mirror of
https://github.com/espressif/esp-idf.git
synced 2024-10-05 20:47:46 -04:00
874a720286
update all struct headers to be more "standardized": - bit fields are properly wrapped with struct - bitwidth sum should be 32 within same struct, so that it's correctly padded with reserved bits - bit field should be uint32_t - typedef volatile struct xxx{} yyy;: xxx must exists. refer: https://github.com/espressif/esp-idf/pull/3199 added helper macros to force peripheral registers being accessed in 32 bitwidth added a check script into ci
670 lines
22 KiB
C
670 lines
22 KiB
C
// Copyright 2021 Espressif Systems (Shanghai) PTE LTD
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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/*******************************************************************************
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* NOTICE
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* The ll is not public api, don't use in application code.
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* See readme.md in hal/include/hal/readme.md
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******************************************************************************/
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// The Lowlevel layer for TWAI
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#pragma once
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <stdint.h>
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#include <stdbool.h>
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#include "hal/misc.h"
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#include "hal/twai_types.h"
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#include "soc/twai_periph.h"
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#include "soc/twai_struct.h"
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/* ------------------------- Defines and Typedefs --------------------------- */
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#define TWAI_LL_STATUS_RBS (0x1 << 0) //Receive Buffer Status
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#define TWAI_LL_STATUS_DOS (0x1 << 1) //Data Overrun Status
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#define TWAI_LL_STATUS_TBS (0x1 << 2) //Transmit Buffer Status
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#define TWAI_LL_STATUS_TCS (0x1 << 3) //Transmission Complete Status
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#define TWAI_LL_STATUS_RS (0x1 << 4) //Receive Status
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#define TWAI_LL_STATUS_TS (0x1 << 5) //Transmit Status
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#define TWAI_LL_STATUS_ES (0x1 << 6) //Error Status
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#define TWAI_LL_STATUS_BS (0x1 << 7) //Bus Status
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#define TWAI_LL_STATUS_MS (0x1 << 8) //Miss Status
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#define TWAI_LL_INTR_RI (0x1 << 0) //Receive Interrupt
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#define TWAI_LL_INTR_TI (0x1 << 1) //Transmit Interrupt
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#define TWAI_LL_INTR_EI (0x1 << 2) //Error Interrupt
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//Data overrun interrupt not supported in SW due to HW peculiarities
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#define TWAI_LL_INTR_EPI (0x1 << 5) //Error Passive Interrupt
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#define TWAI_LL_INTR_ALI (0x1 << 6) //Arbitration Lost Interrupt
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#define TWAI_LL_INTR_BEI (0x1 << 7) //Bus Error Interrupt
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/*
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* The following frame structure has an NEARLY identical bit field layout to
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* each byte of the TX buffer. This allows for formatting and parsing frames to
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* be done outside of time critical regions (i.e., ISRs). All the ISR needs to
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* do is to copy byte by byte to/from the TX/RX buffer. The two reserved bits in
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* TX buffer are used in the frame structure to store the self_reception and
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* single_shot flags which in turn indicate the type of transmission to execute.
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*/
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typedef union {
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struct {
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struct {
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uint8_t dlc: 4; //Data length code (0 to 8) of the frame
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uint8_t self_reception: 1; //This frame should be transmitted using self reception command
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uint8_t single_shot: 1; //This frame should be transmitted using single shot command
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uint8_t rtr: 1; //This frame is a remote transmission request
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uint8_t frame_format: 1; //Format of the frame (1 = extended, 0 = standard)
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};
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union {
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struct {
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uint8_t id[2]; //11 bit standard frame identifier
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uint8_t data[8]; //Data bytes (0 to 8)
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uint8_t reserved8[2];
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} standard;
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struct {
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uint8_t id[4]; //29 bit extended frame identifier
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uint8_t data[8]; //Data bytes (0 to 8)
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} extended;
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};
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};
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uint8_t bytes[13];
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} __attribute__((packed)) twai_ll_frame_buffer_t;
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_Static_assert(sizeof(twai_ll_frame_buffer_t) == 13, "TX/RX buffer type should be 13 bytes");
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/* ---------------------------- Mode Register ------------------------------- */
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/**
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* @brief Enter reset mode
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*
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* When in reset mode, the TWAI controller is effectively disconnected from the
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* TWAI bus and will not participate in any bus activates. Reset mode is required
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* in order to write the majority of configuration registers.
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*
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* @param hw Start address of the TWAI registers
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*
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* @note Reset mode is automatically entered on BUS OFF condition
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*/
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static inline void twai_ll_enter_reset_mode(twai_dev_t *hw)
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{
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hw->mode_reg.rm = 1;
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}
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/**
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* @brief Exit reset mode
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*
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* When not in reset mode, the TWAI controller will take part in bus activities
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* (e.g., send/receive/acknowledge messages and error frames) depending on the
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* operating mode.
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*
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* @param hw Start address of the TWAI registers
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*
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* @note Reset mode must be exit to initiate BUS OFF recovery
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*/
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static inline void twai_ll_exit_reset_mode(twai_dev_t *hw)
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{
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hw->mode_reg.rm = 0;
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}
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/**
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* @brief Check if in reset mode
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* @param hw Start address of the TWAI registers
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* @return true if in reset mode
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*/
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static inline bool twai_ll_is_in_reset_mode(twai_dev_t *hw)
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{
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return hw->mode_reg.rm;
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}
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/**
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* @brief Set operating mode of TWAI controller
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*
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* @param hw Start address of the TWAI registers
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* @param mode Operating mode
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*
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* @note Must be called in reset mode
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*/
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static inline void twai_ll_set_mode(twai_dev_t *hw, twai_mode_t mode)
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{
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if (mode == TWAI_MODE_NORMAL) { //Normal Operating mode
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hw->mode_reg.lom = 0;
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hw->mode_reg.stm = 0;
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} else if (mode == TWAI_MODE_NO_ACK) { //Self Test Mode (No Ack)
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hw->mode_reg.lom = 0;
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hw->mode_reg.stm = 1;
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} else if (mode == TWAI_MODE_LISTEN_ONLY) { //Listen Only Mode
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hw->mode_reg.lom = 1;
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hw->mode_reg.stm = 0;
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}
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}
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/* --------------------------- Command Register ----------------------------- */
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/**
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* @brief Set TX command
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*
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* Setting the TX command will cause the TWAI controller to attempt to transmit
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* the frame stored in the TX buffer. The TX buffer will be occupied (i.e.,
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* locked) until TX completes.
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*
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* @param hw Start address of the TWAI registers
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*
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* @note Transmit commands should be called last (i.e., after handling buffer
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* release and clear data overrun) in order to prevent the other commands
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* overwriting this latched TX bit with 0.
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*/
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static inline void twai_ll_set_cmd_tx(twai_dev_t *hw)
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{
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hw->command_reg.tr = 1;
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}
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/**
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* @brief Set single shot TX command
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*
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* Similar to setting TX command, but the TWAI controller will not automatically
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* retry transmission upon an error (e.g., due to an acknowledgement error).
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*
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* @param hw Start address of the TWAI registers
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*
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* @note Transmit commands should be called last (i.e., after handling buffer
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* release and clear data overrun) in order to prevent the other commands
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* overwriting this latched TX bit with 0.
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*/
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static inline void twai_ll_set_cmd_tx_single_shot(twai_dev_t *hw)
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{
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hw->command_reg.val = 0x03; //Set command_reg.tr and command_reg.at simultaneously for single shot transmittion request
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}
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/**
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* @brief Aborts TX
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*
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* Frames awaiting TX will be aborted. Frames already being TX are not aborted.
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* Transmission Complete Status bit is automatically set to 1.
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* Similar to setting TX command, but the TWAI controller will not automatically
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* retry transmission upon an error (e.g., due to acknowledge error).
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*
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* @param hw Start address of the TWAI registers
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*
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* @note Transmit commands should be called last (i.e., after handling buffer
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* release and clear data overrun) in order to prevent the other commands
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* overwriting this latched TX bit with 0.
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*/
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static inline void twai_ll_set_cmd_abort_tx(twai_dev_t *hw)
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{
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hw->command_reg.at = 1;
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}
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/**
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* @brief Release RX buffer
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*
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* Rotates RX buffer to the next frame in the RX FIFO.
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*
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* @param hw Start address of the TWAI registers
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*/
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static inline void twai_ll_set_cmd_release_rx_buffer(twai_dev_t *hw)
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{
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hw->command_reg.rrb = 1;
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}
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/**
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* @brief Clear data overrun
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*
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* Clears the data overrun status bit
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*
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* @param hw Start address of the TWAI registers
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*/
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static inline void twai_ll_set_cmd_clear_data_overrun(twai_dev_t *hw)
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{
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hw->command_reg.cdo = 1;
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}
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/**
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* @brief Set self reception single shot command
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*
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* Similar to setting TX command, but the TWAI controller also simultaneously
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* receive the transmitted frame and is generally used for self testing
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* purposes. The TWAI controller will not ACK the received message, so consider
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* using the NO_ACK operating mode.
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*
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* @param hw Start address of the TWAI registers
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*
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* @note Transmit commands should be called last (i.e., after handling buffer
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* release and clear data overrun) in order to prevent the other commands
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* overwriting this latched TX bit with 0.
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*/
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static inline void twai_ll_set_cmd_self_rx_request(twai_dev_t *hw)
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{
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hw->command_reg.srr = 1;
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}
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/**
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* @brief Set self reception request command
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*
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* Similar to setting the self reception request, but the TWAI controller will
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* not automatically retry transmission upon an error (e.g., due to and
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* acknowledgement error).
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*
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* @param hw Start address of the TWAI registers
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*
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* @note Transmit commands should be called last (i.e., after handling buffer
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* release and clear data overrun) in order to prevent the other commands
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* overwriting this latched TX bit with 0.
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*/
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static inline void twai_ll_set_cmd_self_rx_single_shot(twai_dev_t *hw)
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{
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hw->command_reg.val = 0x12; //Set command_reg.srr and command_reg.at simultaneously for single shot self reception request
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}
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/* --------------------------- Status Register ------------------------------ */
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/**
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* @brief Get all status bits
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*
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* @param hw Start address of the TWAI registers
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* @return Status bits
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*/
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static inline uint32_t twai_ll_get_status(twai_dev_t *hw)
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{
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return hw->status_reg.val;
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}
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/**
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* @brief Check if RX FIFO overrun status bit is set
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*
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* @param hw Start address of the TWAI registers
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* @return Overrun status bit
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*/
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static inline bool twai_ll_is_fifo_overrun(twai_dev_t *hw)
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{
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return hw->status_reg.dos;
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}
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/**
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* @brief Check if previously TX was successful
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*
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* @param hw Start address of the TWAI registers
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* @return Whether previous TX was successful
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*/
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static inline bool twai_ll_is_last_tx_successful(twai_dev_t *hw)
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{
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return hw->status_reg.tcs;
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}
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/* -------------------------- Interrupt Register ---------------------------- */
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/**
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* @brief Get currently set interrupts
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*
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* Reading the interrupt registers will automatically clear all interrupts
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* except for the Receive Interrupt.
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*
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* @param hw Start address of the TWAI registers
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* @return Bit mask of set interrupts
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*/
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static inline uint32_t twai_ll_get_and_clear_intrs(twai_dev_t *hw)
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{
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return hw->interrupt_reg.val;
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}
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/* ----------------------- Interrupt Enable Register ------------------------ */
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/**
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* @brief Set which interrupts are enabled
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*
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* @param hw Start address of the TWAI registers
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* @param Bit mask of interrupts to enable
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*
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* @note Must be called in reset mode
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*/
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static inline void twai_ll_set_enabled_intrs(twai_dev_t *hw, uint32_t intr_mask)
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{
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hw->interrupt_enable_reg.val = intr_mask;
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}
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/* ------------------------ Bus Timing Registers --------------------------- */
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/**
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* @brief Set bus timing
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*
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* @param hw Start address of the TWAI registers
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* @param brp Baud Rate Prescaler
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* @param sjw Synchronization Jump Width
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* @param tseg1 Timing Segment 1
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* @param tseg2 Timing Segment 2
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* @param triple_sampling Triple Sampling enable/disable
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*
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* @note Must be called in reset mode
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* @note ESP32C3 brp can be any even number between 2 to 32768
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*/
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static inline void twai_ll_set_bus_timing(twai_dev_t *hw, uint32_t brp, uint32_t sjw, uint32_t tseg1, uint32_t tseg2, bool triple_sampling)
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{
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hw->bus_timing_0_reg.brp = (brp / 2) - 1;
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hw->bus_timing_0_reg.sjw = sjw - 1;
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hw->bus_timing_1_reg.tseg1 = tseg1 - 1;
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hw->bus_timing_1_reg.tseg2 = tseg2 - 1;
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hw->bus_timing_1_reg.sam = triple_sampling;
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}
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/* ----------------------------- ALC Register ------------------------------- */
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/**
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* @brief Clear Arbitration Lost Capture Register
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*
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* Reading the ALC register rearms the Arbitration Lost Interrupt
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*
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* @param hw Start address of the TWAI registers
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*/
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static inline void twai_ll_clear_arb_lost_cap(twai_dev_t *hw)
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{
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(void)hw->arbitration_lost_captue_reg.val;
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}
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/* ----------------------------- ECC Register ------------------------------- */
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/**
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* @brief Clear Error Code Capture register
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*
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* Reading the ECC register rearms the Bus Error Interrupt
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*
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* @param hw Start address of the TWAI registers
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*/
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static inline void twai_ll_clear_err_code_cap(twai_dev_t *hw)
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{
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(void)hw->error_code_capture_reg.val;
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}
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/* ----------------------------- EWL Register ------------------------------- */
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/**
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* @brief Set Error Warning Limit
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*
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* @param hw Start address of the TWAI registers
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* @param ewl Error Warning Limit
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*
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* @note Must be called in reset mode
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*/
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static inline void twai_ll_set_err_warn_lim(twai_dev_t *hw, uint32_t ewl)
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{
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HAL_FORCE_MODIFY_U32_REG_FIELD(hw->error_warning_limit_reg, ewl, ewl);
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}
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/**
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* @brief Get Error Warning Limit
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*
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* @param hw Start address of the TWAI registers
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* @return Error Warning Limit
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*/
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static inline uint32_t twai_ll_get_err_warn_lim(twai_dev_t *hw)
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{
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return hw->error_warning_limit_reg.val;
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}
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/* ------------------------ RX Error Count Register ------------------------- */
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/**
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* @brief Get RX Error Counter
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*
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* @param hw Start address of the TWAI registers
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* @return REC value
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*
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* @note REC is not frozen in reset mode. Listen only mode will freeze it. A BUS
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* OFF condition automatically sets the REC to 0.
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*/
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static inline uint32_t twai_ll_get_rec(twai_dev_t *hw)
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{
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return hw->rx_error_counter_reg.val;
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}
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/**
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* @brief Set RX Error Counter
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*
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* @param hw Start address of the TWAI registers
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* @param rec REC value
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*
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* @note Must be called in reset mode
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*/
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static inline void twai_ll_set_rec(twai_dev_t *hw, uint32_t rec)
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{
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HAL_FORCE_MODIFY_U32_REG_FIELD(hw->rx_error_counter_reg, rxerr, rec);
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}
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/* ------------------------ TX Error Count Register ------------------------- */
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/**
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* @brief Get TX Error Counter
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*
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* @param hw Start address of the TWAI registers
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* @return TEC value
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*
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* @note A BUS OFF condition will automatically set this to 128
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*/
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static inline uint32_t twai_ll_get_tec(twai_dev_t *hw)
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{
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return hw->tx_error_counter_reg.val;
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}
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/**
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* @brief Set TX Error Counter
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*
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* @param hw Start address of the TWAI registers
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* @param tec TEC value
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*
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* @note Must be called in reset mode
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*/
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static inline void twai_ll_set_tec(twai_dev_t *hw, uint32_t tec)
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{
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HAL_FORCE_MODIFY_U32_REG_FIELD(hw->tx_error_counter_reg, txerr, tec);
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}
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/* ---------------------- Acceptance Filter Registers ----------------------- */
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/**
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* @brief Set Acceptance Filter
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* @param hw Start address of the TWAI registers
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* @param code Acceptance Code
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* @param mask Acceptance Mask
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* @param single_filter Whether to enable single filter mode
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*
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* @note Must be called in reset mode
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*/
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static inline void twai_ll_set_acc_filter(twai_dev_t* hw, uint32_t code, uint32_t mask, bool single_filter)
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{
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uint32_t code_swapped = HAL_SWAP32(code);
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uint32_t mask_swapped = HAL_SWAP32(mask);
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for (int i = 0; i < 4; i++) {
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HAL_FORCE_MODIFY_U32_REG_FIELD(hw->acceptance_filter.acr[i], byte, ((code_swapped >> (i * 8)) & 0xFF));
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HAL_FORCE_MODIFY_U32_REG_FIELD(hw->acceptance_filter.amr[i], byte, ((mask_swapped >> (i * 8)) & 0xFF));
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}
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hw->mode_reg.afm = single_filter;
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}
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/* ------------------------- TX/RX Buffer Registers ------------------------- */
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/**
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* @brief Copy a formatted TWAI frame into TX buffer for transmission
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*
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* @param hw Start address of the TWAI registers
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* @param tx_frame Pointer to formatted frame
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*
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* @note Call twai_ll_format_frame_buffer() to format a frame
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*/
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static inline void twai_ll_set_tx_buffer(twai_dev_t *hw, twai_ll_frame_buffer_t *tx_frame)
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{
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//Copy formatted frame into TX buffer
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for (int i = 0; i < 13; i++) {
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hw->tx_rx_buffer[i].val = tx_frame->bytes[i];
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}
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}
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/**
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* @brief Copy a received frame from the RX buffer for parsing
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*
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* @param hw Start address of the TWAI registers
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* @param rx_frame Pointer to store formatted frame
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*
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* @note Call twai_ll_prase_frame_buffer() to parse the formatted frame
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*/
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static inline void twai_ll_get_rx_buffer(twai_dev_t *hw, twai_ll_frame_buffer_t *rx_frame)
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{
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//Copy RX buffer registers into frame
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for (int i = 0; i < 13; i++) {
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rx_frame->bytes[i] = HAL_FORCE_READ_U32_REG_FIELD(hw->tx_rx_buffer[i], byte);
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}
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}
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/**
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* @brief Format contents of a TWAI frame into layout of TX Buffer
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*
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* This function encodes a message into a frame structure. The frame structure
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* has an identical layout to the TX buffer, allowing the frame structure to be
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* directly copied into TX buffer.
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*
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* @param[in] 11bit or 29bit ID
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* @param[in] dlc Data length code
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* @param[in] data Pointer to an 8 byte array containing data. NULL if no data
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* @param[in] format Type of TWAI frame
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* @param[in] single_shot Frame will not be retransmitted on failure
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* @param[in] self_rx Frame will also be simultaneously received
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* @param[out] tx_frame Pointer to store formatted frame
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*/
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static inline void twai_ll_format_frame_buffer(uint32_t id, uint8_t dlc, const uint8_t *data,
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uint32_t flags, twai_ll_frame_buffer_t *tx_frame)
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{
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bool is_extd = flags & TWAI_MSG_FLAG_EXTD;
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bool is_rtr = flags & TWAI_MSG_FLAG_RTR;
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//Set frame information
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tx_frame->dlc = dlc;
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tx_frame->frame_format = is_extd;
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tx_frame->rtr = is_rtr;
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tx_frame->self_reception = (flags & TWAI_MSG_FLAG_SELF) ? 1 : 0;
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tx_frame->single_shot = (flags & TWAI_MSG_FLAG_SS) ? 1 : 0;
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//Set ID. The ID registers are big endian and left aligned, therefore a bswap will be required
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if (is_extd) {
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uint32_t id_temp = HAL_SWAP32((id & TWAI_EXTD_ID_MASK) << 3); //((id << 3) >> 8*(3-i))
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for (int i = 0; i < 4; i++) {
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tx_frame->extended.id[i] = (id_temp >> (8 * i)) & 0xFF;
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}
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} else {
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uint32_t id_temp = HAL_SWAP16((id & TWAI_STD_ID_MASK) << 5); //((id << 5) >> 8*(1-i))
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for (int i = 0; i < 2; i++) {
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tx_frame->standard.id[i] = (id_temp >> (8 * i)) & 0xFF;
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}
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}
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uint8_t *data_buffer = (is_extd) ? tx_frame->extended.data : tx_frame->standard.data;
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if (!is_rtr) { //Only copy data if the frame is a data frame (i.e not a remote frame)
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for (int i = 0; (i < dlc) && (i < TWAI_FRAME_MAX_DLC); i++) {
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data_buffer[i] = data[i];
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}
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}
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}
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/**
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* @brief Parse formatted TWAI frame (RX Buffer Layout) into its constituent contents
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*
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* @param[in] rx_frame Pointer to formatted frame
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* @param[out] id 11 or 29bit ID
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* @param[out] dlc Data length code
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* @param[out] data Data. Left over bytes set to 0.
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* @param[out] format Type of TWAI frame
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*/
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static inline void twai_ll_prase_frame_buffer(twai_ll_frame_buffer_t *rx_frame, uint32_t *id, uint8_t *dlc,
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uint8_t *data, uint32_t *flags)
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{
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//Copy frame information
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*dlc = rx_frame->dlc;
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uint32_t flags_temp = 0;
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flags_temp |= (rx_frame->frame_format) ? TWAI_MSG_FLAG_EXTD : 0;
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flags_temp |= (rx_frame->rtr) ? TWAI_MSG_FLAG_RTR : 0;
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flags_temp |= (rx_frame->dlc > TWAI_FRAME_MAX_DLC) ? TWAI_MSG_FLAG_DLC_NON_COMP : 0;
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*flags = flags_temp;
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//Copy ID. The ID registers are big endian and left aligned, therefore a bswap will be required
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if (rx_frame->frame_format) {
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uint32_t id_temp = 0;
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for (int i = 0; i < 4; i++) {
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id_temp |= rx_frame->extended.id[i] << (8 * i);
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}
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id_temp = HAL_SWAP32(id_temp) >> 3; //((byte[i] << 8*(3-i)) >> 3)
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*id = id_temp & TWAI_EXTD_ID_MASK;
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} else {
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uint32_t id_temp = 0;
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for (int i = 0; i < 2; i++) {
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id_temp |= rx_frame->standard.id[i] << (8 * i);
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}
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id_temp = HAL_SWAP16(id_temp) >> 5; //((byte[i] << 8*(1-i)) >> 5)
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*id = id_temp & TWAI_STD_ID_MASK;
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}
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uint8_t *data_buffer = (rx_frame->frame_format) ? rx_frame->extended.data : rx_frame->standard.data;
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//Only copy data if the frame is a data frame (i.e. not a remote frame)
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int data_length = (rx_frame->rtr) ? 0 : ((rx_frame->dlc > TWAI_FRAME_MAX_DLC) ? TWAI_FRAME_MAX_DLC : rx_frame->dlc);
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for (int i = 0; i < data_length; i++) {
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data[i] = data_buffer[i];
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}
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//Set remaining bytes of data to 0
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for (int i = data_length; i < TWAI_FRAME_MAX_DLC; i++) {
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data[i] = 0;
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}
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}
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/* ----------------------- RX Message Count Register ------------------------ */
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/**
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* @brief Get RX Message Counter
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*
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* @param hw Start address of the TWAI registers
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* @return RX Message Counter
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*/
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static inline uint32_t twai_ll_get_rx_msg_count(twai_dev_t *hw)
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{
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return hw->rx_message_counter_reg.val;
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}
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/* ------------------------- Clock Divider Register ------------------------- */
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/**
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* @brief Set CLKOUT Divider and enable/disable
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*
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* Configure CLKOUT. CLKOUT is a pre-scaled version of APB CLK. Divider can be
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* 1, or any even number from 2 to 490. Set the divider to 0 to disable CLKOUT.
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*
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* @param hw Start address of the TWAI registers
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* @param divider Divider for CLKOUT (any even number from 2 to 490). Set to 0 to disable CLKOUT
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*/
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static inline void twai_ll_set_clkout(twai_dev_t *hw, uint32_t divider)
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{
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if (divider >= 2 && divider <= 490) {
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hw->clock_divider_reg.co = 0;
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HAL_FORCE_MODIFY_U32_REG_FIELD(hw->clock_divider_reg, cd, (divider / 2) - 1);
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} else if (divider == 1) {
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//Setting the divider reg to max value (255) means a divider of 1
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hw->clock_divider_reg.co = 0;
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HAL_FORCE_MODIFY_U32_REG_FIELD(hw->clock_divider_reg, cd, 255);
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} else {
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hw->clock_divider_reg.co = 1;
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HAL_FORCE_MODIFY_U32_REG_FIELD(hw->clock_divider_reg, cd, 0);
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}
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}
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#ifdef __cplusplus
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}
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#endif
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