexcan_Ip_StatusType FlexCAN_Init(FLEXCAN_Type * base); /*! * @brief Checks if the FlexCAN is enabled. * * @param base The FlexCAN base address * @return TRUE if enabled; FALSE if disabled */ static inline boolean FlexCAN_IsEnabled(const FLEXCAN_Type * pBase) { return (((pBase->MCR & FLEXCAN_MCR_MDIS_MASK) >> FLEXCAN_MCR_MDIS_SHIFT) != 0U) ? FALSE : TRUE; } #if (FLEXCAN_IP_FEATURE_HAS_MEM_ERR_DET == STD_ON) /*! * @brief Disable Error Detection and Correction of Memory Errors. * * @param base The FlexCAN base address */ static inline void FlexCAN_DisableMemErrorDetection(FLEXCAN_Type * base) { /* Enable write of MECR register */ base->CTRL2 |= FLEXCAN_CTRL2_ECRWRE(1); /* Enable write of MECR */ base->MECR = FLEXCAN_MECR_ECRWRDIS(0); /* Disable Error Detection and Correction mechanism, * that will set CAN in Freez Mode in case of trigger */ base->MECR = FLEXCAN_MECR_NCEFAFRZ(0); /* Disable memory error correction */ base->MECR |= FLEXCAN_MECR_ECCDIS(1); /* Disable write of MECR */ base->CTRL2 &= ~FLEXCAN_CTRL2_ECRWRE(1); } #endif /* FLEXCAN_IP_FEATURE_HAS_MEM_ERR_DET */ /*! * @brief Enables/Disables Flexible Data rate (if supported). * * @param base The FlexCAN base address * @param enable TRUE to enable; FALSE to disable */ static inline void FlexCAN_SetFDEnabled(FLEXCAN_Type * base, boolean enableFD, boolean enableBRS ) { base->MCR = (base->MCR & ~FLEXCAN_MCR_FDEN_MASK) | FLEXCAN_MCR_FDEN(enableFD ? 1UL : 0UL); /* Enable BitRate Switch support from BRS_TX_MB field or ignore it */ base->FDCTRL = (base->FDCTRL & ~FLEXCAN_FDCTRL_FDRATE_MASK) | FLEXCAN_FDCTRL_FDRATE(enableBRS ? 1UL : 0UL); /* Disable Transmission Delay Compensation by default */ base->FDCTRL &= ~(FLEXCAN_FDCTRL_TDCEN_MASK | FLEXCAN_FDCTRL_TDCOFF_MASK); } /*! * @brief Enables/Disables Listen Only Mode. * * @param base The FlexCAN base address * @param enable TRUE to enable; FALSE to disable */ static inline void FlexCAN_SetListenOnlyMode(FLEXCAN_Type * base, boolean enableListenOnly) { base->CTRL1 = (base->CTRL1 & ~FLEXCAN_CTRL1_LOM_MASK) | FLEXCAN_CTRL1_LOM(enableListenOnly ? 1UL : 0UL); } #if (FLEXCAN_IP_FEATURE_HAS_DMA_ENABLE == STD_ON) /*! * @brief Clears the FIFO * * @param base The FlexCAN base address */ static inline void FlexCAN_ClearFIFO(FLEXCAN_Type * base) { base->IFLAG1 = FLEXCAN_IFLAG1_BUF0I_MASK; } /*! * @brief Enables/Disables the DMA support for RxFIFO. * * @param base The FlexCAN base address * @param enable Enable/Disable DMA support */ static inline void FlexCAN_SetRxFifoDMA(FLEXCAN_Type * base, boolean enable) { base->MCR = (base->MCR & ~FLEXCAN_MCR_DMA_MASK) | FLEXCAN_MCR_DMA(enable ? 1UL : 0UL); } #if (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) /*! * @brief Resets Enhanced Rx FIFO engine and state. * * @param base The FlexCAN base address */ static inline void FlexCAN_ClearEnhancedRxFifoEngine(FLEXCAN_Type * base) { base->ERFSR = base->ERFSR | FLEXCAN_ERFSR_ERFCLR_MASK; } /*! * @brief Clears the Enhanced Rx FIFO * * @param base The FlexCAN base address */ static inline void FlexCAN_ClearEnhancedFIFO(FLEXCAN_Type * base) { base->ERFSR = FLEXCAN_ERFSR_ERFCLR_MASK; } /*! * @brief Configure the number of words to transfer for each Enhanced Rx FIFO data element in DMA mode. * * @param base The FlexCAN base address * @param numOfWords The number of words to transfer */ static inline void FlexCAN_ConfigEnhancedRxFifoDMA(FLEXCAN_Type * base, uint32 numOfWords) { base->ERFCR = (base->ERFCR & (~FLEXCAN_ERFCR_DMALW_MASK)) | (((numOfWords - 1u) << FLEXCAN_ERFCR_DMALW_SHIFT) & FLEXCAN_ERFCR_DMALW_MASK); } #endif /* FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO */ #endif /* if FLEXCAN_IP_FEATURE_HAS_DMA_ENABLE */ /*! * @brief Get The Max no of MBs allowed on CAN instance. * * @param base The FlexCAN base address * @return The Max No of MBs on the CAN instance; */ uint32 FlexCAN_GetMaxMbNum(const FLEXCAN_Type * base); /*! * @brief Unlocks the FlexCAN Rx message buffer. * * @param base The FlexCAN base address */ static inline void FlexCAN_UnlockRxMsgBuff(const FLEXCAN_Type * base) { /* Unlock the mailbox by reading the free running timer */ (void)base->TIMER; } /*! * @brief Clears the interrupt flag of the message buffers. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer */ static inline void FlexCAN_ClearMsgBuffIntStatusFlag(FLEXCAN_Type * base, uint32 msgBuffIdx) { uint32 flag = ((uint32)1U << (msgBuffIdx % 32U)); /* Clear the corresponding message buffer interrupt flag*/ if (msgBuffIdx < 32U) { (base->IFLAG1) = (flag); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U else if (msgBuffIdx < 64U) { (base->IFLAG2) = (flag); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 64U else { /* Required Rule 15.7, no 'else' at end of 'if ... else if' chain */ } #endif #endif /* if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U */ #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U else if (msgBuffIdx < 96U) { (base->IFLAG3) = (flag); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 96U else { /* Required Rule 15.7, no 'else' at end of 'if ... else if' chain */ } #endif #endif /* if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U */ #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 96U else { (base->IFLAG4) = (flag); } #endif } /*! * @brief Get the interrupt flag of the message buffers. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * @return flag The value of interrupt flag of the message buffer. */ static inline uint8 FlexCAN_GetBuffStatusFlag(const FLEXCAN_Type * base, uint32 msgBuffIdx) { uint32 flag = 0U; if (msgBuffIdx < 32U) { flag = ((base->IFLAG1 & ((uint32)1U << (msgBuffIdx % 32U))) >> (msgBuffIdx % 32U)); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U else if (msgBuffIdx < 64U) { flag = ((base->IFLAG2 & ((uint32)1U << (msgBuffIdx % 32U))) >> (msgBuffIdx % 32U)); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 64U else { /* Required Rule 15.7, no 'else' at end of 'if ... else if' chain */ } #endif /* FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 64U */ #endif /* FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U */ #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U else if (msgBuffIdx < 96U) { flag = ((base->IFLAG3 & ((uint32)1U << (msgBuffIdx % 32U))) >> (msgBuffIdx % 32U)); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 96U else { /* Required Rule 15.7, no 'else' at end of 'if ... else if' chain */ } #endif /* FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 96U */ #endif /* FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U */ #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 96U else { flag = ((base->IFLAG4 & ((uint32)1U << (msgBuffIdx % 32U))) >> (msgBuffIdx % 32U)); } #endif return (uint8)flag; } /*! * @brief Get the interrupt Imask of the message buffers. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * @return Imask The value of interrupt Imask of the message buffer. */ static inline uint8 FlexCAN_GetBuffStatusImask(const FLEXCAN_Type * base, uint32 msgBuffIdx) { uint32 u32Imask = 0U; if (msgBuffIdx < 32U) { u32Imask = ((base->IMASK1 & ((uint32)1U << (msgBuffIdx % 32U))) >> (msgBuffIdx % 32U)); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U else if (msgBuffIdx < 64U) { u32Imask = ((base->IMASK2 & ((uint32)1U << (msgBuffIdx % 32U))) >> (msgBuffIdx % 32U)); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 64U else { /* Required Rule 15.7, no 'else' at end of 'if ... else if' chain */ } #endif /* FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 64U */ #endif /* FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U */ #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U else if (msgBuffIdx < 96U) { u32Imask = ((base->IMASK3 & ((uint32)1U << (msgBuffIdx % 32U))) >> (msgBuffIdx % 32U)); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 96U else { /* Required Rule 15.7, no 'else' at end of 'if ... else if' chain */ } #endif /* FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 96U */ #endif /* FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U */ #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 96U else { u32Imask = ((base->IMASK4 & ((uint32)1U << (msgBuffIdx % 32U))) >> (msgBuffIdx % 32U)); } #endif return (uint8)u32Imask; } #if (FLEXCAN_IP_FEATURE_HAS_FD == STD_ON) /*! * @brief Sets the FlexCAN time segments for setting up bit rate for FD BRS. * * @param base The FlexCAN base address * @param timeSeg FlexCAN time segments, which need to be set for the bit rate. */ static inline void FlexCAN_SetFDTimeSegments(FLEXCAN_Type * base, const Flexcan_Ip_TimeSegmentType * timeSeg) { #if (FLEXCAN_IP_DEV_ERROR_DETECT == STD_ON) DevAssert(timeSeg != NULL_PTR); #endif /* Set FlexCAN time segments*/ (base->FDCBT) = ((base->FDCBT) & ~((FLEXCAN_FDCBT_FPROPSEG_MASK | FLEXCAN_FDCBT_FPSEG2_MASK | FLEXCAN_FDCBT_FPSEG1_MASK | FLEXCAN_FDCBT_FPRESDIV_MASK ) | FLEXCAN_FDCBT_FRJW_MASK ) ); (base->FDCBT) = ((base->FDCBT) | (FLEXCAN_FDCBT_FPROPSEG(timeSeg->propSeg) | FLEXCAN_FDCBT_FPSEG2(timeSeg->phaseSeg2) | FLEXCAN_FDCBT_FPSEG1(timeSeg->phaseSeg1) | FLEXCAN_FDCBT_FPRESDIV(timeSeg->preDivider) | FLEXCAN_FDCBT_FRJW(timeSeg->rJumpwidth) ) ); } #endif /* FLEXCAN_IP_FEATURE_HAS_FD */ /*! * @brief Sets the FlexCAN time segments for setting up bit rate. * * @param base The FlexCAN base address * @param timeSeg FlexCAN time segments, which need to be set for the bit rate. */ static inline void FlexCAN_SetTimeSegments(FLEXCAN_Type * base, const Flexcan_Ip_TimeSegmentType * timeSeg) { #if (FLEXCAN_IP_DEV_ERROR_DETECT == STD_ON) DevAssert(timeSeg != NULL_PTR); #endif (base->CTRL1) = ((base->CTRL1) & ~((FLEXCAN_CTRL1_PROPSEG_MASK | FLEXCAN_CTRL1_PSEG2_MASK | FLEXCAN_CTRL1_PSEG1_MASK | FLEXCAN_CTRL1_PRESDIV_MASK ) | FLEXCAN_CTRL1_RJW_MASK ) ); (base->CTRL1) = ((base->CTRL1) | (FLEXCAN_CTRL1_PROPSEG(timeSeg->propSeg) | FLEXCAN_CTRL1_PSEG2(timeSeg->phaseSeg2) | FLEXCAN_CTRL1_PSEG1(timeSeg->phaseSeg1) | FLEXCAN_CTRL1_PRESDIV(timeSeg->preDivider) | FLEXCAN_CTRL1_RJW(timeSeg->rJumpwidth) ) ); } /*! * @brief Sets the FlexCAN extended time segments for setting up bit rate. * * @param base The FlexCAN base address * @param timeSeg FlexCAN time segments, which need to be set for the bit rate. */ static inline void FlexCAN_SetExtendedTimeSegments(FLEXCAN_Type * base, const Flexcan_Ip_TimeSegmentType * timeSeg) { #if (FLEXCAN_IP_DEV_ERROR_DETECT == STD_ON) DevAssert(timeSeg != NULL_PTR); #endif /* If extended bit time definitions are enabled, use CBT register */ (base->CBT) = ((base->CBT) & ~((FLEXCAN_CBT_EPROPSEG_MASK | FLEXCAN_CBT_EPSEG2_MASK | FLEXCAN_CBT_EPSEG1_MASK | FLEXCAN_CBT_EPRESDIV_MASK ) | FLEXCAN_CBT_ERJW_MASK ) ); (base->CBT) = ((base->CBT) | (FLEXCAN_CBT_EPROPSEG(timeSeg->propSeg) | FLEXCAN_CBT_EPSEG2(timeSeg->phaseSeg2) | FLEXCAN_CBT_EPSEG1(timeSeg->phaseSeg1) | FLEXCAN_CBT_EPRESDIV(timeSeg->preDivider) | FLEXCAN_CBT_ERJW(timeSeg->rJumpwidth) ) ); } #if (FLEXCAN_IP_FEATURE_HAS_ENHANCE_CBT == STD_ON) /*! * @brief Sets the FlexCAN Enhanced time segments for setting up nominal bit rate. * * @param base The FlexCAN base address * @param timeSeg FlexCAN time segments, which need to be set for the bit rate. */ static inline void FlexCAN_SetEnhancedNominalTimeSegments(FLEXCAN_Type * base, const Flexcan_Ip_TimeSegmentType * timeSeg) { #if (FLEXCAN_IP_DEV_ERROR_DETECT == STD_ON) DevAssert(timeSeg != NULL_PTR); #endif (base->ENCBT) = ((base->ENCBT) & ~(FLEXCAN_ENCBT_NTSEG1_MASK | FLEXCAN_ENCBT_NTSEG2_MASK | FLEXCAN_ENCBT_NRJW_MASK)); (base->ENCBT) = ((base->ENCBT) |(FLEXCAN_ENCBT_NTSEG1(timeSeg->phaseSeg1 + timeSeg->propSeg + 1U) | FLEXCAN_ENCBT_NTSEG2(timeSeg->phaseSeg2) | FLEXCAN_ENCBT_NRJW(timeSeg->rJumpwidth) ) ); (base->EPRS) = (base->EPRS & ~FLEXCAN_EPRS_ENPRESDIV_MASK); (base->EPRS) |= FLEXCAN_EPRS_ENPRESDIV(timeSeg->preDivider); } /*! * @brief Get the FlexCAN Enhanced time segments for nominal bit rate. * * @param base The FlexCAN base address * @param timeSeg FlexCAN time segments, which need to be set for the bit rate. */ static inline void FlexCAN_GetEnhancedNominalTimeSegments(const FLEXCAN_Type * base, Flexcan_Ip_TimeSegmentType * timeSeg) { timeSeg->propSeg = 0; timeSeg->preDivider = ((base->EPRS & FLEXCAN_EPRS_ENPRESDIV_MASK) >> FLEXCAN_EPRS_ENPRESDIV_SHIFT); timeSeg->phaseSeg1 = ((base->ENCBT & FLEXCAN_ENCBT_NTSEG1_MASK) >> FLEXCAN_ENCBT_NTSEG1_SHIFT); timeSeg->phaseSeg2 = ((base->ENCBT & FLEXCAN_ENCBT_NTSEG2_MASK) >> FLEXCAN_ENCBT_NTSEG2_SHIFT); timeSeg->rJumpwidth = ((base->ENCBT & FLEXCAN_ENCBT_NRJW_MASK) >> FLEXCAN_ENCBT_NRJW_SHIFT); } /*! * @brief Sets the FlexCAN Enhanced time segments for setting up data bit rate. * * @param base The FlexCAN base address * @param timeSeg FlexCAN time segments, which need to be set for the bit rate. */ static inline void FlexCAN_SetEnhancedDataTimeSegments(FLEXCAN_Type * base, const Flexcan_Ip_TimeSegmentType * timeSeg) { #if (FLEXCAN_IP_DEV_ERROR_DETECT == STD_ON) DevAssert(timeSeg != NULL_PTR); #endif (base->EDCBT) = ((base->EDCBT) & ~(FLEXCAN_EDCBT_DTSEG1_MASK | FLEXCAN_EDCBT_DTSEG2_MASK | FLEXCAN_EDCBT_DRJW_MASK)); (base->EDCBT) = ((base->EDCBT) | (FLEXCAN_EDCBT_DTSEG1(timeSeg->phaseSeg1 + timeSeg->propSeg) | FLEXCAN_EDCBT_DTSEG2(timeSeg->phaseSeg2) | FLEXCAN_EDCBT_DRJW(timeSeg->rJumpwidth) ) ); (base->EPRS) = (base->EPRS & ~FLEXCAN_EPRS_EDPRESDIV_MASK); (base->EPRS) |= FLEXCAN_EPRS_EDPRESDIV(timeSeg->preDivider); } static inline void FlexCAN_GetEnhancedDataTimeSegments(const FLEXCAN_Type * base, Flexcan_Ip_TimeSegmentType * timeSeg) { #if (FLEXCAN_IP_DEV_ERROR_DETECT == STD_ON) DevAssert(timeSeg != NULL_PTR); #endif timeSeg->propSeg = 0U; timeSeg->phaseSeg1 = ((base->EDCBT & FLEXCAN_EDCBT_DTSEG1_MASK) >> FLEXCAN_EDCBT_DTSEG1_SHIFT); timeSeg->phaseSeg2 = ((base->EDCBT & FLEXCAN_EDCBT_DTSEG2_MASK) >> FLEXCAN_EDCBT_DTSEG2_SHIFT); timeSeg->rJumpwidth = ((base->EDCBT & FLEXCAN_EDCBT_DRJW_MASK) >> FLEXCAN_EDCBT_DRJW_SHIFT); timeSeg->preDivider = ((base->EPRS & FLEXCAN_EPRS_EDPRESDIV_MASK) >> FLEXCAN_EPRS_EDPRESDIV_SHIFT); } #endif /* (FLEXCAN_IP_FEATURE_HAS_ENHANCE_CBT == STD_ON) */ /*! * @brief Gets the FlexCAN extended time segments used for setting up bit rate. * * @param[in] base The FlexCAN base address * @param[out] timeSeg FlexCAN time segments read for bit rate */ static inline void FlexCAN_GetExtendedTimeSegments(const FLEXCAN_Type * base, Flexcan_Ip_TimeSegmentType * timeSeg) { timeSeg->preDivider = ((base->CBT) & FLEXCAN_CBT_EPRESDIV_MASK) >> FLEXCAN_CBT_EPRESDIV_SHIFT; timeSeg->propSeg = ((base->CBT) & FLEXCAN_CBT_EPROPSEG_MASK) >> FLEXCAN_CBT_EPROPSEG_SHIFT; timeSeg->phaseSeg1 = ((base->CBT) & FLEXCAN_CBT_EPSEG1_MASK) >> FLEXCAN_CBT_EPSEG1_SHIFT; timeSeg->phaseSeg2 = ((base->CBT) & FLEXCAN_CBT_EPSEG2_MASK) >> FLEXCAN_CBT_EPSEG2_SHIFT; timeSeg->rJumpwidth = ((base->CBT) & FLEXCAN_CBT_ERJW_MASK) >> FLEXCAN_CBT_ERJW_SHIFT; } /*! * @brief Gets the FlexCAN time segments to calculate the bit rate. * * @param[in] base The FlexCAN base address * @param[out] timeSeg FlexCAN time segments read for bit rate */ static inline void FlexCAN_GetTimeSegments(const FLEXCAN_Type * base, Flexcan_Ip_TimeSegmentType * timeSeg) { timeSeg->preDivider = ((base->CTRL1) & FLEXCAN_CTRL1_PRESDIV_MASK) >> FLEXCAN_CTRL1_PRESDIV_SHIFT; timeSeg->propSeg = ((base->CTRL1) & FLEXCAN_CTRL1_PROPSEG_MASK) >> FLEXCAN_CTRL1_PROPSEG_SHIFT; timeSeg->phaseSeg1 = ((base->CTRL1) & FLEXCAN_CTRL1_PSEG1_MASK) >> FLEXCAN_CTRL1_PSEG1_SHIFT; timeSeg->phaseSeg2 = ((base->CTRL1) & FLEXCAN_CTRL1_PSEG2_MASK) >> FLEXCAN_CTRL1_PSEG2_SHIFT; timeSeg->rJumpwidth = ((base->CTRL1) & FLEXCAN_CTRL1_RJW_MASK) >> FLEXCAN_CTRL1_RJW_SHIFT; } #if (FLEXCAN_IP_FEATURE_HAS_FD == STD_ON) /*! * @brief Gets the FlexCAN time segments for FD BRS to calculate the bit rate. * * @param base The FlexCAN base address * @param timeSeg FlexCAN time segments read for bit rate */ static inline void FlexCAN_GetFDTimeSegments(const FLEXCAN_Type * base, Flexcan_Ip_TimeSegmentType * timeSeg) { timeSeg->preDivider = ((base->FDCBT) & FLEXCAN_FDCBT_FPRESDIV_MASK) >> FLEXCAN_FDCBT_FPRESDIV_SHIFT; timeSeg->propSeg = ((base->FDCBT) & FLEXCAN_FDCBT_FPROPSEG_MASK) >> FLEXCAN_FDCBT_FPROPSEG_SHIFT; timeSeg->phaseSeg1 = ((base->FDCBT) & FLEXCAN_FDCBT_FPSEG1_MASK) >> FLEXCAN_FDCBT_FPSEG1_SHIFT; timeSeg->phaseSeg2 = ((base->FDCBT) & FLEXCAN_FDCBT_FPSEG2_MASK) >> FLEXCAN_FDCBT_FPSEG2_SHIFT; timeSeg->rJumpwidth = ((base->FDCBT) & FLEXCAN_FDCBT_FRJW_MASK) >> FLEXCAN_FDCBT_FRJW_SHIFT; } #endif /* if FLEXCAN_IP_FEATURE_HAS_FD */ /*! * @brief Checks if the Extended Time Segment are enabled. * * @param base The FlexCAN base address * @return TRUE if enabled; FALSE if disabled */ static inline boolean FlexCAN_IsExCbtEnabled(const FLEXCAN_Type * pBase) { return (0U == ((pBase->CBT & FLEXCAN_CBT_BTF_MASK) >> FLEXCAN_CBT_BTF_SHIFT)) ? FALSE : TRUE; } #if (FLEXCAN_IP_FEATURE_HAS_ENHANCE_CBT == STD_ON) /*! * @brief Checks if the Enhanced Time Segment are enabled. * * @param base The FlexCAN base address * @return TRUE if enabled; FALSE if disabled */ static inline boolean FlexCAN_IsEnhCbtEnabled(const FLEXCAN_Type * pBase) { return (0U == ((pBase->CTRL2 & FLEXCAN_CTRL2_BTE_MASK) >> FLEXCAN_CTRL2_BTE_SHIFT)) ? FALSE : TRUE; } /*! * @brief Set the Enhanced Time Segment are enabled or disabled. * * @param base The FlexCAN base address * @param enableCBT Enable/Disable use of Enhanced Time Segments */ static inline void FlexCAN_EnhCbtEnable(FLEXCAN_Type * base, boolean enableCBT) { /* Enable the use of extended bit time definitions */ base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_BTE_MASK) | FLEXCAN_CTRL2_BTE(enableCBT ? 1UL : 0UL); } #endif /*! * @brief Set the Extended Time Segment are enabled or disabled. * * @param base The FlexCAN base address * @param enableCBT Enable/Disable use of Extent Time Segments */ static inline void FlexCAN_EnableExtCbt(FLEXCAN_Type * base, boolean enableCBT) { /* Enable the use of extended bit time definitions */ base->CBT = (base->CBT & ~FLEXCAN_CBT_BTF_MASK) | FLEXCAN_CBT_BTF(enableCBT ? 1UL : 0UL); } /*! * @brief Set operation mode. * * @param base The FlexCAN base address * @param mode Set an operation mode */ void FlexCAN_SetOperationMode(FLEXCAN_Type * base, Flexcan_Ip_ModesType mode); /*! * @brief Enables/Disables the Self Reception feature. * * If enabled, FlexCAN is allowed to receive frames transmitted by itself. * * @param base The FlexCAN base address * @param enable Enable/Disable Self Reception */ static inline void FlexCAN_SetSelfReception(FLEXCAN_Type * base, boolean enable) { base->MCR = (base->MCR & ~FLEXCAN_MCR_SRXDIS_MASK) | FLEXCAN_MCR_SRXDIS(enable ? 0UL : 1UL); } /*! * @brief Checks if the Flexible Data rate feature is enabled. * * @param base The FlexCAN base address * @return TRUE if enabled; FALSE if disabled */ static inline boolean FlexCAN_IsFDEnabled(const FLEXCAN_Type * base) { return ((base->MCR & FLEXCAN_MCR_FDEN_MASK) >> FLEXCAN_MCR_FDEN_SHIFT) != 0U; } /*! * @brief Checks if the listen only mode is enabled. * * @param base The FlexCAN base address * @return TRUE if enabled; FALSE if disabled */ static inline boolean FlexCAN_IsListenOnlyModeEnabled(const FLEXCAN_Type * base) { return (((base->CTRL1 & (FLEXCAN_CTRL1_LOM_MASK)) != 0U) ? TRUE : FALSE); } /*! * @brief Return last Message Buffer Occupied By RxFIFO * * @param x Number of Configured RxFIFO Filters * @return number of last MB occupied by RxFIFO */ static inline uint32 RxFifoOcuppiedLastMsgBuff(uint32 x) { return 5U + ((((x) + 1U) * 8U) / 4U); } #if (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) /*! * @brief Computes the maximum payload size (in bytes), given a DLC * * @param dlcValue DLC code from the MB memory. * @return payload size (in bytes) */ uint8 FlexCAN_ComputePayloadSize(uint8 dlcValue); #endif /*(FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) */ /*! * @brief Sets the FlexCAN message buffer fields for transmitting. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * @return Pointer to the beginning of the MBs space address */ volatile uint32 * FlexCAN_GetMsgBuffRegion(const FLEXCAN_Type * base, uint32 msgBuffIdx); /*! * @brief Enables/Disables FD frame compatible with ISO-FD Frame ISO 11898-1 (2003) * * The CAN FD protocol has been improved to increase the failure detection capability that was in the original CAN FD protocol, * which is also called non-ISO CAN FD, by CAN in Automation (CiA). A three-bit stuff counter and a parity bit have been introduced * in the improved CAN FD protocol, now called ISO CAN FD. The CRC calculation has also been modified. All these improvements * make the ISO CAN FD protocol incompatible with the non-FD CAN FD protocol. * * @param base The FlexCAN base address * @param enable Enable/Disable ISO FD Compatible mode. */ #if (FLEXCAN_IP_FEATURE_SWITCHINGISOMODE == STD_ON) static inline void FlexCAN_SetIsoCan(FLEXCAN_Type * base, boolean enable) { base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_ISOCANFDEN_MASK) | FLEXCAN_CTRL2_ISOCANFDEN(enable ? 1UL : 0UL); } #endif static inline void FlexCAN_SetEntireFrameArbitrationFieldComparison(FLEXCAN_Type * base, boolean enable) { base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_EACEN_MASK) | FLEXCAN_CTRL2_EACEN(enable ? 1UL : 0UL); } #if (FLEXCAN_IP_FEATURE_PROTOCOLEXCEPTION == STD_ON) static inline void FlexCAN_SetProtocolException(FLEXCAN_Type * base, boolean enable) { base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_PREXCEN_MASK) | FLEXCAN_CTRL2_PREXCEN(enable ? 1UL : 0UL); } #endif static inline void FlexCAN_SetRemoteReqStore(FLEXCAN_Type * base, boolean enable) { base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_RRS_MASK) | FLEXCAN_CTRL2_RRS(enable ? 1UL : 0UL); } static inline void FlexCAN_SetBusOffAutorecovery(FLEXCAN_Type * base, boolean enable) { base->CTRL1 = (base->CTRL1 & ~FLEXCAN_CTRL1_BOFFREC_MASK) | FLEXCAN_CTRL1_BOFFREC(enable ? 0UL : 1UL); } #if (FLEXCAN_IP_FEATURE_EDGEFILTER == STD_ON) static inline void FlexCAN_SetEdgeFilter(FLEXCAN_Type * base, boolean enable) { base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_EDFLTDIS_MASK) | FLEXCAN_CTRL2_EDFLTDIS(enable ? 0UL : 1UL); } #endif static inline void FlexCAN_CanBitSampling(FLEXCAN_Type * base, boolean enable) { base->CTRL1 = (base->CTRL1 & ~FLEXCAN_CTRL1_SMP_MASK) | FLEXCAN_CTRL1_SMP(enable ? 1UL : 0UL); } #if (FLEXCAN_IP_FEATURE_HAS_PE_CLKSRC_SELECT == STD_ON) static inline void FlexCAN_SetClkSrc(FLEXCAN_Type * base, boolean enable) { base->CTRL1 = (base->CTRL1 & ~FLEXCAN_CTRL1_CLKSRC_MASK) | FLEXCAN_CTRL1_CLKSRC(enable ? 1UL : 0UL); } #endif /*! * @brief Gets the individual FlexCAN MB interrupt flag. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer * @return the individual Message Buffer interrupt flag (0 and 1 are the flag value) */ static inline uint8 FlexCAN_GetMsgBuffIntStatusFlag(const FLEXCAN_Type * base, uint32 msgBuffIdx) { /* TODO: This need to be protected multithread access*/ uint8 flag = 0; uint32 mask; if (msgBuffIdx < 32U) { mask = base->IMASK1 & FLEXCAN_IMASK1_BUF31TO0M_MASK; flag = (uint8)(((base->IFLAG1 & mask) >> (msgBuffIdx % 32U)) & 1U); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U else if (msgBuffIdx < 64U) { mask = base->IMASK2 & FLEXCAN_IMASK2_BUF63TO32M_MASK; flag = (uint8)(((base->IFLAG2 & mask) >> (msgBuffIdx % 32U)) & 1U); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 64U else { /* Required Rule 15.7, no 'else' at end of 'if ... else if' chain */ } #endif #endif /* if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U */ #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U else if (msgBuffIdx < 96U) { mask = base->IMASK3 & FLEXCAN_IMASK3_BUF95TO64M_MASK; flag = (uint8)(((base->IFLAG3 & mask) >> (msgBuffIdx % 32U)) & 1U); } #if FLEXCAN_IP_FEATURE_MAX_MB_NUM <= 96U else { /* Required Rule 15.7, no 'else' at end of 'if ... else if' chain */ } #endif #endif /* if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U */ #if FLEXCAN_IP_FEATURE_MAX_MB_NUM > 96U else { mask = base->IMASK4 & FLEXCAN_IMASK4_BUF127TO96M_MASK; flag = (uint8)(((base->IFLAG4 & mask) >> (msgBuffIdx % 32U)) & 1U); } #endif return flag; } /*! * @brief Sets the FlexCAN Rx Message Buffer global mask. * * @param base The FlexCAN base address * @param Mask Mask Value */ static inline void FlexCAN_SetRxMsgBuffGlobalMask(FLEXCAN_Type * base, uint32 Mask) { (base->RXMGMASK) = Mask; } /*! * @brief Sets the FlexCAN Rx individual mask for ID filtering in the Rx Message Buffers and the Rx FIFO. * * @param base The FlexCAN base address * @param msgBuffIdx Index of the message buffer/filter * @param mask Individual mask */ static inline void FlexCAN_SetRxIndividualMask(FLEXCAN_Type * base, uint32 msgBuffIdx, uint32 mask ) { base->RXIMR[msgBuffIdx] = mask; } /*! * @brief Check if controller is in freeze mode or not. * * @param base The FlexCAN base address * @return TRUE if controller is in freeze mode * FALSE if controller is not in freeze mode */ static inline boolean FlexCAN_IsFreezeMode(const FLEXCAN_Type * base) { return (((base->MCR & (FLEXCAN_MCR_FRZACK_MASK)) != 0U)? TRUE : FALSE); } static inline void FlexCAN_SetTxArbitrationStartDelay(FLEXCAN_Type * base, uint8 tasd) { base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_TASD_MASK) | FLEXCAN_CTRL2_TASD(tasd); } /*! * @brief Sets the Rx masking type. * * @param base The FlexCAN base address * @param type The FlexCAN Rx mask type */ static inline void FlexCAN_SetRxMaskType(FLEXCAN_Type * base, Flexcan_Ip_RxMaskType type) { /* Set RX masking type (RX global mask or RX individual mask)*/ if (FLEXCAN_RX_MASK_GLOBAL == type) { /* Enable Global RX masking */ base->MCR = (base->MCR & ~FLEXCAN_MCR_IRMQ_MASK) | FLEXCAN_MCR_IRMQ(0U); } else { /* Enable Individual Rx Masking and Queue */ base->MCR = (base->MCR & ~FLEXCAN_MCR_IRMQ_MASK) | FLEXCAN_MCR_IRMQ(1U); } } #if (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) /*! * @brief Checks if Enhanced Rx FIFO is enabled. * * @param base The FlexCAN base address * @return EnhancedRxFifo status (true = enabled / false = disabled) */ static inline boolean FlexCAN_IsEnhancedRxFifoEnabled(const FLEXCAN_Type * base) { return ((((base->ERFCR & FLEXCAN_ERFCR_ERFEN_MASK) >> FLEXCAN_ERFCR_ERFEN_SHIFT) != 0U) ? (TRUE): (FALSE)); } /*FUNCTION********************************************************************** * * Function Name : FLEXCAN_SetEnhancedRxFifoIntAll * Description : Enable/Disable All(Underflow, Overflow, Watermark and frame available) * interrupts for Enhanced Rx FIFO. * *END**************************************************************************/ static inline void FlexCAN_SetEnhancedRxFifoIntAll(FLEXCAN_Type * base, boolean enable) { if (TRUE == enable) { (base->ERFIER) = (uint32)(FLEXCAN_IP_ENHACED_RX_FIFO_ALL_INTERRUPT_MASK); } else { (base->ERFIER) = (uint32)(FLEXCAN_IP_ENHACED_RX_FIFO_NO_INTERRUPT_MASK); } } /*! * @brief Gets the individual FlexCAN Enhanced Rx FIFO flag. * * @param base The FlexCAN base address * @param intFlag Index of the Enhanced Rx FIFO flag * @return the individual Enhanced Rx FIFO flag (0 and 1 are the flag value) */ static inline uint8 FlexCAN_GetEnhancedRxFIFOStatusFlag(const FLEXCAN_Type * base, uint32 intFlag) { return (uint8)((base->ERFSR & ((uint32)1U << ((uint8)intFlag & (uint8)0x1F))) >> ((uint8)intFlag & (uint8)0x1F)); } /*! * @brief Clears the interrupt flag of the Enhanced Rx FIFO. * * @param base The FlexCAN base address * @param intFlag Index of the Enhanced Rx FIFO interrupt flag */ static inline void FlexCAN_ClearEnhancedRxFifoIntStatusFlag(FLEXCAN_Type * base, uint32 intFlag) { (base->ERFSR) = (uint32)1U << intFlag; } /*! * @brief Gets the individual FlexCAN Enhanced Rx FIFO interrupt flag. * * @param base The FlexCAN base address * @param intFlag Index of the Enhanced Rx FIFO interrupt flag * @return the individual Enhanced Rx FIFO interrupt flag (0 and 1 are the flag value) */ static inline uint8 FlexCAN_GetEnhancedRxFIFOIntStatusFlag(const FLEXCAN_Type * base, uint32 intFlag) { return (uint8)((base->ERFIER & ((uint32)1U << ((uint8)intFlag & (uint8)0x1F))) >> ((uint8)intFlag & (uint8)0x1F)); } /*! * @brief Checks if FlexCAN has Enhanced Rx FIFO. * * @param base The FlexCAN base address * @return EnhancedRxFifo status (TRUE = available / FALSE = unavailable) */ boolean FlexCAN_IsEnhancedRxFifoAvailable(const FLEXCAN_Type * base); Flexcan_Ip_StatusType FlexCAN_EnableEnhancedRxFifo(FLEXCAN_Type * base, uint32 numOfStdIDFilters, uint32 numOfExtIDFilters, uint32 numOfWatermark ); void FlexCAN_SetEnhancedRxFifoFilter(FLEXCAN_Type * base, const Flexcan_Ip_EnhancedIdTableType * idFilterTable); #if (FLEXCAN_IP_FEATURE_HAS_DMA_ENABLE == STD_ON) /*! * @brief Clear Enhance fifo data. * * @param base The FlexCAN base address * @return void */ void FlexCAN_ClearOutputEnhanceFIFO(FLEXCAN_Type * base); #endif /* (FLEXCAN_IP_FEATURE_HAS_DMA_ENABLE == STD_ON) */ void FlexCAN_ReadEnhancedRxFifo(const FLEXCAN_Type * base, Flexcan_Ip_MsgBuffType * rxFifo); #endif /* (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) */ #if (FLEXCAN_IP_FEATURE_HAS_DMA_ENABLE == STD_ON) /*! * @brief Clear Legacy fifo data. * * @param base The FlexCAN base address * @return void */ void FlexCAN_ClearOutputLegacyFIFO(FLEXCAN_Type * base); #endif /* FLEXCAN_IP_FEATURE_HAS_DMA_ENABLE */ #if (FLEXCAN_IP_FEATURE_HAS_TS_ENABLE == STD_ON) void FlexCAN_ConfigTimestamp(FLEXCAN_Type * base, const Flexcan_Ip_TimeStampConfigType * config); #if (FLEXCAN_IP_FEATURE_HAS_HR_TIMER == STD_ON) /*! * @brief Checks if High Resolution Time Stamp is enabled. * * @param base The FlexCAN base address * @return HRTimeStamp status (true = enabled / false = disabled) */ static inline boolean FLEXCAN_IsHRTimeStampEnabled(const FLEXCAN_Type * base) { return ((((base->CTRL2 & FLEXCAN_CTRL2_TSTAMPCAP_MASK) >> FLEXCAN_CTRL2_TSTAMPCAP_SHIFT) != 0U) ? TRUE : FALSE); } static inline void FlexCAN_ConfigTimestampModule(const Flexcan_Ip_TimeStampConfigType * config) { FLEXCAN_IP_TIMESTAMP_REG = FLEXCAN_IP_TIMESTAMP_SEL(config->hrSrc)|FLEXCAN_IP_TIMESTAMP_EN_MASK; } #endif /*(FLEXCAN_IP_FEATURE_HAS_HR_TIMER == STD_ON) */ #endif /* #if (FLEXCAN_IP_FEATURE_HAS_TS_ENABLE == STD_ON) */ /*! * @brief configure controller depending on options. * * @param pBase The FlexCAN base address. * @param u32Options Controller Options. */ void FlexCAN_ConfigCtrlOptions(FLEXCAN_Type * pBase, uint32 u32Options); /*! * @brief Will set Flexcan Peripheral Register to default val. * * @param base The FlexCAN base address */ static inline void FlexCAN_SetRegDefaultVal(FLEXCAN_Type * base) { #if (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) if (TRUE == FlexCAN_IsEnhancedRxFifoAvailable(base)) { base->ERFSR = FLEXCAN_IP_ERFSR_DEFAULT_VALUE_U32; base->ERFIER = FLEXCAN_IP_ERFIER_DEFAULT_VALUE_U32; base->ERFCR = FLEXCAN_IP_ERFCR_DEFAULT_VALUE_U32; } #endif /* (FLEXCAN_IP_FEATURE_HAS_ENHANCED_RX_FIFO == STD_ON) */ #if (FLEXCAN_IP_FEATURE_HAS_FD == STD_ON) #if defined(CAN_FEATURE_S32K1XX) if (TRUE == FlexCAN_IsFDAvailable(base)) { #endif /* defined(CAN_FEATURE_S32K1XX) */ base->FDCBT = FLEXCAN_IP_FDCBT_DEFAULT_VALUE_U32; base->FDCTRL = FLEXCAN_IP_FDCTRL_DEFAULT_VALUE_U32; #if defined(CAN_FEATURE_S32K1XX) } #endif /* defined(CAN_FEATURE_S32K1XX) */ #endif /* (FLEXCAN_IP_FEATURE_HAS_FD == STD_ON) */ #if (FLEXCAN_IP_FEATURE_HAS_MEM_ERR_DET == STD_ON) base->ERRSR = FLEXCAN_IP_ERRSR_DEFAULT_VALUE_U32; base->ERRIPPR = FLEXCAN_IP_ERRIPPR_DEFAULT_VALUE_U32; base->ERRIDPR = FLEXCAN_IP_ERRIDPR_DEFAULT_VALUE_U32; base->ERRIAR = FLEXCAN_IP_ERRIAR_DEFAULT_VALUE_U32; /* Enable write of MECR register */ base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_ECRWRE_MASK) | FLEXCAN_CTRL2_ECRWRE(1); /* Enable write of MECR */ base->MECR = (base->MECR & ~FLEXCAN_MECR_ECRWRDIS_MASK) | FLEXCAN_MECR_ECRWRDIS(0); /* set Default value */ base->MECR = FLEXCAN_IP_MECR_DEFAULT_VALUE_U32; /* disable write of MECR */ base->MECR = (base->MECR & ~FLEXCAN_MECR_ECRWRDIS_MASK) | FLEXCAN_MECR_ECRWRDIS(1); /* Disable write of MECR */ base->CTRL2 = (base->CTRL2 & ~FLEXCAN_CTRL2_ECRWRE_MASK) | FLEXCAN_CTRL2_ECRWRE(0); #endif /* (FLEXCAN_IP_FEATURE_HAS_MEM_ERR_DET == STD_ON) */ #if (FLEXCAN_IP_FEATURE_MAX_MB_NUM > 96U) if (FlexCAN_GetMaxMbNum(base) > 96U) { base->IFLAG4 = FLEXCAN_IP_IFLAG_DEFAULT_VALUE_U32; base->IMASK4 = FLEXCAN_IP_IMASK_DEFAULT_VALUE_U32; } #endif /* (FLEXCAN_IP_FEATURE_MAX_MB_NUM > 96U) */ #if (FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U) if (FlexCAN_GetMaxMbNum(base) > 64U) { base->IFLAG3 = FLEXCAN_IP_IFLAG_DEFAULT_VALUE_U32; base->IMASK3 = FLEXCAN_IP_IMASK_DEFAULT_VALUE_U32; } #endif /* (FLEXCAN_IP_FEATURE_MAX_MB_NUM > 64U) */ #if (FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U) if (FlexCAN_GetMaxMbNum(base) > 32U) { base->IFLAG2 = FLEXCAN_IP_IFLAG_DEFAULT_VALUE_U32; base->IMASK2 = FLEXCAN_IP_IMASK_DEFAULT_VALUE_U32; } #endif /* (FLEXCAN_IP_FEATURE_MAX_MB_NUM > 32U) */ base->IFLAG1 = FLEXCAN_IP_IFLAG_DEFAULT_VALUE_U32; base->IMASK1 = FLEXCAN_IP_IMASK_DEFAULT_VALUE_U32; base->CBT = FLEXCAN_IP_CBT_DEFAULT_VALUE_U32; base->CTRL2 = FLEXCAN_IP_CTRL2_DEFAULT_VALUE_U32; base->ESR1 = FLEXCAN_IP_ESR1_DEFAULT_VALUE_U32; base->ECR = FLEXCAN_IP_ECR_DEFAULT_VALUE_U32; base->TIMER = FLEXCAN_IP_TIMER_DEFAULT_VALUE_U32; base->CTRL1 = FLEXCAN_IP_CTRL1_DEFAULT_VALUE_U32; #if (FLEXCAN_IP_FEATURE_HAS_ENHANCE_CBT == STD_ON) base->EPRS = FLEXCAN_IP_EPRS_DEFAULT_VALUE_U32; base->ENCBT = FLEXCAN_IP_ENCBT_DEFAULT_VALUE_U32; base->EDCBT = FLEXCAN_IP_EDCBT_DEFAULT_VALUE_U32; base->ETDC = FLEXCAN_IP_ETDC_DEFAULT_VALUE_U32; #endif base->MCR = FLEXCAN_IP_MCR_DEFAULT_VALUE_U32; } #if (FLEXCAN_IP_FEATURE_HAS_PRETENDED_NETWORKING == STD_ON) /*! * @brief Configures Pretended Networking mode filtering selection. * * @param pBase The FlexCAN base address * @param pPnConfig The pretended networking configuration * */ static inline void FlexCAN_SetPNFilteringSelection(FLEXCAN_Type * pBase, const Flexcan_Ip_PnConfigType * pPnConfig) { uint32 u32Tmp; u32Tmp = pBase->CTRL1_PN; u32Tmp &= ~(FLEXCAN_CTRL1_PN_WTOF_MSK_MASK | FLEXCAN_CTRL1_PN_WUMF_MSK_MASK | FLEXCAN_CTRL1_PN_NMATCH_MASK | FLEXCAN_CTRL1_PN_PLFS_MASK | FLEXCAN_CTRL1_PN_IDFS_MASK | FLEXCAN_CTRL1_PN_FCS_MASK); u32Tmp |= FLEXCAN_CTRL1_PN_WTOF_MSK(pPnConfig->bWakeUpTimeout ? 1UL : 0UL); u32Tmp |= FLEXCAN_CTRL1_PN_WUMF_MSK(pPnConfig->bWakeUpMatch ? 1UL : 0UL); u32Tmp |= FLEXCAN_CTRL1_PN_NMATCH(pPnConfig->u16NumMatches); u32Tmp |= FLEXCAN_CTRL1_PN_FCS(pPnConfig->eFilterComb); u32Tmp |= FLEXCAN_CTRL1_PN_IDFS(pPnConfig->eIdFilterType); u32Tmp |= FLEXCAN_CTRL1_PN_PLFS(pPnConfig->ePayloadFilterType); pBase->CTRL1_PN = u32Tmp; } /*! * @brief Set PN timeout value. * * @param pBase The FlexCAN base address * @param u16TimeoutValue timeout for no message matching */ static inline void FlexCAN_SetPNTimeoutValue(FLEXCAN_Type * pBase, uint16 u16TimeoutValue) { pBase->CTRL2_PN = (pBase->CTRL2_PN & ~FLEXCAN_CTRL2_PN_MATCHTO_MASK) | FLEXCAN_CTRL2_PN_MATCHTO(u16TimeoutValue); } /*! * @brief Configures the Pretended Networking ID Filter 1. * * @param pBase The FlexCAN base address * @param idFilter The ID Filter configuration */ static inline void FlexCAN_SetPNIdFilter1(FLEXCAN_Type * pBase, Flexcan_Ip_PnIdFilterType idFilter) { uint32 u32Tmp; u32Tmp = pBase->FLT_ID1; u32Tmp &= ~(FLEXCAN_FLT_ID1_FLT_IDE_MASK | FLEXCAN_FLT_ID1_FLT_RTR_MASK | FLEXCAN_FLT_ID1_FLT_ID1_MASK); u32Tmp |= FLEXCAN_FLT_ID1_FLT_IDE(idFilter.bExtendedId ? 1UL : 0UL); u32Tmp |= FLEXCAN_FLT_ID1_FLT_RTR(idFilter.bRemoteFrame ? 1UL : 0UL); if (idFilter.bExtendedId) { u32Tmp |= FLEXCAN_FLT_ID1_FLT_ID1(idFilter.u32Id); } else { u32Tmp |= FLEXCAN_FLT_ID1_FLT_ID1(idFilter.u32Id << FLEXCAN_IP_ID_STD_SHIFT); } pBase->FLT_ID1 = u32Tmp; } /*! * @brief Configures the Pretended Networking ID Filter 2 Check IDE&RTR. * * @param pBase The FlexCAN base address */ static inline void FlexCAN_SetPNIdFilter2Check(FLEXCAN_Type * pBase) { pBase->FLT_ID2_IDMASK |= FLEXCAN_FLT_ID2_IDMASK_IDE_MSK_MASK | FLEXCAN_FLT_ID2_IDMASK_RTR_MSK_MASK; } /*! * @brief Configures the Pretended Networking ID Filter 2. * * @param pBase The FlexCAN base address * @param pPnConfig The pretended networking configuration */ static inline void FlexCAN_SetPNIdFilter2(FLEXCAN_Type * pBase, const Flexcan_Ip_PnConfigType * pPnConfig) { uint32 u32Tmp; u32Tmp = pBase->FLT_ID2_IDMASK; u32Tmp &= ~(FLEXCAN_FLT_ID2_IDMASK_IDE_MSK_MASK | FLEXCAN_FLT_ID2_IDMASK_RTR_MSK_MASK | FLEXCAN_FLT_ID2_IDMASK_FLT_ID2_IDMASK_MASK); u32Tmp |= FLEXCAN_FLT_ID2_IDMASK_IDE_MSK(pPnConfig->idFilter2.bExtendedId ? 1UL : 0UL); u32Tmp |= FLEXCAN_FLT_ID2_IDMASK_RTR_MSK(pPnConfig->idFilter2.bRemoteFrame ? 1UL : 0UL); /* Check if idFilter1 is extended and apply accordingly mask */ if (pPnConfig->idFilter1.bExtendedId) { u32Tmp |= FLEXCAN_FLT_ID2_IDMASK_FLT_ID2_IDMASK(pPnConfig->idFilter2.u32Id); } else { u32Tmp |= FLEXCAN_FLT_ID2_IDMASK_FLT_ID2_IDMASK(pPnConfig->idFilter2.u32Id << FLEXCAN_IP_ID_STD_SHIFT); } pBase->FLT_ID2_IDMASK = u32Tmp; } /*! * @brief Set PN DLC Filter. * * @param pBase The FlexCAN base address * @param timeoutValue timeout for no message matching */ static inline void FlexCAN_SetPNDlcFilter(FLEXCAN_Type * pBase, uint8 u8DlcLow, uint8 u8DlcHigh ) { uint32 tmp; tmp = pBase->FLT_DLC; tmp &= ~(FLEXCAN_FLT_DLC_FLT_DLC_LO_MASK | FLEXCAN_FLT_DLC_FLT_DLC_HI_MASK); tmp |= FLEXCAN_FLT_DLC_FLT_DLC_HI(u8DlcHigh); tmp |= FLEXCAN_FLT_DLC_FLT_DLC_LO(u8DlcLow); pBase->FLT_DLC = tmp; } /*! * @brief Set PN Payload High Filter 1. * * @param pBase The FlexCAN Base address * @param pPayload message Payload filter */ static inline void FlexCAN_SetPNPayloadHighFilter1(FLEXCAN_Type * pBase, const uint8 * pPayload) { pBase->PL1_HI = FLEXCAN_PL1_HI_Data_byte_4(pPayload[4]) | FLEXCAN_PL1_HI_Data_byte_5(pPayload[5]) | FLEXCAN_PL1_HI_Data_byte_6(pPayload[6]) | FLEXCAN_PL1_HI_Data_byte_7(pPayload[7]); } /*! * @brief Set PN Payload Low Filter 1. * * @param pBase The FlexCAN Base address * @param pPayload message Payload filter */ static inline void FlexCAN_SetPNPayloadLowFilter1(FLEXCAN_Type * pBase, const uint8 * pPayload) { pBase->PL1_LO = FLEXCAN_PL1_LO_Data_byte_0(pPayload[0]) | FLEXCAN_PL1_LO_Data_byte_1(pPayload[1]) | FLEXCAN_PL1_LO_Data_byte_2(pPayload[2]) | FLEXCAN_PL1_LO_Data_byte_3(pPayload[3]); } /*! * @brief Set PN Payload High Filter 2. * * @param pBase The FlexCAN Base address * @param pPayload message Payload filter */ static inline void FlexCAN_SetPNPayloadHighFilter2(FLEXCAN_Type * pBase, const uint8 * pPayload) { pBase->PL2_PLMASK_HI = FLEXCAN_PL2_PLMASK_HI_Data_byte_4(pPayload[4]) | FLEXCAN_PL2_PLMASK_HI_Data_byte_5(pPayload[5]) | FLEXCAN_PL2_PLMASK_HI_Data_byte_6(pPayload[6]) | FLEXCAN_PL2_PLMASK_HI_Data_byte_7(pPayload[7]); } /*! * @brief Set PN Payload Low Filter 2. * * @param pBase The FlexCAN Base address * @param pPayload message Payload filter */ static inline void FlexCAN_SetPNPayloadLowFilter2(FLEXCAN_Type * pBase, const uint8 * pPayload) { pBase->PL2_PLMASK_LO = FLEXCAN_PL2_PLMASK_LO_Data_byte_0(pPayload[0]) | FLEXCAN_PL2_PLMASK_LO_Data_byte_1(pPayload[1]) | FLEXCAN_PL2_PLMASK_LO_Data_byte_2(pPayload[2]) | FLEXCAN_PL2_PLMASK_LO_Data_byte_3(pPayload[3]); } /*! * @brief Configures the Pretended Networking mode. * * @param pBase The FlexCAN Base address * @param pnConfig The pretended networking configuration */ void FlexCAN_ConfigPN(FLEXCAN_Type * pBase, const Flexcan_Ip_PnConfigType * pPnConfig); /*! * @brief Enables/Disables the Pretended Networking mode. * * @param pBase The FlexCAN Base address * @param enable Enable/Disable Pretending Networking */ static inline void FlexCAN_SetPN(FLEXCAN_Type * pBase, boolean enable) { pBase->MCR = (pBase->MCR & ~FLEXCAN_MCR_PNET_EN_MASK) | FLEXCAN_MCR_PNET_EN(enable ? 1UL : 0UL); } /*! * @brief Checks if the Pretended Networking mode is enabled/disabled. * * @param pBase The FlexCAN Base address * @return false if Pretended Networking mode is disabled; * true if Pretended Networking mode is enabled */ static inline boolean FlexCAN_IsPNEnabled(const FLEXCAN_Type * pBase) { return ((pBase->MCR & FLEXCAN_MCR_PNET_EN_MASK) >> FLEXCAN_MCR_PNET_EN_SHIFT) != 0U; } /*! * @brief Gets the Wake Up by Timeout Flag Bit. * * @param pBase The FlexCAN Base address * @return the Wake Up by Timeout Flag Bit */ static inline uint8 FlexCAN_GetWTOF(const FLEXCAN_Type * pBase) { return (uint8)((pBase->WU_MTC & FLEXCAN_WU_MTC_WTOF_MASK) >> FLEXCAN_WU_MTC_WTOF_SHIFT); } /*! * @brief Gets the Wake Up Timeout interrupt enable Bit. * * @param pBase The FlexCAN Base address * @return the Wake Up Timeout interrupt enable Bit */ static inline uint8 FlexCAN_GetWTOIE(const FLEXCAN_Type * pBase) { return (uint8)((pBase->CTRL1_PN & FLEXCAN_CTRL1_PN_WTOF_MSK_MASK) >> FLEXCAN_CTRL1_PN_WTOF_MSK_SHIFT); } /*! * @brief Clears the Wake Up by Timeout Flag Bit. * * @param pBase The FlexCAN Base address */ static inline void FlexCAN_ClearWTOF(FLEXCAN_Type * pBase) { pBase->WU_MTC = FLEXCAN_WU_MTC_WTOF_MASK; } /*! * @brief Gets the Wake Up by Match Flag Bit. * * @param pBase The FlexCAN Base address * @return the Wake Up by Match Flag Bit */ static inline uint8 FlexCAN_GetWUMF(const FLEXCAN_Type * pBase) { return (uint8)((pBase->WU_MTC & FLEXCAN_WU_MTC_WUMF_MASK) >> FLEXCAN_WU_MTC_WUMF_SHIFT); } /*! * @brief Gets the Wake Up Match IE Bit. * * @param pBase The FlexCAN Base address * @return the Wake Up Match IE Bit */ static inline uint8 FlexCAN_GetWUMIE(const FLEXCAN_Type * pBase) { return (uint8)((pBase->CTRL1_PN & FLEXCAN_CTRL1_PN_WUMF_MSK_MASK) >> FLEXCAN_CTRL1_PN_WUMF_MSK_SHIFT); } /*! * @brief Clears the Wake Up by Match Flag Bit. * * @param pBase The FlexCAN Base address */ static inline void FlexCAN_ClearWUMF(FLEXCAN_Type * pBase) { pBase->WU_MTC = FLEXCAN_WU_MTC_WUMF_MASK; } #endif /* FLEXCAN_IP_FEATURE_HAS_PRETENDED_NETWORKING */ #define CAN_STOP_SEC_CODE #include "Can_MemMap.h" #ifdef __cplusplus } #endif /** @} */ #endif /* FLEXCAN_FLEXCAN_IP_HWACCESS_H_ */