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Diff: TARGET_K64F/TARGET_Freescale/TARGET_KPSDK_MCUS/TARGET_K64F/device/MK64F12/MK64F12_can.h
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/TARGET_K64F/TARGET_Freescale/TARGET_KPSDK_MCUS/TARGET_K64F/device/MK64F12/MK64F12_can.h Mon Apr 07 18:28:36 2014 +0100 @@ -0,0 +1,3963 @@ +/* + * 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_CAN_REGISTERS_H__ +#define __HW_CAN_REGISTERS_H__ + +#include "regs.h" + +/* + * MK64F12 CAN + * + * Flex Controller Area Network module + * + * Registers defined in this header file: + * - HW_CAN_MCR - Module Configuration Register + * - HW_CAN_CTRL1 - Control 1 register + * - HW_CAN_TIMER - Free Running Timer + * - HW_CAN_RXMGMASK - Rx Mailboxes Global Mask Register + * - HW_CAN_RX14MASK - Rx 14 Mask register + * - HW_CAN_RX15MASK - Rx 15 Mask register + * - HW_CAN_ECR - Error Counter + * - HW_CAN_ESR1 - Error and Status 1 register + * - HW_CAN_IMASK1 - Interrupt Masks 1 register + * - HW_CAN_IFLAG1 - Interrupt Flags 1 register + * - HW_CAN_CTRL2 - Control 2 register + * - HW_CAN_ESR2 - Error and Status 2 register + * - HW_CAN_CRCR - CRC Register + * - HW_CAN_RXFGMASK - Rx FIFO Global Mask register + * - HW_CAN_RXFIR - Rx FIFO Information Register + * - HW_CAN_CS - Message Buffer 0 CS Register + * - HW_CAN_ID - Message Buffer 0 ID Register + * - HW_CAN_WORD0 - Message Buffer 0 WORD0 Register + * - HW_CAN_WORD1 - Message Buffer 0 WORD1 Register + * - HW_CAN_RXIMRn - Rx Individual Mask Registers + * + * - hw_can_t - Struct containing all module registers. + */ + +//! @name Module base addresses +//@{ +#ifndef REGS_CAN_BASE +#define HW_CAN_INSTANCE_COUNT (1U) //!< Number of instances of the CAN module. +#define HW_CAN0 (0U) //!< Instance number for CAN0. +#define REGS_CAN0_BASE (0x40024000U) //!< Base address for CAN0. + +//! @brief Table of base addresses for CAN instances. +static const uint32_t __g_regs_CAN_base_addresses[] = { + REGS_CAN0_BASE, + }; + +//! @brief Get the base address of CAN by instance number. +//! @param x CAN instance number, from 0 through 0. +#define REGS_CAN_BASE(x) (__g_regs_CAN_base_addresses[(x)]) + +//! @brief Get the instance number given a base address. +//! @param b Base address for an instance of CAN. +#define REGS_CAN_INSTANCE(b) ((b) == REGS_CAN0_BASE ? HW_CAN0 : 0) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_MCR - Module Configuration Register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_MCR - Module Configuration Register (RW) + * + * Reset value: 0xD890000FU + * + * This register defines global system configurations, such as the module + * operation modes and the maximum message buffer configuration. + */ +typedef union _hw_can_mcr +{ + uint32_t U; + struct _hw_can_mcr_bitfields + { + uint32_t MAXMB : 7; //!< [6:0] Number Of The Last Message Buffer + uint32_t RESERVED0 : 1; //!< [7] + uint32_t IDAM : 2; //!< [9:8] ID Acceptance Mode + uint32_t RESERVED1 : 2; //!< [11:10] + uint32_t AEN : 1; //!< [12] Abort Enable + uint32_t LPRIOEN : 1; //!< [13] Local Priority Enable + uint32_t RESERVED2 : 2; //!< [15:14] + uint32_t IRMQ : 1; //!< [16] Individual Rx Masking And Queue Enable + uint32_t SRXDIS : 1; //!< [17] Self Reception Disable + uint32_t RESERVED3 : 1; //!< [18] + uint32_t WAKSRC : 1; //!< [19] Wake Up Source + uint32_t LPMACK : 1; //!< [20] Low-Power Mode Acknowledge + uint32_t WRNEN : 1; //!< [21] Warning Interrupt Enable + uint32_t SLFWAK : 1; //!< [22] Self Wake Up + uint32_t SUPV : 1; //!< [23] Supervisor Mode + uint32_t FRZACK : 1; //!< [24] Freeze Mode Acknowledge + uint32_t SOFTRST : 1; //!< [25] Soft Reset + uint32_t WAKMSK : 1; //!< [26] Wake Up Interrupt Mask + uint32_t NOTRDY : 1; //!< [27] FlexCAN Not Ready + uint32_t HALT : 1; //!< [28] Halt FlexCAN + uint32_t RFEN : 1; //!< [29] Rx FIFO Enable + uint32_t FRZ : 1; //!< [30] Freeze Enable + uint32_t MDIS : 1; //!< [31] Module Disable + } B; +} hw_can_mcr_t; +#endif + +/*! + * @name Constants and macros for entire CAN_MCR register + */ +//@{ +#define HW_CAN_MCR_ADDR(x) (REGS_CAN_BASE(x) + 0x0U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_MCR(x) (*(__IO hw_can_mcr_t *) HW_CAN_MCR_ADDR(x)) +#define HW_CAN_MCR_RD(x) (HW_CAN_MCR(x).U) +#define HW_CAN_MCR_WR(x, v) (HW_CAN_MCR(x).U = (v)) +#define HW_CAN_MCR_SET(x, v) (HW_CAN_MCR_WR(x, HW_CAN_MCR_RD(x) | (v))) +#define HW_CAN_MCR_CLR(x, v) (HW_CAN_MCR_WR(x, HW_CAN_MCR_RD(x) & ~(v))) +#define HW_CAN_MCR_TOG(x, v) (HW_CAN_MCR_WR(x, HW_CAN_MCR_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_MCR bitfields + */ + +/*! + * @name Register CAN_MCR, field MAXMB[6:0] (RW) + * + * This 7-bit field defines the number of the last Message Buffers that will + * take part in the matching and arbitration processes. The reset value (0x0F) is + * equivalent to a 16 MB configuration. This field can be written only in Freeze + * mode because it is blocked by hardware in other modes. Number of the last MB = + * MAXMB MAXMB must be programmed with a value smaller than the parameter + * NUMBER_OF_MB, otherwise the number of the last effective Message Buffer will be: + * (NUMBER_OF_MB - 1) Additionally, the value of MAXMB must encompass the FIFO size + * defined by CTRL2[RFFN]. MAXMB also impacts the definition of the minimum number + * of peripheral clocks per CAN bit as described in Table "Minimum Ratio Between + * Peripheral Clock Frequency and CAN Bit Rate" (in Section "Arbitration and + * Matching Timing"). + */ +//@{ +#define BP_CAN_MCR_MAXMB (0U) //!< Bit position for CAN_MCR_MAXMB. +#define BM_CAN_MCR_MAXMB (0x0000007FU) //!< Bit mask for CAN_MCR_MAXMB. +#define BS_CAN_MCR_MAXMB (7U) //!< Bit field size in bits for CAN_MCR_MAXMB. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_MAXMB field. +#define BR_CAN_MCR_MAXMB(x) (HW_CAN_MCR(x).B.MAXMB) +#endif + +//! @brief Format value for bitfield CAN_MCR_MAXMB. +#define BF_CAN_MCR_MAXMB(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_MAXMB), uint32_t) & BM_CAN_MCR_MAXMB) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the MAXMB field to a new value. +#define BW_CAN_MCR_MAXMB(x, v) (HW_CAN_MCR_WR(x, (HW_CAN_MCR_RD(x) & ~BM_CAN_MCR_MAXMB) | BF_CAN_MCR_MAXMB(v))) +#endif +//@} + +/*! + * @name Register CAN_MCR, field IDAM[9:8] (RW) + * + * This 2-bit field identifies the format of the Rx FIFO ID Filter Table + * elements. Note that all elements of the table are configured at the same time by this + * field (they are all the same format). See Section "Rx FIFO Structure". This + * field can be written only in Freeze mode because it is blocked by hardware in + * other modes. + * + * Values: + * - 00 - Format A: One full ID (standard and extended) per ID Filter Table + * element. + * - 01 - Format B: Two full standard IDs or two partial 14-bit (standard and + * extended) IDs per ID Filter Table element. + * - 10 - Format C: Four partial 8-bit Standard IDs per ID Filter Table element. + * - 11 - Format D: All frames rejected. + */ +//@{ +#define BP_CAN_MCR_IDAM (8U) //!< Bit position for CAN_MCR_IDAM. +#define BM_CAN_MCR_IDAM (0x00000300U) //!< Bit mask for CAN_MCR_IDAM. +#define BS_CAN_MCR_IDAM (2U) //!< Bit field size in bits for CAN_MCR_IDAM. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_IDAM field. +#define BR_CAN_MCR_IDAM(x) (HW_CAN_MCR(x).B.IDAM) +#endif + +//! @brief Format value for bitfield CAN_MCR_IDAM. +#define BF_CAN_MCR_IDAM(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_IDAM), uint32_t) & BM_CAN_MCR_IDAM) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the IDAM field to a new value. +#define BW_CAN_MCR_IDAM(x, v) (HW_CAN_MCR_WR(x, (HW_CAN_MCR_RD(x) & ~BM_CAN_MCR_IDAM) | BF_CAN_MCR_IDAM(v))) +#endif +//@} + +/*! + * @name Register CAN_MCR, field AEN[12] (RW) + * + * This bit is supplied for backwards compatibility with legacy applications. + * When asserted, it enables the Tx abort mechanism. This mechanism guarantees a + * safe procedure for aborting a pending transmission, so that no frame is sent in + * the CAN bus without notification. This bit can be written only in Freeze mode + * because it is blocked by hardware in other modes. When MCR[AEN] is asserted, + * only the abort mechanism (see Section "Transmission Abort Mechanism") must be + * used for updating Mailboxes configured for transmission. Writing the Abort code + * into Rx Mailboxes can cause unpredictable results when the MCR[AEN] is + * asserted. + * + * Values: + * - 0 - Abort disabled. + * - 1 - Abort enabled. + */ +//@{ +#define BP_CAN_MCR_AEN (12U) //!< Bit position for CAN_MCR_AEN. +#define BM_CAN_MCR_AEN (0x00001000U) //!< Bit mask for CAN_MCR_AEN. +#define BS_CAN_MCR_AEN (1U) //!< Bit field size in bits for CAN_MCR_AEN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_AEN field. +#define BR_CAN_MCR_AEN(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_AEN)) +#endif + +//! @brief Format value for bitfield CAN_MCR_AEN. +#define BF_CAN_MCR_AEN(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_AEN), uint32_t) & BM_CAN_MCR_AEN) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the AEN field to a new value. +#define BW_CAN_MCR_AEN(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_AEN) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field LPRIOEN[13] (RW) + * + * This bit is provided for backwards compatibility with legacy applications. It + * controls whether the local priority feature is enabled or not. It is used to + * expand the ID used during the arbitration process. With this expanded ID + * concept, the arbitration process is done based on the full 32-bit word, but the + * actual transmitted ID still has 11-bit for standard frames and 29-bit for + * extended frames. This bit can be written only in Freeze mode because it is blocked by + * hardware in other modes. + * + * Values: + * - 0 - Local Priority disabled. + * - 1 - Local Priority enabled. + */ +//@{ +#define BP_CAN_MCR_LPRIOEN (13U) //!< Bit position for CAN_MCR_LPRIOEN. +#define BM_CAN_MCR_LPRIOEN (0x00002000U) //!< Bit mask for CAN_MCR_LPRIOEN. +#define BS_CAN_MCR_LPRIOEN (1U) //!< Bit field size in bits for CAN_MCR_LPRIOEN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_LPRIOEN field. +#define BR_CAN_MCR_LPRIOEN(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_LPRIOEN)) +#endif + +//! @brief Format value for bitfield CAN_MCR_LPRIOEN. +#define BF_CAN_MCR_LPRIOEN(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_LPRIOEN), uint32_t) & BM_CAN_MCR_LPRIOEN) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the LPRIOEN field to a new value. +#define BW_CAN_MCR_LPRIOEN(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_LPRIOEN) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field IRMQ[16] (RW) + * + * This bit indicates whether Rx matching process will be based either on + * individual masking and queue or on masking scheme with RXMGMASK, RX14MASK and + * RX15MASK, RXFGMASK. This bit can be written only in Freeze mode because it is + * blocked by hardware in other modes. + * + * Values: + * - 0 - Individual Rx masking and queue feature are disabled. For backward + * compatibility with legacy applications, the reading of C/S word locks the MB + * even if it is EMPTY. + * - 1 - Individual Rx masking and queue feature are enabled. + */ +//@{ +#define BP_CAN_MCR_IRMQ (16U) //!< Bit position for CAN_MCR_IRMQ. +#define BM_CAN_MCR_IRMQ (0x00010000U) //!< Bit mask for CAN_MCR_IRMQ. +#define BS_CAN_MCR_IRMQ (1U) //!< Bit field size in bits for CAN_MCR_IRMQ. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_IRMQ field. +#define BR_CAN_MCR_IRMQ(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_IRMQ)) +#endif + +//! @brief Format value for bitfield CAN_MCR_IRMQ. +#define BF_CAN_MCR_IRMQ(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_IRMQ), uint32_t) & BM_CAN_MCR_IRMQ) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the IRMQ field to a new value. +#define BW_CAN_MCR_IRMQ(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_IRMQ) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field SRXDIS[17] (RW) + * + * This bit defines whether FlexCAN is allowed to receive frames transmitted by + * itself. If this bit is asserted, frames transmitted by the module will not be + * stored in any MB, regardless if the MB is programmed with an ID that matches + * the transmitted frame, and no interrupt flag or interrupt signal will be + * generated due to the frame reception. This bit can be written only in Freeze mode + * because it is blocked by hardware in other modes. + * + * Values: + * - 0 - Self reception enabled. + * - 1 - Self reception disabled. + */ +//@{ +#define BP_CAN_MCR_SRXDIS (17U) //!< Bit position for CAN_MCR_SRXDIS. +#define BM_CAN_MCR_SRXDIS (0x00020000U) //!< Bit mask for CAN_MCR_SRXDIS. +#define BS_CAN_MCR_SRXDIS (1U) //!< Bit field size in bits for CAN_MCR_SRXDIS. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_SRXDIS field. +#define BR_CAN_MCR_SRXDIS(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_SRXDIS)) +#endif + +//! @brief Format value for bitfield CAN_MCR_SRXDIS. +#define BF_CAN_MCR_SRXDIS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_SRXDIS), uint32_t) & BM_CAN_MCR_SRXDIS) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the SRXDIS field to a new value. +#define BW_CAN_MCR_SRXDIS(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_SRXDIS) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field WAKSRC[19] (RW) + * + * This bit defines whether the integrated low-pass filter is applied to protect + * the Rx CAN input from spurious wake up. This bit can be written only in + * Freeze mode because it is blocked by hardware in other modes. + * + * Values: + * - 0 - FlexCAN uses the unfiltered Rx input to detect recessive to dominant + * edges on the CAN bus. + * - 1 - FlexCAN uses the filtered Rx input to detect recessive to dominant + * edges on the CAN bus. + */ +//@{ +#define BP_CAN_MCR_WAKSRC (19U) //!< Bit position for CAN_MCR_WAKSRC. +#define BM_CAN_MCR_WAKSRC (0x00080000U) //!< Bit mask for CAN_MCR_WAKSRC. +#define BS_CAN_MCR_WAKSRC (1U) //!< Bit field size in bits for CAN_MCR_WAKSRC. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_WAKSRC field. +#define BR_CAN_MCR_WAKSRC(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_WAKSRC)) +#endif + +//! @brief Format value for bitfield CAN_MCR_WAKSRC. +#define BF_CAN_MCR_WAKSRC(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_WAKSRC), uint32_t) & BM_CAN_MCR_WAKSRC) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the WAKSRC field to a new value. +#define BW_CAN_MCR_WAKSRC(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_WAKSRC) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field LPMACK[20] (RO) + * + * This read-only bit indicates that FlexCAN is in a low-power mode (Disable + * mode , Stop mode ). A low-power mode cannot be entered until all current + * transmission or reception processes have finished, so the CPU can poll the LPMACK bit + * to know when FlexCAN has actually entered low power mode. LPMACK will be + * asserted within 180 CAN bits from the low-power mode request by the CPU, and + * negated within 2 CAN bits after the low-power mode request removal (see Section + * "Protocol Timing"). + * + * Values: + * - 0 - FlexCAN is not in a low-power mode. + * - 1 - FlexCAN is in a low-power mode. + */ +//@{ +#define BP_CAN_MCR_LPMACK (20U) //!< Bit position for CAN_MCR_LPMACK. +#define BM_CAN_MCR_LPMACK (0x00100000U) //!< Bit mask for CAN_MCR_LPMACK. +#define BS_CAN_MCR_LPMACK (1U) //!< Bit field size in bits for CAN_MCR_LPMACK. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_LPMACK field. +#define BR_CAN_MCR_LPMACK(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_LPMACK)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field WRNEN[21] (RW) + * + * When asserted, this bit enables the generation of the TWRNINT and RWRNINT + * flags in the Error and Status Register. If WRNEN is negated, the TWRNINT and + * RWRNINT flags will always be zero, independent of the values of the error + * counters, and no warning interrupt will ever be generated. This bit can be written + * only in Freeze mode because it is blocked by hardware in other modes. + * + * Values: + * - 0 - TWRNINT and RWRNINT bits are zero, independent of the values in the + * error counters. + * - 1 - TWRNINT and RWRNINT bits are set when the respective error counter + * transitions from less than 96 to greater than or equal to 96. + */ +//@{ +#define BP_CAN_MCR_WRNEN (21U) //!< Bit position for CAN_MCR_WRNEN. +#define BM_CAN_MCR_WRNEN (0x00200000U) //!< Bit mask for CAN_MCR_WRNEN. +#define BS_CAN_MCR_WRNEN (1U) //!< Bit field size in bits for CAN_MCR_WRNEN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_WRNEN field. +#define BR_CAN_MCR_WRNEN(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_WRNEN)) +#endif + +//! @brief Format value for bitfield CAN_MCR_WRNEN. +#define BF_CAN_MCR_WRNEN(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_WRNEN), uint32_t) & BM_CAN_MCR_WRNEN) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the WRNEN field to a new value. +#define BW_CAN_MCR_WRNEN(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_WRNEN) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field SLFWAK[22] (RW) + * + * This bit enables the Self Wake Up feature when FlexCAN is in a low-power mode + * other than Disable mode. When this feature is enabled, the FlexCAN module + * monitors the bus for wake up event, that is, a recessive-to-dominant transition. + * If a wake up event is detected during Stop mode, then FlexCAN generates, if + * enabled to do so, a Wake Up interrupt to the CPU so that it can exit Stop mode + * globally and FlexCAN can request to resume the clocks. When FlexCAN is in a + * low-power mode other than Disable mode, this bit cannot be written as it is + * blocked by hardware. + * + * Values: + * - 0 - FlexCAN Self Wake Up feature is disabled. + * - 1 - FlexCAN Self Wake Up feature is enabled. + */ +//@{ +#define BP_CAN_MCR_SLFWAK (22U) //!< Bit position for CAN_MCR_SLFWAK. +#define BM_CAN_MCR_SLFWAK (0x00400000U) //!< Bit mask for CAN_MCR_SLFWAK. +#define BS_CAN_MCR_SLFWAK (1U) //!< Bit field size in bits for CAN_MCR_SLFWAK. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_SLFWAK field. +#define BR_CAN_MCR_SLFWAK(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_SLFWAK)) +#endif + +//! @brief Format value for bitfield CAN_MCR_SLFWAK. +#define BF_CAN_MCR_SLFWAK(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_SLFWAK), uint32_t) & BM_CAN_MCR_SLFWAK) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the SLFWAK field to a new value. +#define BW_CAN_MCR_SLFWAK(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_SLFWAK) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field SUPV[23] (RW) + * + * This bit configures the FlexCAN to be either in Supervisor or User mode. The + * registers affected by this bit are marked as S/U in the Access Type column of + * the module memory map. Reset value of this bit is 1, so the affected registers + * start with Supervisor access allowance only . This bit can be written only in + * Freeze mode because it is blocked by hardware in other modes. + * + * Values: + * - 0 - FlexCAN is in User mode. Affected registers allow both Supervisor and + * Unrestricted accesses . + * - 1 - FlexCAN is in Supervisor mode. Affected registers allow only Supervisor + * access. Unrestricted access behaves as though the access was done to an + * unimplemented register location . + */ +//@{ +#define BP_CAN_MCR_SUPV (23U) //!< Bit position for CAN_MCR_SUPV. +#define BM_CAN_MCR_SUPV (0x00800000U) //!< Bit mask for CAN_MCR_SUPV. +#define BS_CAN_MCR_SUPV (1U) //!< Bit field size in bits for CAN_MCR_SUPV. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_SUPV field. +#define BR_CAN_MCR_SUPV(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_SUPV)) +#endif + +//! @brief Format value for bitfield CAN_MCR_SUPV. +#define BF_CAN_MCR_SUPV(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_SUPV), uint32_t) & BM_CAN_MCR_SUPV) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the SUPV field to a new value. +#define BW_CAN_MCR_SUPV(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_SUPV) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field FRZACK[24] (RO) + * + * This read-only bit indicates that FlexCAN is in Freeze mode and its prescaler + * is stopped. The Freeze mode request cannot be granted until current + * transmission or reception processes have finished. Therefore the software can poll the + * FRZACK bit to know when FlexCAN has actually entered Freeze mode. If Freeze + * Mode request is negated, then this bit is negated after the FlexCAN prescaler is + * running again. If Freeze mode is requested while FlexCAN is in a low power + * mode, then the FRZACK bit will be set only when the low-power mode is exited. + * See Section "Freeze Mode". FRZACK will be asserted within 178 CAN bits from the + * freeze mode request by the CPU, and negated within 2 CAN bits after the freeze + * mode request removal (see Section "Protocol Timing"). + * + * Values: + * - 0 - FlexCAN not in Freeze mode, prescaler running. + * - 1 - FlexCAN in Freeze mode, prescaler stopped. + */ +//@{ +#define BP_CAN_MCR_FRZACK (24U) //!< Bit position for CAN_MCR_FRZACK. +#define BM_CAN_MCR_FRZACK (0x01000000U) //!< Bit mask for CAN_MCR_FRZACK. +#define BS_CAN_MCR_FRZACK (1U) //!< Bit field size in bits for CAN_MCR_FRZACK. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_FRZACK field. +#define BR_CAN_MCR_FRZACK(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_FRZACK)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field SOFTRST[25] (RW) + * + * When this bit is asserted, FlexCAN resets its internal state machines and + * some of the memory mapped registers. The following registers are reset: MCR + * (except the MDIS bit), TIMER , ECR, ESR1, ESR2, IMASK1, IMASK2, IFLAG1, IFLAG2 and + * CRCR. Configuration registers that control the interface to the CAN bus are + * not affected by soft reset. The following registers are unaffected: CTRL1, + * CTRL2, all RXIMR registers, RXMGMASK, RX14MASK, RX15MASK, RXFGMASK, RXFIR, all + * Message Buffers . The SOFTRST bit can be asserted directly by the CPU when it + * writes to the MCR Register, but it is also asserted when global soft reset is + * requested at MCU level . Because soft reset is synchronous and has to follow a + * request/acknowledge procedure across clock domains, it may take some time to + * fully propagate its effect. The SOFTRST bit remains asserted while reset is + * pending, and is automatically negated when reset completes. Therefore, software can + * poll this bit to know when the soft reset has completed. Soft reset cannot be + * applied while clocks are shut down in a low power mode. The module should be + * first removed from low power mode, and then soft reset can be applied. + * + * Values: + * - 0 - No reset request. + * - 1 - Resets the registers affected by soft reset. + */ +//@{ +#define BP_CAN_MCR_SOFTRST (25U) //!< Bit position for CAN_MCR_SOFTRST. +#define BM_CAN_MCR_SOFTRST (0x02000000U) //!< Bit mask for CAN_MCR_SOFTRST. +#define BS_CAN_MCR_SOFTRST (1U) //!< Bit field size in bits for CAN_MCR_SOFTRST. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_SOFTRST field. +#define BR_CAN_MCR_SOFTRST(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_SOFTRST)) +#endif + +//! @brief Format value for bitfield CAN_MCR_SOFTRST. +#define BF_CAN_MCR_SOFTRST(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_SOFTRST), uint32_t) & BM_CAN_MCR_SOFTRST) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the SOFTRST field to a new value. +#define BW_CAN_MCR_SOFTRST(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_SOFTRST) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field WAKMSK[26] (RW) + * + * This bit enables the Wake Up Interrupt generation under Self Wake Up + * mechanism. + * + * Values: + * - 0 - Wake Up Interrupt is disabled. + * - 1 - Wake Up Interrupt is enabled. + */ +//@{ +#define BP_CAN_MCR_WAKMSK (26U) //!< Bit position for CAN_MCR_WAKMSK. +#define BM_CAN_MCR_WAKMSK (0x04000000U) //!< Bit mask for CAN_MCR_WAKMSK. +#define BS_CAN_MCR_WAKMSK (1U) //!< Bit field size in bits for CAN_MCR_WAKMSK. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_WAKMSK field. +#define BR_CAN_MCR_WAKMSK(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_WAKMSK)) +#endif + +//! @brief Format value for bitfield CAN_MCR_WAKMSK. +#define BF_CAN_MCR_WAKMSK(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_WAKMSK), uint32_t) & BM_CAN_MCR_WAKMSK) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the WAKMSK field to a new value. +#define BW_CAN_MCR_WAKMSK(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_WAKMSK) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field NOTRDY[27] (RO) + * + * This read-only bit indicates that FlexCAN is either in Disable mode , Stop + * mode or Freeze mode. It is negated once FlexCAN has exited these modes. + * + * Values: + * - 0 - FlexCAN module is either in Normal mode, Listen-Only mode or Loop-Back + * mode. + * - 1 - FlexCAN module is either in Disable mode , Stop mode or Freeze mode. + */ +//@{ +#define BP_CAN_MCR_NOTRDY (27U) //!< Bit position for CAN_MCR_NOTRDY. +#define BM_CAN_MCR_NOTRDY (0x08000000U) //!< Bit mask for CAN_MCR_NOTRDY. +#define BS_CAN_MCR_NOTRDY (1U) //!< Bit field size in bits for CAN_MCR_NOTRDY. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_NOTRDY field. +#define BR_CAN_MCR_NOTRDY(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_NOTRDY)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field HALT[28] (RW) + * + * Assertion of this bit puts the FlexCAN module into Freeze mode. The CPU + * should clear it after initializing the Message Buffers and Control Register. No + * reception or transmission is performed by FlexCAN before this bit is cleared. + * Freeze mode cannot be entered while FlexCAN is in a low power mode. + * + * Values: + * - 0 - No Freeze mode request. + * - 1 - Enters Freeze mode if the FRZ bit is asserted. + */ +//@{ +#define BP_CAN_MCR_HALT (28U) //!< Bit position for CAN_MCR_HALT. +#define BM_CAN_MCR_HALT (0x10000000U) //!< Bit mask for CAN_MCR_HALT. +#define BS_CAN_MCR_HALT (1U) //!< Bit field size in bits for CAN_MCR_HALT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_HALT field. +#define BR_CAN_MCR_HALT(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_HALT)) +#endif + +//! @brief Format value for bitfield CAN_MCR_HALT. +#define BF_CAN_MCR_HALT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_HALT), uint32_t) & BM_CAN_MCR_HALT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the HALT field to a new value. +#define BW_CAN_MCR_HALT(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_HALT) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field RFEN[29] (RW) + * + * This bit controls whether the Rx FIFO feature is enabled or not. When RFEN is + * set, MBs 0 to 5 cannot be used for normal reception and transmission because + * the corresponding memory region (0x80-0xDC) is used by the FIFO engine as well + * as additional MBs (up to 32, depending on CTRL2[RFFN] setting) which are used + * as Rx FIFO ID Filter Table elements. RFEN also impacts the definition of the + * minimum number of peripheral clocks per CAN bit as described in the table + * "Minimum Ratio Between Peripheral Clock Frequency and CAN Bit Rate" (in section + * "Arbitration and Matching Timing"). This bit can be written only in Freeze mode + * because it is blocked by hardware in other modes. + * + * Values: + * - 0 - Rx FIFO not enabled. + * - 1 - Rx FIFO enabled. + */ +//@{ +#define BP_CAN_MCR_RFEN (29U) //!< Bit position for CAN_MCR_RFEN. +#define BM_CAN_MCR_RFEN (0x20000000U) //!< Bit mask for CAN_MCR_RFEN. +#define BS_CAN_MCR_RFEN (1U) //!< Bit field size in bits for CAN_MCR_RFEN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_RFEN field. +#define BR_CAN_MCR_RFEN(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_RFEN)) +#endif + +//! @brief Format value for bitfield CAN_MCR_RFEN. +#define BF_CAN_MCR_RFEN(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_RFEN), uint32_t) & BM_CAN_MCR_RFEN) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RFEN field to a new value. +#define BW_CAN_MCR_RFEN(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_RFEN) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field FRZ[30] (RW) + * + * The FRZ bit specifies the FlexCAN behavior when the HALT bit in the MCR + * Register is set or when Debug mode is requested at MCU level . When FRZ is + * asserted, FlexCAN is enabled to enter Freeze mode. Negation of this bit field causes + * FlexCAN to exit from Freeze mode. + * + * Values: + * - 0 - Not enabled to enter Freeze mode. + * - 1 - Enabled to enter Freeze mode. + */ +//@{ +#define BP_CAN_MCR_FRZ (30U) //!< Bit position for CAN_MCR_FRZ. +#define BM_CAN_MCR_FRZ (0x40000000U) //!< Bit mask for CAN_MCR_FRZ. +#define BS_CAN_MCR_FRZ (1U) //!< Bit field size in bits for CAN_MCR_FRZ. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_FRZ field. +#define BR_CAN_MCR_FRZ(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_FRZ)) +#endif + +//! @brief Format value for bitfield CAN_MCR_FRZ. +#define BF_CAN_MCR_FRZ(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_FRZ), uint32_t) & BM_CAN_MCR_FRZ) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the FRZ field to a new value. +#define BW_CAN_MCR_FRZ(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_FRZ) = (v)) +#endif +//@} + +/*! + * @name Register CAN_MCR, field MDIS[31] (RW) + * + * This bit controls whether FlexCAN is enabled or not. When disabled, FlexCAN + * disables the clocks to the CAN Protocol Engine and Controller Host Interface + * sub-modules. This is the only bit within this register not affected by soft + * reset. + * + * Values: + * - 0 - Enable the FlexCAN module. + * - 1 - Disable the FlexCAN module. + */ +//@{ +#define BP_CAN_MCR_MDIS (31U) //!< Bit position for CAN_MCR_MDIS. +#define BM_CAN_MCR_MDIS (0x80000000U) //!< Bit mask for CAN_MCR_MDIS. +#define BS_CAN_MCR_MDIS (1U) //!< Bit field size in bits for CAN_MCR_MDIS. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_MCR_MDIS field. +#define BR_CAN_MCR_MDIS(x) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_MDIS)) +#endif + +//! @brief Format value for bitfield CAN_MCR_MDIS. +#define BF_CAN_MCR_MDIS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_MCR_MDIS), uint32_t) & BM_CAN_MCR_MDIS) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the MDIS field to a new value. +#define BW_CAN_MCR_MDIS(x, v) (BITBAND_ACCESS32(HW_CAN_MCR_ADDR(x), BP_CAN_MCR_MDIS) = (v)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_CTRL1 - Control 1 register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_CTRL1 - Control 1 register (RW) + * + * Reset value: 0x00000000U + * + * This register is defined for specific FlexCAN control features related to the + * CAN bus, such as bit-rate, programmable sampling point within an Rx bit, Loop + * Back mode, Listen-Only mode, Bus Off recovery behavior and interrupt enabling + * (Bus-Off, Error, Warning). It also determines the Division Factor for the + * clock prescaler. + */ +typedef union _hw_can_ctrl1 +{ + uint32_t U; + struct _hw_can_ctrl1_bitfields + { + uint32_t PROPSEG : 3; //!< [2:0] Propagation Segment + uint32_t LOM : 1; //!< [3] Listen-Only Mode + uint32_t LBUF : 1; //!< [4] Lowest Buffer Transmitted First + uint32_t TSYN : 1; //!< [5] Timer Sync + uint32_t BOFFREC : 1; //!< [6] Bus Off Recovery + uint32_t SMP : 1; //!< [7] CAN Bit Sampling + uint32_t RESERVED0 : 2; //!< [9:8] + uint32_t RWRNMSK : 1; //!< [10] Rx Warning Interrupt Mask + uint32_t TWRNMSK : 1; //!< [11] Tx Warning Interrupt Mask + uint32_t LPB : 1; //!< [12] Loop Back Mode + uint32_t CLKSRC : 1; //!< [13] CAN Engine Clock Source + uint32_t ERRMSK : 1; //!< [14] Error Mask + uint32_t BOFFMSK : 1; //!< [15] Bus Off Mask + uint32_t PSEG2 : 3; //!< [18:16] Phase Segment 2 + uint32_t PSEG1 : 3; //!< [21:19] Phase Segment 1 + uint32_t RJW : 2; //!< [23:22] Resync Jump Width + uint32_t PRESDIV : 8; //!< [31:24] Prescaler Division Factor + } B; +} hw_can_ctrl1_t; +#endif + +/*! + * @name Constants and macros for entire CAN_CTRL1 register + */ +//@{ +#define HW_CAN_CTRL1_ADDR(x) (REGS_CAN_BASE(x) + 0x4U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_CTRL1(x) (*(__IO hw_can_ctrl1_t *) HW_CAN_CTRL1_ADDR(x)) +#define HW_CAN_CTRL1_RD(x) (HW_CAN_CTRL1(x).U) +#define HW_CAN_CTRL1_WR(x, v) (HW_CAN_CTRL1(x).U = (v)) +#define HW_CAN_CTRL1_SET(x, v) (HW_CAN_CTRL1_WR(x, HW_CAN_CTRL1_RD(x) | (v))) +#define HW_CAN_CTRL1_CLR(x, v) (HW_CAN_CTRL1_WR(x, HW_CAN_CTRL1_RD(x) & ~(v))) +#define HW_CAN_CTRL1_TOG(x, v) (HW_CAN_CTRL1_WR(x, HW_CAN_CTRL1_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_CTRL1 bitfields + */ + +/*! + * @name Register CAN_CTRL1, field PROPSEG[2:0] (RW) + * + * This 3-bit field defines the length of the Propagation Segment in the bit + * time. The valid programmable values are 0-7. This field can be written only in + * Freeze mode because it is blocked by hardware in other modes. Propagation + * Segment Time = (PROPSEG + 1) * Time-Quanta. Time-Quantum = one Sclock period. + */ +//@{ +#define BP_CAN_CTRL1_PROPSEG (0U) //!< Bit position for CAN_CTRL1_PROPSEG. +#define BM_CAN_CTRL1_PROPSEG (0x00000007U) //!< Bit mask for CAN_CTRL1_PROPSEG. +#define BS_CAN_CTRL1_PROPSEG (3U) //!< Bit field size in bits for CAN_CTRL1_PROPSEG. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_PROPSEG field. +#define BR_CAN_CTRL1_PROPSEG(x) (HW_CAN_CTRL1(x).B.PROPSEG) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_PROPSEG. +#define BF_CAN_CTRL1_PROPSEG(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_PROPSEG), uint32_t) & BM_CAN_CTRL1_PROPSEG) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the PROPSEG field to a new value. +#define BW_CAN_CTRL1_PROPSEG(x, v) (HW_CAN_CTRL1_WR(x, (HW_CAN_CTRL1_RD(x) & ~BM_CAN_CTRL1_PROPSEG) | BF_CAN_CTRL1_PROPSEG(v))) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field LOM[3] (RW) + * + * This bit configures FlexCAN to operate in Listen-Only mode. In this mode, + * transmission is disabled, all error counters are frozen and the module operates + * in a CAN Error Passive mode. Only messages acknowledged by another CAN station + * will be received. If FlexCAN detects a message that has not been acknowledged, + * it will flag a BIT0 error without changing the REC, as if it was trying to + * acknowledge the message. Listen-Only mode acknowledgement can be obtained by the + * state of ESR1[FLTCONF] field which is Passive Error when Listen-Only mode is + * entered. There can be some delay between the Listen-Only mode request and + * acknowledge. This bit can be written only in Freeze mode because it is blocked by + * hardware in other modes. + * + * Values: + * - 0 - Listen-Only mode is deactivated. + * - 1 - FlexCAN module operates in Listen-Only mode. + */ +//@{ +#define BP_CAN_CTRL1_LOM (3U) //!< Bit position for CAN_CTRL1_LOM. +#define BM_CAN_CTRL1_LOM (0x00000008U) //!< Bit mask for CAN_CTRL1_LOM. +#define BS_CAN_CTRL1_LOM (1U) //!< Bit field size in bits for CAN_CTRL1_LOM. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_LOM field. +#define BR_CAN_CTRL1_LOM(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_LOM)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_LOM. +#define BF_CAN_CTRL1_LOM(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_LOM), uint32_t) & BM_CAN_CTRL1_LOM) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the LOM field to a new value. +#define BW_CAN_CTRL1_LOM(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_LOM) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field LBUF[4] (RW) + * + * This bit defines the ordering mechanism for Message Buffer transmission. When + * asserted, the LPRIOEN bit does not affect the priority arbitration. This bit + * can be written only in Freeze mode because it is blocked by hardware in other + * modes. + * + * Values: + * - 0 - Buffer with highest priority is transmitted first. + * - 1 - Lowest number buffer is transmitted first. + */ +//@{ +#define BP_CAN_CTRL1_LBUF (4U) //!< Bit position for CAN_CTRL1_LBUF. +#define BM_CAN_CTRL1_LBUF (0x00000010U) //!< Bit mask for CAN_CTRL1_LBUF. +#define BS_CAN_CTRL1_LBUF (1U) //!< Bit field size in bits for CAN_CTRL1_LBUF. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_LBUF field. +#define BR_CAN_CTRL1_LBUF(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_LBUF)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_LBUF. +#define BF_CAN_CTRL1_LBUF(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_LBUF), uint32_t) & BM_CAN_CTRL1_LBUF) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the LBUF field to a new value. +#define BW_CAN_CTRL1_LBUF(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_LBUF) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field TSYN[5] (RW) + * + * This bit enables a mechanism that resets the free-running timer each time a + * message is received in Message Buffer 0. This feature provides means to + * synchronize multiple FlexCAN stations with a special "SYNC" message, that is, global + * network time. If the RFEN bit in MCR is set (Rx FIFO enabled), the first + * available Mailbox, according to CTRL2[RFFN] setting, is used for timer + * synchronization instead of MB0. This bit can be written only in Freeze mode because it is + * blocked by hardware in other modes. + * + * Values: + * - 0 - Timer Sync feature disabled + * - 1 - Timer Sync feature enabled + */ +//@{ +#define BP_CAN_CTRL1_TSYN (5U) //!< Bit position for CAN_CTRL1_TSYN. +#define BM_CAN_CTRL1_TSYN (0x00000020U) //!< Bit mask for CAN_CTRL1_TSYN. +#define BS_CAN_CTRL1_TSYN (1U) //!< Bit field size in bits for CAN_CTRL1_TSYN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_TSYN field. +#define BR_CAN_CTRL1_TSYN(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_TSYN)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_TSYN. +#define BF_CAN_CTRL1_TSYN(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_TSYN), uint32_t) & BM_CAN_CTRL1_TSYN) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the TSYN field to a new value. +#define BW_CAN_CTRL1_TSYN(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_TSYN) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field BOFFREC[6] (RW) + * + * This bit defines how FlexCAN recovers from Bus Off state. If this bit is + * negated, automatic recovering from Bus Off state occurs according to the CAN + * Specification 2.0B. If the bit is asserted, automatic recovering from Bus Off is + * disabled and the module remains in Bus Off state until the bit is negated by the + * user. If the negation occurs before 128 sequences of 11 recessive bits are + * detected on the CAN bus, then Bus Off recovery happens as if the BOFFREC bit had + * never been asserted. If the negation occurs after 128 sequences of 11 + * recessive bits occurred, then FlexCAN will re-synchronize to the bus by waiting for + * 11 recessive bits before joining the bus. After negation, the BOFFREC bit can + * be re-asserted again during Bus Off, but it will be effective only the next + * time the module enters Bus Off. If BOFFREC was negated when the module entered + * Bus Off, asserting it during Bus Off will not be effective for the current Bus + * Off recovery. + * + * Values: + * - 0 - Automatic recovering from Bus Off state enabled, according to CAN Spec + * 2.0 part B. + * - 1 - Automatic recovering from Bus Off state disabled. + */ +//@{ +#define BP_CAN_CTRL1_BOFFREC (6U) //!< Bit position for CAN_CTRL1_BOFFREC. +#define BM_CAN_CTRL1_BOFFREC (0x00000040U) //!< Bit mask for CAN_CTRL1_BOFFREC. +#define BS_CAN_CTRL1_BOFFREC (1U) //!< Bit field size in bits for CAN_CTRL1_BOFFREC. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_BOFFREC field. +#define BR_CAN_CTRL1_BOFFREC(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_BOFFREC)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_BOFFREC. +#define BF_CAN_CTRL1_BOFFREC(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_BOFFREC), uint32_t) & BM_CAN_CTRL1_BOFFREC) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BOFFREC field to a new value. +#define BW_CAN_CTRL1_BOFFREC(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_BOFFREC) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field SMP[7] (RW) + * + * This bit defines the sampling mode of CAN bits at the Rx input. This bit can + * be written only in Freeze mode because it is blocked by hardware in other + * modes. + * + * Values: + * - 0 - Just one sample is used to determine the bit value. + * - 1 - Three samples are used to determine the value of the received bit: the + * regular one (sample point) and 2 preceding samples; a majority rule is + * used. + */ +//@{ +#define BP_CAN_CTRL1_SMP (7U) //!< Bit position for CAN_CTRL1_SMP. +#define BM_CAN_CTRL1_SMP (0x00000080U) //!< Bit mask for CAN_CTRL1_SMP. +#define BS_CAN_CTRL1_SMP (1U) //!< Bit field size in bits for CAN_CTRL1_SMP. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_SMP field. +#define BR_CAN_CTRL1_SMP(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_SMP)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_SMP. +#define BF_CAN_CTRL1_SMP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_SMP), uint32_t) & BM_CAN_CTRL1_SMP) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the SMP field to a new value. +#define BW_CAN_CTRL1_SMP(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_SMP) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field RWRNMSK[10] (RW) + * + * This bit provides a mask for the Rx Warning Interrupt associated with the + * RWRNINT flag in the Error and Status Register. This bit is read as zero when + * MCR[WRNEN] bit is negated. This bit can be written only if MCR[WRNEN] bit is + * asserted. + * + * Values: + * - 0 - Rx Warning Interrupt disabled. + * - 1 - Rx Warning Interrupt enabled. + */ +//@{ +#define BP_CAN_CTRL1_RWRNMSK (10U) //!< Bit position for CAN_CTRL1_RWRNMSK. +#define BM_CAN_CTRL1_RWRNMSK (0x00000400U) //!< Bit mask for CAN_CTRL1_RWRNMSK. +#define BS_CAN_CTRL1_RWRNMSK (1U) //!< Bit field size in bits for CAN_CTRL1_RWRNMSK. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_RWRNMSK field. +#define BR_CAN_CTRL1_RWRNMSK(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_RWRNMSK)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_RWRNMSK. +#define BF_CAN_CTRL1_RWRNMSK(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_RWRNMSK), uint32_t) & BM_CAN_CTRL1_RWRNMSK) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RWRNMSK field to a new value. +#define BW_CAN_CTRL1_RWRNMSK(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_RWRNMSK) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field TWRNMSK[11] (RW) + * + * This bit provides a mask for the Tx Warning Interrupt associated with the + * TWRNINT flag in the Error and Status Register. This bit is read as zero when + * MCR[WRNEN] bit is negated. This bit can be written only if MCR[WRNEN] bit is + * asserted. + * + * Values: + * - 0 - Tx Warning Interrupt disabled. + * - 1 - Tx Warning Interrupt enabled. + */ +//@{ +#define BP_CAN_CTRL1_TWRNMSK (11U) //!< Bit position for CAN_CTRL1_TWRNMSK. +#define BM_CAN_CTRL1_TWRNMSK (0x00000800U) //!< Bit mask for CAN_CTRL1_TWRNMSK. +#define BS_CAN_CTRL1_TWRNMSK (1U) //!< Bit field size in bits for CAN_CTRL1_TWRNMSK. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_TWRNMSK field. +#define BR_CAN_CTRL1_TWRNMSK(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_TWRNMSK)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_TWRNMSK. +#define BF_CAN_CTRL1_TWRNMSK(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_TWRNMSK), uint32_t) & BM_CAN_CTRL1_TWRNMSK) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the TWRNMSK field to a new value. +#define BW_CAN_CTRL1_TWRNMSK(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_TWRNMSK) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field LPB[12] (RW) + * + * This bit configures FlexCAN to operate in Loop-Back mode. In this mode, + * FlexCAN performs an internal loop back that can be used for self test operation. + * The bit stream output of the transmitter is fed back internally to the receiver + * input. The Rx CAN input pin is ignored and the Tx CAN output goes to the + * recessive state (logic 1). FlexCAN behaves as it normally does when transmitting, + * and treats its own transmitted message as a message received from a remote + * node. In this mode, FlexCAN ignores the bit sent during the ACK slot in the CAN + * frame acknowledge field, generating an internal acknowledge bit to ensure proper + * reception of its own message. Both transmit and receive interrupts are + * generated. This bit can be written only in Freeze mode because it is blocked by + * hardware in other modes. In this mode, the MCR[SRXDIS] cannot be asserted because + * this will impede the self reception of a transmitted message. + * + * Values: + * - 0 - Loop Back disabled. + * - 1 - Loop Back enabled. + */ +//@{ +#define BP_CAN_CTRL1_LPB (12U) //!< Bit position for CAN_CTRL1_LPB. +#define BM_CAN_CTRL1_LPB (0x00001000U) //!< Bit mask for CAN_CTRL1_LPB. +#define BS_CAN_CTRL1_LPB (1U) //!< Bit field size in bits for CAN_CTRL1_LPB. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_LPB field. +#define BR_CAN_CTRL1_LPB(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_LPB)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_LPB. +#define BF_CAN_CTRL1_LPB(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_LPB), uint32_t) & BM_CAN_CTRL1_LPB) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the LPB field to a new value. +#define BW_CAN_CTRL1_LPB(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_LPB) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field CLKSRC[13] (RW) + * + * This bit selects the clock source to the CAN Protocol Engine (PE) to be + * either the peripheral clock (driven by the PLL) or the crystal oscillator clock. + * The selected clock is the one fed to the prescaler to generate the Serial Clock + * (Sclock). In order to guarantee reliable operation, this bit can be written + * only in Disable mode because it is blocked by hardware in other modes. See + * Section "Protocol Timing". + * + * Values: + * - 0 - The CAN engine clock source is the oscillator clock. Under this + * condition, the oscillator clock frequency must be lower than the bus clock. + * - 1 - The CAN engine clock source is the peripheral clock. + */ +//@{ +#define BP_CAN_CTRL1_CLKSRC (13U) //!< Bit position for CAN_CTRL1_CLKSRC. +#define BM_CAN_CTRL1_CLKSRC (0x00002000U) //!< Bit mask for CAN_CTRL1_CLKSRC. +#define BS_CAN_CTRL1_CLKSRC (1U) //!< Bit field size in bits for CAN_CTRL1_CLKSRC. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_CLKSRC field. +#define BR_CAN_CTRL1_CLKSRC(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_CLKSRC)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_CLKSRC. +#define BF_CAN_CTRL1_CLKSRC(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_CLKSRC), uint32_t) & BM_CAN_CTRL1_CLKSRC) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the CLKSRC field to a new value. +#define BW_CAN_CTRL1_CLKSRC(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_CLKSRC) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field ERRMSK[14] (RW) + * + * This bit provides a mask for the Error Interrupt. + * + * Values: + * - 0 - Error interrupt disabled. + * - 1 - Error interrupt enabled. + */ +//@{ +#define BP_CAN_CTRL1_ERRMSK (14U) //!< Bit position for CAN_CTRL1_ERRMSK. +#define BM_CAN_CTRL1_ERRMSK (0x00004000U) //!< Bit mask for CAN_CTRL1_ERRMSK. +#define BS_CAN_CTRL1_ERRMSK (1U) //!< Bit field size in bits for CAN_CTRL1_ERRMSK. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_ERRMSK field. +#define BR_CAN_CTRL1_ERRMSK(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_ERRMSK)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_ERRMSK. +#define BF_CAN_CTRL1_ERRMSK(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_ERRMSK), uint32_t) & BM_CAN_CTRL1_ERRMSK) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the ERRMSK field to a new value. +#define BW_CAN_CTRL1_ERRMSK(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_ERRMSK) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field BOFFMSK[15] (RW) + * + * This bit provides a mask for the Bus Off Interrupt. + * + * Values: + * - 0 - Bus Off interrupt disabled. + * - 1 - Bus Off interrupt enabled. + */ +//@{ +#define BP_CAN_CTRL1_BOFFMSK (15U) //!< Bit position for CAN_CTRL1_BOFFMSK. +#define BM_CAN_CTRL1_BOFFMSK (0x00008000U) //!< Bit mask for CAN_CTRL1_BOFFMSK. +#define BS_CAN_CTRL1_BOFFMSK (1U) //!< Bit field size in bits for CAN_CTRL1_BOFFMSK. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_BOFFMSK field. +#define BR_CAN_CTRL1_BOFFMSK(x) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_BOFFMSK)) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_BOFFMSK. +#define BF_CAN_CTRL1_BOFFMSK(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_BOFFMSK), uint32_t) & BM_CAN_CTRL1_BOFFMSK) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BOFFMSK field to a new value. +#define BW_CAN_CTRL1_BOFFMSK(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL1_ADDR(x), BP_CAN_CTRL1_BOFFMSK) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field PSEG2[18:16] (RW) + * + * This 3-bit field defines the length of Phase Buffer Segment 2 in the bit + * time. The valid programmable values are 1-7. This field can be written only in + * Freeze mode because it is blocked by hardware in other modes. Phase Buffer + * Segment 2 = (PSEG2 + 1) * Time-Quanta. + */ +//@{ +#define BP_CAN_CTRL1_PSEG2 (16U) //!< Bit position for CAN_CTRL1_PSEG2. +#define BM_CAN_CTRL1_PSEG2 (0x00070000U) //!< Bit mask for CAN_CTRL1_PSEG2. +#define BS_CAN_CTRL1_PSEG2 (3U) //!< Bit field size in bits for CAN_CTRL1_PSEG2. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_PSEG2 field. +#define BR_CAN_CTRL1_PSEG2(x) (HW_CAN_CTRL1(x).B.PSEG2) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_PSEG2. +#define BF_CAN_CTRL1_PSEG2(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_PSEG2), uint32_t) & BM_CAN_CTRL1_PSEG2) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the PSEG2 field to a new value. +#define BW_CAN_CTRL1_PSEG2(x, v) (HW_CAN_CTRL1_WR(x, (HW_CAN_CTRL1_RD(x) & ~BM_CAN_CTRL1_PSEG2) | BF_CAN_CTRL1_PSEG2(v))) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field PSEG1[21:19] (RW) + * + * This 3-bit field defines the length of Phase Buffer Segment 1 in the bit + * time. The valid programmable values are 0-7. This field can be written only in + * Freeze mode because it is blocked by hardware in other modes. Phase Buffer + * Segment 1 = (PSEG1 + 1) * Time-Quanta. + */ +//@{ +#define BP_CAN_CTRL1_PSEG1 (19U) //!< Bit position for CAN_CTRL1_PSEG1. +#define BM_CAN_CTRL1_PSEG1 (0x00380000U) //!< Bit mask for CAN_CTRL1_PSEG1. +#define BS_CAN_CTRL1_PSEG1 (3U) //!< Bit field size in bits for CAN_CTRL1_PSEG1. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_PSEG1 field. +#define BR_CAN_CTRL1_PSEG1(x) (HW_CAN_CTRL1(x).B.PSEG1) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_PSEG1. +#define BF_CAN_CTRL1_PSEG1(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_PSEG1), uint32_t) & BM_CAN_CTRL1_PSEG1) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the PSEG1 field to a new value. +#define BW_CAN_CTRL1_PSEG1(x, v) (HW_CAN_CTRL1_WR(x, (HW_CAN_CTRL1_RD(x) & ~BM_CAN_CTRL1_PSEG1) | BF_CAN_CTRL1_PSEG1(v))) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field RJW[23:22] (RW) + * + * This 2-bit field defines the maximum number of time quanta that a bit time + * can be changed by one re-synchronization. One time quantum is equal to the + * Sclock period. The valid programmable values are 0-3. This field can be written + * only in Freeze mode because it is blocked by hardware in other modes. Resync Jump + * Width = RJW + 1. + */ +//@{ +#define BP_CAN_CTRL1_RJW (22U) //!< Bit position for CAN_CTRL1_RJW. +#define BM_CAN_CTRL1_RJW (0x00C00000U) //!< Bit mask for CAN_CTRL1_RJW. +#define BS_CAN_CTRL1_RJW (2U) //!< Bit field size in bits for CAN_CTRL1_RJW. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_RJW field. +#define BR_CAN_CTRL1_RJW(x) (HW_CAN_CTRL1(x).B.RJW) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_RJW. +#define BF_CAN_CTRL1_RJW(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_RJW), uint32_t) & BM_CAN_CTRL1_RJW) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RJW field to a new value. +#define BW_CAN_CTRL1_RJW(x, v) (HW_CAN_CTRL1_WR(x, (HW_CAN_CTRL1_RD(x) & ~BM_CAN_CTRL1_RJW) | BF_CAN_CTRL1_RJW(v))) +#endif +//@} + +/*! + * @name Register CAN_CTRL1, field PRESDIV[31:24] (RW) + * + * This 8-bit field defines the ratio between the PE clock frequency and the + * Serial Clock (Sclock) frequency. The Sclock period defines the time quantum of + * the CAN protocol. For the reset value, the Sclock frequency is equal to the PE + * clock frequency. The Maximum value of this field is 0xFF, that gives a minimum + * Sclock frequency equal to the PE clock frequency divided by 256. See Section + * "Protocol Timing". This field can be written only in Freeze mode because it is + * blocked by hardware in other modes. Sclock frequency = PE clock frequency / + * (PRESDIV + 1) + */ +//@{ +#define BP_CAN_CTRL1_PRESDIV (24U) //!< Bit position for CAN_CTRL1_PRESDIV. +#define BM_CAN_CTRL1_PRESDIV (0xFF000000U) //!< Bit mask for CAN_CTRL1_PRESDIV. +#define BS_CAN_CTRL1_PRESDIV (8U) //!< Bit field size in bits for CAN_CTRL1_PRESDIV. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL1_PRESDIV field. +#define BR_CAN_CTRL1_PRESDIV(x) (HW_CAN_CTRL1(x).B.PRESDIV) +#endif + +//! @brief Format value for bitfield CAN_CTRL1_PRESDIV. +#define BF_CAN_CTRL1_PRESDIV(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL1_PRESDIV), uint32_t) & BM_CAN_CTRL1_PRESDIV) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the PRESDIV field to a new value. +#define BW_CAN_CTRL1_PRESDIV(x, v) (HW_CAN_CTRL1_WR(x, (HW_CAN_CTRL1_RD(x) & ~BM_CAN_CTRL1_PRESDIV) | BF_CAN_CTRL1_PRESDIV(v))) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_TIMER - Free Running Timer +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_TIMER - Free Running Timer (RW) + * + * Reset value: 0x00000000U + * + * This register represents a 16-bit free running counter that can be read and + * written by the CPU. The timer starts from 0x0 after Reset, counts linearly to + * 0xFFFF, and wraps around. The timer is clocked by the FlexCAN bit-clock, which + * defines the baud rate on the CAN bus. During a message transmission/reception, + * it increments by one for each bit that is received or transmitted. When there + * is no message on the bus, it counts using the previously programmed baud + * rate. The timer is not incremented during Disable , Stop, and Freeze modes. The + * timer value is captured when the second bit of the identifier field of any frame + * is on the CAN bus. This captured value is written into the Time Stamp entry + * in a message buffer after a successful reception or transmission of a message. + * If bit CTRL1[TSYN] is asserted, the Timer is reset whenever a message is + * received in the first available Mailbox, according to CTRL2[RFFN] setting. The CPU + * can write to this register anytime. However, if the write occurs at the same + * time that the Timer is being reset by a reception in the first Mailbox, then + * the write value is discarded. Reading this register affects the Mailbox + * Unlocking procedure; see Section "Mailbox Lock Mechanism". + */ +typedef union _hw_can_timer +{ + uint32_t U; + struct _hw_can_timer_bitfields + { + uint32_t TIMER : 16; //!< [15:0] Timer Value + uint32_t RESERVED0 : 16; //!< [31:16] + } B; +} hw_can_timer_t; +#endif + +/*! + * @name Constants and macros for entire CAN_TIMER register + */ +//@{ +#define HW_CAN_TIMER_ADDR(x) (REGS_CAN_BASE(x) + 0x8U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_TIMER(x) (*(__IO hw_can_timer_t *) HW_CAN_TIMER_ADDR(x)) +#define HW_CAN_TIMER_RD(x) (HW_CAN_TIMER(x).U) +#define HW_CAN_TIMER_WR(x, v) (HW_CAN_TIMER(x).U = (v)) +#define HW_CAN_TIMER_SET(x, v) (HW_CAN_TIMER_WR(x, HW_CAN_TIMER_RD(x) | (v))) +#define HW_CAN_TIMER_CLR(x, v) (HW_CAN_TIMER_WR(x, HW_CAN_TIMER_RD(x) & ~(v))) +#define HW_CAN_TIMER_TOG(x, v) (HW_CAN_TIMER_WR(x, HW_CAN_TIMER_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_TIMER bitfields + */ + +/*! + * @name Register CAN_TIMER, field TIMER[15:0] (RW) + * + * Contains the free-running counter value. + */ +//@{ +#define BP_CAN_TIMER_TIMER (0U) //!< Bit position for CAN_TIMER_TIMER. +#define BM_CAN_TIMER_TIMER (0x0000FFFFU) //!< Bit mask for CAN_TIMER_TIMER. +#define BS_CAN_TIMER_TIMER (16U) //!< Bit field size in bits for CAN_TIMER_TIMER. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_TIMER_TIMER field. +#define BR_CAN_TIMER_TIMER(x) (HW_CAN_TIMER(x).B.TIMER) +#endif + +//! @brief Format value for bitfield CAN_TIMER_TIMER. +#define BF_CAN_TIMER_TIMER(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_TIMER_TIMER), uint32_t) & BM_CAN_TIMER_TIMER) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the TIMER field to a new value. +#define BW_CAN_TIMER_TIMER(x, v) (HW_CAN_TIMER_WR(x, (HW_CAN_TIMER_RD(x) & ~BM_CAN_TIMER_TIMER) | BF_CAN_TIMER_TIMER(v))) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_RXMGMASK - Rx Mailboxes Global Mask Register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_RXMGMASK - Rx Mailboxes Global Mask Register (RW) + * + * Reset value: 0xFFFFFFFFU + * + * This register is located in RAM. RXMGMASK is provided for legacy application + * support. When the MCR[IRMQ] bit is negated, RXMGMASK is always in effect. When + * the MCR[IRMQ] bit is asserted, RXMGMASK has no effect. RXMGMASK is used to + * mask the filter fields of all Rx MBs, excluding MBs 14-15, which have individual + * mask registers. This register can only be written in Freeze mode as it is + * blocked by hardware in other modes. + */ +typedef union _hw_can_rxmgmask +{ + uint32_t U; + struct _hw_can_rxmgmask_bitfields + { + uint32_t MG : 32; //!< [31:0] Rx Mailboxes Global Mask Bits + } B; +} hw_can_rxmgmask_t; +#endif + +/*! + * @name Constants and macros for entire CAN_RXMGMASK register + */ +//@{ +#define HW_CAN_RXMGMASK_ADDR(x) (REGS_CAN_BASE(x) + 0x10U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_RXMGMASK(x) (*(__IO hw_can_rxmgmask_t *) HW_CAN_RXMGMASK_ADDR(x)) +#define HW_CAN_RXMGMASK_RD(x) (HW_CAN_RXMGMASK(x).U) +#define HW_CAN_RXMGMASK_WR(x, v) (HW_CAN_RXMGMASK(x).U = (v)) +#define HW_CAN_RXMGMASK_SET(x, v) (HW_CAN_RXMGMASK_WR(x, HW_CAN_RXMGMASK_RD(x) | (v))) +#define HW_CAN_RXMGMASK_CLR(x, v) (HW_CAN_RXMGMASK_WR(x, HW_CAN_RXMGMASK_RD(x) & ~(v))) +#define HW_CAN_RXMGMASK_TOG(x, v) (HW_CAN_RXMGMASK_WR(x, HW_CAN_RXMGMASK_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_RXMGMASK bitfields + */ + +/*! + * @name Register CAN_RXMGMASK, field MG[31:0] (RW) + * + * These bits mask the Mailbox filter bits. Note that the alignment with the ID + * word of the Mailbox is not perfect as the two most significant MG bits affect + * the fields RTR and IDE, which are located in the Control and Status word of + * the Mailbox. The following table shows in detail which MG bits mask each Mailbox + * filter field. SMB[RTR] RTR bit of the Incoming Frame. It is saved into an + * auxiliary MB called Rx Serial Message Buffer (Rx SMB). CTRL2[RRS] CTRL2[EACEN] + * Mailbox filter fields MB[RTR] MB[IDE] MB[ID] Reserved 0 - 0 note If the + * CTRL2[EACEN] bit is negated, the RTR bit of Mailbox is never compared with the RTR bit + * of the incoming frame. note If the CTRL2[EACEN] bit is negated, the IDE bit + * of Mailbox is always compared with the IDE bit of the incoming frame. MG[28:0] + * MG[31:29] 0 - 1 MG[31] MG[30] MG[28:0] MG[29] 1 0 - - - - MG[31:0] 1 1 0 - - + * MG[28:0] MG[31:29] 1 1 1 MG[31] MG[30] MG[28:0] MG[29] + * + * Values: + * - 0 - The corresponding bit in the filter is "don't care." + * - 1 - The corresponding bit in the filter is checked. + */ +//@{ +#define BP_CAN_RXMGMASK_MG (0U) //!< Bit position for CAN_RXMGMASK_MG. +#define BM_CAN_RXMGMASK_MG (0xFFFFFFFFU) //!< Bit mask for CAN_RXMGMASK_MG. +#define BS_CAN_RXMGMASK_MG (32U) //!< Bit field size in bits for CAN_RXMGMASK_MG. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_RXMGMASK_MG field. +#define BR_CAN_RXMGMASK_MG(x) (HW_CAN_RXMGMASK(x).U) +#endif + +//! @brief Format value for bitfield CAN_RXMGMASK_MG. +#define BF_CAN_RXMGMASK_MG(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_RXMGMASK_MG), uint32_t) & BM_CAN_RXMGMASK_MG) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the MG field to a new value. +#define BW_CAN_RXMGMASK_MG(x, v) (HW_CAN_RXMGMASK_WR(x, v)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_RX14MASK - Rx 14 Mask register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_RX14MASK - Rx 14 Mask register (RW) + * + * Reset value: 0xFFFFFFFFU + * + * This register is located in RAM. RX14MASK is provided for legacy application + * support. When the MCR[IRMQ] bit is asserted, RX14MASK has no effect. RX14MASK + * is used to mask the filter fields of Message Buffer 14. This register can only + * be programmed while the module is in Freeze mode as it is blocked by hardware + * in other modes. + */ +typedef union _hw_can_rx14mask +{ + uint32_t U; + struct _hw_can_rx14mask_bitfields + { + uint32_t RX14M : 32; //!< [31:0] Rx Buffer 14 Mask Bits + } B; +} hw_can_rx14mask_t; +#endif + +/*! + * @name Constants and macros for entire CAN_RX14MASK register + */ +//@{ +#define HW_CAN_RX14MASK_ADDR(x) (REGS_CAN_BASE(x) + 0x14U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_RX14MASK(x) (*(__IO hw_can_rx14mask_t *) HW_CAN_RX14MASK_ADDR(x)) +#define HW_CAN_RX14MASK_RD(x) (HW_CAN_RX14MASK(x).U) +#define HW_CAN_RX14MASK_WR(x, v) (HW_CAN_RX14MASK(x).U = (v)) +#define HW_CAN_RX14MASK_SET(x, v) (HW_CAN_RX14MASK_WR(x, HW_CAN_RX14MASK_RD(x) | (v))) +#define HW_CAN_RX14MASK_CLR(x, v) (HW_CAN_RX14MASK_WR(x, HW_CAN_RX14MASK_RD(x) & ~(v))) +#define HW_CAN_RX14MASK_TOG(x, v) (HW_CAN_RX14MASK_WR(x, HW_CAN_RX14MASK_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_RX14MASK bitfields + */ + +/*! + * @name Register CAN_RX14MASK, field RX14M[31:0] (RW) + * + * Each mask bit masks the corresponding Mailbox 14 filter field in the same way + * that RXMGMASK masks other Mailboxes' filters. See the description of the + * CAN_RXMGMASK register. + * + * Values: + * - 0 - The corresponding bit in the filter is "don't care." + * - 1 - The corresponding bit in the filter is checked. + */ +//@{ +#define BP_CAN_RX14MASK_RX14M (0U) //!< Bit position for CAN_RX14MASK_RX14M. +#define BM_CAN_RX14MASK_RX14M (0xFFFFFFFFU) //!< Bit mask for CAN_RX14MASK_RX14M. +#define BS_CAN_RX14MASK_RX14M (32U) //!< Bit field size in bits for CAN_RX14MASK_RX14M. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_RX14MASK_RX14M field. +#define BR_CAN_RX14MASK_RX14M(x) (HW_CAN_RX14MASK(x).U) +#endif + +//! @brief Format value for bitfield CAN_RX14MASK_RX14M. +#define BF_CAN_RX14MASK_RX14M(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_RX14MASK_RX14M), uint32_t) & BM_CAN_RX14MASK_RX14M) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RX14M field to a new value. +#define BW_CAN_RX14MASK_RX14M(x, v) (HW_CAN_RX14MASK_WR(x, v)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_RX15MASK - Rx 15 Mask register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_RX15MASK - Rx 15 Mask register (RW) + * + * Reset value: 0xFFFFFFFFU + * + * This register is located in RAM. RX15MASK is provided for legacy application + * support. When the MCR[IRMQ] bit is asserted, RX15MASK has no effect. RX15MASK + * is used to mask the filter fields of Message Buffer 15. This register can be + * programmed only while the module is in Freeze mode because it is blocked by + * hardware in other modes. + */ +typedef union _hw_can_rx15mask +{ + uint32_t U; + struct _hw_can_rx15mask_bitfields + { + uint32_t RX15M : 32; //!< [31:0] Rx Buffer 15 Mask Bits + } B; +} hw_can_rx15mask_t; +#endif + +/*! + * @name Constants and macros for entire CAN_RX15MASK register + */ +//@{ +#define HW_CAN_RX15MASK_ADDR(x) (REGS_CAN_BASE(x) + 0x18U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_RX15MASK(x) (*(__IO hw_can_rx15mask_t *) HW_CAN_RX15MASK_ADDR(x)) +#define HW_CAN_RX15MASK_RD(x) (HW_CAN_RX15MASK(x).U) +#define HW_CAN_RX15MASK_WR(x, v) (HW_CAN_RX15MASK(x).U = (v)) +#define HW_CAN_RX15MASK_SET(x, v) (HW_CAN_RX15MASK_WR(x, HW_CAN_RX15MASK_RD(x) | (v))) +#define HW_CAN_RX15MASK_CLR(x, v) (HW_CAN_RX15MASK_WR(x, HW_CAN_RX15MASK_RD(x) & ~(v))) +#define HW_CAN_RX15MASK_TOG(x, v) (HW_CAN_RX15MASK_WR(x, HW_CAN_RX15MASK_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_RX15MASK bitfields + */ + +/*! + * @name Register CAN_RX15MASK, field RX15M[31:0] (RW) + * + * Each mask bit masks the corresponding Mailbox 15 filter field in the same way + * that RXMGMASK masks other Mailboxes' filters. See the description of the + * CAN_RXMGMASK register. + * + * Values: + * - 0 - The corresponding bit in the filter is "don't care." + * - 1 - The corresponding bit in the filter is checked. + */ +//@{ +#define BP_CAN_RX15MASK_RX15M (0U) //!< Bit position for CAN_RX15MASK_RX15M. +#define BM_CAN_RX15MASK_RX15M (0xFFFFFFFFU) //!< Bit mask for CAN_RX15MASK_RX15M. +#define BS_CAN_RX15MASK_RX15M (32U) //!< Bit field size in bits for CAN_RX15MASK_RX15M. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_RX15MASK_RX15M field. +#define BR_CAN_RX15MASK_RX15M(x) (HW_CAN_RX15MASK(x).U) +#endif + +//! @brief Format value for bitfield CAN_RX15MASK_RX15M. +#define BF_CAN_RX15MASK_RX15M(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_RX15MASK_RX15M), uint32_t) & BM_CAN_RX15MASK_RX15M) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RX15M field to a new value. +#define BW_CAN_RX15MASK_RX15M(x, v) (HW_CAN_RX15MASK_WR(x, v)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_ECR - Error Counter +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_ECR - Error Counter (RW) + * + * Reset value: 0x00000000U + * + * This register has two 8-bit fields reflecting the value of two FlexCAN error + * counters: Transmit Error Counter (TXERRCNT field) and Receive Error Counter + * (RXERRCNT field). The rules for increasing and decreasing these counters are + * described in the CAN protocol and are completely implemented in the FlexCAN + * module. Both counters are read-only except in Freeze mode, where they can be + * written by the CPU. FlexCAN responds to any bus state as described in the protocol, + * for example, transmit Error Active or Error Passive flag, delay its + * transmission start time (Error Passive) and avoid any influence on the bus when in Bus + * Off state. The following are the basic rules for FlexCAN bus state transitions: + * If the value of TXERRCNT or RXERRCNT increases to be greater than or equal to + * 128, the FLTCONF field in the Error and Status Register is updated to reflect + * 'Error Passive' state. If the FlexCAN state is 'Error Passive', and either + * TXERRCNT or RXERRCNT decrements to a value less than or equal to 127 while the + * other already satisfies this condition, the FLTCONF field in the Error and + * Status Register is updated to reflect 'Error Active' state. If the value of + * TXERRCNT increases to be greater than 255, the FLTCONF field in the Error and Status + * Register is updated to reflect 'Bus Off' state, and an interrupt may be + * issued. The value of TXERRCNT is then reset to zero. If FlexCAN is in 'Bus Off' + * state, then TXERRCNT is cascaded together with another internal counter to count + * the 128th occurrences of 11 consecutive recessive bits on the bus. Hence, + * TXERRCNT is reset to zero and counts in a manner where the internal counter counts + * 11 such bits and then wraps around while incrementing the TXERRCNT. When + * TXERRCNT reaches the value of 128, the FLTCONF field in the Error and Status + * Register is updated to be 'Error Active' and both error counters are reset to zero. + * At any instance of dominant bit following a stream of less than 11 + * consecutive recessive bits, the internal counter resets itself to zero without affecting + * the TXERRCNT value. If during system start-up, only one node is operating, + * then its TXERRCNT increases in each message it is trying to transmit, as a + * result of acknowledge errors (indicated by the ACKERR bit in the Error and Status + * Register). After the transition to 'Error Passive' state, the TXERRCNT does not + * increment anymore by acknowledge errors. Therefore the device never goes to + * the 'Bus Off' state. If the RXERRCNT increases to a value greater than 127, it + * is not incremented further, even if more errors are detected while being a + * receiver. At the next successful message reception, the counter is set to a value + * between 119 and 127 to resume to 'Error Active' state. + */ +typedef union _hw_can_ecr +{ + uint32_t U; + struct _hw_can_ecr_bitfields + { + uint32_t TXERRCNT : 8; //!< [7:0] Transmit Error Counter + uint32_t RXERRCNT : 8; //!< [15:8] Receive Error Counter + uint32_t RESERVED0 : 16; //!< [31:16] + } B; +} hw_can_ecr_t; +#endif + +/*! + * @name Constants and macros for entire CAN_ECR register + */ +//@{ +#define HW_CAN_ECR_ADDR(x) (REGS_CAN_BASE(x) + 0x1CU) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_ECR(x) (*(__IO hw_can_ecr_t *) HW_CAN_ECR_ADDR(x)) +#define HW_CAN_ECR_RD(x) (HW_CAN_ECR(x).U) +#define HW_CAN_ECR_WR(x, v) (HW_CAN_ECR(x).U = (v)) +#define HW_CAN_ECR_SET(x, v) (HW_CAN_ECR_WR(x, HW_CAN_ECR_RD(x) | (v))) +#define HW_CAN_ECR_CLR(x, v) (HW_CAN_ECR_WR(x, HW_CAN_ECR_RD(x) & ~(v))) +#define HW_CAN_ECR_TOG(x, v) (HW_CAN_ECR_WR(x, HW_CAN_ECR_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_ECR bitfields + */ + +/*! + * @name Register CAN_ECR, field TXERRCNT[7:0] (RW) + */ +//@{ +#define BP_CAN_ECR_TXERRCNT (0U) //!< Bit position for CAN_ECR_TXERRCNT. +#define BM_CAN_ECR_TXERRCNT (0x000000FFU) //!< Bit mask for CAN_ECR_TXERRCNT. +#define BS_CAN_ECR_TXERRCNT (8U) //!< Bit field size in bits for CAN_ECR_TXERRCNT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ECR_TXERRCNT field. +#define BR_CAN_ECR_TXERRCNT(x) (HW_CAN_ECR(x).B.TXERRCNT) +#endif + +//! @brief Format value for bitfield CAN_ECR_TXERRCNT. +#define BF_CAN_ECR_TXERRCNT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ECR_TXERRCNT), uint32_t) & BM_CAN_ECR_TXERRCNT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the TXERRCNT field to a new value. +#define BW_CAN_ECR_TXERRCNT(x, v) (HW_CAN_ECR_WR(x, (HW_CAN_ECR_RD(x) & ~BM_CAN_ECR_TXERRCNT) | BF_CAN_ECR_TXERRCNT(v))) +#endif +//@} + +/*! + * @name Register CAN_ECR, field RXERRCNT[15:8] (RW) + */ +//@{ +#define BP_CAN_ECR_RXERRCNT (8U) //!< Bit position for CAN_ECR_RXERRCNT. +#define BM_CAN_ECR_RXERRCNT (0x0000FF00U) //!< Bit mask for CAN_ECR_RXERRCNT. +#define BS_CAN_ECR_RXERRCNT (8U) //!< Bit field size in bits for CAN_ECR_RXERRCNT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ECR_RXERRCNT field. +#define BR_CAN_ECR_RXERRCNT(x) (HW_CAN_ECR(x).B.RXERRCNT) +#endif + +//! @brief Format value for bitfield CAN_ECR_RXERRCNT. +#define BF_CAN_ECR_RXERRCNT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ECR_RXERRCNT), uint32_t) & BM_CAN_ECR_RXERRCNT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RXERRCNT field to a new value. +#define BW_CAN_ECR_RXERRCNT(x, v) (HW_CAN_ECR_WR(x, (HW_CAN_ECR_RD(x) & ~BM_CAN_ECR_RXERRCNT) | BF_CAN_ECR_RXERRCNT(v))) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_ESR1 - Error and Status 1 register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_ESR1 - Error and Status 1 register (RW) + * + * Reset value: 0x00000000U + * + * This register reflects various error conditions, some general status of the + * device and it is the source of interrupts to the CPU. The CPU read action + * clears bits 15-10. Therefore the reported error conditions (bits 15-10) are those + * that occurred since the last time the CPU read this register. Bits 9-3 are + * status bits. The following table shows the FlexCAN state variables and their + * meanings. Other combinations not shown in the table are reserved. SYNCH IDLE TX RX + * FlexCAN State 0 0 0 0 Not synchronized to CAN bus 1 1 x x Idle 1 0 1 0 + * Transmitting 1 0 0 1 Receiving + */ +typedef union _hw_can_esr1 +{ + uint32_t U; + struct _hw_can_esr1_bitfields + { + uint32_t WAKINT : 1; //!< [0] Wake-Up Interrupt + uint32_t ERRINT : 1; //!< [1] Error Interrupt + uint32_t BOFFINT : 1; //!< [2] Bus Off Interrupt + uint32_t RX : 1; //!< [3] FlexCAN In Reception + uint32_t FLTCONF : 2; //!< [5:4] Fault Confinement State + uint32_t TX : 1; //!< [6] FlexCAN In Transmission + uint32_t IDLE : 1; //!< [7] + uint32_t RXWRN : 1; //!< [8] Rx Error Warning + uint32_t TXWRN : 1; //!< [9] TX Error Warning + uint32_t STFERR : 1; //!< [10] Stuffing Error + uint32_t FRMERR : 1; //!< [11] Form Error + uint32_t CRCERR : 1; //!< [12] Cyclic Redundancy Check Error + uint32_t ACKERR : 1; //!< [13] Acknowledge Error + uint32_t BIT0ERR : 1; //!< [14] Bit0 Error + uint32_t BIT1ERR : 1; //!< [15] Bit1 Error + uint32_t RWRNINT : 1; //!< [16] Rx Warning Interrupt Flag + uint32_t TWRNINT : 1; //!< [17] Tx Warning Interrupt Flag + uint32_t SYNCH : 1; //!< [18] CAN Synchronization Status + uint32_t RESERVED0 : 13; //!< [31:19] + } B; +} hw_can_esr1_t; +#endif + +/*! + * @name Constants and macros for entire CAN_ESR1 register + */ +//@{ +#define HW_CAN_ESR1_ADDR(x) (REGS_CAN_BASE(x) + 0x20U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_ESR1(x) (*(__IO hw_can_esr1_t *) HW_CAN_ESR1_ADDR(x)) +#define HW_CAN_ESR1_RD(x) (HW_CAN_ESR1(x).U) +#define HW_CAN_ESR1_WR(x, v) (HW_CAN_ESR1(x).U = (v)) +#define HW_CAN_ESR1_SET(x, v) (HW_CAN_ESR1_WR(x, HW_CAN_ESR1_RD(x) | (v))) +#define HW_CAN_ESR1_CLR(x, v) (HW_CAN_ESR1_WR(x, HW_CAN_ESR1_RD(x) & ~(v))) +#define HW_CAN_ESR1_TOG(x, v) (HW_CAN_ESR1_WR(x, HW_CAN_ESR1_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_ESR1 bitfields + */ + +/*! + * @name Register CAN_ESR1, field WAKINT[0] (W1C) + * + * This field applies when FlexCAN is in low-power mode under Self Wake Up + * mechanism: Stop mode When a recessive-to-dominant transition is detected on the CAN + * bus and if the MCR[WAKMSK] bit is set, an interrupt is generated to the CPU. + * This bit is cleared by writing it to 1. When MCR[SLFWAK] is negated, this flag + * is masked. The CPU must clear this flag before disabling the bit. Otherwise + * it will be set when the SLFWAK is set again. Writing 0 has no effect. + * + * Values: + * - 0 - No such occurrence. + * - 1 - Indicates a recessive to dominant transition was received on the CAN + * bus. + */ +//@{ +#define BP_CAN_ESR1_WAKINT (0U) //!< Bit position for CAN_ESR1_WAKINT. +#define BM_CAN_ESR1_WAKINT (0x00000001U) //!< Bit mask for CAN_ESR1_WAKINT. +#define BS_CAN_ESR1_WAKINT (1U) //!< Bit field size in bits for CAN_ESR1_WAKINT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_WAKINT field. +#define BR_CAN_ESR1_WAKINT(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_WAKINT)) +#endif + +//! @brief Format value for bitfield CAN_ESR1_WAKINT. +#define BF_CAN_ESR1_WAKINT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ESR1_WAKINT), uint32_t) & BM_CAN_ESR1_WAKINT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the WAKINT field to a new value. +#define BW_CAN_ESR1_WAKINT(x, v) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_WAKINT) = (v)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field ERRINT[1] (W1C) + * + * This bit indicates that at least one of the Error Bits (bits 15-10) is set. + * If the corresponding mask bit CTRL1[ERRMSK] is set, an interrupt is generated + * to the CPU. This bit is cleared by writing it to 1. Writing 0 has no effect. + * + * Values: + * - 0 - No such occurrence. + * - 1 - Indicates setting of any Error Bit in the Error and Status Register. + */ +//@{ +#define BP_CAN_ESR1_ERRINT (1U) //!< Bit position for CAN_ESR1_ERRINT. +#define BM_CAN_ESR1_ERRINT (0x00000002U) //!< Bit mask for CAN_ESR1_ERRINT. +#define BS_CAN_ESR1_ERRINT (1U) //!< Bit field size in bits for CAN_ESR1_ERRINT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_ERRINT field. +#define BR_CAN_ESR1_ERRINT(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_ERRINT)) +#endif + +//! @brief Format value for bitfield CAN_ESR1_ERRINT. +#define BF_CAN_ESR1_ERRINT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ESR1_ERRINT), uint32_t) & BM_CAN_ESR1_ERRINT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the ERRINT field to a new value. +#define BW_CAN_ESR1_ERRINT(x, v) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_ERRINT) = (v)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field BOFFINT[2] (W1C) + * + * This bit is set when FlexCAN enters 'Bus Off' state. If the corresponding + * mask bit in the Control Register (BOFFMSK) is set, an interrupt is generated to + * the CPU. This bit is cleared by writing it to 1. Writing 0 has no effect. + * + * Values: + * - 0 - No such occurrence. + * - 1 - FlexCAN module entered Bus Off state. + */ +//@{ +#define BP_CAN_ESR1_BOFFINT (2U) //!< Bit position for CAN_ESR1_BOFFINT. +#define BM_CAN_ESR1_BOFFINT (0x00000004U) //!< Bit mask for CAN_ESR1_BOFFINT. +#define BS_CAN_ESR1_BOFFINT (1U) //!< Bit field size in bits for CAN_ESR1_BOFFINT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_BOFFINT field. +#define BR_CAN_ESR1_BOFFINT(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_BOFFINT)) +#endif + +//! @brief Format value for bitfield CAN_ESR1_BOFFINT. +#define BF_CAN_ESR1_BOFFINT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ESR1_BOFFINT), uint32_t) & BM_CAN_ESR1_BOFFINT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BOFFINT field to a new value. +#define BW_CAN_ESR1_BOFFINT(x, v) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_BOFFINT) = (v)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field RX[3] (RO) + * + * This bit indicates if FlexCAN is receiving a message. See the table in the + * overall CAN_ESR1 register description. + * + * Values: + * - 0 - FlexCAN is not receiving a message. + * - 1 - FlexCAN is receiving a message. + */ +//@{ +#define BP_CAN_ESR1_RX (3U) //!< Bit position for CAN_ESR1_RX. +#define BM_CAN_ESR1_RX (0x00000008U) //!< Bit mask for CAN_ESR1_RX. +#define BS_CAN_ESR1_RX (1U) //!< Bit field size in bits for CAN_ESR1_RX. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_RX field. +#define BR_CAN_ESR1_RX(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_RX)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field FLTCONF[5:4] (RO) + * + * This 2-bit field indicates the Confinement State of the FlexCAN module. If + * the LOM bit in the Control Register is asserted, after some delay that depends + * on the CAN bit timing the FLTCONF field will indicate "Error Passive". The very + * same delay affects the way how FLTCONF reflects an update to ECR register by + * the CPU. It may be necessary up to one CAN bit time to get them coherent + * again. Because the Control Register is not affected by soft reset, the FLTCONF + * field will not be affected by soft reset if the LOM bit is asserted. + * + * Values: + * - 00 - Error Active + * - 01 - Error Passive + * - 1x - Bus Off + */ +//@{ +#define BP_CAN_ESR1_FLTCONF (4U) //!< Bit position for CAN_ESR1_FLTCONF. +#define BM_CAN_ESR1_FLTCONF (0x00000030U) //!< Bit mask for CAN_ESR1_FLTCONF. +#define BS_CAN_ESR1_FLTCONF (2U) //!< Bit field size in bits for CAN_ESR1_FLTCONF. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_FLTCONF field. +#define BR_CAN_ESR1_FLTCONF(x) (HW_CAN_ESR1(x).B.FLTCONF) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field TX[6] (RO) + * + * This bit indicates if FlexCAN is transmitting a message. See the table in the + * overall CAN_ESR1 register description. + * + * Values: + * - 0 - FlexCAN is not transmitting a message. + * - 1 - FlexCAN is transmitting a message. + */ +//@{ +#define BP_CAN_ESR1_TX (6U) //!< Bit position for CAN_ESR1_TX. +#define BM_CAN_ESR1_TX (0x00000040U) //!< Bit mask for CAN_ESR1_TX. +#define BS_CAN_ESR1_TX (1U) //!< Bit field size in bits for CAN_ESR1_TX. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_TX field. +#define BR_CAN_ESR1_TX(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_TX)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field IDLE[7] (RO) + * + * This bit indicates when CAN bus is in IDLE state. See the table in the + * overall CAN_ESR1 register description. + * + * Values: + * - 0 - No such occurrence. + * - 1 - CAN bus is now IDLE. + */ +//@{ +#define BP_CAN_ESR1_IDLE (7U) //!< Bit position for CAN_ESR1_IDLE. +#define BM_CAN_ESR1_IDLE (0x00000080U) //!< Bit mask for CAN_ESR1_IDLE. +#define BS_CAN_ESR1_IDLE (1U) //!< Bit field size in bits for CAN_ESR1_IDLE. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_IDLE field. +#define BR_CAN_ESR1_IDLE(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_IDLE)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field RXWRN[8] (RO) + * + * This bit indicates when repetitive errors are occurring during message + * reception. This bit is not updated during Freeze mode. + * + * Values: + * - 0 - No such occurrence. + * - 1 - RXERRCNT is greater than or equal to 96. + */ +//@{ +#define BP_CAN_ESR1_RXWRN (8U) //!< Bit position for CAN_ESR1_RXWRN. +#define BM_CAN_ESR1_RXWRN (0x00000100U) //!< Bit mask for CAN_ESR1_RXWRN. +#define BS_CAN_ESR1_RXWRN (1U) //!< Bit field size in bits for CAN_ESR1_RXWRN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_RXWRN field. +#define BR_CAN_ESR1_RXWRN(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_RXWRN)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field TXWRN[9] (RO) + * + * This bit indicates when repetitive errors are occurring during message + * transmission. This bit is not updated during Freeze mode. + * + * Values: + * - 0 - No such occurrence. + * - 1 - TXERRCNT is greater than or equal to 96. + */ +//@{ +#define BP_CAN_ESR1_TXWRN (9U) //!< Bit position for CAN_ESR1_TXWRN. +#define BM_CAN_ESR1_TXWRN (0x00000200U) //!< Bit mask for CAN_ESR1_TXWRN. +#define BS_CAN_ESR1_TXWRN (1U) //!< Bit field size in bits for CAN_ESR1_TXWRN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_TXWRN field. +#define BR_CAN_ESR1_TXWRN(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_TXWRN)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field STFERR[10] (RO) + * + * This bit indicates that a Stuffing Error has been etected. + * + * Values: + * - 0 - No such occurrence. + * - 1 - A Stuffing Error occurred since last read of this register. + */ +//@{ +#define BP_CAN_ESR1_STFERR (10U) //!< Bit position for CAN_ESR1_STFERR. +#define BM_CAN_ESR1_STFERR (0x00000400U) //!< Bit mask for CAN_ESR1_STFERR. +#define BS_CAN_ESR1_STFERR (1U) //!< Bit field size in bits for CAN_ESR1_STFERR. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_STFERR field. +#define BR_CAN_ESR1_STFERR(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_STFERR)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field FRMERR[11] (RO) + * + * This bit indicates that a Form Error has been detected by the receiver node, + * that is, a fixed-form bit field contains at least one illegal bit. + * + * Values: + * - 0 - No such occurrence. + * - 1 - A Form Error occurred since last read of this register. + */ +//@{ +#define BP_CAN_ESR1_FRMERR (11U) //!< Bit position for CAN_ESR1_FRMERR. +#define BM_CAN_ESR1_FRMERR (0x00000800U) //!< Bit mask for CAN_ESR1_FRMERR. +#define BS_CAN_ESR1_FRMERR (1U) //!< Bit field size in bits for CAN_ESR1_FRMERR. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_FRMERR field. +#define BR_CAN_ESR1_FRMERR(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_FRMERR)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field CRCERR[12] (RO) + * + * This bit indicates that a CRC Error has been detected by the receiver node, + * that is, the calculated CRC is different from the received. + * + * Values: + * - 0 - No such occurrence. + * - 1 - A CRC error occurred since last read of this register. + */ +//@{ +#define BP_CAN_ESR1_CRCERR (12U) //!< Bit position for CAN_ESR1_CRCERR. +#define BM_CAN_ESR1_CRCERR (0x00001000U) //!< Bit mask for CAN_ESR1_CRCERR. +#define BS_CAN_ESR1_CRCERR (1U) //!< Bit field size in bits for CAN_ESR1_CRCERR. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_CRCERR field. +#define BR_CAN_ESR1_CRCERR(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_CRCERR)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field ACKERR[13] (RO) + * + * This bit indicates that an Acknowledge Error has been detected by the + * transmitter node, that is, a dominant bit has not been detected during the ACK SLOT. + * + * Values: + * - 0 - No such occurrence. + * - 1 - An ACK error occurred since last read of this register. + */ +//@{ +#define BP_CAN_ESR1_ACKERR (13U) //!< Bit position for CAN_ESR1_ACKERR. +#define BM_CAN_ESR1_ACKERR (0x00002000U) //!< Bit mask for CAN_ESR1_ACKERR. +#define BS_CAN_ESR1_ACKERR (1U) //!< Bit field size in bits for CAN_ESR1_ACKERR. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_ACKERR field. +#define BR_CAN_ESR1_ACKERR(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_ACKERR)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field BIT0ERR[14] (RO) + * + * This bit indicates when an inconsistency occurs between the transmitted and + * the received bit in a message. + * + * Values: + * - 0 - No such occurrence. + * - 1 - At least one bit sent as dominant is received as recessive. + */ +//@{ +#define BP_CAN_ESR1_BIT0ERR (14U) //!< Bit position for CAN_ESR1_BIT0ERR. +#define BM_CAN_ESR1_BIT0ERR (0x00004000U) //!< Bit mask for CAN_ESR1_BIT0ERR. +#define BS_CAN_ESR1_BIT0ERR (1U) //!< Bit field size in bits for CAN_ESR1_BIT0ERR. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_BIT0ERR field. +#define BR_CAN_ESR1_BIT0ERR(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_BIT0ERR)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field BIT1ERR[15] (RO) + * + * This bit indicates when an inconsistency occurs between the transmitted and + * the received bit in a message. This bit is not set by a transmitter in case of + * arbitration field or ACK slot, or in case of a node sending a passive error + * flag that detects dominant bits. + * + * Values: + * - 0 - No such occurrence. + * - 1 - At least one bit sent as recessive is received as dominant. + */ +//@{ +#define BP_CAN_ESR1_BIT1ERR (15U) //!< Bit position for CAN_ESR1_BIT1ERR. +#define BM_CAN_ESR1_BIT1ERR (0x00008000U) //!< Bit mask for CAN_ESR1_BIT1ERR. +#define BS_CAN_ESR1_BIT1ERR (1U) //!< Bit field size in bits for CAN_ESR1_BIT1ERR. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_BIT1ERR field. +#define BR_CAN_ESR1_BIT1ERR(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_BIT1ERR)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field RWRNINT[16] (W1C) + * + * If the WRNEN bit in MCR is asserted, the RWRNINT bit is set when the RXWRN + * flag transitions from 0 to 1, meaning that the Rx error counters reached 96. If + * the corresponding mask bit in the Control Register (RWRNMSK) is set, an + * interrupt is generated to the CPU. This bit is cleared by writing it to 1. When + * WRNEN is negated, this flag is masked. CPU must clear this flag before disabling + * the bit. Otherwise it will be set when the WRNEN is set again. Writing 0 has no + * effect. This bit is not updated during Freeze mode. + * + * Values: + * - 0 - No such occurrence. + * - 1 - The Rx error counter transitioned from less than 96 to greater than or + * equal to 96. + */ +//@{ +#define BP_CAN_ESR1_RWRNINT (16U) //!< Bit position for CAN_ESR1_RWRNINT. +#define BM_CAN_ESR1_RWRNINT (0x00010000U) //!< Bit mask for CAN_ESR1_RWRNINT. +#define BS_CAN_ESR1_RWRNINT (1U) //!< Bit field size in bits for CAN_ESR1_RWRNINT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_RWRNINT field. +#define BR_CAN_ESR1_RWRNINT(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_RWRNINT)) +#endif + +//! @brief Format value for bitfield CAN_ESR1_RWRNINT. +#define BF_CAN_ESR1_RWRNINT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ESR1_RWRNINT), uint32_t) & BM_CAN_ESR1_RWRNINT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RWRNINT field to a new value. +#define BW_CAN_ESR1_RWRNINT(x, v) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_RWRNINT) = (v)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field TWRNINT[17] (W1C) + * + * If the WRNEN bit in MCR is asserted, the TWRNINT bit is set when the TXWRN + * flag transitions from 0 to 1, meaning that the Tx error counter reached 96. If + * the corresponding mask bit in the Control Register (TWRNMSK) is set, an + * interrupt is generated to the CPU. This bit is cleared by writing it to 1. When WRNEN + * is negated, this flag is masked. CPU must clear this flag before disabling + * the bit. Otherwise it will be set when the WRNEN is set again. Writing 0 has no + * effect. This flag is not generated during Bus Off state. This bit is not + * updated during Freeze mode. + * + * Values: + * - 0 - No such occurrence. + * - 1 - The Tx error counter transitioned from less than 96 to greater than or + * equal to 96. + */ +//@{ +#define BP_CAN_ESR1_TWRNINT (17U) //!< Bit position for CAN_ESR1_TWRNINT. +#define BM_CAN_ESR1_TWRNINT (0x00020000U) //!< Bit mask for CAN_ESR1_TWRNINT. +#define BS_CAN_ESR1_TWRNINT (1U) //!< Bit field size in bits for CAN_ESR1_TWRNINT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_TWRNINT field. +#define BR_CAN_ESR1_TWRNINT(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_TWRNINT)) +#endif + +//! @brief Format value for bitfield CAN_ESR1_TWRNINT. +#define BF_CAN_ESR1_TWRNINT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ESR1_TWRNINT), uint32_t) & BM_CAN_ESR1_TWRNINT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the TWRNINT field to a new value. +#define BW_CAN_ESR1_TWRNINT(x, v) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_TWRNINT) = (v)) +#endif +//@} + +/*! + * @name Register CAN_ESR1, field SYNCH[18] (RO) + * + * This read-only flag indicates whether the FlexCAN is synchronized to the CAN + * bus and able to participate in the communication process. It is set and + * cleared by the FlexCAN. See the table in the overall CAN_ESR1 register description. + * + * Values: + * - 0 - FlexCAN is not synchronized to the CAN bus. + * - 1 - FlexCAN is synchronized to the CAN bus. + */ +//@{ +#define BP_CAN_ESR1_SYNCH (18U) //!< Bit position for CAN_ESR1_SYNCH. +#define BM_CAN_ESR1_SYNCH (0x00040000U) //!< Bit mask for CAN_ESR1_SYNCH. +#define BS_CAN_ESR1_SYNCH (1U) //!< Bit field size in bits for CAN_ESR1_SYNCH. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR1_SYNCH field. +#define BR_CAN_ESR1_SYNCH(x) (BITBAND_ACCESS32(HW_CAN_ESR1_ADDR(x), BP_CAN_ESR1_SYNCH)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_IMASK1 - Interrupt Masks 1 register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_IMASK1 - Interrupt Masks 1 register (RW) + * + * Reset value: 0x00000000U + * + * This register allows any number of a range of the 32 Message Buffer + * Interrupts to be enabled or disabled for MB31 to MB0. It contains one interrupt mask + * bit per buffer, enabling the CPU to determine which buffer generates an + * interrupt after a successful transmission or reception, that is, when the + * corresponding IFLAG1 bit is set. + */ +typedef union _hw_can_imask1 +{ + uint32_t U; + struct _hw_can_imask1_bitfields + { + uint32_t BUFLM : 32; //!< [31:0] Buffer MB i Mask + } B; +} hw_can_imask1_t; +#endif + +/*! + * @name Constants and macros for entire CAN_IMASK1 register + */ +//@{ +#define HW_CAN_IMASK1_ADDR(x) (REGS_CAN_BASE(x) + 0x28U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_IMASK1(x) (*(__IO hw_can_imask1_t *) HW_CAN_IMASK1_ADDR(x)) +#define HW_CAN_IMASK1_RD(x) (HW_CAN_IMASK1(x).U) +#define HW_CAN_IMASK1_WR(x, v) (HW_CAN_IMASK1(x).U = (v)) +#define HW_CAN_IMASK1_SET(x, v) (HW_CAN_IMASK1_WR(x, HW_CAN_IMASK1_RD(x) | (v))) +#define HW_CAN_IMASK1_CLR(x, v) (HW_CAN_IMASK1_WR(x, HW_CAN_IMASK1_RD(x) & ~(v))) +#define HW_CAN_IMASK1_TOG(x, v) (HW_CAN_IMASK1_WR(x, HW_CAN_IMASK1_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_IMASK1 bitfields + */ + +/*! + * @name Register CAN_IMASK1, field BUFLM[31:0] (RW) + * + * Each bit enables or disables the corresponding FlexCAN Message Buffer + * Interrupt for MB31 to MB0. Setting or clearing a bit in the IMASK1 Register can + * assert or negate an interrupt request, if the corresponding IFLAG1 bit is set. + * + * Values: + * - 0 - The corresponding buffer Interrupt is disabled. + * - 1 - The corresponding buffer Interrupt is enabled. + */ +//@{ +#define BP_CAN_IMASK1_BUFLM (0U) //!< Bit position for CAN_IMASK1_BUFLM. +#define BM_CAN_IMASK1_BUFLM (0xFFFFFFFFU) //!< Bit mask for CAN_IMASK1_BUFLM. +#define BS_CAN_IMASK1_BUFLM (32U) //!< Bit field size in bits for CAN_IMASK1_BUFLM. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_IMASK1_BUFLM field. +#define BR_CAN_IMASK1_BUFLM(x) (HW_CAN_IMASK1(x).U) +#endif + +//! @brief Format value for bitfield CAN_IMASK1_BUFLM. +#define BF_CAN_IMASK1_BUFLM(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_IMASK1_BUFLM), uint32_t) & BM_CAN_IMASK1_BUFLM) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BUFLM field to a new value. +#define BW_CAN_IMASK1_BUFLM(x, v) (HW_CAN_IMASK1_WR(x, v)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_IFLAG1 - Interrupt Flags 1 register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_IFLAG1 - Interrupt Flags 1 register (W1C) + * + * Reset value: 0x00000000U + * + * This register defines the flags for the 32 Message Buffer interrupts for MB31 + * to MB0. It contains one interrupt flag bit per buffer. Each successful + * transmission or reception sets the corresponding IFLAG1 bit. If the corresponding + * IMASK1 bit is set, an interrupt will be generated. The interrupt flag must be + * cleared by writing 1 to it. Writing 0 has no effect. The BUF7I to BUF5I flags + * are also used to represent FIFO interrupts when the Rx FIFO is enabled. When the + * bit MCR[RFEN] is set, the function of the 8 least significant interrupt flags + * BUF[7:0]I changes: BUF7I, BUF6I and BUF5I indicate operating conditions of + * the FIFO, and the BUF4TO0I field is reserved. Before enabling the RFEN, the CPU + * must service the IFLAG bits asserted in the Rx FIFO region; see Section "Rx + * FIFO". Otherwise, these IFLAG bits will mistakenly show the related MBs now + * belonging to FIFO as having contents to be serviced. When the RFEN bit is negated, + * the FIFO flags must be cleared. The same care must be taken when an RFFN + * value is selected extending Rx FIFO filters beyond MB7. For example, when RFFN is + * 0x8, the MB0-23 range is occupied by Rx FIFO filters and related IFLAG bits + * must be cleared. Before updating MCR[MAXMB] field, CPU must service the IFLAG1 + * bits whose MB value is greater than the MCR[MAXMB] to be updated; otherwise, + * they will remain set and be inconsistent with the number of MBs available. + */ +typedef union _hw_can_iflag1 +{ + uint32_t U; + struct _hw_can_iflag1_bitfields + { + uint32_t BUF0I : 1; //!< [0] Buffer MB0 Interrupt Or "reserved" + uint32_t BUF4TO1I : 4; //!< [4:1] Buffer MB i Interrupt Or "reserved" + uint32_t BUF5I : 1; //!< [5] Buffer MB5 Interrupt Or "Frames + //! available in Rx FIFO" + uint32_t BUF6I : 1; //!< [6] Buffer MB6 Interrupt Or "Rx FIFO Warning" + uint32_t BUF7I : 1; //!< [7] Buffer MB7 Interrupt Or "Rx FIFO + //! Overflow" + uint32_t BUF31TO8I : 24; //!< [31:8] Buffer MBi Interrupt + } B; +} hw_can_iflag1_t; +#endif + +/*! + * @name Constants and macros for entire CAN_IFLAG1 register + */ +//@{ +#define HW_CAN_IFLAG1_ADDR(x) (REGS_CAN_BASE(x) + 0x30U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_IFLAG1(x) (*(__IO hw_can_iflag1_t *) HW_CAN_IFLAG1_ADDR(x)) +#define HW_CAN_IFLAG1_RD(x) (HW_CAN_IFLAG1(x).U) +#define HW_CAN_IFLAG1_WR(x, v) (HW_CAN_IFLAG1(x).U = (v)) +#define HW_CAN_IFLAG1_SET(x, v) (HW_CAN_IFLAG1_WR(x, HW_CAN_IFLAG1_RD(x) | (v))) +#define HW_CAN_IFLAG1_CLR(x, v) (HW_CAN_IFLAG1_WR(x, HW_CAN_IFLAG1_RD(x) & ~(v))) +#define HW_CAN_IFLAG1_TOG(x, v) (HW_CAN_IFLAG1_WR(x, HW_CAN_IFLAG1_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_IFLAG1 bitfields + */ + +/*! + * @name Register CAN_IFLAG1, field BUF0I[0] (W1C) + * + * When the RFEN bit in the MCR is cleared (Rx FIFO disabled), this bit flags + * the interrupt for MB0. This flag is cleared by the FlexCAN whenever the bit + * MCR[RFEN] is changed by CPU writes. The BUF0I flag is reserved when MCR[RFEN] is + * set. + * + * Values: + * - 0 - The corresponding buffer has no occurrence of successfully completed + * transmission or reception when MCR[RFEN]=0. + * - 1 - The corresponding buffer has successfully completed transmission or + * reception when MCR[RFEN]=0. + */ +//@{ +#define BP_CAN_IFLAG1_BUF0I (0U) //!< Bit position for CAN_IFLAG1_BUF0I. +#define BM_CAN_IFLAG1_BUF0I (0x00000001U) //!< Bit mask for CAN_IFLAG1_BUF0I. +#define BS_CAN_IFLAG1_BUF0I (1U) //!< Bit field size in bits for CAN_IFLAG1_BUF0I. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_IFLAG1_BUF0I field. +#define BR_CAN_IFLAG1_BUF0I(x) (BITBAND_ACCESS32(HW_CAN_IFLAG1_ADDR(x), BP_CAN_IFLAG1_BUF0I)) +#endif + +//! @brief Format value for bitfield CAN_IFLAG1_BUF0I. +#define BF_CAN_IFLAG1_BUF0I(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_IFLAG1_BUF0I), uint32_t) & BM_CAN_IFLAG1_BUF0I) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BUF0I field to a new value. +#define BW_CAN_IFLAG1_BUF0I(x, v) (BITBAND_ACCESS32(HW_CAN_IFLAG1_ADDR(x), BP_CAN_IFLAG1_BUF0I) = (v)) +#endif +//@} + +/*! + * @name Register CAN_IFLAG1, field BUF4TO1I[4:1] (W1C) + * + * When the RFEN bit in the MCR is cleared (Rx FIFO disabled), these bits flag + * the interrupts for MB4 to MB1. These flags are cleared by the FlexCAN whenever + * the bit MCR[RFEN] is changed by CPU writes. The BUF4TO1I flags are reserved + * when MCR[RFEN] is set. + * + * Values: + * - 0 - The corresponding buffer has no occurrence of successfully completed + * transmission or reception when MCR[RFEN]=0. + * - 1 - The corresponding buffer has successfully completed transmission or + * reception when MCR[RFEN]=0. + */ +//@{ +#define BP_CAN_IFLAG1_BUF4TO1I (1U) //!< Bit position for CAN_IFLAG1_BUF4TO1I. +#define BM_CAN_IFLAG1_BUF4TO1I (0x0000001EU) //!< Bit mask for CAN_IFLAG1_BUF4TO1I. +#define BS_CAN_IFLAG1_BUF4TO1I (4U) //!< Bit field size in bits for CAN_IFLAG1_BUF4TO1I. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_IFLAG1_BUF4TO1I field. +#define BR_CAN_IFLAG1_BUF4TO1I(x) (HW_CAN_IFLAG1(x).B.BUF4TO1I) +#endif + +//! @brief Format value for bitfield CAN_IFLAG1_BUF4TO1I. +#define BF_CAN_IFLAG1_BUF4TO1I(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_IFLAG1_BUF4TO1I), uint32_t) & BM_CAN_IFLAG1_BUF4TO1I) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BUF4TO1I field to a new value. +#define BW_CAN_IFLAG1_BUF4TO1I(x, v) (HW_CAN_IFLAG1_WR(x, (HW_CAN_IFLAG1_RD(x) & ~BM_CAN_IFLAG1_BUF4TO1I) | BF_CAN_IFLAG1_BUF4TO1I(v))) +#endif +//@} + +/*! + * @name Register CAN_IFLAG1, field BUF5I[5] (W1C) + * + * When the RFEN bit in the MCR is cleared (Rx FIFO disabled), this bit flags + * the interrupt for MB5. This flag is cleared by the FlexCAN whenever the bit + * MCR[RFEN] is changed by CPU writes. The BUF5I flag represents "Frames available in + * Rx FIFO" when MCR[RFEN] is set. In this case, the flag indicates that at + * least one frame is available to be read from the Rx FIFO. + * + * Values: + * - 0 - No occurrence of MB5 completing transmission/reception when + * MCR[RFEN]=0, or of frame(s) available in the FIFO, when MCR[RFEN]=1 + * - 1 - MB5 completed transmission/reception when MCR[RFEN]=0, or frame(s) + * available in the Rx FIFO when MCR[RFEN]=1 + */ +//@{ +#define BP_CAN_IFLAG1_BUF5I (5U) //!< Bit position for CAN_IFLAG1_BUF5I. +#define BM_CAN_IFLAG1_BUF5I (0x00000020U) //!< Bit mask for CAN_IFLAG1_BUF5I. +#define BS_CAN_IFLAG1_BUF5I (1U) //!< Bit field size in bits for CAN_IFLAG1_BUF5I. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_IFLAG1_BUF5I field. +#define BR_CAN_IFLAG1_BUF5I(x) (BITBAND_ACCESS32(HW_CAN_IFLAG1_ADDR(x), BP_CAN_IFLAG1_BUF5I)) +#endif + +//! @brief Format value for bitfield CAN_IFLAG1_BUF5I. +#define BF_CAN_IFLAG1_BUF5I(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_IFLAG1_BUF5I), uint32_t) & BM_CAN_IFLAG1_BUF5I) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BUF5I field to a new value. +#define BW_CAN_IFLAG1_BUF5I(x, v) (BITBAND_ACCESS32(HW_CAN_IFLAG1_ADDR(x), BP_CAN_IFLAG1_BUF5I) = (v)) +#endif +//@} + +/*! + * @name Register CAN_IFLAG1, field BUF6I[6] (W1C) + * + * When the RFEN bit in the MCR is cleared (Rx FIFO disabled), this bit flags + * the interrupt for MB6. This flag is cleared by the FlexCAN whenever the bit + * MCR[RFEN] is changed by CPU writes. The BUF6I flag represents "Rx FIFO Warning" + * when MCR[RFEN] is set. In this case, the flag indicates when the number of + * unread messages within the Rx FIFO is increased to 5 from 4 due to the reception of + * a new one, meaning that the Rx FIFO is almost full. Note that if the flag is + * cleared while the number of unread messages is greater than 4, it does not + * assert again until the number of unread messages within the Rx FIFO is decreased + * to be equal to or less than 4. + * + * Values: + * - 0 - No occurrence of MB6 completing transmission/reception when + * MCR[RFEN]=0, or of Rx FIFO almost full when MCR[RFEN]=1 + * - 1 - MB6 completed transmission/reception when MCR[RFEN]=0, or Rx FIFO + * almost full when MCR[RFEN]=1 + */ +//@{ +#define BP_CAN_IFLAG1_BUF6I (6U) //!< Bit position for CAN_IFLAG1_BUF6I. +#define BM_CAN_IFLAG1_BUF6I (0x00000040U) //!< Bit mask for CAN_IFLAG1_BUF6I. +#define BS_CAN_IFLAG1_BUF6I (1U) //!< Bit field size in bits for CAN_IFLAG1_BUF6I. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_IFLAG1_BUF6I field. +#define BR_CAN_IFLAG1_BUF6I(x) (BITBAND_ACCESS32(HW_CAN_IFLAG1_ADDR(x), BP_CAN_IFLAG1_BUF6I)) +#endif + +//! @brief Format value for bitfield CAN_IFLAG1_BUF6I. +#define BF_CAN_IFLAG1_BUF6I(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_IFLAG1_BUF6I), uint32_t) & BM_CAN_IFLAG1_BUF6I) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BUF6I field to a new value. +#define BW_CAN_IFLAG1_BUF6I(x, v) (BITBAND_ACCESS32(HW_CAN_IFLAG1_ADDR(x), BP_CAN_IFLAG1_BUF6I) = (v)) +#endif +//@} + +/*! + * @name Register CAN_IFLAG1, field BUF7I[7] (W1C) + * + * When the RFEN bit in the MCR is cleared (Rx FIFO disabled), this bit flags + * the interrupt for MB7. This flag is cleared by the FlexCAN whenever the bit + * MCR[RFEN] is changed by CPU writes. The BUF7I flag represents "Rx FIFO Overflow" + * when MCR[RFEN] is set. In this case, the flag indicates that a message was lost + * because the Rx FIFO is full. Note that the flag will not be asserted when the + * Rx FIFO is full and the message was captured by a Mailbox. + * + * Values: + * - 0 - No occurrence of MB7 completing transmission/reception when + * MCR[RFEN]=0, or of Rx FIFO overflow when MCR[RFEN]=1 + * - 1 - MB7 completed transmission/reception when MCR[RFEN]=0, or Rx FIFO + * overflow when MCR[RFEN]=1 + */ +//@{ +#define BP_CAN_IFLAG1_BUF7I (7U) //!< Bit position for CAN_IFLAG1_BUF7I. +#define BM_CAN_IFLAG1_BUF7I (0x00000080U) //!< Bit mask for CAN_IFLAG1_BUF7I. +#define BS_CAN_IFLAG1_BUF7I (1U) //!< Bit field size in bits for CAN_IFLAG1_BUF7I. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_IFLAG1_BUF7I field. +#define BR_CAN_IFLAG1_BUF7I(x) (BITBAND_ACCESS32(HW_CAN_IFLAG1_ADDR(x), BP_CAN_IFLAG1_BUF7I)) +#endif + +//! @brief Format value for bitfield CAN_IFLAG1_BUF7I. +#define BF_CAN_IFLAG1_BUF7I(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_IFLAG1_BUF7I), uint32_t) & BM_CAN_IFLAG1_BUF7I) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BUF7I field to a new value. +#define BW_CAN_IFLAG1_BUF7I(x, v) (BITBAND_ACCESS32(HW_CAN_IFLAG1_ADDR(x), BP_CAN_IFLAG1_BUF7I) = (v)) +#endif +//@} + +/*! + * @name Register CAN_IFLAG1, field BUF31TO8I[31:8] (W1C) + * + * Each bit flags the corresponding FlexCAN Message Buffer interrupt for MB31 to + * MB8. + * + * Values: + * - 0 - The corresponding buffer has no occurrence of successfully completed + * transmission or reception. + * - 1 - The corresponding buffer has successfully completed transmission or + * reception. + */ +//@{ +#define BP_CAN_IFLAG1_BUF31TO8I (8U) //!< Bit position for CAN_IFLAG1_BUF31TO8I. +#define BM_CAN_IFLAG1_BUF31TO8I (0xFFFFFF00U) //!< Bit mask for CAN_IFLAG1_BUF31TO8I. +#define BS_CAN_IFLAG1_BUF31TO8I (24U) //!< Bit field size in bits for CAN_IFLAG1_BUF31TO8I. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_IFLAG1_BUF31TO8I field. +#define BR_CAN_IFLAG1_BUF31TO8I(x) (HW_CAN_IFLAG1(x).B.BUF31TO8I) +#endif + +//! @brief Format value for bitfield CAN_IFLAG1_BUF31TO8I. +#define BF_CAN_IFLAG1_BUF31TO8I(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_IFLAG1_BUF31TO8I), uint32_t) & BM_CAN_IFLAG1_BUF31TO8I) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the BUF31TO8I field to a new value. +#define BW_CAN_IFLAG1_BUF31TO8I(x, v) (HW_CAN_IFLAG1_WR(x, (HW_CAN_IFLAG1_RD(x) & ~BM_CAN_IFLAG1_BUF31TO8I) | BF_CAN_IFLAG1_BUF31TO8I(v))) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_CTRL2 - Control 2 register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_CTRL2 - Control 2 register (RW) + * + * Reset value: 0x00B00000U + * + * This register contains control bits for CAN errors, FIFO features, and mode + * selection. + */ +typedef union _hw_can_ctrl2 +{ + uint32_t U; + struct _hw_can_ctrl2_bitfields + { + uint32_t RESERVED0 : 16; //!< [15:0] + uint32_t EACEN : 1; //!< [16] Entire Frame Arbitration Field + //! Comparison Enable For Rx Mailboxes + uint32_t RRS : 1; //!< [17] Remote Request Storing + uint32_t MRP : 1; //!< [18] Mailboxes Reception Priority + uint32_t TASD : 5; //!< [23:19] Tx Arbitration Start Delay + uint32_t RFFN : 4; //!< [27:24] Number Of Rx FIFO Filters + uint32_t WRMFRZ : 1; //!< [28] Write-Access To Memory In Freeze Mode + uint32_t RESERVED1 : 3; //!< [31:29] + } B; +} hw_can_ctrl2_t; +#endif + +/*! + * @name Constants and macros for entire CAN_CTRL2 register + */ +//@{ +#define HW_CAN_CTRL2_ADDR(x) (REGS_CAN_BASE(x) + 0x34U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_CTRL2(x) (*(__IO hw_can_ctrl2_t *) HW_CAN_CTRL2_ADDR(x)) +#define HW_CAN_CTRL2_RD(x) (HW_CAN_CTRL2(x).U) +#define HW_CAN_CTRL2_WR(x, v) (HW_CAN_CTRL2(x).U = (v)) +#define HW_CAN_CTRL2_SET(x, v) (HW_CAN_CTRL2_WR(x, HW_CAN_CTRL2_RD(x) | (v))) +#define HW_CAN_CTRL2_CLR(x, v) (HW_CAN_CTRL2_WR(x, HW_CAN_CTRL2_RD(x) & ~(v))) +#define HW_CAN_CTRL2_TOG(x, v) (HW_CAN_CTRL2_WR(x, HW_CAN_CTRL2_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_CTRL2 bitfields + */ + +/*! + * @name Register CAN_CTRL2, field EACEN[16] (RW) + * + * This bit controls the comparison of IDE and RTR bits whithin Rx Mailboxes + * filters with their corresponding bits in the incoming frame by the matching + * process. This bit does not affect matching for Rx FIFO. This bit can be written + * only in Freeze mode because it is blocked by hardware in other modes. + * + * Values: + * - 0 - Rx Mailbox filter's IDE bit is always compared and RTR is never + * compared despite mask bits. + * - 1 - Enables the comparison of both Rx Mailbox filter's IDE and RTR bit with + * their corresponding bits within the incoming frame. Mask bits do apply. + */ +//@{ +#define BP_CAN_CTRL2_EACEN (16U) //!< Bit position for CAN_CTRL2_EACEN. +#define BM_CAN_CTRL2_EACEN (0x00010000U) //!< Bit mask for CAN_CTRL2_EACEN. +#define BS_CAN_CTRL2_EACEN (1U) //!< Bit field size in bits for CAN_CTRL2_EACEN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL2_EACEN field. +#define BR_CAN_CTRL2_EACEN(x) (BITBAND_ACCESS32(HW_CAN_CTRL2_ADDR(x), BP_CAN_CTRL2_EACEN)) +#endif + +//! @brief Format value for bitfield CAN_CTRL2_EACEN. +#define BF_CAN_CTRL2_EACEN(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL2_EACEN), uint32_t) & BM_CAN_CTRL2_EACEN) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the EACEN field to a new value. +#define BW_CAN_CTRL2_EACEN(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL2_ADDR(x), BP_CAN_CTRL2_EACEN) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL2, field RRS[17] (RW) + * + * If this bit is asserted Remote Request Frame is submitted to a matching + * process and stored in the corresponding Message Buffer in the same fashion of a + * Data Frame. No automatic Remote Response Frame will be generated. If this bit is + * negated the Remote Request Frame is submitted to a matching process and an + * automatic Remote Response Frame is generated if a Message Buffer with CODE=0b1010 + * is found with the same ID. This bit can be written only in Freeze mode + * because it is blocked by hardware in other modes. + * + * Values: + * - 0 - Remote Response Frame is generated. + * - 1 - Remote Request Frame is stored. + */ +//@{ +#define BP_CAN_CTRL2_RRS (17U) //!< Bit position for CAN_CTRL2_RRS. +#define BM_CAN_CTRL2_RRS (0x00020000U) //!< Bit mask for CAN_CTRL2_RRS. +#define BS_CAN_CTRL2_RRS (1U) //!< Bit field size in bits for CAN_CTRL2_RRS. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL2_RRS field. +#define BR_CAN_CTRL2_RRS(x) (BITBAND_ACCESS32(HW_CAN_CTRL2_ADDR(x), BP_CAN_CTRL2_RRS)) +#endif + +//! @brief Format value for bitfield CAN_CTRL2_RRS. +#define BF_CAN_CTRL2_RRS(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL2_RRS), uint32_t) & BM_CAN_CTRL2_RRS) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RRS field to a new value. +#define BW_CAN_CTRL2_RRS(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL2_ADDR(x), BP_CAN_CTRL2_RRS) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL2, field MRP[18] (RW) + * + * If this bit is set the matching process starts from the Mailboxes and if no + * match occurs the matching continues on the Rx FIFO. This bit can be written + * only in Freeze mode because it is blocked by hardware in other modes. + * + * Values: + * - 0 - Matching starts from Rx FIFO and continues on Mailboxes. + * - 1 - Matching starts from Mailboxes and continues on Rx FIFO. + */ +//@{ +#define BP_CAN_CTRL2_MRP (18U) //!< Bit position for CAN_CTRL2_MRP. +#define BM_CAN_CTRL2_MRP (0x00040000U) //!< Bit mask for CAN_CTRL2_MRP. +#define BS_CAN_CTRL2_MRP (1U) //!< Bit field size in bits for CAN_CTRL2_MRP. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL2_MRP field. +#define BR_CAN_CTRL2_MRP(x) (BITBAND_ACCESS32(HW_CAN_CTRL2_ADDR(x), BP_CAN_CTRL2_MRP)) +#endif + +//! @brief Format value for bitfield CAN_CTRL2_MRP. +#define BF_CAN_CTRL2_MRP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL2_MRP), uint32_t) & BM_CAN_CTRL2_MRP) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the MRP field to a new value. +#define BW_CAN_CTRL2_MRP(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL2_ADDR(x), BP_CAN_CTRL2_MRP) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CTRL2, field TASD[23:19] (RW) + * + * This 5-bit field indicates how many CAN bits the Tx arbitration process start + * point can be delayed from the first bit of CRC field on CAN bus. This field + * can be written only in Freeze mode because it is blocked by hardware in other + * modes. This field is useful to optimize the transmit performance based on + * factors such as: peripheral/serial clock ratio, CAN bit timing and number of MBs. + * The duration of an arbitration process, in terms of CAN bits, is directly + * proportional to the number of available MBs and CAN baud rate and inversely + * proportional to the peripheral clock frequency. The optimal arbitration timing is + * that in which the last MB is scanned right before the first bit of the + * Intermission field of a CAN frame. Therefore, if there are few MBs and the system/serial + * clock ratio is high and the CAN baud rate is low then the arbitration can be + * delayed and vice-versa. If TASD is 0 then the arbitration start is not + * delayed, thus the CPU has less time to configure a Tx MB for the next arbitration, + * but more time is reserved for arbitration. On the other hand, if TASD is 24 then + * the CPU can configure a Tx MB later and less time is reserved for + * arbitration. If too little time is reserved for arbitration the FlexCAN may be not able + * to find winner MBs in time to compete with other nodes for the CAN bus. If the + * arbitration ends too much time before the first bit of Intermission field then + * there is a chance that the CPU reconfigures some Tx MBs and the winner MB is + * not the best to be transmitted. The optimal configuration for TASD can be + * calculated as: TASD = 25 - {f CANCLK * [MAXMB + 3 - (RFEN * 8) - (RFEN * RFFN * + * 2)] * 2} / {f SYS * [1+(PSEG1+1)+(PSEG2+1)+(PROPSEG+1)] * (PRESDIV+1)} where: f + * CANCLK is the Protocol Engine (PE) Clock (see section "Protocol Timing"), in + * Hz f SYS is the peripheral clock, in Hz MAXMB is the value in CTRL1[MAXMB] + * field RFEN is the value in CTRL1[RFEN] bit RFFN is the value in CTRL2[RFFN] field + * PSEG1 is the value in CTRL1[PSEG1] field PSEG2 is the value in CTRL1[PSEG2] + * field PROPSEG is the value in CTRL1[PROPSEG] field PRESDIV is the value in + * CTRL1[PRESDIV] field See Section "Arbitration process" and Section "Protocol + * Timing" for more details. + */ +//@{ +#define BP_CAN_CTRL2_TASD (19U) //!< Bit position for CAN_CTRL2_TASD. +#define BM_CAN_CTRL2_TASD (0x00F80000U) //!< Bit mask for CAN_CTRL2_TASD. +#define BS_CAN_CTRL2_TASD (5U) //!< Bit field size in bits for CAN_CTRL2_TASD. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL2_TASD field. +#define BR_CAN_CTRL2_TASD(x) (HW_CAN_CTRL2(x).B.TASD) +#endif + +//! @brief Format value for bitfield CAN_CTRL2_TASD. +#define BF_CAN_CTRL2_TASD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL2_TASD), uint32_t) & BM_CAN_CTRL2_TASD) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the TASD field to a new value. +#define BW_CAN_CTRL2_TASD(x, v) (HW_CAN_CTRL2_WR(x, (HW_CAN_CTRL2_RD(x) & ~BM_CAN_CTRL2_TASD) | BF_CAN_CTRL2_TASD(v))) +#endif +//@} + +/*! + * @name Register CAN_CTRL2, field RFFN[27:24] (RW) + * + * This 4-bit field defines the number of Rx FIFO filters, as shown in the + * following table. The maximum selectable number of filters is determined by the MCU. + * This field can only be written in Freeze mode as it is blocked by hardware in + * other modes. This field must not be programmed with values that make the + * number of Message Buffers occupied by Rx FIFO and ID Filter exceed the number of + * Mailboxes present, defined by MCR[MAXMB]. Each group of eight filters occupies + * a memory space equivalent to two Message Buffers which means that the more + * filters are implemented the less Mailboxes will be available. Considering that + * the Rx FIFO occupies the memory space originally reserved for MB0-5, RFFN should + * be programmed with a value correponding to a number of filters not greater + * than the number of available memory words which can be calculated as follows: + * (SETUP_MB - 6) * 4 where SETUP_MB is the least between NUMBER_OF_MB and MAXMB. + * The number of remaining Mailboxes available will be: (SETUP_MB - 8) - (RFFN * + * 2) If the Number of Rx FIFO Filters programmed through RFFN exceeds the + * SETUP_MB value (memory space available) the exceeding ones will not be functional. + * RFFN[3:0] Number of Rx FIFO filters Message Buffers occupied by Rx FIFO and ID + * Filter Table Remaining Available MailboxesThe number of the last remaining + * available mailboxes is defined by the least value between the parameter + * NUMBER_OF_MB minus 1 and the MCR[MAXMB] field. Rx FIFO ID Filter Table Elements Affected + * by Rx Individual MasksIf Rx Individual Mask Registers are not enabled then + * all Rx FIFO filters are affected by the Rx FIFO Global Mask. Rx FIFO ID Filter + * Table Elements Affected by Rx FIFO Global Mask #rxfgmask-note 0x0 8 MB 0-7 MB + * 8-63 Elements 0-7 none 0x1 16 MB 0-9 MB 10-63 Elements 0-9 Elements 10-15 0x2 + * 24 MB 0-11 MB 12-63 Elements 0-11 Elements 12-23 0x3 32 MB 0-13 MB 14-63 + * Elements 0-13 Elements 14-31 0x4 40 MB 0-15 MB 16-63 Elements 0-15 Elements 16-39 + * 0x5 48 MB 0-17 MB 18-63 Elements 0-17 Elements 18-47 0x6 56 MB 0-19 MB 20-63 + * Elements 0-19 Elements 20-55 0x7 64 MB 0-21 MB 22-63 Elements 0-21 Elements 22-63 + * 0x8 72 MB 0-23 MB 24-63 Elements 0-23 Elements 24-71 0x9 80 MB 0-25 MB 26-63 + * Elements 0-25 Elements 26-79 0xA 88 MB 0-27 MB 28-63 Elements 0-27 Elements + * 28-87 0xB 96 MB 0-29 MB 30-63 Elements 0-29 Elements 30-95 0xC 104 MB 0-31 MB + * 32-63 Elements 0-31 Elements 32-103 0xD 112 MB 0-33 MB 34-63 Elements 0-31 + * Elements 32-111 0xE 120 MB 0-35 MB 36-63 Elements 0-31 Elements 32-119 0xF 128 MB + * 0-37 MB 38-63 Elements 0-31 Elements 32-127 + */ +//@{ +#define BP_CAN_CTRL2_RFFN (24U) //!< Bit position for CAN_CTRL2_RFFN. +#define BM_CAN_CTRL2_RFFN (0x0F000000U) //!< Bit mask for CAN_CTRL2_RFFN. +#define BS_CAN_CTRL2_RFFN (4U) //!< Bit field size in bits for CAN_CTRL2_RFFN. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL2_RFFN field. +#define BR_CAN_CTRL2_RFFN(x) (HW_CAN_CTRL2(x).B.RFFN) +#endif + +//! @brief Format value for bitfield CAN_CTRL2_RFFN. +#define BF_CAN_CTRL2_RFFN(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL2_RFFN), uint32_t) & BM_CAN_CTRL2_RFFN) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RFFN field to a new value. +#define BW_CAN_CTRL2_RFFN(x, v) (HW_CAN_CTRL2_WR(x, (HW_CAN_CTRL2_RD(x) & ~BM_CAN_CTRL2_RFFN) | BF_CAN_CTRL2_RFFN(v))) +#endif +//@} + +/*! + * @name Register CAN_CTRL2, field WRMFRZ[28] (RW) + * + * Enable unrestricted write access to FlexCAN memory in Freeze mode. This bit + * can only be written in Freeze mode and has no effect out of Freeze mode. + * + * Values: + * - 0 - Maintain the write access restrictions. + * - 1 - Enable unrestricted write access to FlexCAN memory. + */ +//@{ +#define BP_CAN_CTRL2_WRMFRZ (28U) //!< Bit position for CAN_CTRL2_WRMFRZ. +#define BM_CAN_CTRL2_WRMFRZ (0x10000000U) //!< Bit mask for CAN_CTRL2_WRMFRZ. +#define BS_CAN_CTRL2_WRMFRZ (1U) //!< Bit field size in bits for CAN_CTRL2_WRMFRZ. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CTRL2_WRMFRZ field. +#define BR_CAN_CTRL2_WRMFRZ(x) (BITBAND_ACCESS32(HW_CAN_CTRL2_ADDR(x), BP_CAN_CTRL2_WRMFRZ)) +#endif + +//! @brief Format value for bitfield CAN_CTRL2_WRMFRZ. +#define BF_CAN_CTRL2_WRMFRZ(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CTRL2_WRMFRZ), uint32_t) & BM_CAN_CTRL2_WRMFRZ) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the WRMFRZ field to a new value. +#define BW_CAN_CTRL2_WRMFRZ(x, v) (BITBAND_ACCESS32(HW_CAN_CTRL2_ADDR(x), BP_CAN_CTRL2_WRMFRZ) = (v)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_ESR2 - Error and Status 2 register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_ESR2 - Error and Status 2 register (RO) + * + * Reset value: 0x00000000U + * + * This register reflects various interrupt flags and some general status. + */ +typedef union _hw_can_esr2 +{ + uint32_t U; + struct _hw_can_esr2_bitfields + { + uint32_t RESERVED0 : 13; //!< [12:0] + uint32_t IMB : 1; //!< [13] Inactive Mailbox + uint32_t VPS : 1; //!< [14] Valid Priority Status + uint32_t RESERVED1 : 1; //!< [15] + uint32_t LPTM : 7; //!< [22:16] Lowest Priority Tx Mailbox + uint32_t RESERVED2 : 9; //!< [31:23] + } B; +} hw_can_esr2_t; +#endif + +/*! + * @name Constants and macros for entire CAN_ESR2 register + */ +//@{ +#define HW_CAN_ESR2_ADDR(x) (REGS_CAN_BASE(x) + 0x38U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_ESR2(x) (*(__I hw_can_esr2_t *) HW_CAN_ESR2_ADDR(x)) +#define HW_CAN_ESR2_RD(x) (HW_CAN_ESR2(x).U) +#endif +//@} + +/* + * Constants & macros for individual CAN_ESR2 bitfields + */ + +/*! + * @name Register CAN_ESR2, field IMB[13] (RO) + * + * If ESR2[VPS] is asserted, this bit indicates whether there is any inactive + * Mailbox (CODE field is either 0b1000 or 0b0000). This bit is asserted in the + * following cases: During arbitration, if an LPTM is found and it is inactive. If + * IMB is not asserted and a frame is transmitted successfully. This bit is + * cleared in all start of arbitration (see Section "Arbitration process"). LPTM + * mechanism have the following behavior: if an MB is successfully transmitted and + * ESR2[IMB]=0 (no inactive Mailbox), then ESR2[VPS] and ESR2[IMB] are asserted and + * the index related to the MB just transmitted is loaded into ESR2[LPTM]. + * + * Values: + * - 0 - If ESR2[VPS] is asserted, the ESR2[LPTM] is not an inactive Mailbox. + * - 1 - If ESR2[VPS] is asserted, there is at least one inactive Mailbox. LPTM + * content is the number of the first one. + */ +//@{ +#define BP_CAN_ESR2_IMB (13U) //!< Bit position for CAN_ESR2_IMB. +#define BM_CAN_ESR2_IMB (0x00002000U) //!< Bit mask for CAN_ESR2_IMB. +#define BS_CAN_ESR2_IMB (1U) //!< Bit field size in bits for CAN_ESR2_IMB. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR2_IMB field. +#define BR_CAN_ESR2_IMB(x) (BITBAND_ACCESS32(HW_CAN_ESR2_ADDR(x), BP_CAN_ESR2_IMB)) +#endif +//@} + +/*! + * @name Register CAN_ESR2, field VPS[14] (RO) + * + * This bit indicates whether IMB and LPTM contents are currently valid or not. + * VPS is asserted upon every complete Tx arbitration process unless the CPU + * writes to Control and Status word of a Mailbox that has already been scanned, that + * is, it is behind Tx Arbitration Pointer, during the Tx arbitration process. + * If there is no inactive Mailbox and only one Tx Mailbox that is being + * transmitted then VPS is not asserted. VPS is negated upon the start of every Tx + * arbitration process or upon a write to Control and Status word of any Mailbox. + * ESR2[VPS] is not affected by any CPU write into Control Status (C/S) of a MB that is + * blocked by abort mechanism. When MCR[AEN] is asserted, the abort code write + * in C/S of a MB that is being transmitted (pending abort), or any write attempt + * into a Tx MB with IFLAG set is blocked. + * + * Values: + * - 0 - Contents of IMB and LPTM are invalid. + * - 1 - Contents of IMB and LPTM are valid. + */ +//@{ +#define BP_CAN_ESR2_VPS (14U) //!< Bit position for CAN_ESR2_VPS. +#define BM_CAN_ESR2_VPS (0x00004000U) //!< Bit mask for CAN_ESR2_VPS. +#define BS_CAN_ESR2_VPS (1U) //!< Bit field size in bits for CAN_ESR2_VPS. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR2_VPS field. +#define BR_CAN_ESR2_VPS(x) (BITBAND_ACCESS32(HW_CAN_ESR2_ADDR(x), BP_CAN_ESR2_VPS)) +#endif +//@} + +/*! + * @name Register CAN_ESR2, field LPTM[22:16] (RO) + * + * If ESR2[VPS] is asserted, this field indicates the lowest number inactive + * Mailbox (see the IMB bit description). If there is no inactive Mailbox then the + * Mailbox indicated depends on CTRL1[LBUF] bit value. If CTRL1[LBUF] bit is + * negated then the Mailbox indicated is the one that has the greatest arbitration + * value (see the "Highest priority Mailbox first" section). If CTRL1[LBUF] bit is + * asserted then the Mailbox indicated is the highest number active Tx Mailbox. If + * a Tx Mailbox is being transmitted it is not considered in LPTM calculation. + * If ESR2[IMB] is not asserted and a frame is transmitted successfully, LPTM is + * updated with its Mailbox number. + */ +//@{ +#define BP_CAN_ESR2_LPTM (16U) //!< Bit position for CAN_ESR2_LPTM. +#define BM_CAN_ESR2_LPTM (0x007F0000U) //!< Bit mask for CAN_ESR2_LPTM. +#define BS_CAN_ESR2_LPTM (7U) //!< Bit field size in bits for CAN_ESR2_LPTM. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ESR2_LPTM field. +#define BR_CAN_ESR2_LPTM(x) (HW_CAN_ESR2(x).B.LPTM) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_CRCR - CRC Register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_CRCR - CRC Register (RO) + * + * Reset value: 0x00000000U + * + * This register provides information about the CRC of transmitted messages. + */ +typedef union _hw_can_crcr +{ + uint32_t U; + struct _hw_can_crcr_bitfields + { + uint32_t TXCRC : 15; //!< [14:0] CRC Transmitted + uint32_t RESERVED0 : 1; //!< [15] + uint32_t MBCRC : 7; //!< [22:16] CRC Mailbox + uint32_t RESERVED1 : 9; //!< [31:23] + } B; +} hw_can_crcr_t; +#endif + +/*! + * @name Constants and macros for entire CAN_CRCR register + */ +//@{ +#define HW_CAN_CRCR_ADDR(x) (REGS_CAN_BASE(x) + 0x44U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_CRCR(x) (*(__I hw_can_crcr_t *) HW_CAN_CRCR_ADDR(x)) +#define HW_CAN_CRCR_RD(x) (HW_CAN_CRCR(x).U) +#endif +//@} + +/* + * Constants & macros for individual CAN_CRCR bitfields + */ + +/*! + * @name Register CAN_CRCR, field TXCRC[14:0] (RO) + * + * This field indicates the CRC value of the last message transmitted. This + * field is updated at the same time the Tx Interrupt Flag is asserted. + */ +//@{ +#define BP_CAN_CRCR_TXCRC (0U) //!< Bit position for CAN_CRCR_TXCRC. +#define BM_CAN_CRCR_TXCRC (0x00007FFFU) //!< Bit mask for CAN_CRCR_TXCRC. +#define BS_CAN_CRCR_TXCRC (15U) //!< Bit field size in bits for CAN_CRCR_TXCRC. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CRCR_TXCRC field. +#define BR_CAN_CRCR_TXCRC(x) (HW_CAN_CRCR(x).B.TXCRC) +#endif +//@} + +/*! + * @name Register CAN_CRCR, field MBCRC[22:16] (RO) + * + * This field indicates the number of the Mailbox corresponding to the value in + * TXCRC field. + */ +//@{ +#define BP_CAN_CRCR_MBCRC (16U) //!< Bit position for CAN_CRCR_MBCRC. +#define BM_CAN_CRCR_MBCRC (0x007F0000U) //!< Bit mask for CAN_CRCR_MBCRC. +#define BS_CAN_CRCR_MBCRC (7U) //!< Bit field size in bits for CAN_CRCR_MBCRC. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CRCR_MBCRC field. +#define BR_CAN_CRCR_MBCRC(x) (HW_CAN_CRCR(x).B.MBCRC) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_RXFGMASK - Rx FIFO Global Mask register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_RXFGMASK - Rx FIFO Global Mask register (RW) + * + * Reset value: 0xFFFFFFFFU + * + * This register is located in RAM. If Rx FIFO is enabled RXFGMASK is used to + * mask the Rx FIFO ID Filter Table elements that do not have a corresponding RXIMR + * according to CTRL2[RFFN] field setting. This register can only be written in + * Freeze mode as it is blocked by hardware in other modes. + */ +typedef union _hw_can_rxfgmask +{ + uint32_t U; + struct _hw_can_rxfgmask_bitfields + { + uint32_t FGM : 32; //!< [31:0] Rx FIFO Global Mask Bits + } B; +} hw_can_rxfgmask_t; +#endif + +/*! + * @name Constants and macros for entire CAN_RXFGMASK register + */ +//@{ +#define HW_CAN_RXFGMASK_ADDR(x) (REGS_CAN_BASE(x) + 0x48U) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_RXFGMASK(x) (*(__IO hw_can_rxfgmask_t *) HW_CAN_RXFGMASK_ADDR(x)) +#define HW_CAN_RXFGMASK_RD(x) (HW_CAN_RXFGMASK(x).U) +#define HW_CAN_RXFGMASK_WR(x, v) (HW_CAN_RXFGMASK(x).U = (v)) +#define HW_CAN_RXFGMASK_SET(x, v) (HW_CAN_RXFGMASK_WR(x, HW_CAN_RXFGMASK_RD(x) | (v))) +#define HW_CAN_RXFGMASK_CLR(x, v) (HW_CAN_RXFGMASK_WR(x, HW_CAN_RXFGMASK_RD(x) & ~(v))) +#define HW_CAN_RXFGMASK_TOG(x, v) (HW_CAN_RXFGMASK_WR(x, HW_CAN_RXFGMASK_RD(x) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_RXFGMASK bitfields + */ + +/*! + * @name Register CAN_RXFGMASK, field FGM[31:0] (RW) + * + * These bits mask the ID Filter Table elements bits in a perfect alignment. The + * following table shows how the FGM bits correspond to each IDAF field. Rx FIFO + * ID Filter Table Elements Format (MCR[IDAM]) Identifier Acceptance Filter + * Fields RTR IDE RXIDA RXIDB If MCR[IDAM] field is equivalent to the format B only + * the fourteen most significant bits of the Identifier of the incoming frame are + * compared with the Rx FIFO filter. RXIDC If MCR[IDAM] field is equivalent to + * the format C only the eight most significant bits of the Identifier of the + * incoming frame are compared with the Rx FIFO filter. Reserved A FGM[31] FGM[30] + * FGM[29:1] - - FGM[0] B FGM[31], FGM[15] FGM[30], FGM[14] - FGM[29:16], FGM[13:0] + * - C - - - FGM[31:24], FGM[23:16], FGM[15:8], FGM[7:0] + * + * Values: + * - 0 - The corresponding bit in the filter is "don't care." + * - 1 - The corresponding bit in the filter is checked. + */ +//@{ +#define BP_CAN_RXFGMASK_FGM (0U) //!< Bit position for CAN_RXFGMASK_FGM. +#define BM_CAN_RXFGMASK_FGM (0xFFFFFFFFU) //!< Bit mask for CAN_RXFGMASK_FGM. +#define BS_CAN_RXFGMASK_FGM (32U) //!< Bit field size in bits for CAN_RXFGMASK_FGM. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_RXFGMASK_FGM field. +#define BR_CAN_RXFGMASK_FGM(x) (HW_CAN_RXFGMASK(x).U) +#endif + +//! @brief Format value for bitfield CAN_RXFGMASK_FGM. +#define BF_CAN_RXFGMASK_FGM(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_RXFGMASK_FGM), uint32_t) & BM_CAN_RXFGMASK_FGM) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the FGM field to a new value. +#define BW_CAN_RXFGMASK_FGM(x, v) (HW_CAN_RXFGMASK_WR(x, v)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_RXFIR - Rx FIFO Information Register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_RXFIR - Rx FIFO Information Register (RO) + * + * Reset value: 0x00000000U + * + * RXFIR provides information on Rx FIFO. This register is the port through + * which the CPU accesses the output of the RXFIR FIFO located in RAM. The RXFIR FIFO + * is written by the FlexCAN whenever a new message is moved into the Rx FIFO as + * well as its output is updated whenever the output of the Rx FIFO is updated + * with the next message. See Section "Rx FIFO" for instructions on reading this + * register. + */ +typedef union _hw_can_rxfir +{ + uint32_t U; + struct _hw_can_rxfir_bitfields + { + uint32_t IDHIT : 9; //!< [8:0] Identifier Acceptance Filter Hit + //! Indicator + uint32_t RESERVED0 : 23; //!< [31:9] + } B; +} hw_can_rxfir_t; +#endif + +/*! + * @name Constants and macros for entire CAN_RXFIR register + */ +//@{ +#define HW_CAN_RXFIR_ADDR(x) (REGS_CAN_BASE(x) + 0x4CU) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_RXFIR(x) (*(__I hw_can_rxfir_t *) HW_CAN_RXFIR_ADDR(x)) +#define HW_CAN_RXFIR_RD(x) (HW_CAN_RXFIR(x).U) +#endif +//@} + +/* + * Constants & macros for individual CAN_RXFIR bitfields + */ + +/*! + * @name Register CAN_RXFIR, field IDHIT[8:0] (RO) + * + * This field indicates which Identifier Acceptance Filter was hit by the + * received message that is in the output of the Rx FIFO. If multiple filters match the + * incoming message ID then the first matching IDAF found (lowest number) by the + * matching process is indicated. This field is valid only while the + * IFLAG[BUF5I] is asserted. + */ +//@{ +#define BP_CAN_RXFIR_IDHIT (0U) //!< Bit position for CAN_RXFIR_IDHIT. +#define BM_CAN_RXFIR_IDHIT (0x000001FFU) //!< Bit mask for CAN_RXFIR_IDHIT. +#define BS_CAN_RXFIR_IDHIT (9U) //!< Bit field size in bits for CAN_RXFIR_IDHIT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_RXFIR_IDHIT field. +#define BR_CAN_RXFIR_IDHIT(x) (HW_CAN_RXFIR(x).B.IDHIT) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_CS - Message Buffer 0 CS Register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_CS - Message Buffer 0 CS Register (RW) + * + * Reset value: 0x00000000U + */ +typedef union _hw_can_cs +{ + uint32_t U; + struct _hw_can_cs_bitfields + { + uint32_t TIME_STAMP : 16; //!< [15:0] Free-Running Counter Time + //! stamp. This 16-bit field is a copy of the Free-Running Timer, captured for + //! Tx and Rx frames at the time when the beginning of the Identifier + //! field appears on the CAN bus. + uint32_t DLC : 4; //!< [19:16] Length of the data to be + //! stored/transmitted. + uint32_t RTR : 1; //!< [20] Remote Transmission Request. One/zero for + //! remote/data frame. + uint32_t IDE : 1; //!< [21] ID Extended. One/zero for + //! extended/standard format frame. + uint32_t SRR : 1; //!< [22] Substitute Remote Request. Contains a + //! fixed recessive bit. + uint32_t RESERVED0 : 1; //!< [23] Reserved + uint32_t CODE : 4; //!< [27:24] Reserved + uint32_t RESERVED1 : 4; //!< [31:28] Reserved + } B; +} hw_can_cs_t; +#endif + +/*! + * @name Constants and macros for entire CAN_CS register + */ +//@{ +#define HW_CAN_CS_COUNT (16U) + +#define HW_CAN_CS_ADDR(x, n) (REGS_CAN_BASE(x) + 0x80U + (0x10U * n)) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_CS(x, n) (*(__IO hw_can_cs_t *) HW_CAN_CS_ADDR(x, n)) +#define HW_CAN_CS_RD(x, n) (HW_CAN_CS(x, n).U) +#define HW_CAN_CS_WR(x, n, v) (HW_CAN_CS(x, n).U = (v)) +#define HW_CAN_CS_SET(x, n, v) (HW_CAN_CS_WR(x, n, HW_CAN_CS_RD(x, n) | (v))) +#define HW_CAN_CS_CLR(x, n, v) (HW_CAN_CS_WR(x, n, HW_CAN_CS_RD(x, n) & ~(v))) +#define HW_CAN_CS_TOG(x, n, v) (HW_CAN_CS_WR(x, n, HW_CAN_CS_RD(x, n) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_CS bitfields + */ + +/*! + * @name Register CAN_CS, field TIME_STAMP[15:0] (RW) + */ +//@{ +#define BP_CAN_CS_TIME_STAMP (0U) //!< Bit position for CAN_CS_TIME_STAMP. +#define BM_CAN_CS_TIME_STAMP (0x0000FFFFU) //!< Bit mask for CAN_CS_TIME_STAMP. +#define BS_CAN_CS_TIME_STAMP (16U) //!< Bit field size in bits for CAN_CS_TIME_STAMP. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CS_TIME_STAMP field. +#define BR_CAN_CS_TIME_STAMP(x, n) (HW_CAN_CS(x, n).B.TIME_STAMP) +#endif + +//! @brief Format value for bitfield CAN_CS_TIME_STAMP. +#define BF_CAN_CS_TIME_STAMP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CS_TIME_STAMP), uint32_t) & BM_CAN_CS_TIME_STAMP) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the TIME_STAMP field to a new value. +#define BW_CAN_CS_TIME_STAMP(x, n, v) (HW_CAN_CS_WR(x, n, (HW_CAN_CS_RD(x, n) & ~BM_CAN_CS_TIME_STAMP) | BF_CAN_CS_TIME_STAMP(v))) +#endif +//@} + +/*! + * @name Register CAN_CS, field DLC[19:16] (RW) + */ +//@{ +#define BP_CAN_CS_DLC (16U) //!< Bit position for CAN_CS_DLC. +#define BM_CAN_CS_DLC (0x000F0000U) //!< Bit mask for CAN_CS_DLC. +#define BS_CAN_CS_DLC (4U) //!< Bit field size in bits for CAN_CS_DLC. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CS_DLC field. +#define BR_CAN_CS_DLC(x, n) (HW_CAN_CS(x, n).B.DLC) +#endif + +//! @brief Format value for bitfield CAN_CS_DLC. +#define BF_CAN_CS_DLC(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CS_DLC), uint32_t) & BM_CAN_CS_DLC) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DLC field to a new value. +#define BW_CAN_CS_DLC(x, n, v) (HW_CAN_CS_WR(x, n, (HW_CAN_CS_RD(x, n) & ~BM_CAN_CS_DLC) | BF_CAN_CS_DLC(v))) +#endif +//@} + +/*! + * @name Register CAN_CS, field RTR[20] (RW) + */ +//@{ +#define BP_CAN_CS_RTR (20U) //!< Bit position for CAN_CS_RTR. +#define BM_CAN_CS_RTR (0x00100000U) //!< Bit mask for CAN_CS_RTR. +#define BS_CAN_CS_RTR (1U) //!< Bit field size in bits for CAN_CS_RTR. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CS_RTR field. +#define BR_CAN_CS_RTR(x, n) (BITBAND_ACCESS32(HW_CAN_CS_ADDR(x, n), BP_CAN_CS_RTR)) +#endif + +//! @brief Format value for bitfield CAN_CS_RTR. +#define BF_CAN_CS_RTR(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CS_RTR), uint32_t) & BM_CAN_CS_RTR) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the RTR field to a new value. +#define BW_CAN_CS_RTR(x, n, v) (BITBAND_ACCESS32(HW_CAN_CS_ADDR(x, n), BP_CAN_CS_RTR) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CS, field IDE[21] (RW) + */ +//@{ +#define BP_CAN_CS_IDE (21U) //!< Bit position for CAN_CS_IDE. +#define BM_CAN_CS_IDE (0x00200000U) //!< Bit mask for CAN_CS_IDE. +#define BS_CAN_CS_IDE (1U) //!< Bit field size in bits for CAN_CS_IDE. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CS_IDE field. +#define BR_CAN_CS_IDE(x, n) (BITBAND_ACCESS32(HW_CAN_CS_ADDR(x, n), BP_CAN_CS_IDE)) +#endif + +//! @brief Format value for bitfield CAN_CS_IDE. +#define BF_CAN_CS_IDE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CS_IDE), uint32_t) & BM_CAN_CS_IDE) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the IDE field to a new value. +#define BW_CAN_CS_IDE(x, n, v) (BITBAND_ACCESS32(HW_CAN_CS_ADDR(x, n), BP_CAN_CS_IDE) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CS, field SRR[22] (RW) + */ +//@{ +#define BP_CAN_CS_SRR (22U) //!< Bit position for CAN_CS_SRR. +#define BM_CAN_CS_SRR (0x00400000U) //!< Bit mask for CAN_CS_SRR. +#define BS_CAN_CS_SRR (1U) //!< Bit field size in bits for CAN_CS_SRR. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CS_SRR field. +#define BR_CAN_CS_SRR(x, n) (BITBAND_ACCESS32(HW_CAN_CS_ADDR(x, n), BP_CAN_CS_SRR)) +#endif + +//! @brief Format value for bitfield CAN_CS_SRR. +#define BF_CAN_CS_SRR(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CS_SRR), uint32_t) & BM_CAN_CS_SRR) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the SRR field to a new value. +#define BW_CAN_CS_SRR(x, n, v) (BITBAND_ACCESS32(HW_CAN_CS_ADDR(x, n), BP_CAN_CS_SRR) = (v)) +#endif +//@} + +/*! + * @name Register CAN_CS, field CODE[27:24] (RW) + */ +//@{ +#define BP_CAN_CS_CODE (24U) //!< Bit position for CAN_CS_CODE. +#define BM_CAN_CS_CODE (0x0F000000U) //!< Bit mask for CAN_CS_CODE. +#define BS_CAN_CS_CODE (4U) //!< Bit field size in bits for CAN_CS_CODE. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_CS_CODE field. +#define BR_CAN_CS_CODE(x, n) (HW_CAN_CS(x, n).B.CODE) +#endif + +//! @brief Format value for bitfield CAN_CS_CODE. +#define BF_CAN_CS_CODE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_CS_CODE), uint32_t) & BM_CAN_CS_CODE) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the CODE field to a new value. +#define BW_CAN_CS_CODE(x, n, v) (HW_CAN_CS_WR(x, n, (HW_CAN_CS_RD(x, n) & ~BM_CAN_CS_CODE) | BF_CAN_CS_CODE(v))) +#endif +//@} +//------------------------------------------------------------------------------------------- +// HW_CAN_ID - Message Buffer 0 ID Register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_ID - Message Buffer 0 ID Register (RW) + * + * Reset value: 0x00000000U + */ +typedef union _hw_can_id +{ + uint32_t U; + struct _hw_can_id_bitfields + { + uint32_t EXT : 18; //!< [17:0] Contains extended (LOW word) + //! identifier of message buffer. + uint32_t STD : 11; //!< [28:18] Contains standard/extended (HIGH + //! word) identifier of message buffer. + uint32_t PRIO : 3; //!< [31:29] Local priority. This 3-bit fieldis + //! only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx + //! buffers. These bits are not transmitted. They are appended to the + //! regular ID to define the transmission priority. + } B; +} hw_can_id_t; +#endif + +/*! + * @name Constants and macros for entire CAN_ID register + */ +//@{ +#define HW_CAN_ID_COUNT (16U) + +#define HW_CAN_ID_ADDR(x, n) (REGS_CAN_BASE(x) + 0x84U + (0x10U * n)) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_ID(x, n) (*(__IO hw_can_id_t *) HW_CAN_ID_ADDR(x, n)) +#define HW_CAN_ID_RD(x, n) (HW_CAN_ID(x, n).U) +#define HW_CAN_ID_WR(x, n, v) (HW_CAN_ID(x, n).U = (v)) +#define HW_CAN_ID_SET(x, n, v) (HW_CAN_ID_WR(x, n, HW_CAN_ID_RD(x, n) | (v))) +#define HW_CAN_ID_CLR(x, n, v) (HW_CAN_ID_WR(x, n, HW_CAN_ID_RD(x, n) & ~(v))) +#define HW_CAN_ID_TOG(x, n, v) (HW_CAN_ID_WR(x, n, HW_CAN_ID_RD(x, n) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_ID bitfields + */ + +/*! + * @name Register CAN_ID, field EXT[17:0] (RW) + */ +//@{ +#define BP_CAN_ID_EXT (0U) //!< Bit position for CAN_ID_EXT. +#define BM_CAN_ID_EXT (0x0003FFFFU) //!< Bit mask for CAN_ID_EXT. +#define BS_CAN_ID_EXT (18U) //!< Bit field size in bits for CAN_ID_EXT. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ID_EXT field. +#define BR_CAN_ID_EXT(x, n) (HW_CAN_ID(x, n).B.EXT) +#endif + +//! @brief Format value for bitfield CAN_ID_EXT. +#define BF_CAN_ID_EXT(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ID_EXT), uint32_t) & BM_CAN_ID_EXT) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the EXT field to a new value. +#define BW_CAN_ID_EXT(x, n, v) (HW_CAN_ID_WR(x, n, (HW_CAN_ID_RD(x, n) & ~BM_CAN_ID_EXT) | BF_CAN_ID_EXT(v))) +#endif +//@} + +/*! + * @name Register CAN_ID, field STD[28:18] (RW) + */ +//@{ +#define BP_CAN_ID_STD (18U) //!< Bit position for CAN_ID_STD. +#define BM_CAN_ID_STD (0x1FFC0000U) //!< Bit mask for CAN_ID_STD. +#define BS_CAN_ID_STD (11U) //!< Bit field size in bits for CAN_ID_STD. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ID_STD field. +#define BR_CAN_ID_STD(x, n) (HW_CAN_ID(x, n).B.STD) +#endif + +//! @brief Format value for bitfield CAN_ID_STD. +#define BF_CAN_ID_STD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ID_STD), uint32_t) & BM_CAN_ID_STD) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the STD field to a new value. +#define BW_CAN_ID_STD(x, n, v) (HW_CAN_ID_WR(x, n, (HW_CAN_ID_RD(x, n) & ~BM_CAN_ID_STD) | BF_CAN_ID_STD(v))) +#endif +//@} + +/*! + * @name Register CAN_ID, field PRIO[31:29] (RW) + */ +//@{ +#define BP_CAN_ID_PRIO (29U) //!< Bit position for CAN_ID_PRIO. +#define BM_CAN_ID_PRIO (0xE0000000U) //!< Bit mask for CAN_ID_PRIO. +#define BS_CAN_ID_PRIO (3U) //!< Bit field size in bits for CAN_ID_PRIO. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_ID_PRIO field. +#define BR_CAN_ID_PRIO(x, n) (HW_CAN_ID(x, n).B.PRIO) +#endif + +//! @brief Format value for bitfield CAN_ID_PRIO. +#define BF_CAN_ID_PRIO(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_ID_PRIO), uint32_t) & BM_CAN_ID_PRIO) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the PRIO field to a new value. +#define BW_CAN_ID_PRIO(x, n, v) (HW_CAN_ID_WR(x, n, (HW_CAN_ID_RD(x, n) & ~BM_CAN_ID_PRIO) | BF_CAN_ID_PRIO(v))) +#endif +//@} +//------------------------------------------------------------------------------------------- +// HW_CAN_WORD0 - Message Buffer 0 WORD0 Register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_WORD0 - Message Buffer 0 WORD0 Register (RW) + * + * Reset value: 0x00000000U + */ +typedef union _hw_can_word0 +{ + uint32_t U; + struct _hw_can_word0_bitfields + { + uint32_t DATA_BYTE_3 : 8; //!< [7:0] Data byte 3 of Rx/Tx frame. + uint32_t DATA_BYTE_2 : 8; //!< [15:8] Data byte 2 of Rx/Tx frame. + uint32_t DATA_BYTE_1 : 8; //!< [23:16] Data byte 1 of Rx/Tx frame. + uint32_t DATA_BYTE_0 : 8; //!< [31:24] Data byte 0 of Rx/Tx frame. + } B; +} hw_can_word0_t; +#endif + +/*! + * @name Constants and macros for entire CAN_WORD0 register + */ +//@{ +#define HW_CAN_WORD0_COUNT (16U) + +#define HW_CAN_WORD0_ADDR(x, n) (REGS_CAN_BASE(x) + 0x88U + (0x10U * n)) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_WORD0(x, n) (*(__IO hw_can_word0_t *) HW_CAN_WORD0_ADDR(x, n)) +#define HW_CAN_WORD0_RD(x, n) (HW_CAN_WORD0(x, n).U) +#define HW_CAN_WORD0_WR(x, n, v) (HW_CAN_WORD0(x, n).U = (v)) +#define HW_CAN_WORD0_SET(x, n, v) (HW_CAN_WORD0_WR(x, n, HW_CAN_WORD0_RD(x, n) | (v))) +#define HW_CAN_WORD0_CLR(x, n, v) (HW_CAN_WORD0_WR(x, n, HW_CAN_WORD0_RD(x, n) & ~(v))) +#define HW_CAN_WORD0_TOG(x, n, v) (HW_CAN_WORD0_WR(x, n, HW_CAN_WORD0_RD(x, n) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_WORD0 bitfields + */ + +/*! + * @name Register CAN_WORD0, field DATA_BYTE_3[7:0] (RW) + */ +//@{ +#define BP_CAN_WORD0_DATA_BYTE_3 (0U) //!< Bit position for CAN_WORD0_DATA_BYTE_3. +#define BM_CAN_WORD0_DATA_BYTE_3 (0x000000FFU) //!< Bit mask for CAN_WORD0_DATA_BYTE_3. +#define BS_CAN_WORD0_DATA_BYTE_3 (8U) //!< Bit field size in bits for CAN_WORD0_DATA_BYTE_3. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_WORD0_DATA_BYTE_3 field. +#define BR_CAN_WORD0_DATA_BYTE_3(x, n) (HW_CAN_WORD0(x, n).B.DATA_BYTE_3) +#endif + +//! @brief Format value for bitfield CAN_WORD0_DATA_BYTE_3. +#define BF_CAN_WORD0_DATA_BYTE_3(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_WORD0_DATA_BYTE_3), uint32_t) & BM_CAN_WORD0_DATA_BYTE_3) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DATA_BYTE_3 field to a new value. +#define BW_CAN_WORD0_DATA_BYTE_3(x, n, v) (HW_CAN_WORD0_WR(x, n, (HW_CAN_WORD0_RD(x, n) & ~BM_CAN_WORD0_DATA_BYTE_3) | BF_CAN_WORD0_DATA_BYTE_3(v))) +#endif +//@} + +/*! + * @name Register CAN_WORD0, field DATA_BYTE_2[15:8] (RW) + */ +//@{ +#define BP_CAN_WORD0_DATA_BYTE_2 (8U) //!< Bit position for CAN_WORD0_DATA_BYTE_2. +#define BM_CAN_WORD0_DATA_BYTE_2 (0x0000FF00U) //!< Bit mask for CAN_WORD0_DATA_BYTE_2. +#define BS_CAN_WORD0_DATA_BYTE_2 (8U) //!< Bit field size in bits for CAN_WORD0_DATA_BYTE_2. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_WORD0_DATA_BYTE_2 field. +#define BR_CAN_WORD0_DATA_BYTE_2(x, n) (HW_CAN_WORD0(x, n).B.DATA_BYTE_2) +#endif + +//! @brief Format value for bitfield CAN_WORD0_DATA_BYTE_2. +#define BF_CAN_WORD0_DATA_BYTE_2(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_WORD0_DATA_BYTE_2), uint32_t) & BM_CAN_WORD0_DATA_BYTE_2) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DATA_BYTE_2 field to a new value. +#define BW_CAN_WORD0_DATA_BYTE_2(x, n, v) (HW_CAN_WORD0_WR(x, n, (HW_CAN_WORD0_RD(x, n) & ~BM_CAN_WORD0_DATA_BYTE_2) | BF_CAN_WORD0_DATA_BYTE_2(v))) +#endif +//@} + +/*! + * @name Register CAN_WORD0, field DATA_BYTE_1[23:16] (RW) + */ +//@{ +#define BP_CAN_WORD0_DATA_BYTE_1 (16U) //!< Bit position for CAN_WORD0_DATA_BYTE_1. +#define BM_CAN_WORD0_DATA_BYTE_1 (0x00FF0000U) //!< Bit mask for CAN_WORD0_DATA_BYTE_1. +#define BS_CAN_WORD0_DATA_BYTE_1 (8U) //!< Bit field size in bits for CAN_WORD0_DATA_BYTE_1. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_WORD0_DATA_BYTE_1 field. +#define BR_CAN_WORD0_DATA_BYTE_1(x, n) (HW_CAN_WORD0(x, n).B.DATA_BYTE_1) +#endif + +//! @brief Format value for bitfield CAN_WORD0_DATA_BYTE_1. +#define BF_CAN_WORD0_DATA_BYTE_1(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_WORD0_DATA_BYTE_1), uint32_t) & BM_CAN_WORD0_DATA_BYTE_1) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DATA_BYTE_1 field to a new value. +#define BW_CAN_WORD0_DATA_BYTE_1(x, n, v) (HW_CAN_WORD0_WR(x, n, (HW_CAN_WORD0_RD(x, n) & ~BM_CAN_WORD0_DATA_BYTE_1) | BF_CAN_WORD0_DATA_BYTE_1(v))) +#endif +//@} + +/*! + * @name Register CAN_WORD0, field DATA_BYTE_0[31:24] (RW) + */ +//@{ +#define BP_CAN_WORD0_DATA_BYTE_0 (24U) //!< Bit position for CAN_WORD0_DATA_BYTE_0. +#define BM_CAN_WORD0_DATA_BYTE_0 (0xFF000000U) //!< Bit mask for CAN_WORD0_DATA_BYTE_0. +#define BS_CAN_WORD0_DATA_BYTE_0 (8U) //!< Bit field size in bits for CAN_WORD0_DATA_BYTE_0. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_WORD0_DATA_BYTE_0 field. +#define BR_CAN_WORD0_DATA_BYTE_0(x, n) (HW_CAN_WORD0(x, n).B.DATA_BYTE_0) +#endif + +//! @brief Format value for bitfield CAN_WORD0_DATA_BYTE_0. +#define BF_CAN_WORD0_DATA_BYTE_0(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_WORD0_DATA_BYTE_0), uint32_t) & BM_CAN_WORD0_DATA_BYTE_0) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DATA_BYTE_0 field to a new value. +#define BW_CAN_WORD0_DATA_BYTE_0(x, n, v) (HW_CAN_WORD0_WR(x, n, (HW_CAN_WORD0_RD(x, n) & ~BM_CAN_WORD0_DATA_BYTE_0) | BF_CAN_WORD0_DATA_BYTE_0(v))) +#endif +//@} +//------------------------------------------------------------------------------------------- +// HW_CAN_WORD1 - Message Buffer 0 WORD1 Register +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_WORD1 - Message Buffer 0 WORD1 Register (RW) + * + * Reset value: 0x00000000U + */ +typedef union _hw_can_word1 +{ + uint32_t U; + struct _hw_can_word1_bitfields + { + uint32_t DATA_BYTE_7 : 8; //!< [7:0] Data byte 7 of Rx/Tx frame. + uint32_t DATA_BYTE_6 : 8; //!< [15:8] Data byte 6 of Rx/Tx frame. + uint32_t DATA_BYTE_5 : 8; //!< [23:16] Data byte 5 of Rx/Tx frame. + uint32_t DATA_BYTE_4 : 8; //!< [31:24] Data byte 4 of Rx/Tx frame. + } B; +} hw_can_word1_t; +#endif + +/*! + * @name Constants and macros for entire CAN_WORD1 register + */ +//@{ +#define HW_CAN_WORD1_COUNT (16U) + +#define HW_CAN_WORD1_ADDR(x, n) (REGS_CAN_BASE(x) + 0x8CU + (0x10U * n)) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_WORD1(x, n) (*(__IO hw_can_word1_t *) HW_CAN_WORD1_ADDR(x, n)) +#define HW_CAN_WORD1_RD(x, n) (HW_CAN_WORD1(x, n).U) +#define HW_CAN_WORD1_WR(x, n, v) (HW_CAN_WORD1(x, n).U = (v)) +#define HW_CAN_WORD1_SET(x, n, v) (HW_CAN_WORD1_WR(x, n, HW_CAN_WORD1_RD(x, n) | (v))) +#define HW_CAN_WORD1_CLR(x, n, v) (HW_CAN_WORD1_WR(x, n, HW_CAN_WORD1_RD(x, n) & ~(v))) +#define HW_CAN_WORD1_TOG(x, n, v) (HW_CAN_WORD1_WR(x, n, HW_CAN_WORD1_RD(x, n) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_WORD1 bitfields + */ + +/*! + * @name Register CAN_WORD1, field DATA_BYTE_7[7:0] (RW) + */ +//@{ +#define BP_CAN_WORD1_DATA_BYTE_7 (0U) //!< Bit position for CAN_WORD1_DATA_BYTE_7. +#define BM_CAN_WORD1_DATA_BYTE_7 (0x000000FFU) //!< Bit mask for CAN_WORD1_DATA_BYTE_7. +#define BS_CAN_WORD1_DATA_BYTE_7 (8U) //!< Bit field size in bits for CAN_WORD1_DATA_BYTE_7. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_WORD1_DATA_BYTE_7 field. +#define BR_CAN_WORD1_DATA_BYTE_7(x, n) (HW_CAN_WORD1(x, n).B.DATA_BYTE_7) +#endif + +//! @brief Format value for bitfield CAN_WORD1_DATA_BYTE_7. +#define BF_CAN_WORD1_DATA_BYTE_7(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_WORD1_DATA_BYTE_7), uint32_t) & BM_CAN_WORD1_DATA_BYTE_7) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DATA_BYTE_7 field to a new value. +#define BW_CAN_WORD1_DATA_BYTE_7(x, n, v) (HW_CAN_WORD1_WR(x, n, (HW_CAN_WORD1_RD(x, n) & ~BM_CAN_WORD1_DATA_BYTE_7) | BF_CAN_WORD1_DATA_BYTE_7(v))) +#endif +//@} + +/*! + * @name Register CAN_WORD1, field DATA_BYTE_6[15:8] (RW) + */ +//@{ +#define BP_CAN_WORD1_DATA_BYTE_6 (8U) //!< Bit position for CAN_WORD1_DATA_BYTE_6. +#define BM_CAN_WORD1_DATA_BYTE_6 (0x0000FF00U) //!< Bit mask for CAN_WORD1_DATA_BYTE_6. +#define BS_CAN_WORD1_DATA_BYTE_6 (8U) //!< Bit field size in bits for CAN_WORD1_DATA_BYTE_6. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_WORD1_DATA_BYTE_6 field. +#define BR_CAN_WORD1_DATA_BYTE_6(x, n) (HW_CAN_WORD1(x, n).B.DATA_BYTE_6) +#endif + +//! @brief Format value for bitfield CAN_WORD1_DATA_BYTE_6. +#define BF_CAN_WORD1_DATA_BYTE_6(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_WORD1_DATA_BYTE_6), uint32_t) & BM_CAN_WORD1_DATA_BYTE_6) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DATA_BYTE_6 field to a new value. +#define BW_CAN_WORD1_DATA_BYTE_6(x, n, v) (HW_CAN_WORD1_WR(x, n, (HW_CAN_WORD1_RD(x, n) & ~BM_CAN_WORD1_DATA_BYTE_6) | BF_CAN_WORD1_DATA_BYTE_6(v))) +#endif +//@} + +/*! + * @name Register CAN_WORD1, field DATA_BYTE_5[23:16] (RW) + */ +//@{ +#define BP_CAN_WORD1_DATA_BYTE_5 (16U) //!< Bit position for CAN_WORD1_DATA_BYTE_5. +#define BM_CAN_WORD1_DATA_BYTE_5 (0x00FF0000U) //!< Bit mask for CAN_WORD1_DATA_BYTE_5. +#define BS_CAN_WORD1_DATA_BYTE_5 (8U) //!< Bit field size in bits for CAN_WORD1_DATA_BYTE_5. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_WORD1_DATA_BYTE_5 field. +#define BR_CAN_WORD1_DATA_BYTE_5(x, n) (HW_CAN_WORD1(x, n).B.DATA_BYTE_5) +#endif + +//! @brief Format value for bitfield CAN_WORD1_DATA_BYTE_5. +#define BF_CAN_WORD1_DATA_BYTE_5(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_WORD1_DATA_BYTE_5), uint32_t) & BM_CAN_WORD1_DATA_BYTE_5) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DATA_BYTE_5 field to a new value. +#define BW_CAN_WORD1_DATA_BYTE_5(x, n, v) (HW_CAN_WORD1_WR(x, n, (HW_CAN_WORD1_RD(x, n) & ~BM_CAN_WORD1_DATA_BYTE_5) | BF_CAN_WORD1_DATA_BYTE_5(v))) +#endif +//@} + +/*! + * @name Register CAN_WORD1, field DATA_BYTE_4[31:24] (RW) + */ +//@{ +#define BP_CAN_WORD1_DATA_BYTE_4 (24U) //!< Bit position for CAN_WORD1_DATA_BYTE_4. +#define BM_CAN_WORD1_DATA_BYTE_4 (0xFF000000U) //!< Bit mask for CAN_WORD1_DATA_BYTE_4. +#define BS_CAN_WORD1_DATA_BYTE_4 (8U) //!< Bit field size in bits for CAN_WORD1_DATA_BYTE_4. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_WORD1_DATA_BYTE_4 field. +#define BR_CAN_WORD1_DATA_BYTE_4(x, n) (HW_CAN_WORD1(x, n).B.DATA_BYTE_4) +#endif + +//! @brief Format value for bitfield CAN_WORD1_DATA_BYTE_4. +#define BF_CAN_WORD1_DATA_BYTE_4(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_WORD1_DATA_BYTE_4), uint32_t) & BM_CAN_WORD1_DATA_BYTE_4) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the DATA_BYTE_4 field to a new value. +#define BW_CAN_WORD1_DATA_BYTE_4(x, n, v) (HW_CAN_WORD1_WR(x, n, (HW_CAN_WORD1_RD(x, n) & ~BM_CAN_WORD1_DATA_BYTE_4) | BF_CAN_WORD1_DATA_BYTE_4(v))) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// HW_CAN_RXIMRn - Rx Individual Mask Registers +//------------------------------------------------------------------------------------------- + +#ifndef __LANGUAGE_ASM__ +/*! + * @brief HW_CAN_RXIMRn - Rx Individual Mask Registers (RW) + * + * Reset value: 0x00000000U + * + * These registers are located in RAM. RXIMR are used as acceptance masks for ID + * filtering in Rx MBs and the Rx FIFO. If the Rx FIFO is not enabled, one mask + * register is provided for each available Mailbox, providing ID masking + * capability on a per Mailbox basis. When the Rx FIFO is enabled (MCR[RFEN] bit is + * asserted), up to 32 Rx Individual Mask Registers can apply to the Rx FIFO ID Filter + * Table elements on a one-to-one correspondence depending on the setting of + * CTRL2[RFFN]. RXIMR can only be written by the CPU while the module is in Freeze + * mode; otherwise, they are blocked by hardware. The Individual Rx Mask Registers + * are not affected by reset and must be explicitly initialized prior to any + * reception. + */ +typedef union _hw_can_rximrn +{ + uint32_t U; + struct _hw_can_rximrn_bitfields + { + uint32_t MI : 32; //!< [31:0] Individual Mask Bits + } B; +} hw_can_rximrn_t; +#endif + +/*! + * @name Constants and macros for entire CAN_RXIMRn register + */ +//@{ +#define HW_CAN_RXIMRn_COUNT (16U) + +#define HW_CAN_RXIMRn_ADDR(x, n) (REGS_CAN_BASE(x) + 0x880U + (0x4U * n)) + +#ifndef __LANGUAGE_ASM__ +#define HW_CAN_RXIMRn(x, n) (*(__IO hw_can_rximrn_t *) HW_CAN_RXIMRn_ADDR(x, n)) +#define HW_CAN_RXIMRn_RD(x, n) (HW_CAN_RXIMRn(x, n).U) +#define HW_CAN_RXIMRn_WR(x, n, v) (HW_CAN_RXIMRn(x, n).U = (v)) +#define HW_CAN_RXIMRn_SET(x, n, v) (HW_CAN_RXIMRn_WR(x, n, HW_CAN_RXIMRn_RD(x, n) | (v))) +#define HW_CAN_RXIMRn_CLR(x, n, v) (HW_CAN_RXIMRn_WR(x, n, HW_CAN_RXIMRn_RD(x, n) & ~(v))) +#define HW_CAN_RXIMRn_TOG(x, n, v) (HW_CAN_RXIMRn_WR(x, n, HW_CAN_RXIMRn_RD(x, n) ^ (v))) +#endif +//@} + +/* + * Constants & macros for individual CAN_RXIMRn bitfields + */ + +/*! + * @name Register CAN_RXIMRn, field MI[31:0] (RW) + * + * Each Individual Mask Bit masks the corresponding bit in both the Mailbox + * filter and Rx FIFO ID Filter Table element in distinct ways. For Mailbox filters, + * see the RXMGMASK register description. For Rx FIFO ID Filter Table elements, + * see the RXFGMASK register description. + * + * Values: + * - 0 - The corresponding bit in the filter is "don't care." + * - 1 - The corresponding bit in the filter is checked. + */ +//@{ +#define BP_CAN_RXIMRn_MI (0U) //!< Bit position for CAN_RXIMRn_MI. +#define BM_CAN_RXIMRn_MI (0xFFFFFFFFU) //!< Bit mask for CAN_RXIMRn_MI. +#define BS_CAN_RXIMRn_MI (32U) //!< Bit field size in bits for CAN_RXIMRn_MI. + +#ifndef __LANGUAGE_ASM__ +//! @brief Read current value of the CAN_RXIMRn_MI field. +#define BR_CAN_RXIMRn_MI(x, n) (HW_CAN_RXIMRn(x, n).U) +#endif + +//! @brief Format value for bitfield CAN_RXIMRn_MI. +#define BF_CAN_RXIMRn_MI(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_CAN_RXIMRn_MI), uint32_t) & BM_CAN_RXIMRn_MI) + +#ifndef __LANGUAGE_ASM__ +//! @brief Set the MI field to a new value. +#define BW_CAN_RXIMRn_MI(x, n, v) (HW_CAN_RXIMRn_WR(x, n, v)) +#endif +//@} + +//------------------------------------------------------------------------------------------- +// hw_can_t - module struct +//------------------------------------------------------------------------------------------- +/*! + * @brief All CAN module registers. + */ +#ifndef __LANGUAGE_ASM__ +#pragma pack(1) +typedef struct _hw_can +{ + __IO hw_can_mcr_t MCR; //!< [0x0] Module Configuration Register + __IO hw_can_ctrl1_t CTRL1; //!< [0x4] Control 1 register + __IO hw_can_timer_t TIMER; //!< [0x8] Free Running Timer + uint8_t _reserved0[4]; + __IO hw_can_rxmgmask_t RXMGMASK; //!< [0x10] Rx Mailboxes Global Mask Register + __IO hw_can_rx14mask_t RX14MASK; //!< [0x14] Rx 14 Mask register + __IO hw_can_rx15mask_t RX15MASK; //!< [0x18] Rx 15 Mask register + __IO hw_can_ecr_t ECR; //!< [0x1C] Error Counter + __IO hw_can_esr1_t ESR1; //!< [0x20] Error and Status 1 register + uint8_t _reserved1[4]; + __IO hw_can_imask1_t IMASK1; //!< [0x28] Interrupt Masks 1 register + uint8_t _reserved2[4]; + __IO hw_can_iflag1_t IFLAG1; //!< [0x30] Interrupt Flags 1 register + __IO hw_can_ctrl2_t CTRL2; //!< [0x34] Control 2 register + __I hw_can_esr2_t ESR2; //!< [0x38] Error and Status 2 register + uint8_t _reserved3[8]; + __I hw_can_crcr_t CRCR; //!< [0x44] CRC Register + __IO hw_can_rxfgmask_t RXFGMASK; //!< [0x48] Rx FIFO Global Mask register + __I hw_can_rxfir_t RXFIR; //!< [0x4C] Rx FIFO Information Register + uint8_t _reserved4[48]; + struct { + __IO hw_can_cs_t CS; //!< [0x80] Message Buffer 0 CS Register + __IO hw_can_id_t ID; //!< [0x84] Message Buffer 0 ID Register + __IO hw_can_word0_t WORD0; //!< [0x88] Message Buffer 0 WORD0 Register + __IO hw_can_word1_t WORD1; //!< [0x8C] Message Buffer 0 WORD1 Register + } MB[16]; + uint8_t _reserved5[1792]; + __IO hw_can_rximrn_t RXIMRn[16]; //!< [0x880] Rx Individual Mask Registers +} hw_can_t; +#pragma pack() + +//! @brief Macro to access all CAN registers. +//! @param x CAN instance number. +//! @return Reference (not a pointer) to the registers struct. To get a pointer to the struct, +//! use the '&' operator, like <code>&HW_CAN(0)</code>. +#define HW_CAN(x) (*(hw_can_t *) REGS_CAN_BASE(x)) +#endif + +#endif // __HW_CAN_REGISTERS_H__ +// v22/130726/0.9 +// EOF