/** * \file * * \brief USART related functionality declaration. * * Copyright (c) 2014-2018 Microchip Technology Inc. and its subsidiaries. * * \asf_license_start * * \page License * * Subject to your compliance with these terms, you may use Microchip * software and any derivatives exclusively with Microchip products. * It is your responsibility to comply with third party license terms applicable * to your use of third party software (including open source software) that * may accompany Microchip software. * * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES, * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE, * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY, * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE. TO THE FULLEST EXTENT * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY, * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE. * * \asf_license_stop * */ #ifndef _HAL_USART_ASYNC_H_INCLUDED #define _HAL_USART_ASYNC_H_INCLUDED #include "hal_io.h" #include #include /** * \addtogroup doc_driver_hal_usart_async * * @{ */ #ifdef __cplusplus extern "C" { #endif /** * \brief USART descriptor * * The USART descriptor forward declaration. */ struct usart_async_descriptor; /** * \brief USART callback type */ typedef void (*usart_cb_t)(const struct usart_async_descriptor *const descr); /** * \brief USART callback types */ enum usart_async_callback_type { USART_ASYNC_RXC_CB, USART_ASYNC_TXC_CB, USART_ASYNC_ERROR_CB }; /** * \brief USART callbacks */ struct usart_async_callbacks { usart_cb_t tx_done; usart_cb_t rx_done; usart_cb_t error; }; /** \brief USART status * Status descriptor holds the current status of transfer. */ struct usart_async_status { /** Status flags */ uint32_t flags; /** Number of characters transmitted */ uint16_t txcnt; /** Number of characters receviced */ uint16_t rxcnt; }; /** * \brief Asynchronous USART descriptor structure */ struct usart_async_descriptor { struct io_descriptor io; struct _usart_async_device device; struct usart_async_callbacks usart_cb; uint32_t stat; struct ringbuffer rx; uint16_t tx_por; uint8_t * tx_buffer; uint16_t tx_buffer_length; }; /** USART write busy */ #define USART_ASYNC_STATUS_BUSY 0x0001 /** * \brief Initialize USART interface * * This function initializes the given I/O descriptor to be used as USART * interface descriptor. * It checks if the given hardware is not initialized and if the given hardware * is permitted to be initialized. * * \param[out] descr A USART descriptor which is used to communicate via the USART * \param[in] hw The pointer to the hardware instance * \param[in] rx_buffer An RX buffer * \param[in] rx_buffer_length The length of the buffer above * \param[in] func The pointer to a set of function pointers * * \return Initialization status. * \retval -1 Passed parameters were invalid or the interface is already * initialized * \retval 0 The initialization is completed successfully */ int32_t usart_async_init(struct usart_async_descriptor *const descr, void *const hw, uint8_t *const rx_buffer, const uint16_t rx_buffer_length, void *const func); /** * \brief Deinitialize USART interface * * This function deinitializes the given I/O descriptor. * It checks if the given hardware is initialized and if the given hardware * is permitted to be deinitialized. * * \param[in] descr A USART descriptor which is used to communicate via USART * * \return De-initialization status. */ int32_t usart_async_deinit(struct usart_async_descriptor *const descr); /** * \brief Enable USART interface * * Enables the USART interface * * \param[in] descr A USART descriptor which is used to communicate via USART * * \return Enabling status. */ int32_t usart_async_enable(struct usart_async_descriptor *const descr); /** * \brief Disable USART interface * * Disables the USART interface * * \param[in] descr A USART descriptor which is used to communicate via USART * * \return Disabling status. */ int32_t usart_async_disable(struct usart_async_descriptor *const descr); /** * \brief Retrieve I/O descriptor * * This function retrieves the I/O descriptor of the given USART descriptor. * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[out] io An I/O descriptor to retrieve * * \return The status of I/O descriptor retrieving. */ int32_t usart_async_get_io_descriptor(struct usart_async_descriptor *const descr, struct io_descriptor **io); /** * \brief Register USART callback * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[in] type Callback type * \param[in] cb A callback function * * \return The status of callback assignment. * \retval -1 Passed parameters were invalid or the interface is not initialized * \retval 0 A callback is registered successfully */ int32_t usart_async_register_callback(struct usart_async_descriptor *const descr, const enum usart_async_callback_type type, usart_cb_t cb); /** * \brief Specify action for flow control pins * * This function sets action (or state) for flow control pins if * the flow control is enabled. * It sets state of flow control pins only if automatic support of * the flow control is not supported by the hardware. * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[in] state A state to set the flow control pins * * \return The status of flow control action setup. */ int32_t usart_async_set_flow_control(struct usart_async_descriptor *const descr, const union usart_flow_control_state state); /** * \brief Set USART baud rate * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[in] baud_rate A baud rate to set * * \return The status of baud rate setting. */ int32_t usart_async_set_baud_rate(struct usart_async_descriptor *const descr, const uint32_t baud_rate); /** * \brief Set USART data order * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[in] data_order A data order to set * * \return The status of data order setting. */ int32_t usart_async_set_data_order(struct usart_async_descriptor *const descr, const enum usart_data_order data_order); /** * \brief Set USART mode * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[in] mode A mode to set * * \return The status of mode setting. */ int32_t usart_async_set_mode(struct usart_async_descriptor *const descr, const enum usart_mode mode); /** * \brief Set USART parity * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[in] parity A parity to set * * \return The status of parity setting. */ int32_t usart_async_set_parity(struct usart_async_descriptor *const descr, const enum usart_parity parity); /** * \brief Set USART stop bits * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[in] stop_bits Stop bits to set * * \return The status of stop bits setting. */ int32_t usart_async_set_stopbits(struct usart_async_descriptor *const descr, const enum usart_stop_bits stop_bits); /** * \brief Set USART character size * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[in] size A character size to set * * \return The status of character size setting. */ int32_t usart_async_set_character_size(struct usart_async_descriptor *const descr, const enum usart_character_size size); /** * \brief Retrieve the state of flow control pins * * This function retrieves the flow control pins * if the flow control is enabled. * * The function can return USART_FLOW_CONTROL_STATE_UNAVAILABLE in case * if the flow control is done by the hardware * and the pins state cannot be read out. * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[out] state The state of flow control pins * * \return The status of flow control state reading. */ int32_t usart_async_flow_control_status(const struct usart_async_descriptor *const descr, union usart_flow_control_state *const state); /** * \brief Check if the USART transmitter is empty * * \param[in] descr A USART descriptor which is used to communicate via USART * * \return The status of USART TX empty checking. * \retval 0 The USART transmitter is not empty * \retval 1 The USART transmitter is empty */ int32_t usart_async_is_tx_empty(const struct usart_async_descriptor *const descr); /** * \brief Check if the USART receiver is not empty * * \param[in] descr A USART descriptor which is used to communicate via USART * * \return The status of the USART RX empty checking. * \retval 1 The USART receiver is not empty * \retval 0 The USART receiver is empty */ int32_t usart_async_is_rx_not_empty(const struct usart_async_descriptor *const descr); /** * \brief Retrieve the current interface status * * \param[in] descr A USART descriptor which is used to communicate via USART * \param[out] status The state of USART * * \return The status of USART status retrieving. */ int32_t usart_async_get_status(struct usart_async_descriptor *const descr, struct usart_async_status *const status); /** * \brief flush USART ringbuf * * This function flush USART RX ringbuf. * * \param[in] descr The pointer to USART descriptor * * \return ERR_NONE */ int32_t usart_async_flush_rx_buffer(struct usart_async_descriptor *const descr); /** * \brief Retrieve the current driver version * * \return Current driver version. */ uint32_t usart_async_get_version(void); #ifdef __cplusplus } #endif /**@}*/ #endif /* _HAL_USART_ASYNC_H_INCLUDED */