/* * Copyright (c) 2014, Freescale Semiconductor, Inc. * All rights reserved. * * THIS SOFTWARE IS PROVIDED BY FREESCALE "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 FREESCALE 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. */ /* * WARNING! DO NOT EDIT THIS FILE DIRECTLY! * * This file was generated automatically and any changes may be lost. */ #ifndef __HW_SPI_REGISTERS_H__ #define __HW_SPI_REGISTERS_H__ #include "regs.h" /* * MK64F12 SPI * * Serial Peripheral Interface * * Registers defined in this header file: * - HW_SPI_MCR - Module Configuration Register * - HW_SPI_TCR - Transfer Count Register * - HW_SPI_CTARn - Clock and Transfer Attributes Register (In Master Mode) * - HW_SPI_CTARn_SLAVE - Clock and Transfer Attributes Register (In Slave Mode) * - HW_SPI_SR - Status Register * - HW_SPI_RSER - DMA/Interrupt Request Select and Enable Register * - HW_SPI_PUSHR - PUSH TX FIFO Register In Master Mode * - HW_SPI_PUSHR_SLAVE - PUSH TX FIFO Register In Slave Mode * - HW_SPI_POPR - POP RX FIFO Register * - HW_SPI_TXFRn - Transmit FIFO Registers * - HW_SPI_RXFRn - Receive FIFO Registers * * - hw_spi_t - Struct containing all module registers. */ //! @name Module base addresses //@{ #ifndef REGS_SPI_BASE #define HW_SPI_INSTANCE_COUNT (3U) //!< Number of instances of the SPI module. #define HW_SPI0 (0U) //!< Instance number for SPI0. #define HW_SPI1 (1U) //!< Instance number for SPI1. #define HW_SPI2 (2U) //!< Instance number for SPI2. #define REGS_SPI0_BASE (0x4002C000U) //!< Base address for SPI0. #define REGS_SPI1_BASE (0x4002D000U) //!< Base address for SPI1. #define REGS_SPI2_BASE (0x400AC000U) //!< Base address for SPI2. //! @brief Table of base addresses for SPI instances. static const uint32_t __g_regs_SPI_base_addresses[] = { REGS_SPI0_BASE, REGS_SPI1_BASE, REGS_SPI2_BASE, }; //! @brief Get the base address of SPI by instance number. //! @param x SPI instance number, from 0 through 2. #define REGS_SPI_BASE(x) (__g_regs_SPI_base_addresses[(x)]) //! @brief Get the instance number given a base address. //! @param b Base address for an instance of SPI. #define REGS_SPI_INSTANCE(b) ((b) == REGS_SPI0_BASE ? HW_SPI0 : (b) == REGS_SPI1_BASE ? HW_SPI1 : (b) == REGS_SPI2_BASE ? HW_SPI2 : 0) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_MCR - Module Configuration Register //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_MCR - Module Configuration Register (RW) * * Reset value: 0x00004001U * * Contains bits to configure various attributes associated with the module * operations. The HALT and MDIS bits can be changed at any time, but the effect * takes place only on the next frame boundary. Only the HALT and MDIS bits in the * MCR can be changed, while the module is in the Running state. */ typedef union _hw_spi_mcr { uint32_t U; struct _hw_spi_mcr_bitfields { uint32_t HALT : 1; //!< [0] Halt uint32_t RESERVED0 : 7; //!< [7:1] uint32_t SMPL_PT : 2; //!< [9:8] Sample Point uint32_t CLR_RXF : 1; //!< [10] uint32_t CLR_TXF : 1; //!< [11] Clear TX FIFO uint32_t DIS_RXF : 1; //!< [12] Disable Receive FIFO uint32_t DIS_TXF : 1; //!< [13] Disable Transmit FIFO uint32_t MDIS : 1; //!< [14] Module Disable uint32_t DOZE : 1; //!< [15] Doze Enable uint32_t PCSIS : 6; //!< [21:16] Peripheral Chip Select x Inactive //! State uint32_t RESERVED1 : 2; //!< [23:22] uint32_t ROOE : 1; //!< [24] Receive FIFO Overflow Overwrite Enable uint32_t PCSSE : 1; //!< [25] Peripheral Chip Select Strobe Enable uint32_t MTFE : 1; //!< [26] Modified Timing Format Enable uint32_t FRZ : 1; //!< [27] Freeze uint32_t DCONF : 2; //!< [29:28] SPI Configuration. uint32_t CONT_SCKE : 1; //!< [30] Continuous SCK Enable uint32_t MSTR : 1; //!< [31] Master/Slave Mode Select } B; } hw_spi_mcr_t; #endif /*! * @name Constants and macros for entire SPI_MCR register */ //@{ #define HW_SPI_MCR_ADDR(x) (REGS_SPI_BASE(x) + 0x0U) #ifndef __LANGUAGE_ASM__ #define HW_SPI_MCR(x) (*(__IO hw_spi_mcr_t *) HW_SPI_MCR_ADDR(x)) #define HW_SPI_MCR_RD(x) (HW_SPI_MCR(x).U) #define HW_SPI_MCR_WR(x, v) (HW_SPI_MCR(x).U = (v)) #define HW_SPI_MCR_SET(x, v) (HW_SPI_MCR_WR(x, HW_SPI_MCR_RD(x) | (v))) #define HW_SPI_MCR_CLR(x, v) (HW_SPI_MCR_WR(x, HW_SPI_MCR_RD(x) & ~(v))) #define HW_SPI_MCR_TOG(x, v) (HW_SPI_MCR_WR(x, HW_SPI_MCR_RD(x) ^ (v))) #endif //@} /* * Constants & macros for individual SPI_MCR bitfields */ /*! * @name Register SPI_MCR, field HALT[0] (RW) * * The HALT bit starts and stops frame transfers. See Start and Stop of Module * transfers * * Values: * - 0 - Start transfers. * - 1 - Stop transfers. */ //@{ #define BP_SPI_MCR_HALT (0U) //!< Bit position for SPI_MCR_HALT. #define BM_SPI_MCR_HALT (0x00000001U) //!< Bit mask for SPI_MCR_HALT. #define BS_SPI_MCR_HALT (1U) //!< Bit field size in bits for SPI_MCR_HALT. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_HALT field. #define BR_SPI_MCR_HALT(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_HALT)) #endif //! @brief Format value for bitfield SPI_MCR_HALT. #define BF_SPI_MCR_HALT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_HALT), uint32_t) & BM_SPI_MCR_HALT) #ifndef __LANGUAGE_ASM__ //! @brief Set the HALT field to a new value. #define BW_SPI_MCR_HALT(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_HALT) = (v)) #endif //@} /*! * @name Register SPI_MCR, field SMPL_PT[9:8] (RW) * * Controls when the module master samples SIN in Modified Transfer Format. This * field is valid only when CPHA bit in CTARn[CPHA] is 0. * * Values: * - 00 - 0 protocol clock cycles between SCK edge and SIN sample * - 01 - 1 protocol clock cycle between SCK edge and SIN sample * - 10 - 2 protocol clock cycles between SCK edge and SIN sample * - 11 - Reserved */ //@{ #define BP_SPI_MCR_SMPL_PT (8U) //!< Bit position for SPI_MCR_SMPL_PT. #define BM_SPI_MCR_SMPL_PT (0x00000300U) //!< Bit mask for SPI_MCR_SMPL_PT. #define BS_SPI_MCR_SMPL_PT (2U) //!< Bit field size in bits for SPI_MCR_SMPL_PT. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_SMPL_PT field. #define BR_SPI_MCR_SMPL_PT(x) (HW_SPI_MCR(x).B.SMPL_PT) #endif //! @brief Format value for bitfield SPI_MCR_SMPL_PT. #define BF_SPI_MCR_SMPL_PT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_SMPL_PT), uint32_t) & BM_SPI_MCR_SMPL_PT) #ifndef __LANGUAGE_ASM__ //! @brief Set the SMPL_PT field to a new value. #define BW_SPI_MCR_SMPL_PT(x, v) (HW_SPI_MCR_WR(x, (HW_SPI_MCR_RD(x) & ~BM_SPI_MCR_SMPL_PT) | BF_SPI_MCR_SMPL_PT(v))) #endif //@} /*! * @name Register SPI_MCR, field CLR_RXF[10] (WORZ) * * Flushes the RX FIFO. Writing a 1 to CLR_RXF clears the RX Counter. The * CLR_RXF bit is always read as zero. * * Values: * - 0 - Do not clear the RX FIFO counter. * - 1 - Clear the RX FIFO counter. */ //@{ #define BP_SPI_MCR_CLR_RXF (10U) //!< Bit position for SPI_MCR_CLR_RXF. #define BM_SPI_MCR_CLR_RXF (0x00000400U) //!< Bit mask for SPI_MCR_CLR_RXF. #define BS_SPI_MCR_CLR_RXF (1U) //!< Bit field size in bits for SPI_MCR_CLR_RXF. //! @brief Format value for bitfield SPI_MCR_CLR_RXF. #define BF_SPI_MCR_CLR_RXF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_CLR_RXF), uint32_t) & BM_SPI_MCR_CLR_RXF) #ifndef __LANGUAGE_ASM__ //! @brief Set the CLR_RXF field to a new value. #define BW_SPI_MCR_CLR_RXF(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_CLR_RXF) = (v)) #endif //@} /*! * @name Register SPI_MCR, field CLR_TXF[11] (WORZ) * * Flushes the TX FIFO. Writing a 1 to CLR_TXF clears the TX FIFO Counter. The * CLR_TXF bit is always read as zero. * * Values: * - 0 - Do not clear the TX FIFO counter. * - 1 - Clear the TX FIFO counter. */ //@{ #define BP_SPI_MCR_CLR_TXF (11U) //!< Bit position for SPI_MCR_CLR_TXF. #define BM_SPI_MCR_CLR_TXF (0x00000800U) //!< Bit mask for SPI_MCR_CLR_TXF. #define BS_SPI_MCR_CLR_TXF (1U) //!< Bit field size in bits for SPI_MCR_CLR_TXF. //! @brief Format value for bitfield SPI_MCR_CLR_TXF. #define BF_SPI_MCR_CLR_TXF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_CLR_TXF), uint32_t) & BM_SPI_MCR_CLR_TXF) #ifndef __LANGUAGE_ASM__ //! @brief Set the CLR_TXF field to a new value. #define BW_SPI_MCR_CLR_TXF(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_CLR_TXF) = (v)) #endif //@} /*! * @name Register SPI_MCR, field DIS_RXF[12] (RW) * * When the RX FIFO is disabled, the receive part of the module operates as a * simplified double-buffered SPI. This bit can only be written when the MDIS bit * is cleared. * * Values: * - 0 - RX FIFO is enabled. * - 1 - RX FIFO is disabled. */ //@{ #define BP_SPI_MCR_DIS_RXF (12U) //!< Bit position for SPI_MCR_DIS_RXF. #define BM_SPI_MCR_DIS_RXF (0x00001000U) //!< Bit mask for SPI_MCR_DIS_RXF. #define BS_SPI_MCR_DIS_RXF (1U) //!< Bit field size in bits for SPI_MCR_DIS_RXF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_DIS_RXF field. #define BR_SPI_MCR_DIS_RXF(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_DIS_RXF)) #endif //! @brief Format value for bitfield SPI_MCR_DIS_RXF. #define BF_SPI_MCR_DIS_RXF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_DIS_RXF), uint32_t) & BM_SPI_MCR_DIS_RXF) #ifndef __LANGUAGE_ASM__ //! @brief Set the DIS_RXF field to a new value. #define BW_SPI_MCR_DIS_RXF(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_DIS_RXF) = (v)) #endif //@} /*! * @name Register SPI_MCR, field DIS_TXF[13] (RW) * * When the TX FIFO is disabled, the transmit part of the module operates as a * simplified double-buffered SPI. This bit can be written only when the MDIS bit * is cleared. * * Values: * - 0 - TX FIFO is enabled. * - 1 - TX FIFO is disabled. */ //@{ #define BP_SPI_MCR_DIS_TXF (13U) //!< Bit position for SPI_MCR_DIS_TXF. #define BM_SPI_MCR_DIS_TXF (0x00002000U) //!< Bit mask for SPI_MCR_DIS_TXF. #define BS_SPI_MCR_DIS_TXF (1U) //!< Bit field size in bits for SPI_MCR_DIS_TXF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_DIS_TXF field. #define BR_SPI_MCR_DIS_TXF(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_DIS_TXF)) #endif //! @brief Format value for bitfield SPI_MCR_DIS_TXF. #define BF_SPI_MCR_DIS_TXF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_DIS_TXF), uint32_t) & BM_SPI_MCR_DIS_TXF) #ifndef __LANGUAGE_ASM__ //! @brief Set the DIS_TXF field to a new value. #define BW_SPI_MCR_DIS_TXF(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_DIS_TXF) = (v)) #endif //@} /*! * @name Register SPI_MCR, field MDIS[14] (RW) * * Allows the clock to be stopped to the non-memory mapped logic in the module * effectively putting it in a software-controlled power-saving state. The reset * value of the MDIS bit is parameterized, with a default reset value of 0. When * the module is used in Slave Mode, we recommend leaving this bit 0, because a * slave doesn't have control over master transactions. * * Values: * - 0 - Enables the module clocks. * - 1 - Allows external logic to disable the module clocks. */ //@{ #define BP_SPI_MCR_MDIS (14U) //!< Bit position for SPI_MCR_MDIS. #define BM_SPI_MCR_MDIS (0x00004000U) //!< Bit mask for SPI_MCR_MDIS. #define BS_SPI_MCR_MDIS (1U) //!< Bit field size in bits for SPI_MCR_MDIS. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_MDIS field. #define BR_SPI_MCR_MDIS(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_MDIS)) #endif //! @brief Format value for bitfield SPI_MCR_MDIS. #define BF_SPI_MCR_MDIS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_MDIS), uint32_t) & BM_SPI_MCR_MDIS) #ifndef __LANGUAGE_ASM__ //! @brief Set the MDIS field to a new value. #define BW_SPI_MCR_MDIS(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_MDIS) = (v)) #endif //@} /*! * @name Register SPI_MCR, field DOZE[15] (RW) * * Provides support for an externally controlled Doze mode power-saving * mechanism. * * Values: * - 0 - Doze mode has no effect on the module. * - 1 - Doze mode disables the module. */ //@{ #define BP_SPI_MCR_DOZE (15U) //!< Bit position for SPI_MCR_DOZE. #define BM_SPI_MCR_DOZE (0x00008000U) //!< Bit mask for SPI_MCR_DOZE. #define BS_SPI_MCR_DOZE (1U) //!< Bit field size in bits for SPI_MCR_DOZE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_DOZE field. #define BR_SPI_MCR_DOZE(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_DOZE)) #endif //! @brief Format value for bitfield SPI_MCR_DOZE. #define BF_SPI_MCR_DOZE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_DOZE), uint32_t) & BM_SPI_MCR_DOZE) #ifndef __LANGUAGE_ASM__ //! @brief Set the DOZE field to a new value. #define BW_SPI_MCR_DOZE(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_DOZE) = (v)) #endif //@} /*! * @name Register SPI_MCR, field PCSIS[21:16] (RW) * * Determines the inactive state of PCSx. * * Values: * - 0 - The inactive state of PCSx is low. * - 1 - The inactive state of PCSx is high. */ //@{ #define BP_SPI_MCR_PCSIS (16U) //!< Bit position for SPI_MCR_PCSIS. #define BM_SPI_MCR_PCSIS (0x003F0000U) //!< Bit mask for SPI_MCR_PCSIS. #define BS_SPI_MCR_PCSIS (6U) //!< Bit field size in bits for SPI_MCR_PCSIS. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_PCSIS field. #define BR_SPI_MCR_PCSIS(x) (HW_SPI_MCR(x).B.PCSIS) #endif //! @brief Format value for bitfield SPI_MCR_PCSIS. #define BF_SPI_MCR_PCSIS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_PCSIS), uint32_t) & BM_SPI_MCR_PCSIS) #ifndef __LANGUAGE_ASM__ //! @brief Set the PCSIS field to a new value. #define BW_SPI_MCR_PCSIS(x, v) (HW_SPI_MCR_WR(x, (HW_SPI_MCR_RD(x) & ~BM_SPI_MCR_PCSIS) | BF_SPI_MCR_PCSIS(v))) #endif //@} /*! * @name Register SPI_MCR, field ROOE[24] (RW) * * In the RX FIFO overflow condition, configures the module to ignore the * incoming serial data or overwrite existing data. If the RX FIFO is full and new data * is received, the data from the transfer, generating the overflow, is ignored * or shifted into the shift register. * * Values: * - 0 - Incoming data is ignored. * - 1 - Incoming data is shifted into the shift register. */ //@{ #define BP_SPI_MCR_ROOE (24U) //!< Bit position for SPI_MCR_ROOE. #define BM_SPI_MCR_ROOE (0x01000000U) //!< Bit mask for SPI_MCR_ROOE. #define BS_SPI_MCR_ROOE (1U) //!< Bit field size in bits for SPI_MCR_ROOE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_ROOE field. #define BR_SPI_MCR_ROOE(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_ROOE)) #endif //! @brief Format value for bitfield SPI_MCR_ROOE. #define BF_SPI_MCR_ROOE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_ROOE), uint32_t) & BM_SPI_MCR_ROOE) #ifndef __LANGUAGE_ASM__ //! @brief Set the ROOE field to a new value. #define BW_SPI_MCR_ROOE(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_ROOE) = (v)) #endif //@} /*! * @name Register SPI_MCR, field PCSSE[25] (RW) * * Enables the PCS5/ PCSS to operate as a PCS Strobe output signal. * * Values: * - 0 - PCS5/ PCSS is used as the Peripheral Chip Select[5] signal. * - 1 - PCS5/ PCSS is used as an active-low PCS Strobe signal. */ //@{ #define BP_SPI_MCR_PCSSE (25U) //!< Bit position for SPI_MCR_PCSSE. #define BM_SPI_MCR_PCSSE (0x02000000U) //!< Bit mask for SPI_MCR_PCSSE. #define BS_SPI_MCR_PCSSE (1U) //!< Bit field size in bits for SPI_MCR_PCSSE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_PCSSE field. #define BR_SPI_MCR_PCSSE(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_PCSSE)) #endif //! @brief Format value for bitfield SPI_MCR_PCSSE. #define BF_SPI_MCR_PCSSE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_PCSSE), uint32_t) & BM_SPI_MCR_PCSSE) #ifndef __LANGUAGE_ASM__ //! @brief Set the PCSSE field to a new value. #define BW_SPI_MCR_PCSSE(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_PCSSE) = (v)) #endif //@} /*! * @name Register SPI_MCR, field MTFE[26] (RW) * * Enables a modified transfer format to be used. * * Values: * - 0 - Modified SPI transfer format disabled. * - 1 - Modified SPI transfer format enabled. */ //@{ #define BP_SPI_MCR_MTFE (26U) //!< Bit position for SPI_MCR_MTFE. #define BM_SPI_MCR_MTFE (0x04000000U) //!< Bit mask for SPI_MCR_MTFE. #define BS_SPI_MCR_MTFE (1U) //!< Bit field size in bits for SPI_MCR_MTFE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_MTFE field. #define BR_SPI_MCR_MTFE(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_MTFE)) #endif //! @brief Format value for bitfield SPI_MCR_MTFE. #define BF_SPI_MCR_MTFE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_MTFE), uint32_t) & BM_SPI_MCR_MTFE) #ifndef __LANGUAGE_ASM__ //! @brief Set the MTFE field to a new value. #define BW_SPI_MCR_MTFE(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_MTFE) = (v)) #endif //@} /*! * @name Register SPI_MCR, field FRZ[27] (RW) * * Enables transfers to be stopped on the next frame boundary when the device * enters Debug mode. * * Values: * - 0 - Do not halt serial transfers in Debug mode. * - 1 - Halt serial transfers in Debug mode. */ //@{ #define BP_SPI_MCR_FRZ (27U) //!< Bit position for SPI_MCR_FRZ. #define BM_SPI_MCR_FRZ (0x08000000U) //!< Bit mask for SPI_MCR_FRZ. #define BS_SPI_MCR_FRZ (1U) //!< Bit field size in bits for SPI_MCR_FRZ. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_FRZ field. #define BR_SPI_MCR_FRZ(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_FRZ)) #endif //! @brief Format value for bitfield SPI_MCR_FRZ. #define BF_SPI_MCR_FRZ(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_FRZ), uint32_t) & BM_SPI_MCR_FRZ) #ifndef __LANGUAGE_ASM__ //! @brief Set the FRZ field to a new value. #define BW_SPI_MCR_FRZ(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_FRZ) = (v)) #endif //@} /*! * @name Register SPI_MCR, field DCONF[29:28] (RO) * * Selects among the different configurations of the module. * * Values: * - 00 - SPI * - 01 - Reserved * - 10 - Reserved * - 11 - Reserved */ //@{ #define BP_SPI_MCR_DCONF (28U) //!< Bit position for SPI_MCR_DCONF. #define BM_SPI_MCR_DCONF (0x30000000U) //!< Bit mask for SPI_MCR_DCONF. #define BS_SPI_MCR_DCONF (2U) //!< Bit field size in bits for SPI_MCR_DCONF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_DCONF field. #define BR_SPI_MCR_DCONF(x) (HW_SPI_MCR(x).B.DCONF) #endif //@} /*! * @name Register SPI_MCR, field CONT_SCKE[30] (RW) * * Enables the Serial Communication Clock (SCK) to run continuously. * * Values: * - 0 - Continuous SCK disabled. * - 1 - Continuous SCK enabled. */ //@{ #define BP_SPI_MCR_CONT_SCKE (30U) //!< Bit position for SPI_MCR_CONT_SCKE. #define BM_SPI_MCR_CONT_SCKE (0x40000000U) //!< Bit mask for SPI_MCR_CONT_SCKE. #define BS_SPI_MCR_CONT_SCKE (1U) //!< Bit field size in bits for SPI_MCR_CONT_SCKE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_CONT_SCKE field. #define BR_SPI_MCR_CONT_SCKE(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_CONT_SCKE)) #endif //! @brief Format value for bitfield SPI_MCR_CONT_SCKE. #define BF_SPI_MCR_CONT_SCKE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_CONT_SCKE), uint32_t) & BM_SPI_MCR_CONT_SCKE) #ifndef __LANGUAGE_ASM__ //! @brief Set the CONT_SCKE field to a new value. #define BW_SPI_MCR_CONT_SCKE(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_CONT_SCKE) = (v)) #endif //@} /*! * @name Register SPI_MCR, field MSTR[31] (RW) * * Enables either Master mode (if supported) or Slave mode (if supported) * operation. * * Values: * - 0 - Enables Slave mode * - 1 - Enables Master mode */ //@{ #define BP_SPI_MCR_MSTR (31U) //!< Bit position for SPI_MCR_MSTR. #define BM_SPI_MCR_MSTR (0x80000000U) //!< Bit mask for SPI_MCR_MSTR. #define BS_SPI_MCR_MSTR (1U) //!< Bit field size in bits for SPI_MCR_MSTR. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_MCR_MSTR field. #define BR_SPI_MCR_MSTR(x) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_MSTR)) #endif //! @brief Format value for bitfield SPI_MCR_MSTR. #define BF_SPI_MCR_MSTR(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_MCR_MSTR), uint32_t) & BM_SPI_MCR_MSTR) #ifndef __LANGUAGE_ASM__ //! @brief Set the MSTR field to a new value. #define BW_SPI_MCR_MSTR(x, v) (BITBAND_ACCESS32(HW_SPI_MCR_ADDR(x), BP_SPI_MCR_MSTR) = (v)) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_TCR - Transfer Count Register //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_TCR - Transfer Count Register (RW) * * Reset value: 0x00000000U * * TCR contains a counter that indicates the number of SPI transfers made. The * transfer counter is intended to assist in queue management. Do not write the * TCR when the module is in the Running state. */ typedef union _hw_spi_tcr { uint32_t U; struct _hw_spi_tcr_bitfields { uint32_t RESERVED0 : 16; //!< [15:0] uint32_t SPI_TCNT : 16; //!< [31:16] SPI Transfer Counter } B; } hw_spi_tcr_t; #endif /*! * @name Constants and macros for entire SPI_TCR register */ //@{ #define HW_SPI_TCR_ADDR(x) (REGS_SPI_BASE(x) + 0x8U) #ifndef __LANGUAGE_ASM__ #define HW_SPI_TCR(x) (*(__IO hw_spi_tcr_t *) HW_SPI_TCR_ADDR(x)) #define HW_SPI_TCR_RD(x) (HW_SPI_TCR(x).U) #define HW_SPI_TCR_WR(x, v) (HW_SPI_TCR(x).U = (v)) #define HW_SPI_TCR_SET(x, v) (HW_SPI_TCR_WR(x, HW_SPI_TCR_RD(x) | (v))) #define HW_SPI_TCR_CLR(x, v) (HW_SPI_TCR_WR(x, HW_SPI_TCR_RD(x) & ~(v))) #define HW_SPI_TCR_TOG(x, v) (HW_SPI_TCR_WR(x, HW_SPI_TCR_RD(x) ^ (v))) #endif //@} /* * Constants & macros for individual SPI_TCR bitfields */ /*! * @name Register SPI_TCR, field SPI_TCNT[31:16] (RW) * * Counts the number of SPI transfers the module makes. The SPI_TCNT field * increments every time the last bit of an SPI frame is transmitted. A value written * to SPI_TCNT presets the counter to that value. SPI_TCNT is reset to zero at * the beginning of the frame when the CTCNT field is set in the executing SPI * command. The Transfer Counter wraps around; incrementing the counter past 65535 * resets the counter to zero. */ //@{ #define BP_SPI_TCR_SPI_TCNT (16U) //!< Bit position for SPI_TCR_SPI_TCNT. #define BM_SPI_TCR_SPI_TCNT (0xFFFF0000U) //!< Bit mask for SPI_TCR_SPI_TCNT. #define BS_SPI_TCR_SPI_TCNT (16U) //!< Bit field size in bits for SPI_TCR_SPI_TCNT. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_TCR_SPI_TCNT field. #define BR_SPI_TCR_SPI_TCNT(x) (HW_SPI_TCR(x).B.SPI_TCNT) #endif //! @brief Format value for bitfield SPI_TCR_SPI_TCNT. #define BF_SPI_TCR_SPI_TCNT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_TCR_SPI_TCNT), uint32_t) & BM_SPI_TCR_SPI_TCNT) #ifndef __LANGUAGE_ASM__ //! @brief Set the SPI_TCNT field to a new value. #define BW_SPI_TCR_SPI_TCNT(x, v) (HW_SPI_TCR_WR(x, (HW_SPI_TCR_RD(x) & ~BM_SPI_TCR_SPI_TCNT) | BF_SPI_TCR_SPI_TCNT(v))) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_CTARn - Clock and Transfer Attributes Register (In Master Mode) //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_CTARn - Clock and Transfer Attributes Register (In Master Mode) (RW) * * Reset value: 0x78000000U * * CTAR registers are used to define different transfer attributes. Do not write * to the CTAR registers while the module is in the Running state. In Master * mode, the CTAR registers define combinations of transfer attributes such as frame * size, clock phase and polarity, data bit ordering, baud rate, and various * delays. In slave mode, a subset of the bitfields in CTAR0 are used to set the * slave transfer attributes. When the module is configured as an SPI master, the * CTAS field in the command portion of the TX FIFO entry selects which of the CTAR * registers is used. When the module is configured as an SPI bus slave, it uses * the CTAR0 register. */ typedef union _hw_spi_ctarn { uint32_t U; struct _hw_spi_ctarn_bitfields { uint32_t BR : 4; //!< [3:0] Baud Rate Scaler uint32_t DT : 4; //!< [7:4] Delay After Transfer Scaler uint32_t ASC : 4; //!< [11:8] After SCK Delay Scaler uint32_t CSSCK : 4; //!< [15:12] PCS to SCK Delay Scaler uint32_t PBR : 2; //!< [17:16] Baud Rate Prescaler uint32_t PDT : 2; //!< [19:18] Delay after Transfer Prescaler uint32_t PASC : 2; //!< [21:20] After SCK Delay Prescaler uint32_t PCSSCK : 2; //!< [23:22] PCS to SCK Delay Prescaler uint32_t LSBFE : 1; //!< [24] LSB First uint32_t CPHA : 1; //!< [25] Clock Phase uint32_t CPOL : 1; //!< [26] Clock Polarity uint32_t FMSZ : 4; //!< [30:27] Frame Size uint32_t DBR : 1; //!< [31] Double Baud Rate } B; } hw_spi_ctarn_t; #endif /*! * @name Constants and macros for entire SPI_CTARn register */ //@{ #define HW_SPI_CTARn_COUNT (2U) #define HW_SPI_CTARn_ADDR(x, n) (REGS_SPI_BASE(x) + 0xCU + (0x4U * n)) #ifndef __LANGUAGE_ASM__ #define HW_SPI_CTARn(x, n) (*(__IO hw_spi_ctarn_t *) HW_SPI_CTARn_ADDR(x, n)) #define HW_SPI_CTARn_RD(x, n) (HW_SPI_CTARn(x, n).U) #define HW_SPI_CTARn_WR(x, n, v) (HW_SPI_CTARn(x, n).U = (v)) #define HW_SPI_CTARn_SET(x, n, v) (HW_SPI_CTARn_WR(x, n, HW_SPI_CTARn_RD(x, n) | (v))) #define HW_SPI_CTARn_CLR(x, n, v) (HW_SPI_CTARn_WR(x, n, HW_SPI_CTARn_RD(x, n) & ~(v))) #define HW_SPI_CTARn_TOG(x, n, v) (HW_SPI_CTARn_WR(x, n, HW_SPI_CTARn_RD(x, n) ^ (v))) #endif //@} /* * Constants & macros for individual SPI_CTARn bitfields */ /*! * @name Register SPI_CTARn, field BR[3:0] (RW) * * Selects the scaler value for the baud rate. This field is used only in master * mode. The prescaled protocol clock is divided by the Baud Rate Scaler to * generate the frequency of the SCK. The baud rate is computed according to the * following equation: SCK baud rate = (fP /PBR) x [(1+DBR)/BR] The following table * lists the baud rate scaler values. Baud Rate Scaler CTARn[BR] Baud Rate Scaler * Value 0000 2 0001 4 0010 6 0011 8 0100 16 0101 32 0110 64 0111 128 1000 256 * 1001 512 1010 1024 1011 2048 1100 4096 1101 8192 1110 16384 1111 32768 */ //@{ #define BP_SPI_CTARn_BR (0U) //!< Bit position for SPI_CTARn_BR. #define BM_SPI_CTARn_BR (0x0000000FU) //!< Bit mask for SPI_CTARn_BR. #define BS_SPI_CTARn_BR (4U) //!< Bit field size in bits for SPI_CTARn_BR. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_BR field. #define BR_SPI_CTARn_BR(x, n) (HW_SPI_CTARn(x, n).B.BR) #endif //! @brief Format value for bitfield SPI_CTARn_BR. #define BF_SPI_CTARn_BR(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_BR), uint32_t) & BM_SPI_CTARn_BR) #ifndef __LANGUAGE_ASM__ //! @brief Set the BR field to a new value. #define BW_SPI_CTARn_BR(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_BR) | BF_SPI_CTARn_BR(v))) #endif //@} /*! * @name Register SPI_CTARn, field DT[7:4] (RW) * * Selects the Delay after Transfer Scaler. This field is used only in master * mode. The Delay after Transfer is the time between the negation of the PCS * signal at the end of a frame and the assertion of PCS at the beginning of the next * frame. In the Continuous Serial Communications Clock operation, the DT value * is fixed to one SCK clock period, The Delay after Transfer is a multiple of the * protocol clock period, and it is computed according to the following * equation: tDT = (1/fP ) x PDT x DT See Delay Scaler Encoding table in CTARn[CSSCK] bit * field description for scaler values. */ //@{ #define BP_SPI_CTARn_DT (4U) //!< Bit position for SPI_CTARn_DT. #define BM_SPI_CTARn_DT (0x000000F0U) //!< Bit mask for SPI_CTARn_DT. #define BS_SPI_CTARn_DT (4U) //!< Bit field size in bits for SPI_CTARn_DT. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_DT field. #define BR_SPI_CTARn_DT(x, n) (HW_SPI_CTARn(x, n).B.DT) #endif //! @brief Format value for bitfield SPI_CTARn_DT. #define BF_SPI_CTARn_DT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_DT), uint32_t) & BM_SPI_CTARn_DT) #ifndef __LANGUAGE_ASM__ //! @brief Set the DT field to a new value. #define BW_SPI_CTARn_DT(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_DT) | BF_SPI_CTARn_DT(v))) #endif //@} /*! * @name Register SPI_CTARn, field ASC[11:8] (RW) * * Selects the scaler value for the After SCK Delay. This field is used only in * master mode. The After SCK Delay is the delay between the last edge of SCK and * the negation of PCS. The delay is a multiple of the protocol clock period, * and it is computed according to the following equation: t ASC = (1/fP) x PASC x * ASC See Delay Scaler Encoding table in CTARn[CSSCK] bit field description for * scaler values. Refer After SCK Delay (tASC ) for more details. */ //@{ #define BP_SPI_CTARn_ASC (8U) //!< Bit position for SPI_CTARn_ASC. #define BM_SPI_CTARn_ASC (0x00000F00U) //!< Bit mask for SPI_CTARn_ASC. #define BS_SPI_CTARn_ASC (4U) //!< Bit field size in bits for SPI_CTARn_ASC. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_ASC field. #define BR_SPI_CTARn_ASC(x, n) (HW_SPI_CTARn(x, n).B.ASC) #endif //! @brief Format value for bitfield SPI_CTARn_ASC. #define BF_SPI_CTARn_ASC(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_ASC), uint32_t) & BM_SPI_CTARn_ASC) #ifndef __LANGUAGE_ASM__ //! @brief Set the ASC field to a new value. #define BW_SPI_CTARn_ASC(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_ASC) | BF_SPI_CTARn_ASC(v))) #endif //@} /*! * @name Register SPI_CTARn, field CSSCK[15:12] (RW) * * Selects the scaler value for the PCS to SCK delay. This field is used only in * master mode. The PCS to SCK Delay is the delay between the assertion of PCS * and the first edge of the SCK. The delay is a multiple of the protocol clock * period, and it is computed according to the following equation: t CSC = (1/fP ) * x PCSSCK x CSSCK. The following table lists the delay scaler values. Delay * Scaler Encoding Field Value Delay Scaler Value 0000 2 0001 4 0010 8 0011 16 0100 * 32 0101 64 0110 128 0111 256 1000 512 1001 1024 1010 2048 1011 4096 1100 8192 * 1101 16384 1110 32768 1111 65536 Refer PCS to SCK Delay (tCSC ) for more * details. */ //@{ #define BP_SPI_CTARn_CSSCK (12U) //!< Bit position for SPI_CTARn_CSSCK. #define BM_SPI_CTARn_CSSCK (0x0000F000U) //!< Bit mask for SPI_CTARn_CSSCK. #define BS_SPI_CTARn_CSSCK (4U) //!< Bit field size in bits for SPI_CTARn_CSSCK. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_CSSCK field. #define BR_SPI_CTARn_CSSCK(x, n) (HW_SPI_CTARn(x, n).B.CSSCK) #endif //! @brief Format value for bitfield SPI_CTARn_CSSCK. #define BF_SPI_CTARn_CSSCK(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_CSSCK), uint32_t) & BM_SPI_CTARn_CSSCK) #ifndef __LANGUAGE_ASM__ //! @brief Set the CSSCK field to a new value. #define BW_SPI_CTARn_CSSCK(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_CSSCK) | BF_SPI_CTARn_CSSCK(v))) #endif //@} /*! * @name Register SPI_CTARn, field PBR[17:16] (RW) * * Selects the prescaler value for the baud rate. This field is used only in * master mode. The baud rate is the frequency of the SCK. The protocol clock is * divided by the prescaler value before the baud rate selection takes place. See * the BR field description for details on how to compute the baud rate. * * Values: * - 00 - Baud Rate Prescaler value is 2. * - 01 - Baud Rate Prescaler value is 3. * - 10 - Baud Rate Prescaler value is 5. * - 11 - Baud Rate Prescaler value is 7. */ //@{ #define BP_SPI_CTARn_PBR (16U) //!< Bit position for SPI_CTARn_PBR. #define BM_SPI_CTARn_PBR (0x00030000U) //!< Bit mask for SPI_CTARn_PBR. #define BS_SPI_CTARn_PBR (2U) //!< Bit field size in bits for SPI_CTARn_PBR. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_PBR field. #define BR_SPI_CTARn_PBR(x, n) (HW_SPI_CTARn(x, n).B.PBR) #endif //! @brief Format value for bitfield SPI_CTARn_PBR. #define BF_SPI_CTARn_PBR(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_PBR), uint32_t) & BM_SPI_CTARn_PBR) #ifndef __LANGUAGE_ASM__ //! @brief Set the PBR field to a new value. #define BW_SPI_CTARn_PBR(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_PBR) | BF_SPI_CTARn_PBR(v))) #endif //@} /*! * @name Register SPI_CTARn, field PDT[19:18] (RW) * * Selects the prescaler value for the delay between the negation of the PCS * signal at the end of a frame and the assertion of PCS at the beginning of the * next frame. The PDT field is only used in master mode. See the DT field * description for details on how to compute the Delay after Transfer. Refer Delay after * Transfer (tDT ) for more details. * * Values: * - 00 - Delay after Transfer Prescaler value is 1. * - 01 - Delay after Transfer Prescaler value is 3. * - 10 - Delay after Transfer Prescaler value is 5. * - 11 - Delay after Transfer Prescaler value is 7. */ //@{ #define BP_SPI_CTARn_PDT (18U) //!< Bit position for SPI_CTARn_PDT. #define BM_SPI_CTARn_PDT (0x000C0000U) //!< Bit mask for SPI_CTARn_PDT. #define BS_SPI_CTARn_PDT (2U) //!< Bit field size in bits for SPI_CTARn_PDT. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_PDT field. #define BR_SPI_CTARn_PDT(x, n) (HW_SPI_CTARn(x, n).B.PDT) #endif //! @brief Format value for bitfield SPI_CTARn_PDT. #define BF_SPI_CTARn_PDT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_PDT), uint32_t) & BM_SPI_CTARn_PDT) #ifndef __LANGUAGE_ASM__ //! @brief Set the PDT field to a new value. #define BW_SPI_CTARn_PDT(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_PDT) | BF_SPI_CTARn_PDT(v))) #endif //@} /*! * @name Register SPI_CTARn, field PASC[21:20] (RW) * * Selects the prescaler value for the delay between the last edge of SCK and * the negation of PCS. See the ASC field description for information on how to * compute the After SCK Delay. Refer After SCK Delay (tASC ) for more details. * * Values: * - 00 - Delay after Transfer Prescaler value is 1. * - 01 - Delay after Transfer Prescaler value is 3. * - 10 - Delay after Transfer Prescaler value is 5. * - 11 - Delay after Transfer Prescaler value is 7. */ //@{ #define BP_SPI_CTARn_PASC (20U) //!< Bit position for SPI_CTARn_PASC. #define BM_SPI_CTARn_PASC (0x00300000U) //!< Bit mask for SPI_CTARn_PASC. #define BS_SPI_CTARn_PASC (2U) //!< Bit field size in bits for SPI_CTARn_PASC. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_PASC field. #define BR_SPI_CTARn_PASC(x, n) (HW_SPI_CTARn(x, n).B.PASC) #endif //! @brief Format value for bitfield SPI_CTARn_PASC. #define BF_SPI_CTARn_PASC(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_PASC), uint32_t) & BM_SPI_CTARn_PASC) #ifndef __LANGUAGE_ASM__ //! @brief Set the PASC field to a new value. #define BW_SPI_CTARn_PASC(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_PASC) | BF_SPI_CTARn_PASC(v))) #endif //@} /*! * @name Register SPI_CTARn, field PCSSCK[23:22] (RW) * * Selects the prescaler value for the delay between assertion of PCS and the * first edge of the SCK. See the CSSCK field description for information on how to * compute the PCS to SCK Delay. Refer PCS to SCK Delay (tCSC ) for more details. * * Values: * - 00 - PCS to SCK Prescaler value is 1. * - 01 - PCS to SCK Prescaler value is 3. * - 10 - PCS to SCK Prescaler value is 5. * - 11 - PCS to SCK Prescaler value is 7. */ //@{ #define BP_SPI_CTARn_PCSSCK (22U) //!< Bit position for SPI_CTARn_PCSSCK. #define BM_SPI_CTARn_PCSSCK (0x00C00000U) //!< Bit mask for SPI_CTARn_PCSSCK. #define BS_SPI_CTARn_PCSSCK (2U) //!< Bit field size in bits for SPI_CTARn_PCSSCK. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_PCSSCK field. #define BR_SPI_CTARn_PCSSCK(x, n) (HW_SPI_CTARn(x, n).B.PCSSCK) #endif //! @brief Format value for bitfield SPI_CTARn_PCSSCK. #define BF_SPI_CTARn_PCSSCK(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_PCSSCK), uint32_t) & BM_SPI_CTARn_PCSSCK) #ifndef __LANGUAGE_ASM__ //! @brief Set the PCSSCK field to a new value. #define BW_SPI_CTARn_PCSSCK(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_PCSSCK) | BF_SPI_CTARn_PCSSCK(v))) #endif //@} /*! * @name Register SPI_CTARn, field LSBFE[24] (RW) * * Specifies whether the LSB or MSB of the frame is transferred first. * * Values: * - 0 - Data is transferred MSB first. * - 1 - Data is transferred LSB first. */ //@{ #define BP_SPI_CTARn_LSBFE (24U) //!< Bit position for SPI_CTARn_LSBFE. #define BM_SPI_CTARn_LSBFE (0x01000000U) //!< Bit mask for SPI_CTARn_LSBFE. #define BS_SPI_CTARn_LSBFE (1U) //!< Bit field size in bits for SPI_CTARn_LSBFE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_LSBFE field. #define BR_SPI_CTARn_LSBFE(x, n) (BITBAND_ACCESS32(HW_SPI_CTARn_ADDR(x, n), BP_SPI_CTARn_LSBFE)) #endif //! @brief Format value for bitfield SPI_CTARn_LSBFE. #define BF_SPI_CTARn_LSBFE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_LSBFE), uint32_t) & BM_SPI_CTARn_LSBFE) #ifndef __LANGUAGE_ASM__ //! @brief Set the LSBFE field to a new value. #define BW_SPI_CTARn_LSBFE(x, n, v) (BITBAND_ACCESS32(HW_SPI_CTARn_ADDR(x, n), BP_SPI_CTARn_LSBFE) = (v)) #endif //@} /*! * @name Register SPI_CTARn, field CPHA[25] (RW) * * Selects which edge of SCK causes data to change and which edge causes data to * be captured. This bit is used in both master and slave mode. For successful * communication between serial devices, the devices must have identical clock * phase settings. In Continuous SCK mode, the bit value is ignored and the * transfers are done as if the CPHA bit is set to 1. * * Values: * - 0 - Data is captured on the leading edge of SCK and changed on the * following edge. * - 1 - Data is changed on the leading edge of SCK and captured on the * following edge. */ //@{ #define BP_SPI_CTARn_CPHA (25U) //!< Bit position for SPI_CTARn_CPHA. #define BM_SPI_CTARn_CPHA (0x02000000U) //!< Bit mask for SPI_CTARn_CPHA. #define BS_SPI_CTARn_CPHA (1U) //!< Bit field size in bits for SPI_CTARn_CPHA. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_CPHA field. #define BR_SPI_CTARn_CPHA(x, n) (BITBAND_ACCESS32(HW_SPI_CTARn_ADDR(x, n), BP_SPI_CTARn_CPHA)) #endif //! @brief Format value for bitfield SPI_CTARn_CPHA. #define BF_SPI_CTARn_CPHA(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_CPHA), uint32_t) & BM_SPI_CTARn_CPHA) #ifndef __LANGUAGE_ASM__ //! @brief Set the CPHA field to a new value. #define BW_SPI_CTARn_CPHA(x, n, v) (BITBAND_ACCESS32(HW_SPI_CTARn_ADDR(x, n), BP_SPI_CTARn_CPHA) = (v)) #endif //@} /*! * @name Register SPI_CTARn, field CPOL[26] (RW) * * Selects the inactive state of the Serial Communications Clock (SCK). This bit * is used in both master and slave mode. For successful communication between * serial devices, the devices must have identical clock polarities. When the * Continuous Selection Format is selected, switching between clock polarities * without stopping the module can cause errors in the transfer due to the peripheral * device interpreting the switch of clock polarity as a valid clock edge. In case * of continous sck mode, when the module goes in low power mode(disabled), * inactive state of sck is not guaranted. * * Values: * - 0 - The inactive state value of SCK is low. * - 1 - The inactive state value of SCK is high. */ //@{ #define BP_SPI_CTARn_CPOL (26U) //!< Bit position for SPI_CTARn_CPOL. #define BM_SPI_CTARn_CPOL (0x04000000U) //!< Bit mask for SPI_CTARn_CPOL. #define BS_SPI_CTARn_CPOL (1U) //!< Bit field size in bits for SPI_CTARn_CPOL. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_CPOL field. #define BR_SPI_CTARn_CPOL(x, n) (BITBAND_ACCESS32(HW_SPI_CTARn_ADDR(x, n), BP_SPI_CTARn_CPOL)) #endif //! @brief Format value for bitfield SPI_CTARn_CPOL. #define BF_SPI_CTARn_CPOL(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_CPOL), uint32_t) & BM_SPI_CTARn_CPOL) #ifndef __LANGUAGE_ASM__ //! @brief Set the CPOL field to a new value. #define BW_SPI_CTARn_CPOL(x, n, v) (BITBAND_ACCESS32(HW_SPI_CTARn_ADDR(x, n), BP_SPI_CTARn_CPOL) = (v)) #endif //@} /*! * @name Register SPI_CTARn, field FMSZ[30:27] (RW) * * The number of bits transferred per frame is equal to the FMSZ value plus 1. * Regardless of the transmission mode, the minimum valid frame size value is 4. */ //@{ #define BP_SPI_CTARn_FMSZ (27U) //!< Bit position for SPI_CTARn_FMSZ. #define BM_SPI_CTARn_FMSZ (0x78000000U) //!< Bit mask for SPI_CTARn_FMSZ. #define BS_SPI_CTARn_FMSZ (4U) //!< Bit field size in bits for SPI_CTARn_FMSZ. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_FMSZ field. #define BR_SPI_CTARn_FMSZ(x, n) (HW_SPI_CTARn(x, n).B.FMSZ) #endif //! @brief Format value for bitfield SPI_CTARn_FMSZ. #define BF_SPI_CTARn_FMSZ(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_FMSZ), uint32_t) & BM_SPI_CTARn_FMSZ) #ifndef __LANGUAGE_ASM__ //! @brief Set the FMSZ field to a new value. #define BW_SPI_CTARn_FMSZ(x, n, v) (HW_SPI_CTARn_WR(x, n, (HW_SPI_CTARn_RD(x, n) & ~BM_SPI_CTARn_FMSZ) | BF_SPI_CTARn_FMSZ(v))) #endif //@} /*! * @name Register SPI_CTARn, field DBR[31] (RW) * * Doubles the effective baud rate of the Serial Communications Clock (SCK). * This field is used only in master mode. It effectively halves the Baud Rate * division ratio, supporting faster frequencies, and odd division ratios for the * Serial Communications Clock (SCK). When the DBR bit is set, the duty cycle of the * Serial Communications Clock (SCK) depends on the value in the Baud Rate * Prescaler and the Clock Phase bit as listed in the following table. See the BR field * description for details on how to compute the baud rate. SPI SCK Duty Cycle * DBR CPHA PBR SCK Duty Cycle 0 any any 50/50 1 0 00 50/50 1 0 01 33/66 1 0 10 * 40/60 1 0 11 43/57 1 1 00 50/50 1 1 01 66/33 1 1 10 60/40 1 1 11 57/43 * * Values: * - 0 - The baud rate is computed normally with a 50/50 duty cycle. * - 1 - The baud rate is doubled with the duty cycle depending on the Baud Rate * Prescaler. */ //@{ #define BP_SPI_CTARn_DBR (31U) //!< Bit position for SPI_CTARn_DBR. #define BM_SPI_CTARn_DBR (0x80000000U) //!< Bit mask for SPI_CTARn_DBR. #define BS_SPI_CTARn_DBR (1U) //!< Bit field size in bits for SPI_CTARn_DBR. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_DBR field. #define BR_SPI_CTARn_DBR(x, n) (BITBAND_ACCESS32(HW_SPI_CTARn_ADDR(x, n), BP_SPI_CTARn_DBR)) #endif //! @brief Format value for bitfield SPI_CTARn_DBR. #define BF_SPI_CTARn_DBR(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_DBR), uint32_t) & BM_SPI_CTARn_DBR) #ifndef __LANGUAGE_ASM__ //! @brief Set the DBR field to a new value. #define BW_SPI_CTARn_DBR(x, n, v) (BITBAND_ACCESS32(HW_SPI_CTARn_ADDR(x, n), BP_SPI_CTARn_DBR) = (v)) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_CTARn_SLAVE - Clock and Transfer Attributes Register (In Slave Mode) //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_CTARn_SLAVE - Clock and Transfer Attributes Register (In Slave Mode) (RW) * * Reset value: 0x78000000U * * When the module is configured as an SPI bus slave, the CTAR0 register is used. */ typedef union _hw_spi_ctarn_slave { uint32_t U; struct _hw_spi_ctarn_slave_bitfields { uint32_t RESERVED0 : 25; //!< [24:0] uint32_t CPHA : 1; //!< [25] Clock Phase uint32_t CPOL : 1; //!< [26] Clock Polarity uint32_t FMSZ : 5; //!< [31:27] Frame Size } B; } hw_spi_ctarn_slave_t; #endif /*! * @name Constants and macros for entire SPI_CTARn_SLAVE register */ //@{ #define HW_SPI_CTARn_SLAVE_COUNT (1U) #define HW_SPI_CTARn_SLAVE_ADDR(x, n) (REGS_SPI_BASE(x) + 0xCU + (0x4U * n)) #ifndef __LANGUAGE_ASM__ #define HW_SPI_CTARn_SLAVE(x, n) (*(__IO hw_spi_ctarn_slave_t *) HW_SPI_CTARn_SLAVE_ADDR(x, n)) #define HW_SPI_CTARn_SLAVE_RD(x, n) (HW_SPI_CTARn_SLAVE(x, n).U) #define HW_SPI_CTARn_SLAVE_WR(x, n, v) (HW_SPI_CTARn_SLAVE(x, n).U = (v)) #define HW_SPI_CTARn_SLAVE_SET(x, n, v) (HW_SPI_CTARn_SLAVE_WR(x, n, HW_SPI_CTARn_SLAVE_RD(x, n) | (v))) #define HW_SPI_CTARn_SLAVE_CLR(x, n, v) (HW_SPI_CTARn_SLAVE_WR(x, n, HW_SPI_CTARn_SLAVE_RD(x, n) & ~(v))) #define HW_SPI_CTARn_SLAVE_TOG(x, n, v) (HW_SPI_CTARn_SLAVE_WR(x, n, HW_SPI_CTARn_SLAVE_RD(x, n) ^ (v))) #endif //@} /* * Constants & macros for individual SPI_CTARn_SLAVE bitfields */ /*! * @name Register SPI_CTARn_SLAVE, field CPHA[25] (RW) * * Selects which edge of SCK causes data to change and which edge causes data to * be captured. This bit is used in both master and slave mode. For successful * communication between serial devices, the devices must have identical clock * phase settings. In Continuous SCK mode, the bit value is ignored and the * transfers are done as if the CPHA bit is set to 1. * * Values: * - 0 - Data is captured on the leading edge of SCK and changed on the * following edge. * - 1 - Data is changed on the leading edge of SCK and captured on the * following edge. */ //@{ #define BP_SPI_CTARn_SLAVE_CPHA (25U) //!< Bit position for SPI_CTARn_SLAVE_CPHA. #define BM_SPI_CTARn_SLAVE_CPHA (0x02000000U) //!< Bit mask for SPI_CTARn_SLAVE_CPHA. #define BS_SPI_CTARn_SLAVE_CPHA (1U) //!< Bit field size in bits for SPI_CTARn_SLAVE_CPHA. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_SLAVE_CPHA field. #define BR_SPI_CTARn_SLAVE_CPHA(x, n) (BITBAND_ACCESS32(HW_SPI_CTARn_SLAVE_ADDR(x, n), BP_SPI_CTARn_SLAVE_CPHA)) #endif //! @brief Format value for bitfield SPI_CTARn_SLAVE_CPHA. #define BF_SPI_CTARn_SLAVE_CPHA(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_SLAVE_CPHA), uint32_t) & BM_SPI_CTARn_SLAVE_CPHA) #ifndef __LANGUAGE_ASM__ //! @brief Set the CPHA field to a new value. #define BW_SPI_CTARn_SLAVE_CPHA(x, n, v) (BITBAND_ACCESS32(HW_SPI_CTARn_SLAVE_ADDR(x, n), BP_SPI_CTARn_SLAVE_CPHA) = (v)) #endif //@} /*! * @name Register SPI_CTARn_SLAVE, field CPOL[26] (RW) * * Selects the inactive state of the Serial Communications Clock (SCK). In case * of continous sck mode, when the module goes in low power mode(disabled), * inactive state of sck is not guaranted. * * Values: * - 0 - The inactive state value of SCK is low. * - 1 - The inactive state value of SCK is high. */ //@{ #define BP_SPI_CTARn_SLAVE_CPOL (26U) //!< Bit position for SPI_CTARn_SLAVE_CPOL. #define BM_SPI_CTARn_SLAVE_CPOL (0x04000000U) //!< Bit mask for SPI_CTARn_SLAVE_CPOL. #define BS_SPI_CTARn_SLAVE_CPOL (1U) //!< Bit field size in bits for SPI_CTARn_SLAVE_CPOL. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_SLAVE_CPOL field. #define BR_SPI_CTARn_SLAVE_CPOL(x, n) (BITBAND_ACCESS32(HW_SPI_CTARn_SLAVE_ADDR(x, n), BP_SPI_CTARn_SLAVE_CPOL)) #endif //! @brief Format value for bitfield SPI_CTARn_SLAVE_CPOL. #define BF_SPI_CTARn_SLAVE_CPOL(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_SLAVE_CPOL), uint32_t) & BM_SPI_CTARn_SLAVE_CPOL) #ifndef __LANGUAGE_ASM__ //! @brief Set the CPOL field to a new value. #define BW_SPI_CTARn_SLAVE_CPOL(x, n, v) (BITBAND_ACCESS32(HW_SPI_CTARn_SLAVE_ADDR(x, n), BP_SPI_CTARn_SLAVE_CPOL) = (v)) #endif //@} /*! * @name Register SPI_CTARn_SLAVE, field FMSZ[31:27] (RW) * * The number of bits transfered per frame is equal to the FMSZ field value plus * 1. Note that the minimum valid value of frame size is 4. */ //@{ #define BP_SPI_CTARn_SLAVE_FMSZ (27U) //!< Bit position for SPI_CTARn_SLAVE_FMSZ. #define BM_SPI_CTARn_SLAVE_FMSZ (0xF8000000U) //!< Bit mask for SPI_CTARn_SLAVE_FMSZ. #define BS_SPI_CTARn_SLAVE_FMSZ (5U) //!< Bit field size in bits for SPI_CTARn_SLAVE_FMSZ. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_CTARn_SLAVE_FMSZ field. #define BR_SPI_CTARn_SLAVE_FMSZ(x, n) (HW_SPI_CTARn_SLAVE(x, n).B.FMSZ) #endif //! @brief Format value for bitfield SPI_CTARn_SLAVE_FMSZ. #define BF_SPI_CTARn_SLAVE_FMSZ(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_CTARn_SLAVE_FMSZ), uint32_t) & BM_SPI_CTARn_SLAVE_FMSZ) #ifndef __LANGUAGE_ASM__ //! @brief Set the FMSZ field to a new value. #define BW_SPI_CTARn_SLAVE_FMSZ(x, n, v) (HW_SPI_CTARn_SLAVE_WR(x, n, (HW_SPI_CTARn_SLAVE_RD(x, n) & ~BM_SPI_CTARn_SLAVE_FMSZ) | BF_SPI_CTARn_SLAVE_FMSZ(v))) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_SR - Status Register //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_SR - Status Register (RW) * * Reset value: 0x02000000U * * SR contains status and flag bits. The bits reflect the status of the module * and indicate the occurrence of events that can generate interrupt or DMA * requests. Software can clear flag bits in the SR by writing a 1 to them. Writing a 0 * to a flag bit has no effect. This register may not be writable in Module * Disable mode due to the use of power saving mechanisms. */ typedef union _hw_spi_sr { uint32_t U; struct _hw_spi_sr_bitfields { uint32_t POPNXTPTR : 4; //!< [3:0] Pop Next Pointer uint32_t RXCTR : 4; //!< [7:4] RX FIFO Counter uint32_t TXNXTPTR : 4; //!< [11:8] Transmit Next Pointer uint32_t TXCTR : 4; //!< [15:12] TX FIFO Counter uint32_t RESERVED0 : 1; //!< [16] uint32_t RFDF : 1; //!< [17] Receive FIFO Drain Flag uint32_t RESERVED1 : 1; //!< [18] uint32_t RFOF : 1; //!< [19] Receive FIFO Overflow Flag uint32_t RESERVED2 : 5; //!< [24:20] uint32_t TFFF : 1; //!< [25] Transmit FIFO Fill Flag uint32_t RESERVED3 : 1; //!< [26] uint32_t TFUF : 1; //!< [27] Transmit FIFO Underflow Flag uint32_t EOQF : 1; //!< [28] End of Queue Flag uint32_t RESERVED4 : 1; //!< [29] uint32_t TXRXS : 1; //!< [30] TX and RX Status uint32_t TCF : 1; //!< [31] Transfer Complete Flag } B; } hw_spi_sr_t; #endif /*! * @name Constants and macros for entire SPI_SR register */ //@{ #define HW_SPI_SR_ADDR(x) (REGS_SPI_BASE(x) + 0x2CU) #ifndef __LANGUAGE_ASM__ #define HW_SPI_SR(x) (*(__IO hw_spi_sr_t *) HW_SPI_SR_ADDR(x)) #define HW_SPI_SR_RD(x) (HW_SPI_SR(x).U) #define HW_SPI_SR_WR(x, v) (HW_SPI_SR(x).U = (v)) #define HW_SPI_SR_SET(x, v) (HW_SPI_SR_WR(x, HW_SPI_SR_RD(x) | (v))) #define HW_SPI_SR_CLR(x, v) (HW_SPI_SR_WR(x, HW_SPI_SR_RD(x) & ~(v))) #define HW_SPI_SR_TOG(x, v) (HW_SPI_SR_WR(x, HW_SPI_SR_RD(x) ^ (v))) #endif //@} /* * Constants & macros for individual SPI_SR bitfields */ /*! * @name Register SPI_SR, field POPNXTPTR[3:0] (RO) * * Contains a pointer to the RX FIFO entry to be returned when the POPR is read. * The POPNXTPTR is updated when the POPR is read. */ //@{ #define BP_SPI_SR_POPNXTPTR (0U) //!< Bit position for SPI_SR_POPNXTPTR. #define BM_SPI_SR_POPNXTPTR (0x0000000FU) //!< Bit mask for SPI_SR_POPNXTPTR. #define BS_SPI_SR_POPNXTPTR (4U) //!< Bit field size in bits for SPI_SR_POPNXTPTR. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_POPNXTPTR field. #define BR_SPI_SR_POPNXTPTR(x) (HW_SPI_SR(x).B.POPNXTPTR) #endif //@} /*! * @name Register SPI_SR, field RXCTR[7:4] (RO) * * Indicates the number of entries in the RX FIFO. The RXCTR is decremented * every time the POPR is read. The RXCTR is incremented every time data is * transferred from the shift register to the RX FIFO. */ //@{ #define BP_SPI_SR_RXCTR (4U) //!< Bit position for SPI_SR_RXCTR. #define BM_SPI_SR_RXCTR (0x000000F0U) //!< Bit mask for SPI_SR_RXCTR. #define BS_SPI_SR_RXCTR (4U) //!< Bit field size in bits for SPI_SR_RXCTR. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_RXCTR field. #define BR_SPI_SR_RXCTR(x) (HW_SPI_SR(x).B.RXCTR) #endif //@} /*! * @name Register SPI_SR, field TXNXTPTR[11:8] (RO) * * Indicates which TX FIFO entry is transmitted during the next transfer. The * TXNXTPTR field is updated every time SPI data is transferred from the TX FIFO to * the shift register. */ //@{ #define BP_SPI_SR_TXNXTPTR (8U) //!< Bit position for SPI_SR_TXNXTPTR. #define BM_SPI_SR_TXNXTPTR (0x00000F00U) //!< Bit mask for SPI_SR_TXNXTPTR. #define BS_SPI_SR_TXNXTPTR (4U) //!< Bit field size in bits for SPI_SR_TXNXTPTR. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_TXNXTPTR field. #define BR_SPI_SR_TXNXTPTR(x) (HW_SPI_SR(x).B.TXNXTPTR) #endif //@} /*! * @name Register SPI_SR, field TXCTR[15:12] (RO) * * Indicates the number of valid entries in the TX FIFO. The TXCTR is * incremented every time the PUSHR is written. The TXCTR is decremented every time an SPI * command is executed and the SPI data is transferred to the shift register. */ //@{ #define BP_SPI_SR_TXCTR (12U) //!< Bit position for SPI_SR_TXCTR. #define BM_SPI_SR_TXCTR (0x0000F000U) //!< Bit mask for SPI_SR_TXCTR. #define BS_SPI_SR_TXCTR (4U) //!< Bit field size in bits for SPI_SR_TXCTR. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_TXCTR field. #define BR_SPI_SR_TXCTR(x) (HW_SPI_SR(x).B.TXCTR) #endif //@} /*! * @name Register SPI_SR, field RFDF[17] (W1C) * * Provides a method for the module to request that entries be removed from the * RX FIFO. The bit is set while the RX FIFO is not empty. The RFDF bit can be * cleared by writing 1 to it or by acknowledgement from the DMA controller when * the RX FIFO is empty. * * Values: * - 0 - RX FIFO is empty. * - 1 - RX FIFO is not empty. */ //@{ #define BP_SPI_SR_RFDF (17U) //!< Bit position for SPI_SR_RFDF. #define BM_SPI_SR_RFDF (0x00020000U) //!< Bit mask for SPI_SR_RFDF. #define BS_SPI_SR_RFDF (1U) //!< Bit field size in bits for SPI_SR_RFDF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_RFDF field. #define BR_SPI_SR_RFDF(x) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_RFDF)) #endif //! @brief Format value for bitfield SPI_SR_RFDF. #define BF_SPI_SR_RFDF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_SR_RFDF), uint32_t) & BM_SPI_SR_RFDF) #ifndef __LANGUAGE_ASM__ //! @brief Set the RFDF field to a new value. #define BW_SPI_SR_RFDF(x, v) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_RFDF) = (v)) #endif //@} /*! * @name Register SPI_SR, field RFOF[19] (W1C) * * Indicates an overflow condition in the RX FIFO. The field is set when the RX * FIFO and shift register are full and a transfer is initiated. The bit remains * set until it is cleared by writing a 1 to it. * * Values: * - 0 - No Rx FIFO overflow. * - 1 - Rx FIFO overflow has occurred. */ //@{ #define BP_SPI_SR_RFOF (19U) //!< Bit position for SPI_SR_RFOF. #define BM_SPI_SR_RFOF (0x00080000U) //!< Bit mask for SPI_SR_RFOF. #define BS_SPI_SR_RFOF (1U) //!< Bit field size in bits for SPI_SR_RFOF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_RFOF field. #define BR_SPI_SR_RFOF(x) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_RFOF)) #endif //! @brief Format value for bitfield SPI_SR_RFOF. #define BF_SPI_SR_RFOF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_SR_RFOF), uint32_t) & BM_SPI_SR_RFOF) #ifndef __LANGUAGE_ASM__ //! @brief Set the RFOF field to a new value. #define BW_SPI_SR_RFOF(x, v) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_RFOF) = (v)) #endif //@} /*! * @name Register SPI_SR, field TFFF[25] (W1C) * * Provides a method for the module to request more entries to be added to the * TX FIFO. The TFFF bit is set while the TX FIFO is not full. The TFFF bit can be * cleared by writing 1 to it or by acknowledgement from the DMA controller to * the TX FIFO full request. * * Values: * - 0 - TX FIFO is full. * - 1 - TX FIFO is not full. */ //@{ #define BP_SPI_SR_TFFF (25U) //!< Bit position for SPI_SR_TFFF. #define BM_SPI_SR_TFFF (0x02000000U) //!< Bit mask for SPI_SR_TFFF. #define BS_SPI_SR_TFFF (1U) //!< Bit field size in bits for SPI_SR_TFFF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_TFFF field. #define BR_SPI_SR_TFFF(x) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_TFFF)) #endif //! @brief Format value for bitfield SPI_SR_TFFF. #define BF_SPI_SR_TFFF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_SR_TFFF), uint32_t) & BM_SPI_SR_TFFF) #ifndef __LANGUAGE_ASM__ //! @brief Set the TFFF field to a new value. #define BW_SPI_SR_TFFF(x, v) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_TFFF) = (v)) #endif //@} /*! * @name Register SPI_SR, field TFUF[27] (W1C) * * Indicates an underflow condition in the TX FIFO. The transmit underflow * condition is detected only for SPI blocks operating in Slave mode and SPI * configuration. TFUF is set when the TX FIFO of the module operating in SPI Slave mode * is empty and an external SPI master initiates a transfer. The TFUF bit remains * set until cleared by writing 1 to it. * * Values: * - 0 - No TX FIFO underflow. * - 1 - TX FIFO underflow has occurred. */ //@{ #define BP_SPI_SR_TFUF (27U) //!< Bit position for SPI_SR_TFUF. #define BM_SPI_SR_TFUF (0x08000000U) //!< Bit mask for SPI_SR_TFUF. #define BS_SPI_SR_TFUF (1U) //!< Bit field size in bits for SPI_SR_TFUF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_TFUF field. #define BR_SPI_SR_TFUF(x) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_TFUF)) #endif //! @brief Format value for bitfield SPI_SR_TFUF. #define BF_SPI_SR_TFUF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_SR_TFUF), uint32_t) & BM_SPI_SR_TFUF) #ifndef __LANGUAGE_ASM__ //! @brief Set the TFUF field to a new value. #define BW_SPI_SR_TFUF(x, v) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_TFUF) = (v)) #endif //@} /*! * @name Register SPI_SR, field EOQF[28] (W1C) * * Indicates that the last entry in a queue has been transmitted when the module * is in Master mode. The EOQF bit is set when the TX FIFO entry has the EOQ bit * set in the command halfword and the end of the transfer is reached. The EOQF * bit remains set until cleared by writing a 1 to it. When the EOQF bit is set, * the TXRXS bit is automatically cleared. * * Values: * - 0 - EOQ is not set in the executing command. * - 1 - EOQ is set in the executing SPI command. */ //@{ #define BP_SPI_SR_EOQF (28U) //!< Bit position for SPI_SR_EOQF. #define BM_SPI_SR_EOQF (0x10000000U) //!< Bit mask for SPI_SR_EOQF. #define BS_SPI_SR_EOQF (1U) //!< Bit field size in bits for SPI_SR_EOQF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_EOQF field. #define BR_SPI_SR_EOQF(x) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_EOQF)) #endif //! @brief Format value for bitfield SPI_SR_EOQF. #define BF_SPI_SR_EOQF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_SR_EOQF), uint32_t) & BM_SPI_SR_EOQF) #ifndef __LANGUAGE_ASM__ //! @brief Set the EOQF field to a new value. #define BW_SPI_SR_EOQF(x, v) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_EOQF) = (v)) #endif //@} /*! * @name Register SPI_SR, field TXRXS[30] (W1C) * * Reflects the run status of the module. * * Values: * - 0 - Transmit and receive operations are disabled (The module is in Stopped * state). * - 1 - Transmit and receive operations are enabled (The module is in Running * state). */ //@{ #define BP_SPI_SR_TXRXS (30U) //!< Bit position for SPI_SR_TXRXS. #define BM_SPI_SR_TXRXS (0x40000000U) //!< Bit mask for SPI_SR_TXRXS. #define BS_SPI_SR_TXRXS (1U) //!< Bit field size in bits for SPI_SR_TXRXS. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_TXRXS field. #define BR_SPI_SR_TXRXS(x) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_TXRXS)) #endif //! @brief Format value for bitfield SPI_SR_TXRXS. #define BF_SPI_SR_TXRXS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_SR_TXRXS), uint32_t) & BM_SPI_SR_TXRXS) #ifndef __LANGUAGE_ASM__ //! @brief Set the TXRXS field to a new value. #define BW_SPI_SR_TXRXS(x, v) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_TXRXS) = (v)) #endif //@} /*! * @name Register SPI_SR, field TCF[31] (W1C) * * Indicates that all bits in a frame have been shifted out. TCF remains set * until it is cleared by writing a 1 to it. * * Values: * - 0 - Transfer not complete. * - 1 - Transfer complete. */ //@{ #define BP_SPI_SR_TCF (31U) //!< Bit position for SPI_SR_TCF. #define BM_SPI_SR_TCF (0x80000000U) //!< Bit mask for SPI_SR_TCF. #define BS_SPI_SR_TCF (1U) //!< Bit field size in bits for SPI_SR_TCF. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_SR_TCF field. #define BR_SPI_SR_TCF(x) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_TCF)) #endif //! @brief Format value for bitfield SPI_SR_TCF. #define BF_SPI_SR_TCF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_SR_TCF), uint32_t) & BM_SPI_SR_TCF) #ifndef __LANGUAGE_ASM__ //! @brief Set the TCF field to a new value. #define BW_SPI_SR_TCF(x, v) (BITBAND_ACCESS32(HW_SPI_SR_ADDR(x), BP_SPI_SR_TCF) = (v)) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_RSER - DMA/Interrupt Request Select and Enable Register //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_RSER - DMA/Interrupt Request Select and Enable Register (RW) * * Reset value: 0x00000000U * * RSER controls DMA and interrupt requests. Do not write to the RSER while the * module is in the Running state. */ typedef union _hw_spi_rser { uint32_t U; struct _hw_spi_rser_bitfields { uint32_t RESERVED0 : 16; //!< [15:0] uint32_t RFDF_DIRS : 1; //!< [16] Receive FIFO Drain DMA or Interrupt //! Request Select uint32_t RFDF_RE : 1; //!< [17] Receive FIFO Drain Request Enable uint32_t RESERVED1 : 1; //!< [18] uint32_t RFOF_RE : 1; //!< [19] Receive FIFO Overflow Request Enable uint32_t RESERVED2 : 4; //!< [23:20] uint32_t TFFF_DIRS : 1; //!< [24] Transmit FIFO Fill DMA or Interrupt //! Request Select uint32_t TFFF_RE : 1; //!< [25] Transmit FIFO Fill Request Enable uint32_t RESERVED3 : 1; //!< [26] uint32_t TFUF_RE : 1; //!< [27] Transmit FIFO Underflow Request Enable uint32_t EOQF_RE : 1; //!< [28] Finished Request Enable uint32_t RESERVED4 : 2; //!< [30:29] uint32_t TCF_RE : 1; //!< [31] Transmission Complete Request Enable } B; } hw_spi_rser_t; #endif /*! * @name Constants and macros for entire SPI_RSER register */ //@{ #define HW_SPI_RSER_ADDR(x) (REGS_SPI_BASE(x) + 0x30U) #ifndef __LANGUAGE_ASM__ #define HW_SPI_RSER(x) (*(__IO hw_spi_rser_t *) HW_SPI_RSER_ADDR(x)) #define HW_SPI_RSER_RD(x) (HW_SPI_RSER(x).U) #define HW_SPI_RSER_WR(x, v) (HW_SPI_RSER(x).U = (v)) #define HW_SPI_RSER_SET(x, v) (HW_SPI_RSER_WR(x, HW_SPI_RSER_RD(x) | (v))) #define HW_SPI_RSER_CLR(x, v) (HW_SPI_RSER_WR(x, HW_SPI_RSER_RD(x) & ~(v))) #define HW_SPI_RSER_TOG(x, v) (HW_SPI_RSER_WR(x, HW_SPI_RSER_RD(x) ^ (v))) #endif //@} /* * Constants & macros for individual SPI_RSER bitfields */ /*! * @name Register SPI_RSER, field RFDF_DIRS[16] (RW) * * Selects between generating a DMA request or an interrupt request. When the * RFDF flag bit in the SR is set, and the RFDF_RE bit in the RSER is set, the * RFDF_DIRS bit selects between generating an interrupt request or a DMA request. * * Values: * - 0 - Interrupt request. * - 1 - DMA request. */ //@{ #define BP_SPI_RSER_RFDF_DIRS (16U) //!< Bit position for SPI_RSER_RFDF_DIRS. #define BM_SPI_RSER_RFDF_DIRS (0x00010000U) //!< Bit mask for SPI_RSER_RFDF_DIRS. #define BS_SPI_RSER_RFDF_DIRS (1U) //!< Bit field size in bits for SPI_RSER_RFDF_DIRS. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RSER_RFDF_DIRS field. #define BR_SPI_RSER_RFDF_DIRS(x) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_RFDF_DIRS)) #endif //! @brief Format value for bitfield SPI_RSER_RFDF_DIRS. #define BF_SPI_RSER_RFDF_DIRS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_RSER_RFDF_DIRS), uint32_t) & BM_SPI_RSER_RFDF_DIRS) #ifndef __LANGUAGE_ASM__ //! @brief Set the RFDF_DIRS field to a new value. #define BW_SPI_RSER_RFDF_DIRS(x, v) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_RFDF_DIRS) = (v)) #endif //@} /*! * @name Register SPI_RSER, field RFDF_RE[17] (RW) * * Enables the RFDF flag in the SR to generate a request. The RFDF_DIRS bit * selects between generating an interrupt request or a DMA request. * * Values: * - 0 - RFDF interrupt or DMA requests are disabled. * - 1 - RFDF interrupt or DMA requests are enabled. */ //@{ #define BP_SPI_RSER_RFDF_RE (17U) //!< Bit position for SPI_RSER_RFDF_RE. #define BM_SPI_RSER_RFDF_RE (0x00020000U) //!< Bit mask for SPI_RSER_RFDF_RE. #define BS_SPI_RSER_RFDF_RE (1U) //!< Bit field size in bits for SPI_RSER_RFDF_RE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RSER_RFDF_RE field. #define BR_SPI_RSER_RFDF_RE(x) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_RFDF_RE)) #endif //! @brief Format value for bitfield SPI_RSER_RFDF_RE. #define BF_SPI_RSER_RFDF_RE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_RSER_RFDF_RE), uint32_t) & BM_SPI_RSER_RFDF_RE) #ifndef __LANGUAGE_ASM__ //! @brief Set the RFDF_RE field to a new value. #define BW_SPI_RSER_RFDF_RE(x, v) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_RFDF_RE) = (v)) #endif //@} /*! * @name Register SPI_RSER, field RFOF_RE[19] (RW) * * Enables the RFOF flag in the SR to generate an interrupt request. * * Values: * - 0 - RFOF interrupt requests are disabled. * - 1 - RFOF interrupt requests are enabled. */ //@{ #define BP_SPI_RSER_RFOF_RE (19U) //!< Bit position for SPI_RSER_RFOF_RE. #define BM_SPI_RSER_RFOF_RE (0x00080000U) //!< Bit mask for SPI_RSER_RFOF_RE. #define BS_SPI_RSER_RFOF_RE (1U) //!< Bit field size in bits for SPI_RSER_RFOF_RE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RSER_RFOF_RE field. #define BR_SPI_RSER_RFOF_RE(x) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_RFOF_RE)) #endif //! @brief Format value for bitfield SPI_RSER_RFOF_RE. #define BF_SPI_RSER_RFOF_RE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_RSER_RFOF_RE), uint32_t) & BM_SPI_RSER_RFOF_RE) #ifndef __LANGUAGE_ASM__ //! @brief Set the RFOF_RE field to a new value. #define BW_SPI_RSER_RFOF_RE(x, v) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_RFOF_RE) = (v)) #endif //@} /*! * @name Register SPI_RSER, field TFFF_DIRS[24] (RW) * * Selects between generating a DMA request or an interrupt request. When * SR[TFFF] and RSER[TFFF_RE] are set, this field selects between generating an * interrupt request or a DMA request. * * Values: * - 0 - TFFF flag generates interrupt requests. * - 1 - TFFF flag generates DMA requests. */ //@{ #define BP_SPI_RSER_TFFF_DIRS (24U) //!< Bit position for SPI_RSER_TFFF_DIRS. #define BM_SPI_RSER_TFFF_DIRS (0x01000000U) //!< Bit mask for SPI_RSER_TFFF_DIRS. #define BS_SPI_RSER_TFFF_DIRS (1U) //!< Bit field size in bits for SPI_RSER_TFFF_DIRS. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RSER_TFFF_DIRS field. #define BR_SPI_RSER_TFFF_DIRS(x) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_TFFF_DIRS)) #endif //! @brief Format value for bitfield SPI_RSER_TFFF_DIRS. #define BF_SPI_RSER_TFFF_DIRS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_RSER_TFFF_DIRS), uint32_t) & BM_SPI_RSER_TFFF_DIRS) #ifndef __LANGUAGE_ASM__ //! @brief Set the TFFF_DIRS field to a new value. #define BW_SPI_RSER_TFFF_DIRS(x, v) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_TFFF_DIRS) = (v)) #endif //@} /*! * @name Register SPI_RSER, field TFFF_RE[25] (RW) * * Enables the TFFF flag in the SR to generate a request. The TFFF_DIRS bit * selects between generating an interrupt request or a DMA request. * * Values: * - 0 - TFFF interrupts or DMA requests are disabled. * - 1 - TFFF interrupts or DMA requests are enabled. */ //@{ #define BP_SPI_RSER_TFFF_RE (25U) //!< Bit position for SPI_RSER_TFFF_RE. #define BM_SPI_RSER_TFFF_RE (0x02000000U) //!< Bit mask for SPI_RSER_TFFF_RE. #define BS_SPI_RSER_TFFF_RE (1U) //!< Bit field size in bits for SPI_RSER_TFFF_RE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RSER_TFFF_RE field. #define BR_SPI_RSER_TFFF_RE(x) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_TFFF_RE)) #endif //! @brief Format value for bitfield SPI_RSER_TFFF_RE. #define BF_SPI_RSER_TFFF_RE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_RSER_TFFF_RE), uint32_t) & BM_SPI_RSER_TFFF_RE) #ifndef __LANGUAGE_ASM__ //! @brief Set the TFFF_RE field to a new value. #define BW_SPI_RSER_TFFF_RE(x, v) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_TFFF_RE) = (v)) #endif //@} /*! * @name Register SPI_RSER, field TFUF_RE[27] (RW) * * Enables the TFUF flag in the SR to generate an interrupt request. * * Values: * - 0 - TFUF interrupt requests are disabled. * - 1 - TFUF interrupt requests are enabled. */ //@{ #define BP_SPI_RSER_TFUF_RE (27U) //!< Bit position for SPI_RSER_TFUF_RE. #define BM_SPI_RSER_TFUF_RE (0x08000000U) //!< Bit mask for SPI_RSER_TFUF_RE. #define BS_SPI_RSER_TFUF_RE (1U) //!< Bit field size in bits for SPI_RSER_TFUF_RE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RSER_TFUF_RE field. #define BR_SPI_RSER_TFUF_RE(x) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_TFUF_RE)) #endif //! @brief Format value for bitfield SPI_RSER_TFUF_RE. #define BF_SPI_RSER_TFUF_RE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_RSER_TFUF_RE), uint32_t) & BM_SPI_RSER_TFUF_RE) #ifndef __LANGUAGE_ASM__ //! @brief Set the TFUF_RE field to a new value. #define BW_SPI_RSER_TFUF_RE(x, v) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_TFUF_RE) = (v)) #endif //@} /*! * @name Register SPI_RSER, field EOQF_RE[28] (RW) * * Enables the EOQF flag in the SR to generate an interrupt request. * * Values: * - 0 - EOQF interrupt requests are disabled. * - 1 - EOQF interrupt requests are enabled. */ //@{ #define BP_SPI_RSER_EOQF_RE (28U) //!< Bit position for SPI_RSER_EOQF_RE. #define BM_SPI_RSER_EOQF_RE (0x10000000U) //!< Bit mask for SPI_RSER_EOQF_RE. #define BS_SPI_RSER_EOQF_RE (1U) //!< Bit field size in bits for SPI_RSER_EOQF_RE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RSER_EOQF_RE field. #define BR_SPI_RSER_EOQF_RE(x) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_EOQF_RE)) #endif //! @brief Format value for bitfield SPI_RSER_EOQF_RE. #define BF_SPI_RSER_EOQF_RE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_RSER_EOQF_RE), uint32_t) & BM_SPI_RSER_EOQF_RE) #ifndef __LANGUAGE_ASM__ //! @brief Set the EOQF_RE field to a new value. #define BW_SPI_RSER_EOQF_RE(x, v) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_EOQF_RE) = (v)) #endif //@} /*! * @name Register SPI_RSER, field TCF_RE[31] (RW) * * Enables TCF flag in the SR to generate an interrupt request. * * Values: * - 0 - TCF interrupt requests are disabled. * - 1 - TCF interrupt requests are enabled. */ //@{ #define BP_SPI_RSER_TCF_RE (31U) //!< Bit position for SPI_RSER_TCF_RE. #define BM_SPI_RSER_TCF_RE (0x80000000U) //!< Bit mask for SPI_RSER_TCF_RE. #define BS_SPI_RSER_TCF_RE (1U) //!< Bit field size in bits for SPI_RSER_TCF_RE. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RSER_TCF_RE field. #define BR_SPI_RSER_TCF_RE(x) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_TCF_RE)) #endif //! @brief Format value for bitfield SPI_RSER_TCF_RE. #define BF_SPI_RSER_TCF_RE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_RSER_TCF_RE), uint32_t) & BM_SPI_RSER_TCF_RE) #ifndef __LANGUAGE_ASM__ //! @brief Set the TCF_RE field to a new value. #define BW_SPI_RSER_TCF_RE(x, v) (BITBAND_ACCESS32(HW_SPI_RSER_ADDR(x), BP_SPI_RSER_TCF_RE) = (v)) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_PUSHR - PUSH TX FIFO Register In Master Mode //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_PUSHR - PUSH TX FIFO Register In Master Mode (RW) * * Reset value: 0x00000000U * * Specifies data to be transferred to the TX FIFO. An 8- or 16-bit write access * transfers all 32 bits to the TX FIFO. In Master mode, the register transfers * 16 bits of data and 16 bits of command information. In Slave mode, all 32 bits * can be used as data, supporting up to 32-bit frame operation. A read access * of PUSHR returns the topmost TX FIFO entry. When the module is disabled, * writing to this register does not update the FIFO. Therefore, any reads performed * while the module is disabled return the last PUSHR write performed while the * module was still enabled. */ typedef union _hw_spi_pushr { uint32_t U; struct _hw_spi_pushr_bitfields { uint32_t TXDATA : 16; //!< [15:0] Transmit Data uint32_t PCS : 6; //!< [21:16] uint32_t RESERVED0 : 4; //!< [25:22] uint32_t CTCNT : 1; //!< [26] Clear Transfer Counter uint32_t EOQ : 1; //!< [27] End Of Queue uint32_t CTAS : 3; //!< [30:28] Clock and Transfer Attributes Select uint32_t CONT : 1; //!< [31] Continuous Peripheral Chip Select Enable } B; } hw_spi_pushr_t; #endif /*! * @name Constants and macros for entire SPI_PUSHR register */ //@{ #define HW_SPI_PUSHR_ADDR(x) (REGS_SPI_BASE(x) + 0x34U) #ifndef __LANGUAGE_ASM__ #define HW_SPI_PUSHR(x) (*(__IO hw_spi_pushr_t *) HW_SPI_PUSHR_ADDR(x)) #define HW_SPI_PUSHR_RD(x) (HW_SPI_PUSHR(x).U) #define HW_SPI_PUSHR_WR(x, v) (HW_SPI_PUSHR(x).U = (v)) #define HW_SPI_PUSHR_SET(x, v) (HW_SPI_PUSHR_WR(x, HW_SPI_PUSHR_RD(x) | (v))) #define HW_SPI_PUSHR_CLR(x, v) (HW_SPI_PUSHR_WR(x, HW_SPI_PUSHR_RD(x) & ~(v))) #define HW_SPI_PUSHR_TOG(x, v) (HW_SPI_PUSHR_WR(x, HW_SPI_PUSHR_RD(x) ^ (v))) #endif //@} /* * Constants & macros for individual SPI_PUSHR bitfields */ /*! * @name Register SPI_PUSHR, field TXDATA[15:0] (RW) * * Holds SPI data to be transferred according to the associated SPI command. */ //@{ #define BP_SPI_PUSHR_TXDATA (0U) //!< Bit position for SPI_PUSHR_TXDATA. #define BM_SPI_PUSHR_TXDATA (0x0000FFFFU) //!< Bit mask for SPI_PUSHR_TXDATA. #define BS_SPI_PUSHR_TXDATA (16U) //!< Bit field size in bits for SPI_PUSHR_TXDATA. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_PUSHR_TXDATA field. #define BR_SPI_PUSHR_TXDATA(x) (HW_SPI_PUSHR(x).B.TXDATA) #endif //! @brief Format value for bitfield SPI_PUSHR_TXDATA. #define BF_SPI_PUSHR_TXDATA(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_PUSHR_TXDATA), uint32_t) & BM_SPI_PUSHR_TXDATA) #ifndef __LANGUAGE_ASM__ //! @brief Set the TXDATA field to a new value. #define BW_SPI_PUSHR_TXDATA(x, v) (HW_SPI_PUSHR_WR(x, (HW_SPI_PUSHR_RD(x) & ~BM_SPI_PUSHR_TXDATA) | BF_SPI_PUSHR_TXDATA(v))) #endif //@} /*! * @name Register SPI_PUSHR, field PCS[21:16] (RW) * * Select which PCS signals are to be asserted for the transfer. Refer to the * chip configuration details for the number of PCS signals used in this MCU. * * Values: * - 0 - Negate the PCS[x] signal. * - 1 - Assert the PCS[x] signal. */ //@{ #define BP_SPI_PUSHR_PCS (16U) //!< Bit position for SPI_PUSHR_PCS. #define BM_SPI_PUSHR_PCS (0x003F0000U) //!< Bit mask for SPI_PUSHR_PCS. #define BS_SPI_PUSHR_PCS (6U) //!< Bit field size in bits for SPI_PUSHR_PCS. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_PUSHR_PCS field. #define BR_SPI_PUSHR_PCS(x) (HW_SPI_PUSHR(x).B.PCS) #endif //! @brief Format value for bitfield SPI_PUSHR_PCS. #define BF_SPI_PUSHR_PCS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_PUSHR_PCS), uint32_t) & BM_SPI_PUSHR_PCS) #ifndef __LANGUAGE_ASM__ //! @brief Set the PCS field to a new value. #define BW_SPI_PUSHR_PCS(x, v) (HW_SPI_PUSHR_WR(x, (HW_SPI_PUSHR_RD(x) & ~BM_SPI_PUSHR_PCS) | BF_SPI_PUSHR_PCS(v))) #endif //@} /*! * @name Register SPI_PUSHR, field CTCNT[26] (RW) * * Clears the TCNT field in the TCR register. The TCNT field is cleared before * the module starts transmitting the current SPI frame. * * Values: * - 0 - Do not clear the TCR[TCNT] field. * - 1 - Clear the TCR[TCNT] field. */ //@{ #define BP_SPI_PUSHR_CTCNT (26U) //!< Bit position for SPI_PUSHR_CTCNT. #define BM_SPI_PUSHR_CTCNT (0x04000000U) //!< Bit mask for SPI_PUSHR_CTCNT. #define BS_SPI_PUSHR_CTCNT (1U) //!< Bit field size in bits for SPI_PUSHR_CTCNT. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_PUSHR_CTCNT field. #define BR_SPI_PUSHR_CTCNT(x) (BITBAND_ACCESS32(HW_SPI_PUSHR_ADDR(x), BP_SPI_PUSHR_CTCNT)) #endif //! @brief Format value for bitfield SPI_PUSHR_CTCNT. #define BF_SPI_PUSHR_CTCNT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_PUSHR_CTCNT), uint32_t) & BM_SPI_PUSHR_CTCNT) #ifndef __LANGUAGE_ASM__ //! @brief Set the CTCNT field to a new value. #define BW_SPI_PUSHR_CTCNT(x, v) (BITBAND_ACCESS32(HW_SPI_PUSHR_ADDR(x), BP_SPI_PUSHR_CTCNT) = (v)) #endif //@} /*! * @name Register SPI_PUSHR, field EOQ[27] (RW) * * Host software uses this bit to signal to the module that the current SPI * transfer is the last in a queue. At the end of the transfer, the EOQF bit in the * SR is set. * * Values: * - 0 - The SPI data is not the last data to transfer. * - 1 - The SPI data is the last data to transfer. */ //@{ #define BP_SPI_PUSHR_EOQ (27U) //!< Bit position for SPI_PUSHR_EOQ. #define BM_SPI_PUSHR_EOQ (0x08000000U) //!< Bit mask for SPI_PUSHR_EOQ. #define BS_SPI_PUSHR_EOQ (1U) //!< Bit field size in bits for SPI_PUSHR_EOQ. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_PUSHR_EOQ field. #define BR_SPI_PUSHR_EOQ(x) (BITBAND_ACCESS32(HW_SPI_PUSHR_ADDR(x), BP_SPI_PUSHR_EOQ)) #endif //! @brief Format value for bitfield SPI_PUSHR_EOQ. #define BF_SPI_PUSHR_EOQ(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_PUSHR_EOQ), uint32_t) & BM_SPI_PUSHR_EOQ) #ifndef __LANGUAGE_ASM__ //! @brief Set the EOQ field to a new value. #define BW_SPI_PUSHR_EOQ(x, v) (BITBAND_ACCESS32(HW_SPI_PUSHR_ADDR(x), BP_SPI_PUSHR_EOQ) = (v)) #endif //@} /*! * @name Register SPI_PUSHR, field CTAS[30:28] (RW) * * Selects which CTAR to use in master mode to specify the transfer attributes * for the associated SPI frame. In SPI Slave mode, CTAR0 is used. See the chip * configuration details to determine how many CTARs this device has. You should * not program a value in this field for a register that is not present. * * Values: * - 000 - CTAR0 * - 001 - CTAR1 * - 010 - Reserved * - 011 - Reserved * - 100 - Reserved * - 101 - Reserved * - 110 - Reserved * - 111 - Reserved */ //@{ #define BP_SPI_PUSHR_CTAS (28U) //!< Bit position for SPI_PUSHR_CTAS. #define BM_SPI_PUSHR_CTAS (0x70000000U) //!< Bit mask for SPI_PUSHR_CTAS. #define BS_SPI_PUSHR_CTAS (3U) //!< Bit field size in bits for SPI_PUSHR_CTAS. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_PUSHR_CTAS field. #define BR_SPI_PUSHR_CTAS(x) (HW_SPI_PUSHR(x).B.CTAS) #endif //! @brief Format value for bitfield SPI_PUSHR_CTAS. #define BF_SPI_PUSHR_CTAS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_PUSHR_CTAS), uint32_t) & BM_SPI_PUSHR_CTAS) #ifndef __LANGUAGE_ASM__ //! @brief Set the CTAS field to a new value. #define BW_SPI_PUSHR_CTAS(x, v) (HW_SPI_PUSHR_WR(x, (HW_SPI_PUSHR_RD(x) & ~BM_SPI_PUSHR_CTAS) | BF_SPI_PUSHR_CTAS(v))) #endif //@} /*! * @name Register SPI_PUSHR, field CONT[31] (RW) * * Selects a continuous selection format. The bit is used in SPI Master mode. * The bit enables the selected PCS signals to remain asserted between transfers. * * Values: * - 0 - Return PCSn signals to their inactive state between transfers. * - 1 - Keep PCSn signals asserted between transfers. */ //@{ #define BP_SPI_PUSHR_CONT (31U) //!< Bit position for SPI_PUSHR_CONT. #define BM_SPI_PUSHR_CONT (0x80000000U) //!< Bit mask for SPI_PUSHR_CONT. #define BS_SPI_PUSHR_CONT (1U) //!< Bit field size in bits for SPI_PUSHR_CONT. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_PUSHR_CONT field. #define BR_SPI_PUSHR_CONT(x) (BITBAND_ACCESS32(HW_SPI_PUSHR_ADDR(x), BP_SPI_PUSHR_CONT)) #endif //! @brief Format value for bitfield SPI_PUSHR_CONT. #define BF_SPI_PUSHR_CONT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_PUSHR_CONT), uint32_t) & BM_SPI_PUSHR_CONT) #ifndef __LANGUAGE_ASM__ //! @brief Set the CONT field to a new value. #define BW_SPI_PUSHR_CONT(x, v) (BITBAND_ACCESS32(HW_SPI_PUSHR_ADDR(x), BP_SPI_PUSHR_CONT) = (v)) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_PUSHR_SLAVE - PUSH TX FIFO Register In Slave Mode //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_PUSHR_SLAVE - PUSH TX FIFO Register In Slave Mode (RW) * * Reset value: 0x00000000U * * Specifies data to be transferred to the TX FIFO. An 8- or 16-bit write access * to PUSHR transfers all 32 bits to the TX FIFO. In master mode, the register * transfers 16 bits of data and 16 bits of command information to the TX FIFO. In * slave mode, all 32 register bits can be used as data, supporting up to 32-bit * SPI Frame operation. */ typedef union _hw_spi_pushr_slave { uint32_t U; struct _hw_spi_pushr_slave_bitfields { uint32_t TXDATA : 32; //!< [31:0] Transmit Data } B; } hw_spi_pushr_slave_t; #endif /*! * @name Constants and macros for entire SPI_PUSHR_SLAVE register */ //@{ #define HW_SPI_PUSHR_SLAVE_ADDR(x) (REGS_SPI_BASE(x) + 0x34U) #ifndef __LANGUAGE_ASM__ #define HW_SPI_PUSHR_SLAVE(x) (*(__IO hw_spi_pushr_slave_t *) HW_SPI_PUSHR_SLAVE_ADDR(x)) #define HW_SPI_PUSHR_SLAVE_RD(x) (HW_SPI_PUSHR_SLAVE(x).U) #define HW_SPI_PUSHR_SLAVE_WR(x, v) (HW_SPI_PUSHR_SLAVE(x).U = (v)) #define HW_SPI_PUSHR_SLAVE_SET(x, v) (HW_SPI_PUSHR_SLAVE_WR(x, HW_SPI_PUSHR_SLAVE_RD(x) | (v))) #define HW_SPI_PUSHR_SLAVE_CLR(x, v) (HW_SPI_PUSHR_SLAVE_WR(x, HW_SPI_PUSHR_SLAVE_RD(x) & ~(v))) #define HW_SPI_PUSHR_SLAVE_TOG(x, v) (HW_SPI_PUSHR_SLAVE_WR(x, HW_SPI_PUSHR_SLAVE_RD(x) ^ (v))) #endif //@} /* * Constants & macros for individual SPI_PUSHR_SLAVE bitfields */ /*! * @name Register SPI_PUSHR_SLAVE, field TXDATA[31:0] (RW) * * Holds SPI data to be transferred according to the associated SPI command. */ //@{ #define BP_SPI_PUSHR_SLAVE_TXDATA (0U) //!< Bit position for SPI_PUSHR_SLAVE_TXDATA. #define BM_SPI_PUSHR_SLAVE_TXDATA (0xFFFFFFFFU) //!< Bit mask for SPI_PUSHR_SLAVE_TXDATA. #define BS_SPI_PUSHR_SLAVE_TXDATA (32U) //!< Bit field size in bits for SPI_PUSHR_SLAVE_TXDATA. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_PUSHR_SLAVE_TXDATA field. #define BR_SPI_PUSHR_SLAVE_TXDATA(x) (HW_SPI_PUSHR_SLAVE(x).U) #endif //! @brief Format value for bitfield SPI_PUSHR_SLAVE_TXDATA. #define BF_SPI_PUSHR_SLAVE_TXDATA(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_SPI_PUSHR_SLAVE_TXDATA), uint32_t) & BM_SPI_PUSHR_SLAVE_TXDATA) #ifndef __LANGUAGE_ASM__ //! @brief Set the TXDATA field to a new value. #define BW_SPI_PUSHR_SLAVE_TXDATA(x, v) (HW_SPI_PUSHR_SLAVE_WR(x, v)) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_POPR - POP RX FIFO Register //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_POPR - POP RX FIFO Register (RO) * * Reset value: 0x00000000U * * POPR is used to read the RX FIFO. Eight- or sixteen-bit read accesses to the * POPR have the same effect on the RX FIFO as 32-bit read accesses. A write to * this register will generate a Transfer Error. */ typedef union _hw_spi_popr { uint32_t U; struct _hw_spi_popr_bitfields { uint32_t RXDATA : 32; //!< [31:0] Received Data } B; } hw_spi_popr_t; #endif /*! * @name Constants and macros for entire SPI_POPR register */ //@{ #define HW_SPI_POPR_ADDR(x) (REGS_SPI_BASE(x) + 0x38U) #ifndef __LANGUAGE_ASM__ #define HW_SPI_POPR(x) (*(__I hw_spi_popr_t *) HW_SPI_POPR_ADDR(x)) #define HW_SPI_POPR_RD(x) (HW_SPI_POPR(x).U) #endif //@} /* * Constants & macros for individual SPI_POPR bitfields */ /*! * @name Register SPI_POPR, field RXDATA[31:0] (RO) * * Contains the SPI data from the RX FIFO entry to which the Pop Next Data * Pointer points. */ //@{ #define BP_SPI_POPR_RXDATA (0U) //!< Bit position for SPI_POPR_RXDATA. #define BM_SPI_POPR_RXDATA (0xFFFFFFFFU) //!< Bit mask for SPI_POPR_RXDATA. #define BS_SPI_POPR_RXDATA (32U) //!< Bit field size in bits for SPI_POPR_RXDATA. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_POPR_RXDATA field. #define BR_SPI_POPR_RXDATA(x) (HW_SPI_POPR(x).U) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_TXFRn - Transmit FIFO Registers //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_TXFRn - Transmit FIFO Registers (RO) * * Reset value: 0x00000000U * * TXFRn registers provide visibility into the TX FIFO for debugging purposes. * Each register is an entry in the TX FIFO. The registers are read-only and * cannot be modified. Reading the TXFRx registers does not alter the state of the TX * FIFO. */ typedef union _hw_spi_txfrn { uint32_t U; struct _hw_spi_txfrn_bitfields { uint32_t TXDATA : 16; //!< [15:0] Transmit Data uint32_t TXCMD_TXDATA : 16; //!< [31:16] Transmit Command or Transmit //! Data } B; } hw_spi_txfrn_t; #endif /*! * @name Constants and macros for entire SPI_TXFRn register */ //@{ #define HW_SPI_TXFRn_COUNT (4U) #define HW_SPI_TXFRn_ADDR(x, n) (REGS_SPI_BASE(x) + 0x3CU + (0x4U * n)) #ifndef __LANGUAGE_ASM__ #define HW_SPI_TXFRn(x, n) (*(__I hw_spi_txfrn_t *) HW_SPI_TXFRn_ADDR(x, n)) #define HW_SPI_TXFRn_RD(x, n) (HW_SPI_TXFRn(x, n).U) #endif //@} /* * Constants & macros for individual SPI_TXFRn bitfields */ /*! * @name Register SPI_TXFRn, field TXDATA[15:0] (RO) * * Contains the SPI data to be shifted out. */ //@{ #define BP_SPI_TXFRn_TXDATA (0U) //!< Bit position for SPI_TXFRn_TXDATA. #define BM_SPI_TXFRn_TXDATA (0x0000FFFFU) //!< Bit mask for SPI_TXFRn_TXDATA. #define BS_SPI_TXFRn_TXDATA (16U) //!< Bit field size in bits for SPI_TXFRn_TXDATA. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_TXFRn_TXDATA field. #define BR_SPI_TXFRn_TXDATA(x, n) (HW_SPI_TXFRn(x, n).B.TXDATA) #endif //@} /*! * @name Register SPI_TXFRn, field TXCMD_TXDATA[31:16] (RO) * * In Master mode the TXCMD field contains the command that sets the transfer * attributes for the SPI data. In Slave mode, the TXDATA contains 16 MSB bits of * the SPI data to be shifted out. */ //@{ #define BP_SPI_TXFRn_TXCMD_TXDATA (16U) //!< Bit position for SPI_TXFRn_TXCMD_TXDATA. #define BM_SPI_TXFRn_TXCMD_TXDATA (0xFFFF0000U) //!< Bit mask for SPI_TXFRn_TXCMD_TXDATA. #define BS_SPI_TXFRn_TXCMD_TXDATA (16U) //!< Bit field size in bits for SPI_TXFRn_TXCMD_TXDATA. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_TXFRn_TXCMD_TXDATA field. #define BR_SPI_TXFRn_TXCMD_TXDATA(x, n) (HW_SPI_TXFRn(x, n).B.TXCMD_TXDATA) #endif //@} //------------------------------------------------------------------------------------------- // HW_SPI_RXFRn - Receive FIFO Registers //------------------------------------------------------------------------------------------- #ifndef __LANGUAGE_ASM__ /*! * @brief HW_SPI_RXFRn - Receive FIFO Registers (RO) * * Reset value: 0x00000000U * * RXFRn provide visibility into the RX FIFO for debugging purposes. Each * register is an entry in the RX FIFO. The RXFR registers are read-only. Reading the * RXFRx registers does not alter the state of the RX FIFO. */ typedef union _hw_spi_rxfrn { uint32_t U; struct _hw_spi_rxfrn_bitfields { uint32_t RXDATA : 32; //!< [31:0] Receive Data } B; } hw_spi_rxfrn_t; #endif /*! * @name Constants and macros for entire SPI_RXFRn register */ //@{ #define HW_SPI_RXFRn_COUNT (4U) #define HW_SPI_RXFRn_ADDR(x, n) (REGS_SPI_BASE(x) + 0x7CU + (0x4U * n)) #ifndef __LANGUAGE_ASM__ #define HW_SPI_RXFRn(x, n) (*(__I hw_spi_rxfrn_t *) HW_SPI_RXFRn_ADDR(x, n)) #define HW_SPI_RXFRn_RD(x, n) (HW_SPI_RXFRn(x, n).U) #endif //@} /* * Constants & macros for individual SPI_RXFRn bitfields */ /*! * @name Register SPI_RXFRn, field RXDATA[31:0] (RO) * * Contains the received SPI data. */ //@{ #define BP_SPI_RXFRn_RXDATA (0U) //!< Bit position for SPI_RXFRn_RXDATA. #define BM_SPI_RXFRn_RXDATA (0xFFFFFFFFU) //!< Bit mask for SPI_RXFRn_RXDATA. #define BS_SPI_RXFRn_RXDATA (32U) //!< Bit field size in bits for SPI_RXFRn_RXDATA. #ifndef __LANGUAGE_ASM__ //! @brief Read current value of the SPI_RXFRn_RXDATA field. #define BR_SPI_RXFRn_RXDATA(x, n) (HW_SPI_RXFRn(x, n).U) #endif //@} //------------------------------------------------------------------------------------------- // hw_spi_t - module struct //------------------------------------------------------------------------------------------- /*! * @brief All SPI module registers. */ #ifndef __LANGUAGE_ASM__ #pragma pack(1) typedef struct _hw_spi { __IO hw_spi_mcr_t MCR; //!< [0x0] Module Configuration Register uint8_t _reserved0[4]; __IO hw_spi_tcr_t TCR; //!< [0x8] Transfer Count Register union { __IO hw_spi_ctarn_t CTARn[2]; //!< [0xC] Clock and Transfer Attributes Register (In Master Mode) __IO hw_spi_ctarn_slave_t CTARn_SLAVE[1]; //!< [0xC] Clock and Transfer Attributes Register (In Slave Mode) }; uint8_t _reserved1[24]; __IO hw_spi_sr_t SR; //!< [0x2C] Status Register __IO hw_spi_rser_t RSER; //!< [0x30] DMA/Interrupt Request Select and Enable Register union { __IO hw_spi_pushr_t PUSHR; //!< [0x34] PUSH TX FIFO Register In Master Mode __IO hw_spi_pushr_slave_t PUSHR_SLAVE; //!< [0x34] PUSH TX FIFO Register In Slave Mode }; __I hw_spi_popr_t POPR; //!< [0x38] POP RX FIFO Register __I hw_spi_txfrn_t TXFRn[4]; //!< [0x3C] Transmit FIFO Registers uint8_t _reserved2[48]; __I hw_spi_rxfrn_t RXFRn[4]; //!< [0x7C] Receive FIFO Registers } hw_spi_t; #pragma pack() //! @brief Macro to access all SPI registers. //! @param x SPI instance number. //! @return Reference (not a pointer) to the registers struct. To get a pointer to the struct, //! use the '&' operator, like &HW_SPI(0). #define HW_SPI(x) (*(hw_spi_t *) REGS_SPI_BASE(x)) #endif #endif // __HW_SPI_REGISTERS_H__ // v22/130726/0.9 // EOF