rt-thread-official/bsp/ra6m4-cpk/ra/fsp/inc/api/r_uart_api.h

275 lines
13 KiB
C

/***********************************************************************************************************************
* Copyright [2020-2021] Renesas Electronics Corporation and/or its affiliates. All Rights Reserved.
*
* This software and documentation are supplied by Renesas Electronics America Inc. and may only be used with products
* of Renesas Electronics Corp. and its affiliates ("Renesas"). No other uses are authorized. Renesas products are
* sold pursuant to Renesas terms and conditions of sale. Purchasers are solely responsible for the selection and use
* of Renesas products and Renesas assumes no liability. No license, express or implied, to any intellectual property
* right is granted by Renesas. This software is protected under all applicable laws, including copyright laws. Renesas
* reserves the right to change or discontinue this software and/or this documentation. THE SOFTWARE AND DOCUMENTATION
* IS DELIVERED TO YOU "AS IS," AND RENESAS MAKES NO REPRESENTATIONS OR WARRANTIES, AND TO THE FULLEST EXTENT
* PERMISSIBLE UNDER APPLICABLE LAW, DISCLAIMS ALL WARRANTIES, WHETHER EXPLICITLY OR IMPLICITLY, INCLUDING WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT, WITH RESPECT TO THE SOFTWARE OR
* DOCUMENTATION. RENESAS SHALL HAVE NO LIABILITY ARISING OUT OF ANY SECURITY VULNERABILITY OR BREACH. TO THE MAXIMUM
* EXTENT PERMITTED BY LAW, IN NO EVENT WILL RENESAS BE LIABLE TO YOU IN CONNECTION WITH THE SOFTWARE OR DOCUMENTATION
* (OR ANY PERSON OR ENTITY CLAIMING RIGHTS DERIVED FROM YOU) FOR ANY LOSS, DAMAGES, OR CLAIMS WHATSOEVER, INCLUDING,
* WITHOUT LIMITATION, ANY DIRECT, CONSEQUENTIAL, SPECIAL, INDIRECT, PUNITIVE, OR INCIDENTAL DAMAGES; ANY LOST PROFITS,
* OTHER ECONOMIC DAMAGE, PROPERTY DAMAGE, OR PERSONAL INJURY; AND EVEN IF RENESAS HAS BEEN ADVISED OF THE POSSIBILITY
* OF SUCH LOSS, DAMAGES, CLAIMS OR COSTS.
**********************************************************************************************************************/
/*******************************************************************************************************************//**
* @ingroup RENESAS_INTERFACES
* @defgroup UART_API UART Interface
* @brief Interface for UART communications.
*
* @section UART_INTERFACE_SUMMARY Summary
* The UART interface provides common APIs for UART HAL drivers. The UART interface supports the following features:
* - Full-duplex UART communication
* - Interrupt driven transmit/receive processing
* - Callback function with returned event code
* - Runtime baud-rate change
* - Hardware resource locking during a transaction
* - CTS/RTS hardware flow control support (with an associated IOPORT pin)
*
* Implemented by:
* - @ref SCI_UART
*
* @{
**********************************************************************************************************************/
#ifndef R_UART_API_H
#define R_UART_API_H
/***********************************************************************************************************************
* Includes
**********************************************************************************************************************/
/* Includes board and MCU related header files. */
#include "bsp_api.h"
#include "r_transfer_api.h"
/* Common macro for FSP header files. There is also a corresponding FSP_FOOTER macro at the end of this file. */
FSP_HEADER
/**********************************************************************************************************************
* Macro definitions
**********************************************************************************************************************/
/**********************************************************************************************************************
* Typedef definitions
**********************************************************************************************************************/
/** UART Event codes */
typedef enum e_sf_event
{
UART_EVENT_RX_COMPLETE = (1UL << 0), ///< Receive complete event
UART_EVENT_TX_COMPLETE = (1UL << 1), ///< Transmit complete event
UART_EVENT_RX_CHAR = (1UL << 2), ///< Character received
UART_EVENT_ERR_PARITY = (1UL << 3), ///< Parity error event
UART_EVENT_ERR_FRAMING = (1UL << 4), ///< Mode fault error event
UART_EVENT_ERR_OVERFLOW = (1UL << 5), ///< FIFO Overflow error event
UART_EVENT_BREAK_DETECT = (1UL << 6), ///< Break detect error event
UART_EVENT_TX_DATA_EMPTY = (1UL << 7), ///< Last byte is transmitting, ready for more data
} uart_event_t;
/** UART Data bit length definition */
typedef enum e_uart_data_bits
{
UART_DATA_BITS_8, ///< Data bits 8-bit
UART_DATA_BITS_7, ///< Data bits 7-bit
UART_DATA_BITS_9 ///< Data bits 9-bit
} uart_data_bits_t;
/** UART Parity definition */
typedef enum e_uart_parity
{
UART_PARITY_OFF = 0U, ///< No parity
UART_PARITY_EVEN = 2U, ///< Even parity
UART_PARITY_ODD = 3U, ///< Odd parity
} uart_parity_t;
/** UART Stop bits definition */
typedef enum e_uart_stop_bits
{
UART_STOP_BITS_1 = 0U, ///< Stop bit 1-bit
UART_STOP_BITS_2 = 1U, ///< Stop bits 2-bit
} uart_stop_bits_t;
/** UART transaction definition */
typedef enum e_uart_dir
{
UART_DIR_RX_TX = 3U, ///< Both RX and TX
UART_DIR_RX = 1U, ///< Only RX
UART_DIR_TX = 2U, ///< Only TX
} uart_dir_t;
/** UART driver specific information */
typedef struct st_uart_info
{
/** Maximum bytes that can be written at this time. Only applies if uart_cfg_t::p_transfer_tx is not NULL. */
uint32_t write_bytes_max;
/** Maximum bytes that are available to read at one time. Only applies if uart_cfg_t::p_transfer_rx is not NULL. */
uint32_t read_bytes_max;
} uart_info_t;
/** UART Callback parameter definition */
typedef struct st_uart_callback_arg
{
uint32_t channel; ///< Device channel number
uart_event_t event; ///< Event code
/** Contains the next character received for the events UART_EVENT_RX_CHAR, UART_EVENT_ERR_PARITY,
* UART_EVENT_ERR_FRAMING, or UART_EVENT_ERR_OVERFLOW. Otherwise unused. */
uint32_t data;
void const * p_context; ///< Context provided to user during callback
} uart_callback_args_t;
/** UART Configuration */
typedef struct st_uart_cfg
{
/* UART generic configuration */
uint8_t channel; ///< Select a channel corresponding to the channel number of the hardware.
uart_data_bits_t data_bits; ///< Data bit length (8 or 7 or 9)
uart_parity_t parity; ///< Parity type (none or odd or even)
uart_stop_bits_t stop_bits; ///< Stop bit length (1 or 2)
uint8_t rxi_ipl; ///< Receive interrupt priority
IRQn_Type rxi_irq; ///< Receive interrupt IRQ number
uint8_t txi_ipl; ///< Transmit interrupt priority
IRQn_Type txi_irq; ///< Transmit interrupt IRQ number
uint8_t tei_ipl; ///< Transmit end interrupt priority
IRQn_Type tei_irq; ///< Transmit end interrupt IRQ number
uint8_t eri_ipl; ///< Error interrupt priority
IRQn_Type eri_irq; ///< Error interrupt IRQ number
/** Optional transfer instance used to receive multiple bytes without interrupts. Set to NULL if unused.
* If NULL, the number of bytes allowed in the read API is limited to one byte at a time. */
transfer_instance_t const * p_transfer_rx;
/** Optional transfer instance used to send multiple bytes without interrupts. Set to NULL if unused.
* If NULL, the number of bytes allowed in the write APIs is limited to one byte at a time. */
transfer_instance_t const * p_transfer_tx;
/* Configuration for UART Event processing */
void (* p_callback)(uart_callback_args_t * p_args); ///< Pointer to callback function
void const * p_context; ///< User defined context passed into callback function
/* Pointer to UART peripheral specific configuration */
void const * p_extend; ///< UART hardware dependent configuration
} uart_cfg_t;
/** UART control block. Allocate an instance specific control block to pass into the UART API calls.
* @par Implemented as
* - sci_uart_instance_ctrl_t
*/
typedef void uart_ctrl_t;
/** Shared Interface definition for UART */
typedef struct st_uart_api
{
/** Open UART device.
* @par Implemented as
* - @ref R_SCI_UART_Open()
*
* @param[in,out] p_ctrl Pointer to the UART control block. Must be declared by user. Value set here.
* @param[in] uart_cfg_t Pointer to UART configuration structure. All elements of this structure must be set by
* user.
*/
fsp_err_t (* open)(uart_ctrl_t * const p_ctrl, uart_cfg_t const * const p_cfg);
/** Read from UART device. The read buffer is used until the read is complete. When a transfer is complete, the
* callback is called with event UART_EVENT_RX_COMPLETE. Bytes received outside an active transfer are received in
* the callback function with event UART_EVENT_RX_CHAR.
* The maximum transfer size is reported by infoGet().
* @par Implemented as
* - @ref R_SCI_UART_Read()
*
* @param[in] p_ctrl Pointer to the UART control block for the channel.
* @param[in] p_dest Destination address to read data from.
* @param[in] bytes Read data length.
*/
fsp_err_t (* read)(uart_ctrl_t * const p_ctrl, uint8_t * const p_dest, uint32_t const bytes);
/** Write to UART device. The write buffer is used until write is complete. Do not overwrite write buffer
* contents until the write is finished. When the write is complete (all bytes are fully transmitted on the wire),
* the callback called with event UART_EVENT_TX_COMPLETE.
* The maximum transfer size is reported by infoGet().
* @par Implemented as
* - @ref R_SCI_UART_Write()
*
* @param[in] p_ctrl Pointer to the UART control block.
* @param[in] p_src Source address to write data to.
* @param[in] bytes Write data length.
*/
fsp_err_t (* write)(uart_ctrl_t * const p_ctrl, uint8_t const * const p_src, uint32_t const bytes);
/** Change baud rate.
* @warning Calling this API aborts any in-progress transmission and disables reception until the new baud
* settings have been applied.
*
* @par Implemented as
* - @ref R_SCI_UART_BaudSet()
*
* @param[in] p_ctrl Pointer to the UART control block.
* @param[in] p_baudrate_info Pointer to module specific information for configuring baud rate.
*/
fsp_err_t (* baudSet)(uart_ctrl_t * const p_ctrl, void const * const p_baudrate_info);
/** Get the driver specific information.
* @par Implemented as
* - @ref R_SCI_UART_InfoGet()
*
* @param[in] p_ctrl Pointer to the UART control block.
* @param[in] baudrate Baud rate in bps.
*/
fsp_err_t (* infoGet)(uart_ctrl_t * const p_ctrl, uart_info_t * const p_info);
/**
* Abort ongoing transfer.
* @par Implemented as
* - @ref R_SCI_UART_Abort()
*
* @param[in] p_ctrl Pointer to the UART control block.
* @param[in] communication_to_abort Type of abort request.
*/
fsp_err_t (* communicationAbort)(uart_ctrl_t * const p_ctrl, uart_dir_t communication_to_abort);
/**
* Specify callback function and optional context pointer and working memory pointer.
* @par Implemented as
* - R_SCI_Uart_CallbackSet()
*
* @param[in] p_ctrl Pointer to the UART control block.
* @param[in] p_callback Callback function
* @param[in] p_context Pointer to send to callback function
* @param[in] p_working_memory Pointer to volatile memory where callback structure can be allocated.
* Callback arguments allocated here are only valid during the callback.
*/
fsp_err_t (* callbackSet)(uart_ctrl_t * const p_api_ctrl, void (* p_callback)(uart_callback_args_t *),
void const * const p_context, uart_callback_args_t * const p_callback_memory);
/** Close UART device.
* @par Implemented as
* - @ref R_SCI_UART_Close()
*
* @param[in] p_ctrl Pointer to the UART control block.
*/
fsp_err_t (* close)(uart_ctrl_t * const p_ctrl);
} uart_api_t;
/** This structure encompasses everything that is needed to use an instance of this interface. */
typedef struct st_uart_instance
{
uart_ctrl_t * p_ctrl; ///< Pointer to the control structure for this instance
uart_cfg_t const * p_cfg; ///< Pointer to the configuration structure for this instance
uart_api_t const * p_api; ///< Pointer to the API structure for this instance
} uart_instance_t;
/** @} (end defgroup UART_API) */
/* Common macro for FSP header files. There is also a corresponding FSP_HEADER macro at the top of this file. */
FSP_FOOTER
#endif