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Demo application running on STM8 demonstrating a web interface with ESPTerm
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espterm-stm8-demo/Libraries/SPL/inc/stm8s_spi.h

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/**
******************************************************************************
* @file stm8s_spi.h
* @author MCD Application Team
* @version V2.2.0
* @date 30-September-2014
* @brief This file contains all functions prototype and macros for the SPI peripheral.
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2014 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __STM8S_SPI_H
#define __STM8S_SPI_H
/* Includes ------------------------------------------------------------------*/
#include "stm8s.h"
/** @addtogroup STM8S_StdPeriph_Driver
* @{
*/
/** @addtogroup SPI_Exported_Types
* @{
*/
/**
* @brief SPI data direction mode
* Warning: element values correspond to BDM, BDOE, RXONLY bits position
*/
typedef enum {
SPI_DATADIRECTION_2LINES_FULLDUPLEX = (uint8_t)0x00, /*!< 2-line uni-directional data mode enable */
SPI_DATADIRECTION_2LINES_RXONLY = (uint8_t)0x04, /*!< Receiver only in 2 line uni-directional data mode */
SPI_DATADIRECTION_1LINE_RX = (uint8_t)0x80, /*!< Receiver only in 1 line bi-directional data mode */
SPI_DATADIRECTION_1LINE_TX = (uint8_t)0xC0 /*!< Transmit only in 1 line bi-directional data mode */
} SPI_DataDirection_TypeDef;
/**
* @brief SPI Slave Select management
* Warning: element values correspond to LSBFIRST bit position
*/
typedef enum
{
SPI_NSS_SOFT = (uint8_t)0x02, /*!< Software slave management disabled */
SPI_NSS_HARD = (uint8_t)0x00 /*!< Software slave management enabled */
} SPI_NSS_TypeDef;
/**
* @brief SPI direction transmit/receive
*/
typedef enum {
SPI_DIRECTION_RX = (uint8_t)0x00, /*!< Selects Rx receive direction in bi-directional mode */
SPI_DIRECTION_TX = (uint8_t)0x01 /*!< Selects Tx transmission direction in bi-directional mode */
} SPI_Direction_TypeDef;
/**
* @brief SPI master/slave mode
* Warning: element values correspond to MSTR bit position
*/
typedef enum {
SPI_MODE_MASTER = (uint8_t)0x04, /*!< SPI Master configuration */
SPI_MODE_SLAVE = (uint8_t)0x00 /*!< SPI Slave configuration */
} SPI_Mode_TypeDef;
/**
* @brief SPI BaudRate Prescaler
* Warning: element values correspond to BR bits position
*/
typedef enum {
SPI_BAUDRATEPRESCALER_2 = (uint8_t)0x00, /*!< SPI frequency = frequency(CPU)/2 */
SPI_BAUDRATEPRESCALER_4 = (uint8_t)0x08, /*!< SPI frequency = frequency(CPU)/4 */
SPI_BAUDRATEPRESCALER_8 = (uint8_t)0x10, /*!< SPI frequency = frequency(CPU)/8 */
SPI_BAUDRATEPRESCALER_16 = (uint8_t)0x18, /*!< SPI frequency = frequency(CPU)/16 */
SPI_BAUDRATEPRESCALER_32 = (uint8_t)0x20, /*!< SPI frequency = frequency(CPU)/32 */
SPI_BAUDRATEPRESCALER_64 = (uint8_t)0x28, /*!< SPI frequency = frequency(CPU)/64 */
SPI_BAUDRATEPRESCALER_128 = (uint8_t)0x30, /*!< SPI frequency = frequency(CPU)/128 */
SPI_BAUDRATEPRESCALER_256 = (uint8_t)0x38 /*!< SPI frequency = frequency(CPU)/256 */
} SPI_BaudRatePrescaler_TypeDef;
/**
* @brief SPI Clock Polarity
* Warning: element values correspond to CPOL bit position
*/
typedef enum {
SPI_CLOCKPOLARITY_LOW = (uint8_t)0x00, /*!< Clock to 0 when idle */
SPI_CLOCKPOLARITY_HIGH = (uint8_t)0x02 /*!< Clock to 1 when idle */
} SPI_ClockPolarity_TypeDef;
/**
* @brief SPI Clock Phase
* Warning: element values correspond to CPHA bit position
*/
typedef enum {
SPI_CLOCKPHASE_1EDGE = (uint8_t)0x00, /*!< The first clock transition is the first data capture edge */
SPI_CLOCKPHASE_2EDGE = (uint8_t)0x01 /*!< The second clock transition is the first data capture edge */
} SPI_ClockPhase_TypeDef;
/**
* @brief SPI Frame Format: MSB or LSB transmitted first
* Warning: element values correspond to LSBFIRST bit position
*/
typedef enum {
SPI_FIRSTBIT_MSB = (uint8_t)0x00, /*!< MSB bit will be transmitted first */
SPI_FIRSTBIT_LSB = (uint8_t)0x80 /*!< LSB bit will be transmitted first */
} SPI_FirstBit_TypeDef;
/**
* @brief SPI CRC Transmit/Receive
*/
typedef enum {
SPI_CRC_RX = (uint8_t)0x00, /*!< Select Tx CRC register */
SPI_CRC_TX = (uint8_t)0x01 /*!< Select Rx CRC register */
} SPI_CRC_TypeDef;
/**
* @brief SPI flags definition - Warning : FLAG value = mapping position register
*/
typedef enum {
SPI_FLAG_BSY = (uint8_t)0x80, /*!< Busy flag */
SPI_FLAG_OVR = (uint8_t)0x40, /*!< Overrun flag */
SPI_FLAG_MODF = (uint8_t)0x20, /*!< Mode fault */
SPI_FLAG_CRCERR = (uint8_t)0x10, /*!< CRC error flag */
SPI_FLAG_WKUP = (uint8_t)0x08, /*!< Wake-up flag */
SPI_FLAG_TXE = (uint8_t)0x02, /*!< Transmit buffer empty */
SPI_FLAG_RXNE = (uint8_t)0x01 /*!< Receive buffer empty */
} SPI_Flag_TypeDef;
/**
* @brief SPI_IT possible values
* Elements values convention: 0xYX
* X: Position of the corresponding Interrupt
* Y: ITPENDINGBIT position
*/
typedef enum
{
SPI_IT_WKUP = (uint8_t)0x34, /*!< Wake-up interrupt*/
SPI_IT_OVR = (uint8_t)0x65, /*!< Overrun interrupt*/
SPI_IT_MODF = (uint8_t)0x55, /*!< Mode fault interrupt*/
SPI_IT_CRCERR = (uint8_t)0x45, /*!< CRC error interrupt*/
SPI_IT_TXE = (uint8_t)0x17, /*!< Transmit buffer empty interrupt*/
SPI_IT_RXNE = (uint8_t)0x06, /*!< Receive buffer not empty interrupt*/
SPI_IT_ERR = (uint8_t)0x05 /*!< Error interrupt*/
} SPI_IT_TypeDef;
/**
* @}
*/
/* Private define ------------------------------------------------------------*/
/** @addtogroup SPI_Private_Macros
* @brief Macros used by the assert_param function to check the different functions parameters.
* @{
*/
/**
* @brief Macro used by the assert_param function in order to check the data direction mode values
*/
#define IS_SPI_DATA_DIRECTION_OK(MODE) (((MODE) == SPI_DATADIRECTION_2LINES_FULLDUPLEX) || \
((MODE) == SPI_DATADIRECTION_2LINES_RXONLY) || \
((MODE) == SPI_DATADIRECTION_1LINE_RX) || \
((MODE) == SPI_DATADIRECTION_1LINE_TX))
/**
* @brief Macro used by the assert_param function in order to check the mode
* half duplex data direction values
*/
#define IS_SPI_DIRECTION_OK(DIRECTION) (((DIRECTION) == SPI_DIRECTION_RX) || \
((DIRECTION) == SPI_DIRECTION_TX))
/**
* @brief Macro used by the assert_param function in order to check the NSS
* management values
*/
#define IS_SPI_SLAVEMANAGEMENT_OK(NSS) (((NSS) == SPI_NSS_SOFT) || \
((NSS) == SPI_NSS_HARD))
/**
* @brief Macro used by the assert_param function in order to check the different
* sensitivity values for the CRC polynomial
*/
#define IS_SPI_CRC_POLYNOMIAL_OK(POLYNOMIAL) ((POLYNOMIAL) > (uint8_t)0x00)
/**
* @brief Macro used by the assert_param function in order to check the SPI Mode values
*/
#define IS_SPI_MODE_OK(MODE) (((MODE) == SPI_MODE_MASTER) || \
((MODE) == SPI_MODE_SLAVE))
/**
* @brief Macro used by the assert_param function in order to check the baudrate values
*/
#define IS_SPI_BAUDRATE_PRESCALER_OK(PRESCALER) (((PRESCALER) == SPI_BAUDRATEPRESCALER_2) || \
((PRESCALER) == SPI_BAUDRATEPRESCALER_4) || \
((PRESCALER) == SPI_BAUDRATEPRESCALER_8) || \
((PRESCALER) == SPI_BAUDRATEPRESCALER_16) || \
((PRESCALER) == SPI_BAUDRATEPRESCALER_32) || \
((PRESCALER) == SPI_BAUDRATEPRESCALER_64) || \
((PRESCALER) == SPI_BAUDRATEPRESCALER_128) || \
((PRESCALER) == SPI_BAUDRATEPRESCALER_256))
/**
* @brief Macro used by the assert_param function in order to check the polarity values
*/
#define IS_SPI_POLARITY_OK(CLKPOL) (((CLKPOL) == SPI_CLOCKPOLARITY_LOW) || \
((CLKPOL) == SPI_CLOCKPOLARITY_HIGH))
/**
* @brief Macro used by the assert_param function in order to check the phase values
*/
#define IS_SPI_PHASE_OK(CLKPHA) (((CLKPHA) == SPI_CLOCKPHASE_1EDGE) || \
((CLKPHA) == SPI_CLOCKPHASE_2EDGE))
/**
* @brief Macro used by the assert_param function in order to check the first
* bit to be transmited values
*/
#define IS_SPI_FIRSTBIT_OK(BIT) (((BIT) == SPI_FIRSTBIT_MSB) || \
((BIT) == SPI_FIRSTBIT_LSB))
/**
* @brief Macro used by the assert_param function in order to check the CRC
* Transmit/Receive
*/
#define IS_SPI_CRC_OK(CRC) (((CRC) == SPI_CRC_TX) || \
((CRC) == SPI_CRC_RX))
/**
* @brief Macro used by the assert_param function in order to check the
* different flags values
*/
#define IS_SPI_FLAGS_OK(FLAG) (((FLAG) == SPI_FLAG_OVR) || \
((FLAG) == SPI_FLAG_MODF) || \
((FLAG) == SPI_FLAG_CRCERR) || \
((FLAG) == SPI_FLAG_WKUP) || \
((FLAG) == SPI_FLAG_TXE) || \
((FLAG) == SPI_FLAG_RXNE) || \
((FLAG) == SPI_FLAG_BSY))
/**
* @brief Macro used by the assert_param function in order to check the
* different sensitivity values for the flag that can be cleared
* by writing 0
*/
#define IS_SPI_CLEAR_FLAGS_OK(FLAG) (((FLAG) == SPI_FLAG_CRCERR) || \
((FLAG) == SPI_FLAG_WKUP))
/**
* @brief Macro used by the assert_param function in order to check the
* different sensitivity values for the Interrupts
*/
#define IS_SPI_CONFIG_IT_OK(Interrupt) (((Interrupt) == SPI_IT_TXE) || \
((Interrupt) == SPI_IT_RXNE) || \
((Interrupt) == SPI_IT_ERR) || \
((Interrupt) == SPI_IT_WKUP))
/**
* @brief Macro used by the assert_param function in order to check the
* different sensitivity values for the pending bit
*/
#define IS_SPI_GET_IT_OK(ITPendingBit) (((ITPendingBit) == SPI_IT_OVR) || \
((ITPendingBit) == SPI_IT_MODF) || \
((ITPendingBit) == SPI_IT_CRCERR) || \
((ITPendingBit) == SPI_IT_WKUP) || \
((ITPendingBit) == SPI_IT_TXE) || \
((ITPendingBit) == SPI_IT_RXNE))
/**
* @brief Macro used by the assert_param function in order to check the
* different sensitivity values for the pending bit that can be cleared
* by writing 0
*/
#define IS_SPI_CLEAR_IT_OK(ITPendingBit) (((ITPendingBit) == SPI_IT_CRCERR) || \
((ITPendingBit) == SPI_IT_WKUP))
/**
* @}
*/
/** @addtogroup SPI_Exported_Functions
* @{
*/
void SPI_DeInit(void);
void SPI_Init(SPI_FirstBit_TypeDef FirstBit,
SPI_BaudRatePrescaler_TypeDef BaudRatePrescaler,
SPI_Mode_TypeDef Mode, SPI_ClockPolarity_TypeDef ClockPolarity,
SPI_ClockPhase_TypeDef ClockPhase,
SPI_DataDirection_TypeDef Data_Direction,
SPI_NSS_TypeDef Slave_Management, uint8_t CRCPolynomial);
void SPI_Cmd(FunctionalState NewState);
void SPI_ITConfig(SPI_IT_TypeDef SPI_IT, FunctionalState NewState);
void SPI_SendData(uint8_t Data);
uint8_t SPI_ReceiveData(void);
void SPI_NSSInternalSoftwareCmd(FunctionalState NewState);
void SPI_TransmitCRC(void);
void SPI_CalculateCRCCmd(FunctionalState NewState);
uint8_t SPI_GetCRC(SPI_CRC_TypeDef SPI_CRC);
void SPI_ResetCRC(void);
uint8_t SPI_GetCRCPolynomial(void);
void SPI_BiDirectionalLineConfig(SPI_Direction_TypeDef SPI_Direction);
FlagStatus SPI_GetFlagStatus(SPI_Flag_TypeDef SPI_FLAG);
void SPI_ClearFlag(SPI_Flag_TypeDef SPI_FLAG);
ITStatus SPI_GetITStatus(SPI_IT_TypeDef SPI_IT);
void SPI_ClearITPendingBit(SPI_IT_TypeDef SPI_IT);
/**
* @}
*/
#endif /* __STM8S_SPI_H */
/**
* @}
*/
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/