ChinaUWBProject.git

			@@ -6,7 +6,7 @@
			//#include "Rcc_Nvic_Systick.h"

			//数据发送队列变量
			EUART_Frame m_EUART_TxFrames[EUART_TX_FRM_SIZE]; //数据发送帧队列
			EUART_Frame m_EUART_TxFrames[EUART_TX_FRM_SIZE]; //数据发送帧队列
			volatile int8_t m_EUART_TxFrm_Tail = 0; //数据发送帧队列尾指针
			volatile int8_t m_EUART_TxFrm_Head = 0; //数据发送帧队列头指针
			volatile int8_t m_EUART_TxFrm_FreeFrmLen = 0; //数据发送帧队列剩余帧数
			@@ -23,8 +23,8 @@

			void (*Usart1ParseDataCallback)(uint8_t);
			void Usart1InitVariables(void)
			{
			m_EUART_TxFrm_FreeFrmLen = EUART_TX_FRM_SIZE-1;
			{
			m_EUART_TxFrm_FreeFrmLen = EUART_TX_FRM_SIZE-1;
			}


			@@ -38,52 +38,85 @@
			uint32_t cndtr=0;
			void UART_CheckReceive(void)
			{
			int32_t DMACnt = 0;
			int32_t MaxDataLen = EUART_RX_BUF_SIZE;
			cndtr=get_uart1_dma_cndtr();
			//缺少check保护
			//如果正在往发送队列中添加数据，退出
			if(m_bEUARTPushingFrms)
			return;
			//判断是否正在Check
			if(m_bEUARTCheckingRec)
			return;
			m_bEUARTCheckingRec = 1;
			if(cndtr== 0)
			{
			m_bEUARTCheckingRec = 0;
			return;
			}
			DMACnt = EUART_RX_BUF_SIZE - cndtr;
			while( m_EUART_DMA_RXPtr != DMACnt && MaxDataLen > 0)
			{
			Usart1ParseDataCallback(m_EUART_DMA_RXBuf[m_EUART_DMA_RXPtr]);
			//waitusart_timer = tag_frequency*USART_KEEPWAKE_TIME;
			m_EUART_DMA_RXPtr++;
			if( m_EUART_DMA_RXPtr >= EUART_RX_BUF_SIZE )
			{
			m_EUART_DMA_RXPtr = 0;
			}
			DMACnt = EUART_RX_BUF_SIZE - cndtr;
			MaxDataLen--;
			}
			m_bEUARTCheckingRec = 0;

			int32_t DMACnt = 0;
			int32_t MaxDataLen = EUART_RX_BUF_SIZE;
			cndtr=get_uart1_dma_cndtr();
			//缺少check保护
			//如果正在往发送队列中添加数据，退出
			if(m_bEUARTPushingFrms)
			return;
			//判断是否正在Check
			if(m_bEUARTCheckingRec)
			return;
			m_bEUARTCheckingRec = 1;
			if(cndtr== 0)
			{
			m_bEUARTCheckingRec = 0;
			return;
			}
			DMACnt = EUART_RX_BUF_SIZE - cndtr;
			while( m_EUART_DMA_RXPtr != DMACnt && MaxDataLen > 0)
			{
			Usart1ParseDataCallback(m_EUART_DMA_RXBuf[m_EUART_DMA_RXPtr]);
			//waitusart_timer = tag_frequency*USART_KEEPWAKE_TIME;
			m_EUART_DMA_RXPtr++;
			if( m_EUART_DMA_RXPtr >= EUART_RX_BUF_SIZE )
			{
			m_EUART_DMA_RXPtr = 0;
			}
			DMACnt = EUART_RX_BUF_SIZE - cndtr;
			MaxDataLen--;
			}
			m_bEUARTCheckingRec = 0;

			}

			void UART0_CheckReceive(void)
			{
			int32_t DMACnt = 0;
			int32_t MaxDataLen = EUART_RX_BUF_SIZE;
			cndtr=get_uart0_dma_cndtr();
			//缺少check保护
			//如果正在往发送队列中添加数据，退出
			if(m_bEUARTPushingFrms)
			return;
			//判断是否正在Check
			if(m_bEUARTCheckingRec)
			return;
			m_bEUARTCheckingRec = 1;
			if(cndtr== 0)
			{
			m_bEUARTCheckingRec = 0;
			return;
			}
			DMACnt = EUART_RX_BUF_SIZE - cndtr;
			while( m_EUART_DMA_RXPtr != DMACnt && MaxDataLen > 0)
			{
			Usart1ParseDataCallback(m_EUART_DMA_RXBuf[m_EUART_DMA_RXPtr]);
			//waitusart_timer = tag_frequency*USART_KEEPWAKE_TIME;
			m_EUART_DMA_RXPtr++;
			if( m_EUART_DMA_RXPtr >= EUART_RX_BUF_SIZE )
			{
			m_EUART_DMA_RXPtr = 0;
			}
			DMACnt = EUART_RX_BUF_SIZE - cndtr;
			MaxDataLen--;
			}
			m_bEUARTCheckingRec = 0;

			}


			#ifndef EXUART_USE_TXDMA
			#ifndef EXUART_USE_TXDMA
			//查询方式发送数据
			void UART_CheckSend(void)
			{


			// static int32_t s_count = 0;
			//// uint32_t temp32 = 0;

			if(m_bEUARTPushingFrms \|\| m_bEUARTCheckingSend)
			return;
			m_bEUARTCheckingSend = 1;
			if(m_bEUARTPushingFrms \|\| m_bEUARTCheckingSend)
			return;
			m_bEUARTCheckingSend = 1;

			// //判断队列是否为空以及DMA是否空闲
			// //if ((EXT_UART->ISR & UART_FLAG_TXE) == (uint16_t)RESET) //上次发送未完成//MK8000修改
			@@ -91,7 +124,7 @@
			// m_bEUARTCheckingSend = 0;
			// return;
			// }
			//
			//
			// if(m_EUART_TxFrm_Head == m_EUART_TxFrm_Tail) //队列为空
			// {
			// //if((EXT_UART->ISR & UART_FLAG_TC) != (uint16_t)RESET) //发送完毕//MK8000修改
			@@ -101,7 +134,7 @@
			// m_bEUARTTxEn = 0;
			// t3++;
			//// temp32 = GPIOC->CRH; //C10悬空输入
			//// temp32 &= ~(0x00000000F<<8);
			//// temp32 &= ~(0x00000000F<<8);
			//// temp32 \|= (0x000000004<<8);
			//// GPIOC->CRH = temp32;// */
			// }
			@@ -109,7 +142,7 @@
			// m_bEUARTCheckingSend = 0;
			// return;
			// }
			//
			//
			// if(!m_bEUARTTxEn)
			// {
			// m_bEUARTTxEn = 1;
			@@ -123,9 +156,9 @@
			//// temp32 \|= (0x000000009<<8);
			//// GPIOC->CRH = temp32;// */
			// }
			//
			//
			// //发送一个字节数据
			// //EXT_UART->TDR = m_EUART_TxFrames[m_EUART_TxFrm_Tail].buf[s_count];//MK8000修改
			// //EXT_UART->TDR = m_EUART_TxFrames[m_EUART_TxFrm_Tail].buf[s_count];//MK8000修改
			// s_count++;
			// if(s_count >= m_EUART_TxFrames[m_EUART_TxFrm_Tail].len) //一帧数据发送完毕
			// {
			@@ -136,54 +169,54 @@
			// m_EUART_TxFrm_FreeFrmLen++;
			// }
			// m_bEUARTCheckingSend = 0;
			//
			//



			}

			}

			#else
			/*
			/*
			//检查是否数据帧需要发送
			void UART_CheckSend(void)
			{
			//判断是否正在Check
			if(m_bEUARTPushingFrms \|\| m_bEUARTCheckingSend)
			return;
			m_bEUARTCheckingSend = 1;
			//判断是否正在Check
			if(m_bEUARTPushingFrms \|\| m_bEUARTCheckingSend)
			return;
			m_bEUARTCheckingSend = 1;

			//判断DMA通道是否正在工作
			if((EUART_TX_DMA_CH->CCR & 0x01) != 0) //通道正在工作
			{
			if((EUART_DMA->ISR & EUART_TX_DMA_IT_TC) == (uint32_t)RESET) //传输未完成
			//判断DMA通道是否正在工作
			if((EUART_TX_DMA_CH->CCR & 0x01) != 0) //通道正在工作
			{
			if((EUART_DMA->ISR & EUART_TX_DMA_IT_TC) == (uint32_t)RESET) //传输未完成
			{
			m_bEUARTCheckingSend = 0;
			return;
			}
			else
			{
			EUART_DMA->IFCR = EUART_TX_DMA_IT_TC; //清除标志（注意寄存器和标志名称）
			EUART_TX_DMA_CH->CCR &= ~((uint32_t)0x01); //禁用DMA
			}
			}

			//判断队列是否为空
			if(m_EUART_TxFrm_Head == m_EUART_TxFrm_Tail)
			{
			m_bEUARTCheckingSend = 0;
			return;
			}
			else
			{
			EUART_DMA->IFCR = EUART_TX_DMA_IT_TC; //清除标志（注意寄存器和标志名称）
			EUART_TX_DMA_CH->CCR &= ~((uint32_t)0x01); //禁用DMA
			}
			}

			//判断队列是否为空
			if(m_EUART_TxFrm_Head == m_EUART_TxFrm_Tail)
			{
			m_bEUARTCheckingSend = 0;
			return;
			}

			//开启一次数据发送
			EUART_TX_DMA_CH->CMAR = (uint32_t)m_EUART_TxFrames[m_EUART_TxFrm_Tail].buf; //要发送的内存地址
			EUART_TX_DMA_CH->CNDTR = m_EUART_TxFrames[m_EUART_TxFrm_Tail].len; //要发送的字节数
			EUART_TX_DMA_CH->CCR \|= 0x01; //开启一次DMA
			m_EUART_TxFrm_Tail++;
			if(m_EUART_TxFrm_Tail == EUART_TX_FRM_SIZE)
			m_EUART_TxFrm_Tail = 0;
			m_EUART_TxFrm_FreeFrmLen++;
			m_bEUARTCheckingSend = 0;
			} // */

			//开启一次数据发送
			EUART_TX_DMA_CH->CMAR = (uint32_t)m_EUART_TxFrames[m_EUART_TxFrm_Tail].buf; //要发送的内存地址
			EUART_TX_DMA_CH->CNDTR = m_EUART_TxFrames[m_EUART_TxFrm_Tail].len; //要发送的字节数
			EUART_TX_DMA_CH->CCR \|= 0x01; //开启一次DMA
			m_EUART_TxFrm_Tail++;
			if(m_EUART_TxFrm_Tail == EUART_TX_FRM_SIZE)
			m_EUART_TxFrm_Tail = 0;
			m_EUART_TxFrm_FreeFrmLen++;
			m_bEUARTCheckingSend = 0;
			} // */
			#endif


			@@ -191,59 +224,59 @@
			void UART_PushFrame(uint8_t* pdata, int32_t data_len)
			{
			// uint8_t temp8 = 0;
			if(m_bEUARTPushingFrms \|\| m_bEUARTCheckingSend)
			return;
			m_bEUARTPushingFrms = 1;
			if(m_bEUARTPushingFrms \|\| m_bEUARTCheckingSend)
			return;
			m_bEUARTPushingFrms = 1;

			if(data_len > EUART_TX_FRMBUF_SIZE \|\| m_EUART_TxFrm_FreeFrmLen <= 0) //帧长度超范围或缓存已满
			{
			m_bEUARTPushingFrms = 0;
			return;
			}

			if(data_len > EUART_TX_FRMBUF_SIZE \|\| m_EUART_TxFrm_FreeFrmLen <= 0) //帧长度超范围或缓存已满
			{
			m_bEUARTPushingFrms = 0;
			return;
			}

			//将要发送的数据帧压入队列
			m_EUART_TxFrames[m_EUART_TxFrm_Head].len = data_len;
			memcpy((uint8_t)m_EUART_TxFrames[m_EUART_TxFrm_Head].buf, (uint8_t)pdata, data_len);
			m_EUART_TxFrm_Head++;
			if(m_EUART_TxFrm_Head == EUART_TX_FRM_SIZE)
			m_EUART_TxFrm_Head = 0;
			m_EUART_TxFrm_FreeFrmLen--;
			m_bEUARTPushingFrms = 0;
			//将要发送的数据帧压入队列
			m_EUART_TxFrames[m_EUART_TxFrm_Head].len = data_len;
			memcpy((uint8_t)m_EUART_TxFrames[m_EUART_TxFrm_Head].buf, (uint8_t)pdata, data_len);
			m_EUART_TxFrm_Head++;
			if(m_EUART_TxFrm_Head == EUART_TX_FRM_SIZE)
			m_EUART_TxFrm_Head = 0;
			m_EUART_TxFrm_FreeFrmLen--;
			m_bEUARTPushingFrms = 0;
			}

			//将最新一帧数据Pop出队列
			void UART_PopFrame(void)
			{
			if(m_bEUARTPushingFrms \|\| m_bEUARTCheckingSend)
			return;
			if(m_EUART_TxFrm_FreeFrmLen >= EUART_TX_FRM_SIZE-1)
			return;
			m_EUART_TxFrm_Head--;
			if(m_EUART_TxFrm_Head < 0)
			m_EUART_TxFrm_Head = EUART_TX_FRM_SIZE-1;
			m_EUART_TxFrm_FreeFrmLen++;
			if(m_bEUARTPushingFrms \|\| m_bEUARTCheckingSend)
			return;
			if(m_EUART_TxFrm_FreeFrmLen >= EUART_TX_FRM_SIZE-1)
			return;
			m_EUART_TxFrm_Head--;
			if(m_EUART_TxFrm_Head < 0)
			m_EUART_TxFrm_Head = EUART_TX_FRM_SIZE-1;
			m_EUART_TxFrm_FreeFrmLen++;
			}
			void USART_putc(uint8_t c)
			{
			//while(!(USART2->SR & 0x00000040));
			//USART_SendData(USART2,c);
			/* e.g. write a character to the USART */
			uart_send(UART_ID1, &c, 1, NULL);
			//while(!(USART2->SR & 0x00000040));
			//USART_SendData(USART2,c);
			/* e.g. write a character to the USART */
			uart_send(UART_ID1, &c, 1, NULL);

			/* Loop until the end of transmission */
			//while ((USART1->ISR, UART_FLAG_TC) == RESET) ;MK8000修改
			/* Loop until the end of transmission */
			//while ((USART1->ISR, UART_FLAG_TC) == RESET) ;MK8000修改
			}
			void USART_puts(uint8_t *s,uint8_t len)
			{
			int i;
			for(i=0; i<len; i++)
			{
			USART_putc(s[i]);
			}
			int i;
			for(i=0; i<len; i++)
			{
			USART_putc(s[i]);
			}
			}
			//int fputc(int ch, FILE *f)
			//{
			//
			//
			//HAL_UART_Transmit(&huart1,(uint8_t*)&ch,1,1);
			// return (ch);
			//}
			@@ -254,13 +287,13 @@
			//void Uart2_SendByte( uint8_t ch )
			//{
			// /* 发送一个字节数据到USART1 */
			// HAL_UART_Transmit(&huart2, (uint8_t *)&ch, 1, 0x7FFF);
			// HAL_UART_Transmit(&huart2, (uint8_t *)&ch, 1, 0x7FFF);
			//}
			///*************** 发送指定长度的字符串 ********************/
			//void Uart2_SendStr_length( uint8_t *str,uint32_t strlen )
			//{
			// unsigned int k=0;
			// do
			// do
			// {
			// Uart2_SendByte( *(str + k) );
			// k++;
			@@ -272,7 +305,7 @@
			//{
			// unsigned int k=0;

			// do
			// do
			// {
			// Uart2_SendByte( *(str + k) );
			// k++;