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hal_can.h
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hal_can.h
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/****************************************************************************
**
** Copyright (C) ${COPYRIGHT_YEAR} MikroElektronika d.o.o.
** Contact: https://www.mikroe.com/contact
**
** This file is part of the mikroSDK package
**
** Commercial License Usage
**
** Licensees holding valid commercial NECTO compilers AI licenses may use this
** file in accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The MikroElektronika Company.
** For licensing terms and conditions see
** https://www.mikroe.com/legal/software-license-agreement.
** For further information use the contact form at
** https://www.mikroe.com/contact.
**
**
** GNU Lesser General Public License Usage
**
** Alternatively, this file may be used for
** non-commercial projects under the terms of the GNU Lesser
** General Public License version 3 as published by the Free Software
** Foundation: https://www.gnu.org/licenses/lgpl-3.0.html.
**
** The above copyright notice and this permission notice shall be
** included in all copies or substantial portions of the Software.
**
** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
** OF MERCHANTABILITY, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
** TO THE WARRANTIES FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
** IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
** DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT
** OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE
** OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
**
****************************************************************************/
/*!
* @file hal_can.h
* @brief API for CAN HAL level.
*/
#ifndef _HAL_CAN_H_
#define _HAL_CAN_H_
#ifdef __cplusplus
extern "C"{
#endif
#include "hal_target.h"
#include "hal_ll_can.h"
#define HAL_CAN_FILTER_FIFO_DEFAULT HAL_LL_CAN_FILTER_FIFO_DEFAULT
#define HAL_CAN_FILTER_BANK_DEFAULT HAL_LL_CAN_FILTER_BANK_DEFAULT
/**
* @details The context for storing HAL level object handlers.
* Contains specific hardware module handle and
* said module init state.
* @warning User is not to change these values or
* unexpected behaviour may occur.
*/
typedef struct
{
handle_t *hal_can_handle; /*!< CAN HAL level handle */
handle_t *drv_can_handle; /*!< CAN DRV level handle */
bool init_state; /*!< CAN HAL object init state */
} hal_can_handle_register_t;
/**
* @details Return values.
*/
typedef enum
{
HAL_CAN_SUCCESS = 0, /*!< Success. */
HAL_CAN_WRONG_PINS, /*!< Wrong pins selected. */
HAL_CAN_MODULE_ERROR, /*!< Object wasn't closed. */
HAL_CAN_ERROR = (-1) /*!< Error. */
} hal_can_err_t;
/**
* @details CAN modes.
*/
typedef enum
{
/* Universal Modes. */
HAL_CAN_MODE_NORMAL = 0, /*!< Mode for normal operation. */
HAL_CAN_MODE_LOOPBACK, /*!< Mode for testing communication internally with sending TX data frames to other nodes. */
HAL_CAN_MODE_DISABLE, /*!< Mode for ignoring TX and RX data frames - ARM specific. */
/* STM32 and RISC-V Modes. */
HAL_CAN_MODE_SILENT, /*!< Mode for only receiving messages - ARM specific. */
HAL_CAN_MODE_LOOPBACK_SILENT, /*!< Mode for testing communication internally without sending TX data frames to other nodes. */
/* NXP Modes. */
HAL_CAN_MODE_LISTENONLY, /*!< Mode for only receiving messages - NXP specific. */
HAL_CAN_MODE_DOZE, /*!< Mode for acknowledging system low-power mode. */
HAL_CAN_MODE_STOP, /*!< Mode for acknowledging system clock stop. */
HAL_CAN_MODE_FREEZE, /*!< Mode for ignoring TX and RX data frames - NXP specific. */
/* dsPIC Modes.*/
HAL_CAN_MODE_LISTENALL, /*!< Mode for receiving data frames without filter configs. */
/* PIC/PIC32 Modes. */
HAL_CAN_MODE_CONFIGURATION /*!< Mode for configuring CAN module. */
} hal_can_mode_t;
/**
* @details CAN states.
*/
typedef enum
{
HAL_CAN_STATE_RESET = 0, /*!< Reset state of CAN. */
HAL_CAN_STATE_READY, /*!< Ready state of CAN. */
HAL_CAN_STATE_LISTENING, /*!< Listening state of CAN.*/
HAL_CAN_STATE_ERROR /*!< Error state of CAN. */
} hal_can_state_t;
/**
* @details CAN data frame formats.
*/
typedef enum
{
HAL_CAN_FRAME_FORMAT_STANDARD_11BITS = 0, /*!< Standard format identifier. */
HAL_CAN_FRAME_FORMAT_EXTENDED_29BITS /*!< Extended format identifier. */
} hal_can_frame_format_t;
/**
* @details CAN data frame types.
*/
typedef enum
{
HAL_CAN_FRAME_TYPE_DATA = 0, /*!< Data frame. */
HAL_CAN_FRAME_TYPE_RTR /*!< Remote frame. */
} hal_can_frame_type_t;
/**
* @details CAN filter mode.
*/
typedef enum
{
HAL_CAN_FILTER_MODE_IDMASK = 0, /*!< Identifier mask mode. */
HAL_CAN_FILTER_MODE_IDLIST /*!< Identifier list mode. */
} hal_can_filter_mode_t;
/**
* @details CAN filter scale.
*/
typedef enum
{
HAL_CAN_FILTER_SCALE_16BIT = 0, /*!< Two 16-bit filters. */
HAL_CAN_FILTER_SCALE_32BIT /*!< One 32-bit filter. */
} hal_can_filter_scale_t;
/**
* @details CAN filter FIFO.
*/
typedef enum
{
HAL_CAN_FILTER_FIFO0 = 0, /*!< Filter mapped to FIFO0. */
HAL_CAN_FILTER_FIFO1, /*!< Filter mapped to FIFO1. */
HAL_CAN_FILTER_FIFO2, /*!< Filter mapped to FIFO2. */
HAL_CAN_FILTER_FIFO3, /*!< Filter mapped to FIFO3. */
HAL_CAN_FILTER_FIFO4, /*!< Filter mapped to FIFO4. */
HAL_CAN_FILTER_FIFO5, /*!< Filter mapped to FIFO5. */
HAL_CAN_FILTER_FIFO6, /*!< Filter mapped to FIFO6. */
HAL_CAN_FILTER_FIFO7, /*!< Filter mapped to FIFO7. */
HAL_CAN_FILTER_FIFO8, /*!< Filter mapped to FIFO8. */
HAL_CAN_FILTER_FIFO9, /*!< Filter mapped to FIFO9. */
HAL_CAN_FILTER_FIFO10, /*!< Filter mapped to FIFO10. */
HAL_CAN_FILTER_FIFO11, /*!< Filter mapped to FIFO11. */
HAL_CAN_FILTER_FIFO12, /*!< Filter mapped to FIFO12. */
HAL_CAN_FILTER_FIFO13, /*!< Filter mapped to FIFO13. */
HAL_CAN_FILTER_FIFO14, /*!< Filter mapped to FIFO14. */
HAL_CAN_FILTER_FIFO15, /*!< Filter mapped to FIFO15. */
HAL_CAN_FILTER_FIFO16, /*!< Filter mapped to FIFO16. */
HAL_CAN_FILTER_FIFO17, /*!< Filter mapped to FIFO17. */
HAL_CAN_FILTER_FIFO18, /*!< Filter mapped to FIFO18. */
HAL_CAN_FILTER_FIFO19, /*!< Filter mapped to FIFO19. */
HAL_CAN_FILTER_FIFO20, /*!< Filter mapped to FIFO20. */
HAL_CAN_FILTER_FIFO21, /*!< Filter mapped to FIFO21. */
HAL_CAN_FILTER_FIFO22, /*!< Filter mapped to FIFO22. */
HAL_CAN_FILTER_FIFO23, /*!< Filter mapped to FIFO23. */
HAL_CAN_FILTER_FIFO24, /*!< Filter mapped to FIFO24. */
HAL_CAN_FILTER_FIFO25, /*!< Filter mapped to FIFO25. */
HAL_CAN_FILTER_FIFO26, /*!< Filter mapped to FIFO26. */
HAL_CAN_FILTER_FIFO27, /*!< Filter mapped to FIFO27. */
HAL_CAN_FILTER_FIFO28, /*!< Filter mapped to FIFO28. */
HAL_CAN_FILTER_FIFO29, /*!< Filter mapped to FIFO29. */
HAL_CAN_FILTER_FIFO30, /*!< Filter mapped to FIFO30. */
HAL_CAN_FILTER_FIFO31 /*!< Filter mapped to FIFO31. */
} hal_can_filter_fifo_t;
/**
* @details CAN filter activation.
*/
typedef enum
{
HAL_CAN_FILTER_DISABLE = 0, /*!< CAN filter disable. */
HAL_CAN_FILTER_ENABLE /*!< CAN filter enable. */
} hal_can_filter_activation_t;
/**
* @brief CAN HAL filter init configuration structure.
* @details User needs to specify values herein.
* @note Take into consideration that any value can be changed explicitly by the user.
* Based on the user input, SW will define either extended or standard
* frame ID should be chosen for filter configuration.
*
* 16-bit ID and Mask structure variables for ARM MCUs:
* CAN_FILTER_MODE_IDMASK and CAN_FILTER_SCALE_32BIT - user is configuring 1 32-bit filter with mask:
* - Filter(n) ID is can_filter_id (frame type is defined
* 0b0001 1111 1111 1111 1111 1111 1111 1111 with can_filter_frame_type[0]
* |______________________|___________| variable)
* EID[17:0] SID[10:0]
*
* - Filter(n) Mask is can_filter_mask_id (frame type is defined
* 0b0001 1111 1111 1111 1111 1111 1111 1111 with can_filter_frame_type[1]
* |______________________|___________| variable)
* EID[17:0] SID[10:0]
*
* CAN_FILTER_MODE_IDLIST and CAN_FILTER_SCALE_32BIT - you user is configuring 2 32-bit filters without masks:
* - Filter(n) ID is can_filter_id (frame type is defined
* 0b0001 1111 1111 1111 1111 1111 1111 1111 with can_filter_frame_type[0]
* |______________________|___________| variable)
* EID[17:0] SID[10:0]
*
* - Filter(n+1) ID is can_filter_mask_id (frame type is defined
* 0b0001 1111 1111 1111 1111 1111 1111 1111 with can_filter_frame_type[1]
* |______________________|___________| variable)
* EID[17:0] SID[10:0]
*
* CAN_FILTER_MODE_IDMASK and CAN_FILTER_SCALE_16BIT - user is configuring 2 16-bit filters with masks:
* - Filter(n) ID is can_filter_id_low (frame type is defined
* 0b0011 1111 1111 1111 with can_filter_frame_type[0]
* |___|___________| variable)
* EID[17:15] SID[10:0]
*
* - Filter(n) Mask is can_filter_mask_id_low (frame type is defined
* 0b0011 1111 1111 1111 with can_filter_frame_type[1]
* |___|___________| variable)
* EID[17:15] SID[10:0]
*
* - Filter(n+1) ID is can_filter_id_high (frame type is defined
* 0b0011 1111 1111 1111 with can_filter_frame_type[2]
* |___|___________| variable)
* EID[17:15] SID[10:0]
*
* - Filter(n+1) Mask is can_filter_mask_id_high (frame type is defined
* 0b0011 1111 1111 1111 with can_filter_frame_type[3]
* |___|___________| variable)
* EID[17:15] SID[10:0]
*
* CAN_FILTER_MODE_IDLIST and CAN_FILTER_SCALE_16BIT - user is configuring 4 16-bit filters:
* - Filter(n) ID is can_filter_id_low (frame type is defined
* 0b0011 1111 1111 1111 with can_filter_frame_type[0]
* |___|___________| variable)
* EID[17:15] SID[10:0]
*
* - Filter(n) ID is can_filter_mask_id_low (frame type is defined
* 0b0011 1111 1111 1111 with can_filter_frame_type[1]
* |___|___________| variable)
* EID[17:15] SID[10:0]
*
* - Filter(n+1) ID is can_filter_id_high (frame type is defined
* 0b0011 1111 1111 1111 with can_filter_frame_type[2]
* |___|___________| variable)
* EID[17:15] SID[10:0]
*
* - Filter(n+1) ID is can_filter_mask_id_high (frame type is defined
* 0b0011 1111 1111 1111 with can_filter_frame_type[3]
* |___|___________| variable)
* EID[17:15] SID[10:0]
*
* 16-bit ID and Mask structure variables for PIC MCUs:
* - Filter(n) ID is can_filter_id (frame type is defined
* 0b0001 1111 1111 1111 1111 1111 1111 1111 with can_filter_frame_type[0]
* |______________________|___________| variable)
* EID[17:0] SID[10:0]
*
* - Filter(n) Mask is can_filter_mask_id (frame type is defined
* 0b0001 1111 1111 1111 1111 1111 1111 1111 with can_filter_frame_type[1]
* |______________________|___________| variable)
* EID[17:0] SID[10:0]
*
* @b Example
* @code
* // CAN HAL filter configuration structure.
* static hal_can_filter_config_t hal_can_filter_cfg;
*
* @endcode
*/
typedef struct
{
union {
struct {
uint16_t can_filter_id_low; /*!< 16-bit Filter ID. */
uint16_t can_filter_id_high; /*!< 16-bit Filter ID. */
};
uint32_t can_filter_id; /*!< 32-bit Filter ID. */
};
union {
struct {
uint16_t can_filter_mask_id_low; /*!< 16-bit Filter ID or Filter Mask. */
uint16_t can_filter_mask_id_high; /*!< 16-bit Filter ID or Filter Mask. */
};
uint32_t can_filter_mask_id; /*!< 32-bit Filter ID or Filter Mask. */
};
uint8_t can_filter_bank; /*!< Filter bank. */
hal_can_frame_type_t can_filter_frame_type[4]; /*!< Type of frame, data or remote. */
hal_can_filter_activation_t can_filter_enable; /*!< Filter activation status. */
hal_can_filter_mode_t can_filter_mode; /*!< Filter mode. */
hal_can_filter_scale_t can_filter_scale; /*!< Filter scale. */
hal_can_filter_fifo_t can_filter_fifo; /*!< Filter-to-FIFO mapping. */
} hal_can_filter_config_t;
/**
* @brief CAN HAL init configuration structure.
* @details User needs to specify values herein.
* @note Take into consideration that any value can be changed
* explicitly by the user.
* @warning The following example includes pins mapping.
* Take into consideration that different hardware might not have the same pins.
* Make sure to accommodate pin name based on your hardware specifics.
*
* @b Example
* @code
* // CAN HAL configuration structure.
* static hal_can_config_t hal_can_cfg;
*
* // Fill structure with default values.
* hal_can_configure_default(&hal_can_cfg);
*
* // Specify desired CAN TX pin.
* hal_can_cfg.tx_pin = CAN_TX;
*
* // Specify desired CAN RX pin.
* hal_can_cfg.rx_pin = CAN_RX;
*
* @endcode
*/
typedef struct
{
hal_pin_name_t tx_pin; /*!< Tx pin. */
hal_pin_name_t rx_pin; /*!< Rx pin. */
hal_can_mode_t mode; /*!< CAN mode. */
uint32_t frequency; /*!< CAN frequency. */
} hal_can_config_t;
/**
* @brief CAN HAL context structure.
* @details CAN HAL context structure, used by every other function later on.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
* @endcode
*/
typedef struct
{
handle_t handle; /*!< CAN handle. */
hal_can_config_t config; /*!< CAN configuration structure. */
hal_can_filter_config_t filter_config; /*!< CAN configuration structure. */
} hal_can_t;
/**
* @brief CAN HAL message structure.
* @details CAN HAL message structure, used by
* receive and transmit structures.
*
* @note id variable is divided in the folowing order:
* - 0b0001 1111 1111 1111 1111 1111 1111 1111
* |______________________|___________|
* EID[17:0] SID[10:0]
*
*/
typedef struct
{
union {
struct {
uint16_t std_id; /*!< Standard format frame identifier. */
uint16_t ext_id; /*!< Extended format frame identifier. */
};
uint32_t id;
};
hal_can_frame_format_t frame_format; /*!< Format of frame, standard or extended format. */
hal_can_frame_type_t frame_type; /*!< Type of frame, data or remote. */
uint8_t data_len; /*!< Data length. */
uint8_t message_data[8]; /*!< Data. */
} hal_can_message_t;
/**
* @brief CAN HAL transmit message structure.
* @details CAN HAL transmit message structure, used by
* hal_can_transmit later on.
*
* @b Example
* @code
* // CAN HAL transmit message structure.
* static hal_can_transmit_message_struct tx_message;
* @endcode
*/
typedef struct
{
hal_can_message_t message; /* CAN message structure. */
} hal_can_transmit_message_struct;
/**
* @brief CAN HAL receive message structure.
* @details CAN HAL receive message structure, used by
* hal_can_receive later on.
*
* @b Example
* @code
* // CAN HAL receive message structure.
* static hal_can_receive_message_struct rx_message;
* @endcode
*/
typedef struct
{
hal_can_message_t message; /* CAN message structure. */
uint8_t rx_fifo_number; /* Receive FIFO number. */
} hal_can_receive_message_struct;
/*!
* @addtogroup pergroup Microcontroller Peripherals
* @{
*/
/*!
* @addtogroup halgroup Hardware Abstraction Layer
* @{
*/
/*!
* @addtogroup halcangroup CAN HAL
* @brief CAN Hardware Abstraction Layer API Reference.
* @details API for configuring and manipulating CAN HAL module.
* @{
*/
/**
* @brief Configure CAN HAL configuration structure.
* @details Configures #hal_can_config_t structure to default initialization values.
* Take into consideration that this is just
* structure variable initial values setting.
* Values need to be redefined by user.
* @param[in,out] config configure CAN HAL configuration structure.
* See #hal_can_config_t structure definition for detailed explanation.
*
* @b Default @b values:
* Function | Default value |
* --------------------|---------------------------|
* Tx pin | 0xFFFFFFFF (invalid pin) |
* Rx pin | 0xFFFFFFFF (invalid pin) |
* Mode | HAL_CAN_MODE_NORMAL |
* Frequency | 500000 |
* @return Nothing.
*
* @b Example
* @code
* // CAN HAL configuration structure.
* static hal_can_config_t hal_can_cfg;
*
* // Fill structure with default values.
* hal_can_configure_default( &hal_can_cfg );
* @endcode
*/
void hal_can_configure_default( hal_can_config_t *config );
/**
* @brief Configure CAN HAL filter configuration structure.
* @details Configures #hal_can_filter_config_t structure to default initialization values.
* Take into consideration that this is just
* structure variable initial values setting.
* Values need to be redefined by user.
* @param[in,out] filter_config configure CAN HAL filter configuration structure.
* See #hal_can_filter_config_t structure definition for detailed explanation.
*
* @b Default @b values:
* Function | Default value |
* --------------------|-----------------------------|
* ID high | 0x0000 |
* ID low | 0x0000 |
* ID mask high | 0x0000 |
* ID mask low | 0x0000 |
* Filter mode | HAL_CAN_FILTER_MODE_IDMASK |
* Filter scale | HAL_CAN_FILTER_SCALE_16BIT |
* Filter enable | HAL_CAN_FILTER_DISABLE |
* Filter FIFO | HAL_CAN_FILTER_FIFO0 |
* Filter bank | 0 |
*
* @return Nothing.
*
* @b Example
* @code
* // CAN HAL filter configuration structure.
* static hal_can_filter_config_t hal_can_filter_cfg;
*
* // Fill structure with default values.
* hal_can_filter_configure_default( &hal_can_filter_cfg );
* @endcode
*/
void hal_can_filter_configure_default( hal_can_filter_config_t *filter_config );
/**
* @brief Open the CAN HAL object.
* @details Opens the CAN HAL object on selected pins.
* Allocates memory and pins for specified object.
* @param[in,out] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @param[in] hal_obj_open_state CAN state, is it open or not.
* @return The function can return one of the values defined by
* #hal_can_err_t, which is size dependant on the architecture.
* @note It is recommended to check return value for error.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
* // CAN HAL configuration structure.
* static hal_can_t hal_can_cfg;
*
* // Specify desired TX pin.
* hal_can_cfg.tx_pin = CAN_TX;
*
* // Specify desired RX pin.
* hal_can_cfg.rx_pin = CAN_RX;
*
* // Allocate resources for CAN module.
* if ( hal_can_open( &hal_can, &hal_can_cfg ) == HAL_CAN_ERROR )
* {
* // Error handling strategy.
* }
* @endcode
*/
err_t hal_can_open( handle_t *handle, bool hal_obj_open_state );
/**
* @brief Initialize CAN module.
* @details Sets CAN module parameters.
* @param[in] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @param[in] config CAN config structure.
* See #hal_can_config_t structure definition for detailed explanation.
* @param[in] filter_config CAN filter config structure.
* See #hal_can_filter_config_t structure definition for detailed explanation.
* @return The function can return one of the values defined by
* #hal_can_err_t, which is size dependant on the architecture.
* @pre Before calling this function, the user is expected to call #hal_can_open function.
* @post This function initializes CAN module and sets adequate parameters.
* @note It is recommended to check return value for error.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // CAN HAL filter configuration structure.
* static hal_can_filter_config_t hal_can_filter_cfg;
*
* // CAN HAL configuration structure.
* static hal_can_config_t hal_can_cfg;
*
* // Call the function.
* if ( hal_can_init( &hal_can, &hal_can_cfg, &hal_can_filter_cfg ) == HAL_CAN_ERROR )
* {
* // Error handling strategy.
* }
* @endcode
*/
err_t hal_can_init( handle_t *handle, hal_can_config_t *config, hal_can_filter_config_t *filter_config );
/**
* @brief Initialize CAN module filter.
* @details Sets CAN module filter parameters.
* @param[in] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @param[in] config CAN config structure.
* See #hal_can_config_t structure definition for detailed explanation.
* @param[in] filter_config CAN filter config structure.
* See #hal_can_filter_config_t structure definition for detailed explanation.
* @return The function can return one of the values defined by
* #hal_can_err_t, which is size dependant on the architecture.
* @pre Make sure that \p hal_can_filter_config_t structure has been adequately
* filled out.
* @post This function initializes CAN filter and sets adequate parameters.
* @note It is recommended to check return value for error.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // CAN HAL filter config structure.
* static hal_can_filter_config_t hal_can_filter_cfg;
*
* // CAN HAL configuration structure.
* static hal_can_config_t hal_can_cfg;
*
* // Configure CAN filter.
* if ( hal_can_set_filter( &hal_can, &hal_can_cfg, &hal_can_filter_cfg ) == HAL_CAN_ERROR )
* {
* // Error handling strategy.
* }
* @endcode
*/
err_t hal_can_set_filter( handle_t *handle, hal_can_config_t *config, hal_can_filter_config_t *filter_config );
/**
* @brief Set CAN module frequency.
* @details Sets CAN module frequency to \p frequency value if possible.
* Frequency must be set to exact amount as requested, otherwise error is returned.
* @param[in] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @param[in] config CAN config structure.
* See #hal_can_config_t structure definition for detailed explanation.
* @param[in] filter_config CAN filter config structure.
* See #hal_can_filter_config_t structure definition for detailed explanation.
* @return The function can return one of the values defined by
* #hal_can_err_t, which is size dependant on the architecture.
* @pre Make sure that adequate memory has been allocated beforehand.
* See #hal_can_open definition for detailed explanation.
* @note It is recommended to check return value for error.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // CAN HAL filter config structure.
* static hal_can_filter_config_t hal_can_filter_cfg;
*
* // CAN HAL configuration structure.
* static hal_can_config_t hal_can_cfg;
*
* // Set transmission rate.
* if ( hal_can_set_frequency( &hal_can, &hal_can_cfg, &hal_can_filter_cfg ) == HAL_CAN_ERROR )
* {
* // Error handling strategy.
* }
* @endcode
*/
err_t hal_can_set_frequency( handle_t *handle, hal_can_config_t *config, hal_can_filter_config_t *filter_config );
/**
* @brief Get CAN module frequency.
* @details Gets the currently configured CAN frequency.
* @param[in] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @return The function can return the CAN_ERROR value defined by
* #hal_can_err_t, which is size dependant on the architecture, or the actual frequency.
* @pre Make sure that adequate memory has been allocated beforehand.
* See #hal_can_open definition for detailed explanation.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // Get transmission rate.
* int32_t frequency = hal_can_get_frequency( &hal_can );
*
* @endcode
*/
err_t hal_can_get_frequency( handle_t *handle );
/**
* @brief Set CAN module mode.
* @details Sets CAN module mode to \p mode if possible.
* @param[in] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @param[in] config CAN config structure.
* See #hal_can_config_t structure definition for detailed explanation.
* @param[in] filter_config CAN filter config structure.
* See #hal_can_filter_config_t structure definition for detailed explanation.
* @return The function can return one of the values defined by
* #hal_can_err_t, which is size dependant on the architecture.
* @pre Make sure that adequate memory has been allocated beforehand.
* See #hal_can_open definition for detailed explanation.
* @note It is recommended to check return value for error.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // CAN HAL filter config structure.
* static hal_can_filter_config_t hal_can_filter_cfg;
*
* // CAN HAL configuration structure.
* static hal_can_config_t hal_can_cfg;
*
* // Set mode.
* if ( hal_can_set_mode( &hal_can, &hal_can_cfg, &hal_can_filter_cfg ) == HAL_CAN_ERROR )
* {
* // Error handling strategy.
* }
* @endcode
*/
err_t hal_can_set_mode( handle_t *handle, hal_can_config_t *config, hal_can_filter_config_t *filter_config );
/**
* @brief Get CAN module mode.
* @details Gets the currently configured CAN mode.
* @param[in] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @return The function can return the CAN_ERROR value defined by
* #hal_can_err_t, which is size dependant on the architecture, or the actual mode.
* @pre Make sure that adequate memory has been allocated beforehand.
* See #hal_can_open definition for detailed explanation.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // Get mode.
* hal_can_mode_t mode = hal_can_get_mode( &hal_can );
*
* @endcode
*/
err_t hal_can_get_mode( handle_t *handle );
/**
* @brief Transmit data to the first free TX mailbox.
* @details Function sets parameters from the transmit message structure
* in the appropriate registers and then sends out the data.
* @param[in] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @param[in] transmit_message Structure containing necessary information
* about the message being transmitted.
* See #hal_can_message_struct structure definition for detailed explanation.
* @return The function can return one of the values defined by
* #hal_can_err_t, which is size dependant on the architecture.
* @pre Make sure that adequate memory has been allocated beforehand, and
* the module has been initialized to adequate CAN frequency.
* See #hal_can_open definition and #hal_can_set_frequency
* for detailed explanation.
* @note It is recommended to check return value for error.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // CAN transmit structure.
* can_transmit_message_struct *tx_message;
*
* // Set the ID type.
* tx_message.tx_id_type = HAL_CAN_FRAME_FORMAT_STANDARD_11BITS;
*
* // Set a unique standard ID.
* tx_message.tx_std_id = 0x321;
*
* // Set the length of the message in bytes.
* tx_message.tx_data_len = 3;
*
* // Set the data.
* tx_message.tx_data[0] = 0xAA;
* tx_message.tx_data[1] = 0xBB;
* tx_message.tx_data[2] = 0xCC;
*
* if ( hal_can_transmit( &hal_can, &tx_message ) == HAL_CAN_ERROR )
* {
* // Error handling strategy.
* }
*
* @endcode
*/
err_t hal_can_transmit( handle_t *handle, hal_can_transmit_message_struct *transmit_message );
/**
* @brief Stop transmit operation.
* @details Function accesses hardware transmit registers, finds the transmit mailbox
* that has message transmission request in progress and stops data transmission.
* @param[in] obj CAN HAL object.
* @return void None.
* @pre Make sure that there is transmission in progress.
* See #hal_can_transmit definition for detailed explanation.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // Stop transmission.
* hal_can_transmission_stop( &hal_can );
*
* @endcode
*/
void hal_can_transmission_stop( handle_t *handle );
/**
* @brief Get data from the RX FIFO.
* @details Function stores previously transmitted data into
* the rx_data in receive_message structure.
* @param[in] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @param[in] receive_message Structure designed to store received information and data
* retrieved from the CAN registers.
* See #hal_can_message_struct structure definition for detailed explanation.
* @return The function can return one of the values defined by
* #hal_can_err_t, which is size dependant on the architecture.
* @pre Make sure that adequate memory has been allocated beforehand, and
* the module has been initialized to adequate CAN frequency.
* See #hal_can_open definition and #hal_can_set_frequency
* for detailed explanation.
* @note It is recommended to check return value for error.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // CAN receive structure.
* hal_can_receive_message_struct *rx_message;
*
* if ( hal_can_receive( &hal_can, &rx_message ) == CAN_ERROR )
* {
* // Error handling strategy.
* }
*
* @endcode
*/
err_t hal_can_receive( handle_t *handle, hal_can_receive_message_struct *receive_message );
/**
* @brief Close CAN HAL object.
* @details De-allocates hardware resources for specific HAL object and
* de-initializes the module on a hardware level, resets pin AF to default values,
* clears all buffers used by object and disables module
* clock for lower power consumption.
* @param[in,out] obj CAN HAL object.
* See #hal_can_t structure definition for detailed explanation.
* @return The function hal_can return one of the values defined by
* #hal_can_err_t, which is size dependant on the architecture.
*
* @b Example
* @code
* // CAN HAL context structure.
* static hal_can_t hal_can;
*
* // Close the CAN module object handler.
* if ( CAN_SUCCESS == hal_can_close( &hal_can ) ) {
* // No error
* } else {
* // Handle the error.
* }
* @endcode
*/
err_t hal_can_close( handle_t *handle );
/*! @} */ // halcangroup
/*! @} */ // halgroup
/*! @} */ // pergroup
#ifdef __cplusplus
}
#endif
#endif // _HAL_CAN_H_
// ------------------------------------------------------------------------- END