#ifndef __SWM320_SPI_H__ #define __SWM320_SPI_H__ typedef struct { uint8_t FrameFormat; //帧格式:SPI_FORMAT_SPI、SPI_FORMAT_TI_SSI uint8_t SampleEdge; //在SPI帧格式下,选择数据采样边沿:SPI_FIRST_EDGE、SPI_SECOND_EDGE uint8_t IdleLevel; //在SPI帧格式下,选择空闲时(无数据传输时)时钟线的电平:SPI_LOW_LEVEL、SPI_HIGH_LEVEL uint8_t WordSize; //字长度, 有效值4-16 uint8_t Master; //1 主机模式 0 从机模式 uint8_t clkDiv; //SPI_CLK = SYS_CLK / clkDiv,有效值:SPI_CLKDIV_4、SPI_CLKDIV_8、... ... 、SPI_CLKDIV_512 uint8_t RXHFullIEn; //接收FIFO半满中断使能 uint8_t TXEmptyIEn; //发送FIFO 空中断使能 uint8_t TXCompleteIEn; //发送FIFO 空且发送移位寄存器空中断使能 } SPI_InitStructure; #define SPI_FORMAT_SPI 0 //Motorola SPI 格式 #define SPI_FORMAT_TI_SSI 1 //TI SSI 格式 #define SPI_FIRST_EDGE 0 //第一个时钟沿开始采样 #define SPI_SECOND_EDGE 1 //第二个时钟沿开始采样 #define SPI_LOW_LEVEL 0 //空闲时时钟线保持低电平 #define SPI_HIGH_LEVEL 1 //空闲时时钟线保持高电平 #define SPI_CLKDIV_4 0 #define SPI_CLKDIV_8 1 #define SPI_CLKDIV_16 2 #define SPI_CLKDIV_32 3 #define SPI_CLKDIV_64 4 #define SPI_CLKDIV_128 5 #define SPI_CLKDIV_256 6 #define SPI_CLKDIV_512 7 void SPI_Init(SPI_TypeDef * SPIx, SPI_InitStructure * initStruct); //SPI初始化 void SPI_Open(SPI_TypeDef * SPIx); //SPI打开,允许收发 void SPI_Close(SPI_TypeDef * SPIx); //SPI关闭,禁止收发 uint32_t SPI_Read(SPI_TypeDef * SPIx); void SPI_Write(SPI_TypeDef * SPIx, uint32_t data); void SPI_WriteWithWait(SPI_TypeDef * SPIx, uint32_t data); uint32_t SPI_ReadWrite(SPI_TypeDef * SPIx, uint32_t data); uint32_t SPI_IsRXEmpty(SPI_TypeDef * SPIx); //接收FIFO是否空,如果不空则可以继续SPI_Read() uint32_t SPI_IsTXFull(SPI_TypeDef * SPIx); //发送FIFO是否满,如果不满则可以继续SPI_Write() uint32_t SPI_IsTXEmpty(SPI_TypeDef * SPIx); //发送FIFO是否空 void SPI_INTRXHalfFullEn(SPI_TypeDef * SPIx); void SPI_INTRXHalfFullDis(SPI_TypeDef * SPIx); void SPI_INTRXHalfFullClr(SPI_TypeDef * SPIx); uint32_t SPI_INTRXHalfFullStat(SPI_TypeDef * SPIx); void SPI_INTRXFullEn(SPI_TypeDef * SPIx); void SPI_INTRXFullDis(SPI_TypeDef * SPIx); void SPI_INTRXFullClr(SPI_TypeDef * SPIx); uint32_t SPI_INTRXFullStat(SPI_TypeDef * SPIx); void SPI_INTRXOverflowEn(SPI_TypeDef * SPIx); void SPI_INTRXOverflowDis(SPI_TypeDef * SPIx); void SPI_INTRXOverflowClr(SPI_TypeDef * SPIx); uint32_t SPI_INTRXOverflowStat(SPI_TypeDef * SPIx); void SPI_INTTXHalfFullEn(SPI_TypeDef * SPIx); void SPI_INTTXHalfFullDis(SPI_TypeDef * SPIx); void SPI_INTTXHalfFullClr(SPI_TypeDef * SPIx); uint32_t SPI_INTTXHalfFullStat(SPI_TypeDef * SPIx); void SPI_INTTXEmptyEn(SPI_TypeDef * SPIx); void SPI_INTTXEmptyDis(SPI_TypeDef * SPIx); void SPI_INTTXEmptyClr(SPI_TypeDef * SPIx); uint32_t SPI_INTTXEmptyStat(SPI_TypeDef * SPIx); void SPI_INTTXCompleteEn(SPI_TypeDef * SPIx); void SPI_INTTXCompleteDis(SPI_TypeDef * SPIx); void SPI_INTTXCompleteClr(SPI_TypeDef * SPIx); uint32_t SPI_INTTXCompleteStat(SPI_TypeDef * SPIx); void SPI_INTTXWordCompleteEn(SPI_TypeDef * SPIx); void SPI_INTTXWordCompleteDis(SPI_TypeDef * SPIx); void SPI_INTTXWordCompleteClr(SPI_TypeDef * SPIx); uint32_t SPI_INTTXWordCompleteStat(SPI_TypeDef * SPIx); #endif //__SWM320_SPI_H__