/*================================================================================================== * Project : RTD AUTOSAR 4.4 * Platform : CORTEXM * Peripheral : FLEXIO * 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 LPUART_UART_IP_HWACCESS_H__ #define LPUART_UART_IP_HWACCESS_H__ /** * @file * @internal * @defgroup lpuart_ip Lpuart IPL * @addtogroup lpuart_ip Lpuart IPL * @{ */ #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 "StandardTypes.h" #include "OsIf.h" #include "Lpuart_Uart_Ip_Defines.h" #include "SchM_Uart.h" /*================================================================================================== * SOURCE FILE VERSION INFORMATION ==================================================================================================*/ #define LPUART_UART_IP_HWACCESS_VENDOR_ID 43 #define LPUART_UART_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION 4 #define LPUART_UART_IP_HWACCESS_AR_RELEASE_MINOR_VERSION 4 #define LPUART_UART_IP_HWACCESS_AR_RELEASE_REVISION_VERSION 0 #define LPUART_UART_IP_HWACCESS_SW_MAJOR_VERSION 1 #define LPUART_UART_IP_HWACCESS_SW_MINOR_VERSION 0 #define LPUART_UART_IP_HWACCESS_SW_PATCH_VERSION 0 /*================================================================================================== * FILE VERSION CHECKS ==================================================================================================*/ /* Checks against Lpuart_Uart_Ip_Defines.h */ #if (LPUART_UART_IP_HWACCESS_VENDOR_ID != LPUART_UART_IP_DEFINES_VENDOR_ID) #error "Lpuart_Uart_Ip_HwAccess.h and Lpuart_Uart_Ip_Defines.h have different vendor ids" #endif #if ((LPUART_UART_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION != LPUART_UART_IP_DEFINES_AR_RELEASE_MAJOR_VERSION) || \ (LPUART_UART_IP_HWACCESS_AR_RELEASE_MINOR_VERSION != LPUART_UART_IP_DEFINES_AR_RELEASE_MINOR_VERSION) || \ (LPUART_UART_IP_HWACCESS_AR_RELEASE_REVISION_VERSION != LPUART_UART_IP_DEFINES_AR_RELEASE_REVISION_VERSION)) #error "AUTOSAR Version Numbers of Lpuart_Uart_Ip_HwAccess.h and Lpuart_Uart_Ip_Defines.h are different" #endif #if ((LPUART_UART_IP_HWACCESS_SW_MAJOR_VERSION != LPUART_UART_IP_DEFINES_SW_MAJOR_VERSION) || \ (LPUART_UART_IP_HWACCESS_SW_MINOR_VERSION != LPUART_UART_IP_DEFINES_SW_MINOR_VERSION) || \ (LPUART_UART_IP_HWACCESS_SW_PATCH_VERSION != LPUART_UART_IP_DEFINES_SW_PATCH_VERSION)) #error "Software Version Numbers of Lpuart_Uart_Ip_HwAccess.h and Lpuart_Uart_Ip_Defines.h are different" #endif #ifndef DISABLE_MCAL_INTERMODULE_ASR_CHECK /* Check if current file and StandardTypes.h header file are of the same Autosar version */ #if ((LPUART_UART_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION != STD_AR_RELEASE_MAJOR_VERSION) || \ (LPUART_UART_IP_HWACCESS_AR_RELEASE_MINOR_VERSION != STD_AR_RELEASE_MINOR_VERSION)) #error "Lpuart_Uart_Ip_HwAccess.h and StandardTypes.h are different" #endif /* Check if current file and OsIf.h header file are of the same Autosar version */ #if ((LPUART_UART_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION != OSIF_AR_RELEASE_MAJOR_VERSION) || \ (LPUART_UART_IP_HWACCESS_AR_RELEASE_MINOR_VERSION != OSIF_AR_RELEASE_MINOR_VERSION)) #error "Lpuart_Uart_Ip_HwAccess.h and OsIf.h are different" #endif /* Check if current file and SchM_Uart.h header file are of the same Autosar version */ #if ((LPUART_UART_IP_HWACCESS_AR_RELEASE_MAJOR_VERSION != SCHM_UART_AR_RELEASE_MAJOR_VERSION) || \ (LPUART_UART_IP_HWACCESS_AR_RELEASE_MINOR_VERSION != SCHM_UART_AR_RELEASE_MAJOR_VERSION)) #error "Lpuart_Uart_Ip_HwAccess.h and SchM_Uart.h are different" #endif #endif /*================================================================================================== * CONSTANTS ==================================================================================================*/ /*================================================================================================== * DEFINES AND MACROS ==================================================================================================*/ #define LPUART_FEATURE_DEFAULT_OSR (0xFU) #define LPUART_FEATURE_DEFAULT_SBR (0x4U) #define LPUART_FEATURE_STAT_REG_FLAGS_MASK (0xC01FC000U) /*! @brief LPUART number of bits in a character * * */ /* implements Lpuart_Uart_Ip_BitCountPerCharType_enum */ typedef enum { LPUART_UART_IP_7_BITS_PER_CHAR = 0x0U, /*!< 7-bit data characters */ LPUART_UART_IP_8_BITS_PER_CHAR = 0x1U, /*!< 8-bit data characters */ LPUART_UART_IP_9_BITS_PER_CHAR = 0x2U, /*!< 9-bit data characters */ LPUART_UART_IP_10_BITS_PER_CHAR = 0x3U /*!< 10-bit data characters */ } Lpuart_Uart_Ip_BitCountPerCharType; /*! @brief LPUART parity mode * * */ /* implements Lpuart_Uart_Ip_ParityModeType_enum */ typedef enum { LPUART_UART_IP_PARITY_DISABLED = 0x0U, /*!< parity disabled */ LPUART_UART_IP_PARITY_EVEN = 0x2U, /*!< parity enabled, type even, bit setting: PE|PT = 10 */ LPUART_UART_IP_PARITY_ODD = 0x3U /*!< parity enabled, type odd, bit setting: PE|PT = 11 */ } Lpuart_Uart_Ip_ParityModeType; typedef enum { LPUART_UART_IP_ONE_STOP_BIT = 0x0U, /*!< one stop bit */ LPUART_UART_IP_TWO_STOP_BIT = 0x1U /*!< two stop bits */ } Lpuart_Uart_Ip_StopBitCountType; /*! * @brief LPUART status flags. * * This provides constants for the LPUART status flags for use in the UART functions. */ typedef enum { LPUART_UART_IP_TX_DATA_REG_EMPTY = (uint32)LPUART_STAT_TDRE_SHIFT, /*!< Tx data register empty flag, sets when Tx buffer is empty */ LPUART_UART_IP_TX_COMPLETE = (uint32)LPUART_STAT_TC_SHIFT, /*!< Transmission complete flag, sets when transmission activity complete */ LPUART_UART_IP_DATA_REG_FULL = (uint32)LPUART_STAT_RDRF_SHIFT, /*!< Rx data register full flag, sets when the receive data buffer is full */ LPUART_UART_IP_RX_OVERRUN = (uint32)LPUART_STAT_OR_SHIFT, /*!< Rx Overrun sets if new data is received before data is read */ LPUART_UART_IP_NOISE_DETECT = (uint32)LPUART_STAT_NF_SHIFT, /*!< Rx takes 3 samples of each received bit. If these differ, the flag sets */ LPUART_UART_IP_FRAME_ERR = (uint32)LPUART_STAT_FE_SHIFT, /*!< Frame error flag, sets if logic 0 was detected where stop bit expected */ LPUART_UART_IP_PARITY_ERR = (uint32)LPUART_STAT_PF_SHIFT, LPUART_UART_IP_IDLE = (uint32)LPUART_STAT_IDLE_SHIFT, //zhengchao } Lpuart_Uart_Ip_StatusFlagType; /*! @brief LPUART interrupt configuration structure, default settings are 0 (disabled) */ typedef enum { LPUART_UART_IP_INT_TX_DATA_REG_EMPTY = (uint32)LPUART_CTRL_TIE_SHIFT, /*!< Transmit data register empty. */ LPUART_UART_IP_INT_TX_COMPLETE = (uint32)LPUART_CTRL_TCIE_SHIFT, /*!< Transmission complete. */ LPUART_UART_IP_INT_RX_DATA_REG_FULL = (uint32)LPUART_CTRL_RIE_SHIFT, /*!< Receiver data register full. */ LPUART_UART_IP_INT_RX_OVERRUN = (uint32)LPUART_CTRL_ORIE_SHIFT, /*!< Receiver Overrun. */ LPUART_UART_IP_INT_NOISE_ERR_FLAG = (uint32)LPUART_CTRL_NEIE_SHIFT, /*!< Noise error flag. */ LPUART_UART_IP_INT_FRAME_ERR_FLAG = (uint32)LPUART_CTRL_FEIE_SHIFT, /*!< Framing error flag. */ LPUART_UART_IP_INT_PARITY_ERR_FLAG = (uint32)LPUART_CTRL_PEIE_SHIFT, /*!< Parity error flag. */ LPUART_UART_IP_INT_IDLE = (uint32)LPUART_CTRL_ILIE_SHIFT, //zhengchao } Lpuart_Uart_Ip_InterruptType; /*================================================================================================== * STRUCTURES AND OTHER TYPEDEFS ==================================================================================================*/ /*================================================================================================== * GLOBAL VARIABLE DECLARATIONS ==================================================================================================*/ /*================================================================================================== * FUNCTION PROTOTYPES ==================================================================================================*/ #define UART_START_SEC_CODE #include "Uart_MemMap.h" /*! * @brief Initializes the LPUART controller. * * This function Initializes the LPUART controller to known state. * * * @param Base LPUART base pointer. */ static inline void Lpuart_Uart_Ip_Hw_Init(LPUART_Type * Base) { /* Set the default oversampling ratio (16) and baud-rate divider (4) */ Base->BAUD = ((uint32)(((uint32)LPUART_FEATURE_DEFAULT_OSR << LPUART_BAUD_OSR_SHIFT) | \ (LPUART_FEATURE_DEFAULT_SBR << LPUART_BAUD_SBR_SHIFT))); /* Clear the error/interrupt flags */ Base->STAT = LPUART_FEATURE_STAT_REG_FLAGS_MASK; /* Reset all features/interrupts by default */ Base->CTRL = 0x00000000; } /*! * @brief Enable/Disable the LPUART transmitter. * * This function enables or disables the LPUART transmitter, based on the * parameter received. * * * @param Base LPUART base pointer. * @param Enable Enable(true) or disable(false) transmitter. */ static inline void Lpuart_Uart_Ip_SetTransmitterCmd(LPUART_Type * Base, boolean Enable) { Base->CTRL = (Base->CTRL & ~LPUART_CTRL_TE_MASK) | ((Enable ? 1UL : 0UL) << LPUART_CTRL_TE_SHIFT); } /*! * @brief Enable/Disable the LPUART receiver. * * This function enables or disables the LPUART receiver, based on the * parameter received. * * * @param Base LPUART base pointer * @param Enable Enable(true) or disable(false) receiver. */ static inline void Lpuart_Uart_Ip_SetReceiverCmd(LPUART_Type * Base, boolean Enable) { Base->CTRL = (Base->CTRL & ~LPUART_CTRL_RE_MASK) | ((Enable ? 1UL : 0UL) << LPUART_CTRL_RE_SHIFT); } /*! * @brief Sets the LPUART baud rate modulo divisor. * * This function sets the LPUART baud rate modulo divisor. * * * @param Base LPUART base pointer. * @param baudRateDivisor The baud rate modulo division "SBR" */ static inline void Lpuart_Uart_Ip_SetBaudRateDivisor(LPUART_Type * Base, uint32 baudRateDivisor) { Base->BAUD = (Base->BAUD & ~LPUART_BAUD_SBR_MASK) | (baudRateDivisor & LPUART_BAUD_SBR_MASK); } /*! * @brief Gets the LPUART baud rate modulo divisor. * * This function gets the LPUART baud rate modulo divisor. * * * @param Base LPUART base pointer. * @return The baud rate modulo division "SBR" */ static inline uint16 Lpuart_Uart_Ip_GetBaudRateDivisor(const LPUART_Type * Base) { return ((uint16)((Base->BAUD & LPUART_BAUD_SBR_MASK) >> LPUART_BAUD_SBR_SHIFT)); } /*! * @brief Sets the LPUART baud rate oversampling ratio * * This function sets the LPUART baud rate oversampling ratio. * (Note: Feature available on select LPUART instances used together with baud rate programming) * The oversampling ratio should be set between 4x (00011) and 32x (11111). Writing * an invalid oversampling ratio results in an error and is set to a default * 16x (01111) oversampling ratio. * Disable the transmitter/receiver before calling this function. * * * @param Base LPUART base pointer. * @param OverSamplingRatio The oversampling ratio "OSR" */ static inline void Lpuart_Uart_Ip_SetOversamplingRatio(LPUART_Type * Base, uint32 OverSamplingRatio) { Base->BAUD = (Base->BAUD & ~LPUART_BAUD_OSR_MASK) | LPUART_BAUD_OSR(OverSamplingRatio); } /*! * @brief Gets the LPUART baud rate oversampling ratio * * This function gets the LPUART baud rate oversampling ratio. * (Note: Feature available on select LPUART instances used together with baud rate programming) * * * @param Base LPUART base pointer. * @return The oversampling ratio "OSR" */ static inline uint8 Lpuart_Uart_Ip_GetOversamplingRatio(const LPUART_Type * Base) { return ((uint8)((Base->BAUD & LPUART_BAUD_OSR_MASK) >> LPUART_BAUD_OSR_SHIFT)); } /*! * @brief Configures the LPUART baud rate both edge sampling * * This function configures the LPUART baud rate both edge sampling. * (Note: Feature available on select LPUART instances used with baud rate programming) * When enabled, the received data is sampled on both edges of the baud rate clock. * This must be set when the oversampling ratio is between 4x and 7x. * This function should only be called when the receiver is disabled. * * * @param Base LPUART base pointer. */ static inline void Lpuart_Uart_Ip_EnableBothEdgeSamplingCmd(LPUART_Type * Base) { Base->BAUD |= LPUART_BAUD_BOTHEDGE_MASK; } /*! * @brief Configures the number of bits per character in the LPUART controller. * * This function configures the number of bits per character in the LPUART controller. * In some LPUART instances, the user should disable the transmitter/receiver * before calling this function. * Generally, this may be applied to all LPUARTs to ensure safe operation. * * @param Base LPUART base pointer. * @param BitCountPerChar Number of bits per char (7, 8, 9, or 10, depending on the LPUART instance) * @param Parity Specifies whether parity bit is enabled */ static inline void Lpuart_Uart_Ip_SetBitCountPerChar(LPUART_Type * Base, Lpuart_Uart_Ip_BitCountPerCharType BitCountPerChar, boolean Parity) { uint32 TmpBitCountPerChar = (uint32)BitCountPerChar; if (Parity) { TmpBitCountPerChar += 1U; } if (TmpBitCountPerChar == (uint32)LPUART_UART_IP_10_BITS_PER_CHAR) { Base->BAUD = (Base->BAUD & ~LPUART_BAUD_M10_MASK) | ((uint32)1U << LPUART_BAUD_M10_SHIFT); } else { if (LPUART_UART_IP_7_BITS_PER_CHAR == BitCountPerChar) { /* Check if parity is enabled or not*/ if (Parity) { /* clear M7 to make sure not 7-bit mode (M7 = 0) and config 8 bits (M = 0) */ Base->CTRL &= ~(LPUART_CTRL_M7_MASK | LPUART_CTRL_M_MASK); } else { /* config 7-bits (M7 = 1)*/ Base->CTRL = (Base->CTRL & ~LPUART_CTRL_M7_MASK) | ((uint32)1U << LPUART_CTRL_M7_SHIFT); } } else { TmpBitCountPerChar -= 1U; /* config 8-bit (M=0) or 9-bits (M=1) */ Base->CTRL = (Base->CTRL & ~LPUART_CTRL_M_MASK) | (TmpBitCountPerChar << LPUART_CTRL_M_SHIFT); } /* clear M10 to make sure not 10-bit mode */ Base->BAUD &= ~LPUART_BAUD_M10_MASK; } } /*! * @brief Configures parity mode in the LPUART controller. * * This function configures parity mode in the LPUART controller. * In some LPUART instances, the user should disable the transmitter/receiver * before calling this function. * Generally, this may be applied to all LPUARTs to ensure safe operation. * * @param Base LPUART base pointer. * @param ParityModeType Parity mode (enabled, disable, odd, even - see parity_mode_t struct) */ static inline void Lpuart_Uart_Ip_SetParityMode(LPUART_Type * Base, Lpuart_Uart_Ip_ParityModeType ParityModeType) { Base->CTRL = (Base->CTRL & ~LPUART_CTRL_PE_MASK) | (((uint32)ParityModeType >> 1U) << LPUART_CTRL_PE_SHIFT); Base->CTRL = (Base->CTRL & ~LPUART_CTRL_PT_MASK) | (((uint32)ParityModeType & 1U) << LPUART_CTRL_PT_SHIFT); } /*! * @brief Configures the number of stop bits in the LPUART controller. * * This function configures the number of stop bits in the LPUART controller. * In some LPUART instances, the user should disable the transmitter/receiver * before calling this function. * Generally, this may be applied to all LPUARTs to ensure safe operation. * * @param Base LPUART base pointer. * @param StopBitCount Number of stop bits (1 or 2 - see Lpuart_Uart_Ip_StopBitCountType struct) */ static inline void Lpuart_Uart_Ip_SetStopBitCount(LPUART_Type * Base, Lpuart_Uart_Ip_StopBitCountType StopBitCount) { Base->BAUD = (Base->BAUD & ~LPUART_BAUD_SBNS_MASK) | ((uint32)StopBitCount << LPUART_BAUD_SBNS_SHIFT); } /*! * @brief Configures the LPUART module interrupts. * * This function configures the LPUART module interrupts to enable/disable various interrupt sources. * * * @param Base LPUART module base pointer. * @param IntSrc LPUART interrupt configuration data. * @param Enable true: enable, false: disable. */ static inline void Lpuart_Uart_Ip_SetIntMode(LPUART_Type * Base, Lpuart_Uart_Ip_InterruptType IntSrc, boolean Enable) { Base->CTRL = (Base->CTRL & ~(1UL << (uint32)IntSrc)) | ((Enable ? 1U : 0U) << (uint32)IntSrc); } /*! * @brief Returns LPUART module interrupts state. * * This function returns whether a certain LPUART module interrupt is enabled or disabled. * * * @param Base LPUART module base pointer. * @param IntSrc LPUART interrupt configuration data. * @return true: enable, false: disable. */ static inline boolean Lpuart_Uart_Ip_GetIntMode(const LPUART_Type * Base, Lpuart_Uart_Ip_InterruptType IntSrc) { boolean RetVal = FALSE; RetVal = (((Base->CTRL >> (uint32)(IntSrc)) & 1U) > 0U); return RetVal; } #if (LPUART_UART_IP_HAS_DMA_ENABLED == STD_ON) /*! * @brief Configures DMA requests. * * This function configures DMA requests for LPUART Transmitter. * * * @param Base LPUART base pointer * @param Enable Transmit DMA request configuration (enable:1 /disable: 0) */ static inline void Lpuart_Uart_Ip_SetTxDmaCmd(LPUART_Type * Base, boolean Enable) { Base->BAUD = (Base->BAUD & ~LPUART_BAUD_TDMAE_MASK) | ((Enable ? 1UL : 0UL) << LPUART_BAUD_TDMAE_SHIFT); } /*! * @brief Configures DMA requests. * * This function configures DMA requests for LPUART Receiver. * * * @param Base LPUART base pointer * @param Enable Receive DMA request configuration (enable: 1/disable: 0) */ static inline void Lpuart_Uart_Ip_SetRxDmaCmd(LPUART_Type * Base, boolean Enable) { Base->BAUD = (Base->BAUD & ~LPUART_BAUD_RDMAE_MASK) | ((Enable ? 1UL : 0UL) << LPUART_BAUD_RDMAE_SHIFT); } #endif /*! * @brief Sends the LPUART 8-bit character. * * This functions sends an 8-bit character. * * * @param Base LPUART Instance * @param Data data to send (8-bit) */ static inline void Lpuart_Uart_Ip_Putchar(LPUART_Type * Base, uint8 Data) { volatile uint8 * DataRegBytes = (volatile uint8 *)(&(Base->DATA)); DataRegBytes[0] = Data; } /*! * @brief Sends the LPUART 9-bit character. * * This functions sends a 9-bit character. * * * @param Base LPUART Instance * @param Data data to send (9-bit) */ static inline void Lpuart_Uart_Ip_Putchar9(LPUART_Type * Base, uint16 Data) { uint8 NinthDataBit; volatile uint8 * DataRegBytes = (volatile uint8 *)(&(Base->DATA)); NinthDataBit = (uint8)((Data >> 8U) & 0x1U); /* write to ninth data bit T8(where T[0:7]=8-bits, T8=9th bit) */ Base->CTRL = (Base->CTRL & ~LPUART_CTRL_R9T8_MASK) | ((uint32)(NinthDataBit) << LPUART_CTRL_R9T8_SHIFT); /* write 8-bits to the data register*/ DataRegBytes[0] = (uint8)Data; } /*! * @brief Sends the LPUART 10-bit character (Note: Feature available on select LPUART instances). * * This functions sends a 10-bit character. * * * @param Base LPUART Instance * @param Data data to send (10-bit) */ static inline void Lpuart_Uart_Ip_Putchar10(LPUART_Type * Base, uint16 Data) { uint8 NinthDataBit, TenthDataBit; uint32 CtrlRegVal; volatile uint8 * DataRegBytes = (volatile uint8 *)(&(Base->DATA)); NinthDataBit = (uint8)((Data >> 8U) & 0x1U); TenthDataBit = (uint8)((Data >> 9U) & 0x1U); /* write to ninth/tenth data bit (T[0:7]=8-bits, T8=9th bit, T9=10th bit) */ CtrlRegVal = Base->CTRL; CtrlRegVal = (CtrlRegVal & ~LPUART_CTRL_R9T8_MASK) | ((uint32)NinthDataBit << LPUART_CTRL_R9T8_SHIFT); CtrlRegVal = (CtrlRegVal & ~LPUART_CTRL_R8T9_MASK) | ((uint32)TenthDataBit << LPUART_CTRL_R8T9_SHIFT); /*Note: T8(9th bit) and T9(10th bit) should be written at same time. */ Base->CTRL = CtrlRegVal; /* write to 8-bits to the Data register */ DataRegBytes[0] = (uint8)Data; } /*! * @brief Gets the LPUART 8-bit character. * * This functions receives an 8-bit character. * * * @param Base LPUART base pointer * @param ReadData Data read from receive (8-bit) */ static inline uint8 Lpuart_Uart_Ip_Getchar(const LPUART_Type * Base) { return (uint8)Base->DATA; } /*! * @brief Gets the LPUART 9-bit character. * * This functions receives a 9-bit character. * * * @param Base LPUART base pointer */ static inline uint16 Lpuart_Uart_Ip_Getchar9(const LPUART_Type * Base) { uint16 ReadData; /* get ninth bit from lpuart data register */ ReadData = (uint16)(((Base->CTRL >> LPUART_CTRL_R8T9_SHIFT) & 1U) << 8); /* get 8-bit data from the lpuart data register */ ReadData |= (uint8)Base->DATA; return ReadData; } /*! * @brief Gets the LPUART 10-bit character. * * This functions receives a 10-bit character. * * * @param Base LPUART Base pointer */ static inline uint16 Lpuart_Uart_Ip_Getchar10(const LPUART_Type * Base) { uint16 ReadData; /* read tenth data bit */ ReadData = (uint16)(((Base->CTRL >> LPUART_CTRL_R9T8_SHIFT) & 1U) << 9); /* read ninth data bit */ ReadData |= (uint16)(((Base->CTRL >> LPUART_CTRL_R8T9_SHIFT) & 1U) << 8); /* get 8-bit data */ ReadData |= (uint8)Base->DATA; return ReadData; } /*! * @brief LPUART get status flag * * This function returns the state of a status flag. * * * @param Base LPUART base pointer * @param StatusFlag The status flag to query * @return Whether the current status flag is set(true) or not(false). */ static inline boolean Lpuart_Uart_Ip_GetStatusFlag(const LPUART_Type * Base, Lpuart_Uart_Ip_StatusFlagType StatusFlag) { boolean RetVal = FALSE; RetVal = (((Base->STAT >> (uint32)(StatusFlag)) & 1U) > 0U); return RetVal; } /*! * @brief LPUART clears an individual status flag. * * This function clears an individual status flag (see Lpuart_Uart_Ip_StatusFlagType for list of status bits). * * * @param Base LPUART base pointer * @param StatusFlag Desired LPUART status flag to clear * @return LPUART_UART_IP_STATUS_SUCCESS if successful or STATUS_ERROR if an error occured */ static inline void Lpuart_Uart_Ip_ClearStatusFlag(LPUART_Type * Base, Lpuart_Uart_Ip_StatusFlagType StatusFlag) { switch(StatusFlag) { case LPUART_UART_IP_RX_OVERRUN: Base->STAT = (Base->STAT & (~LPUART_FEATURE_STAT_REG_FLAGS_MASK)) | LPUART_STAT_OR_MASK; break; case LPUART_UART_IP_NOISE_DETECT: Base->STAT = (Base->STAT & (~LPUART_FEATURE_STAT_REG_FLAGS_MASK)) | LPUART_STAT_NF_MASK; break; case LPUART_UART_IP_FRAME_ERR: Base->STAT = (Base->STAT & (~LPUART_FEATURE_STAT_REG_FLAGS_MASK)) | LPUART_STAT_FE_MASK; break; case LPUART_UART_IP_PARITY_ERR: Base->STAT = (Base->STAT & (~LPUART_FEATURE_STAT_REG_FLAGS_MASK)) | LPUART_STAT_PF_MASK; break; default: /* Dummy code */ break; } } /*! * @brief LPUART clears an individual status flag. * * This function clears an individual status flag (see Lpuart_Uart_Ip_StatusFlagType for list of status bits). * * * @param Base LPUART base pointer * @param Mask LPUART Status Register Mask to clear */ static inline void Lpuart_Uart_Ip_ClearStatusFlagWithMask(LPUART_Type * Base, uint32 Mask) { Base->STAT = (Base->STAT & (~LPUART_FEATURE_STAT_REG_FLAGS_MASK)) | Mask; } /*! * @brief Clears the error flags treated by the driver * * This function clears the error flags treated by the driver. * * * @param Base LPUART Base pointer */ static inline void Lpuart_Uart_Ip_ClearErrorFlags(LPUART_Type * Base) { uint32 Mask = LPUART_STAT_OR_MASK | \ LPUART_STAT_NF_MASK | \ LPUART_STAT_FE_MASK | \ LPUART_STAT_PF_MASK; Base->STAT = (Base->STAT & (~LPUART_FEATURE_STAT_REG_FLAGS_MASK)) | Mask; } /** * @brief : Prepare for timeout checking * @internal * @return : None */ static inline void Lpuart_Uart_Ip_StartTimeout(uint32 *StartTimeOut, uint32 *TimeoutTicksOut, uint32 TimeoutUs, OsIf_CounterType OsifCounter) { *StartTimeOut = OsIf_GetCounter(OsifCounter); *TimeoutTicksOut = OsIf_MicrosToTicks(TimeoutUs, OsifCounter); } /** * @brief : Checks for timeout condition * @internal * @return TRUE Timeout occurs * FALSE Timeout does not occur */ static inline boolean Lpuart_Uart_Ip_CheckTimeout(uint32 * StartTime, uint32 * ElapsedTicks, uint32 TimeoutTicks, OsIf_CounterType OsifCounter) { uint32 CurrentElapsedTicks = OsIf_GetElapsed(StartTime, OsifCounter); *ElapsedTicks += CurrentElapsedTicks; return ((*ElapsedTicks >= TimeoutTicks) ? TRUE : FALSE); } /** * @brief : Flush Tx Buffer * * This function causes all data that is stored in the transmit FIFO/buffer to be flushed. * * * @param Base LPUART Base pointer */ static inline void Lpuart_Uart_Ip_FlushTxBuffer(LPUART_Type * Base) { Base->FIFO |= LPUART_FIFO_TXFLUSH_MASK; } /** * @brief : Flush Rx Buffer * * This function causes all data that is stored in the receive FIFO/buffer to be flushed. * * * @param Base LPUART Base pointer */ static inline void Lpuart_Uart_Ip_FlushRxBuffer(LPUART_Type * Base) { Base->FIFO |= LPUART_FIFO_RXFLUSH_MASK; } #define UART_STOP_SEC_CODE #include "Uart_MemMap.h" #if defined(__cplusplus) } #endif /*@}*/ #endif /* LPUART_HW_ACCESS_H__ */