/** * \file * * \brief USART related functionality declaration. * * Copyright (C) 2014 Atmel Corporation. All rights reserved. * * \asf_license_start * * \page License * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * 3. The name of Atmel may not be used to endorse or promote products derived * from this software without specific prior written permission. * * 4. This software may only be redistributed and used in connection with an * Atmel microcontroller product. * * THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE * EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * \asf_license_stop * */ #ifndef _HPL_USART_ASYNC_H_INCLUDED #define _HPL_USART_ASYNC_H_INCLUDED /** * \addtogroup HPL USART * * \section hpl_usart_rev Revision History * - v1.0.0 Initial Release * *@{ */ #include "hpl_usart.h" #include "hpl_irq.h" #ifdef __cplusplus extern "C" { #endif /** * \brief USART callback types */ enum _usart_async_callback_type { USART_ASYNC_BYTE_SENT, USART_ASYNC_RX_DONE, USART_ASYNC_TX_DONE, USART_ASYNC_ERROR }; /** * \brief USART device structure * * The USART device structure forward declaration. */ struct _usart_async_device; /** * \brief USART interrupt callbacks */ struct _usart_async_callbacks { void (*tx_byte_sent)(struct _usart_async_device *device); void (*rx_done_cb)(struct _usart_async_device *device, uint8_t data); void (*tx_done_cb)(struct _usart_async_device *device); void (*error_cb)(struct _usart_async_device *device); }; /** * \brief USART descriptor device structure */ struct _usart_async_device { struct _usart_async_callbacks usart_cb; struct _irq_descriptor irq; void * hw; }; /** * \name HPL functions */ //@{ /** * \brief Initialize asynchronous USART * * This function does low level USART configuration. * * \param[in] device The pointer to USART device instance * \param[in] hw The pointer to hardware instance * * \return Initialization status */ int32_t _usart_async_init(struct _usart_async_device *const device, void *const hw); /** * \brief Deinitialize USART * * This function closes the given USART by disabling its clock. * * \param[in] device The pointer to USART device instance */ void _usart_async_deinit(struct _usart_async_device *const device); /** * \brief Enable usart module * * This function will enable the usart module * * \param[in] device The pointer to USART device instance */ void _usart_async_enable(struct _usart_async_device *const device); /** * \brief Disable usart module * * This function will disable the usart module * * \param[in] device The pointer to USART device instance */ void _usart_async_disable(struct _usart_async_device *const device); /** * \brief Calculate baud rate register value * * \param[in] baud Required baud rate * \param[in] clock_rate clock frequency * \param[in] samples The number of samples * \param[in] mode USART mode * \param[in] fraction A fraction value * * \return Calculated baud rate register value */ uint16_t _usart_async_calculate_baud_rate(const uint32_t baud, const uint32_t clock_rate, const uint8_t samples, const enum usart_baud_rate_mode mode, const uint8_t fraction); /** * \brief Set baud rate * * \param[in] device The pointer to USART device instance * \param[in] baud_rate A baud rate to set */ void _usart_async_set_baud_rate(struct _usart_async_device *const device, const uint32_t baud_rate); /** * \brief Set data order * * \param[in] device The pointer to USART device instance * \param[in] order A data order to set */ void _usart_async_set_data_order(struct _usart_async_device *const device, const enum usart_data_order order); /** * \brief Set mode * * \param[in] device The pointer to USART device instance * \param[in] mode A mode to set */ void _usart_async_set_mode(struct _usart_async_device *const device, const enum usart_mode mode); /** * \brief Set parity * * \param[in] device The pointer to USART device instance * \param[in] parity A parity to set */ void _usart_async_set_parity(struct _usart_async_device *const device, const enum usart_parity parity); /** * \brief Set stop bits mode * * \param[in] device The pointer to USART device instance * \param[in] stop_bits A stop bits mode to set */ void _usart_async_set_stop_bits(struct _usart_async_device *const device, const enum usart_stop_bits stop_bits); /** * \brief Set character size * * \param[in] device The pointer to USART device instance * \param[in] size A character size to set */ void _usart_async_set_character_size(struct _usart_async_device *const device, const enum usart_character_size size); /** * \brief Retrieve usart status * * \param[in] device The pointer to USART device instance */ uint32_t _usart_async_get_status(const struct _usart_async_device *const device); /** * \brief Write a byte to the given USART instance * * \param[in] device The pointer to USART device instance * \param[in] data Data to write */ void _usart_async_write_byte(struct _usart_async_device *const device, uint8_t data); /** * \brief Check if USART is ready to send next byte * * \param[in] device The pointer to USART device instance * * \return Status of the ready check. * \retval true if the USART is ready to send next byte * \retval false if the USART is not ready to send next byte */ bool _usart_async_is_byte_sent(const struct _usart_async_device *const device); /** * \brief Set the state of flow control pins * * \param[in] device The pointer to USART device instance * \param[in] state - A state of flow control pins to set */ void _usart_async_set_flow_control_state(struct _usart_async_device *const device, const union usart_flow_control_state state); /** * \brief Retrieve the state of flow control pins * * This function retrieves the of flow control pins. * * \return USART_FLOW_CONTROL_STATE_UNAVAILABLE. */ union usart_flow_control_state _usart_async_get_flow_control_state(const struct _usart_async_device *const device); /** * \brief Enable data register empty interrupt * * \param[in] device The pointer to USART device instance */ void _usart_async_enable_byte_sent_irq(struct _usart_async_device *const device); /** * \brief Enable transmission complete interrupt * * \param[in] device The pointer to USART device instance */ void _usart_async_enable_tx_done_irq(struct _usart_async_device *const device); /** * \brief Retrieve ordinal number of the given USART hardware instance * * \param[in] device The pointer to USART device instance * * \return The ordinal number of the given USART hardware instance */ uint8_t _usart_async_get_hardware_index(const struct _usart_async_device *const device); /** * \brief Enable/disable USART interrupt * * param[in] device The pointer to USART device instance * param[in] type The type of interrupt to disable/enable if applicable * param[in] state Enable or disable */ void _usart_async_set_irq_state(struct _usart_async_device *const device, const enum _usart_async_callback_type type, const bool state); //@} #ifdef __cplusplus } #endif /**@}*/ #endif /* _HPL_USART_ASYNC_H_INCLUDED */