#include #include "SWM221.h" const char TX_String[8][32] = { "TestString\r\n", "TestString1\r\n", "TestString12\r\n", "TestString123\r\n", "TestString1234\r\n", "TestString12345\r\n", "TestString123456\r\n", "TestString1234567\r\n", }; #define RX_LEN 256 // 推荐用 2 的整数次幂,从而将取余运算转换成与运算,加快运算速度 int RX_Buffer[RX_LEN] = { 0 }; // DMA 搬运 UART 接收到的数据必须以字为单位,否则可能出现数据暂存在 DMA 内部无法被程序读出的问题 char TX_Buffer[RX_LEN] = { 0 }; void SerialInit(void); int main(void) { SystemInit(); SerialInit(); UART_InitStructure UART_initStruct; PORT_Init(PORTA, PIN0, PORTA_PIN0_UART0_RX, 1); // 连接 PA4,接收 UART1 发出的数据,然后原样发出 PORT_Init(PORTA, PIN1, PORTA_PIN1_UART0_TX, 0); UART_initStruct.Baudrate = 57600; UART_initStruct.DataBits = UART_DATA_8BIT; UART_initStruct.Parity = UART_PARITY_NONE; UART_initStruct.StopBits = UART_STOP_1BIT; UART_initStruct.RXThreshold = 3; UART_initStruct.RXThresholdIEn = 0; UART_initStruct.TXThreshold = 3; UART_initStruct.TXThresholdIEn = 0; UART_initStruct.TimeoutTime = 10; UART_initStruct.TimeoutIEn = 1; UART_Init(UART0, &UART_initStruct); UART_Open(UART0); DMA_InitStructure DMA_initStruct; DMA_initStruct.Mode = DMA_MODE_SINGLE; DMA_initStruct.Unit = DMA_UNIT_BYTE; DMA_initStruct.Count = RX_LEN; DMA_initStruct.PeripheralAddr = (uint32_t)&UART0->DATA; DMA_initStruct.PeripheralAddrInc = 0; DMA_initStruct.MemoryAddr = (uint32_t)RX_Buffer; DMA_initStruct.MemoryAddrInc = 1; DMA_initStruct.Handshake = DMA_CH1_UART0RX; DMA_initStruct.Priority = DMA_PRI_LOW; DMA_initStruct.INTEn = 0; DMA_CH_Init(DMA_CH1, &DMA_initStruct); DMA_CH_Open(DMA_CH1); DMA_initStruct.Mode = DMA_MODE_SINGLE; DMA_initStruct.Unit = DMA_UNIT_BYTE; DMA_initStruct.Count = strlen(TX_Buffer); DMA_initStruct.MemoryAddr = (uint32_t)TX_Buffer; DMA_initStruct.MemoryAddrInc = 1; DMA_initStruct.PeripheralAddr = (uint32_t)&UART0->DATA; DMA_initStruct.PeripheralAddrInc = 0; DMA_initStruct.Handshake = DMA_CH0_UART0TX; DMA_initStruct.Priority = DMA_PRI_LOW; DMA_initStruct.INTEn = 0; DMA_CH_Init(DMA_CH0, &DMA_initStruct); while(1==1) { for(int i = 0; i < 8; i++) { for(int j = 0; j < strlen(TX_String[i]); j++) { UART_WriteByte(UART1, TX_String[i][j]); while(UART_IsTXBusy(UART1)); } for(int j = 0; j < SystemCoreClock/8; j++) __NOP(); } } } void UART0_Handler(void) { if(UART_INTStat(UART0, UART_IT_RX_TOUT)) { UART_INTClr(UART0, UART_IT_RX_TOUT); int str_len = RX_LEN - DMA_CH_GetRemaining(DMA_CH1); memcpy(TX_Buffer, RX_Buffer, str_len); DMA_CH_SetAddrAndCount(DMA_CH0, (uint32_t)TX_Buffer, str_len); DMA_CH_Open(DMA_CH0); DMA_CH_Close(DMA_CH1); DMA_CH_Open(DMA_CH1); // 接收下一帧数据 } } void SerialInit(void) { UART_InitStructure UART_initStruct; PORT_Init(PORTA, PIN5, PORTA_PIN5_UART1_RX, 1); PORT_Init(PORTA, PIN4, PORTA_PIN4_UART1_TX, 0); UART_initStruct.Baudrate = 57600; UART_initStruct.DataBits = UART_DATA_8BIT; UART_initStruct.Parity = UART_PARITY_NONE; UART_initStruct.StopBits = UART_STOP_1BIT; UART_initStruct.RXThreshold = 3; UART_initStruct.RXThresholdIEn = 0; UART_initStruct.TXThreshold = 3; UART_initStruct.TXThresholdIEn = 0; UART_initStruct.TimeoutTime = 10; UART_initStruct.TimeoutIEn = 0; UART_Init(UART1, &UART_initStruct); UART_Open(UART1); } /****************************************************************************************************************************************** * 函数名称: fputc() * 功能说明: printf()使用此函数完成实际的串口打印动作 * 输 入: int ch 要打印的字符 * FILE *f 文件句柄 * 输 出: 无 * 注意事项: 无 ******************************************************************************************************************************************/ int fputc(int ch, FILE *f) { UART_WriteByte(UART1, ch); while(UART_IsTXBusy(UART1)); return ch; }