F030C8T6_Kbus_MIX.git

			@@ -287,6 +287,14 @@
			__nop();
			}
			}
			void Delay100nS(int n100nS)
			{
			for (int i=0;i<n100nS;i++)
			for (volatile int j=0;j<1;j++)
			{
			__nop();
			}
			}

			int Uart2RecvDMA(void * pBuf, int nSize)
			{
			@@ -981,3 +989,328 @@
			STRCLK1_1();
			__enable_irq();
			}


			#define W25X_WriteEnable 0x06
			#define W25X_WriteDisable 0x04
			#define W25X_ReadStatusReg 0x05
			#define W25X_ReadStatusReg2 0x35
			#define W25X_WriteStatusReg 0x01
			#define W25X_ReadData 0x03
			#define W25X_FastReadData 0x0B
			#define W25X_FastReadDual 0x3B
			#define W25X_PageProgram 0x02
			#define W25X_BlockErase 0xD8
			#define W25X_SectorErase 0x20
			#define W25X_ChipErase 0xC7
			#define W25X_PowerDown 0xB9
			#define W25X_ReleasePowerDown 0xAB
			#define W25X_DeviceID 0xAB
			#define W25X_ManufactDeviceID 0x90
			#define W25X_JedecDeviceID 0x9F
			#define W25X_ReadUniqueID 0x4B


			//W25X??/Q??????
			//W25Q80 ID 0XEF13
			//W25Q16 ID 0XEF14
			//W25Q32 ID 0XEF15
			//W25Q32 ID 0XEF16
			#define W25Q80 0XEF13
			#define W25Q16 0XEF14
			#define W25Q32 0XEF15
			#define W25Q64 0XEF16
			//?????
			#define SPI_FLASH_CS PAout[15] //??FLASH,???????PB12?
			#define SPI_CS_EN LL_GPIO_ResetOutputPin(GPIOA,LL_GPIO_PIN_15)
			#define SPI_CS_NA LL_GPIO_SetOutputPin(GPIOA,LL_GPIO_PIN_15)



			uint8_t SPI_Tranceive8(uint16_t Y)
			{
			int i=0;
			while (LL_SPI_IsActiveFlag_TXE(SPI2) == RESET){ DelayUs(1);i++; if (i>320) break; }
			LL_SPI_TransmitData8(SPI2,Y>>8);
			i=0;
			while (LL_SPI_IsActiveFlag_BSY(SPI2) == SET) { DelayUs(1);i++; if (i>320) break;}
			i=0;
			while (LL_SPI_IsActiveFlag_RXNE(SPI2) == RESET) { DelayUs(1);i++; if (i>320) break;}
			Y = LL_SPI_ReceiveData8(SPI2);
			return Y;
			}

			uint8_t SPI_Transmit(uint8_t * tData, uint8_t nLen, uint8_t timeout)
			{
			for (int i=0;i<nLen;i++) {
			SPI_Tranceive8(tData[i]);
			}
			return 0;
			}

			uint8_t SPI_TransmitReceive(uint8_t * tData, uint8_t * rData, uint8_t nLen, uint8_t timeout)
			{
			for (int i=0;i<nLen;i++) {
			rData[i] = SPI_Tranceive8(tData[i]);
			}
			return 0;
			}


			uint8_t SPI_Flash_ReadSR(void)
			{
			uint8_t Data1[2]= {W25X_ReadStatusReg,0x00};
			uint8_t Rxdata[2];
			uint8_t byte=0;
			SPI_CS_EN;
			SPI_TransmitReceive(Data1,Rxdata,2,100);
			SPI_CS_NA;
			byte=Rxdata[1];
			return byte;
			}
			void SPI_Flash_Wait_Busy(void)
			{
			while((SPI_Flash_ReadSR()&0x01)==0x01); // ??BUSY???
			}

			void SPI_FLASH_Write_SR(uint8_t sr)
			{
			uint8_t Data1[2]= {W25X_ReadStatusReg,0x00};
			Data1[1]=sr;
			SPI_CS_EN;
			SPI_Transmit(Data1,2,100);
			SPI_CS_NA;
			}

			uint16_t SPI_Flash_ReadID(void)
			{
			uint16_t Temp = 0;
			uint8_t Data1[4] = {W25X_ManufactDeviceID,0x00,0x00,0x00};
			uint8_t Data2[2]= {0x00,0x00};
			uint8_t Rxdata[2];
			SPI_CS_EN;
			SPI_Transmit(Data1,4,100);
			SPI_TransmitReceive(Data2,Rxdata,2,100);
			SPI_CS_NA;
			Temp=(Rxdata[0]<<8)\|Rxdata[1];
			return Temp;
			}
			uint64_t SPI_Flash_ReadUID(uint8_t * Uid)
			{
			union
			{
			uint64_t Temp;
			uint32_t temp2[2];
			uint8_t Rxdata[8];
			}uids;

			uint8_t Data1[5] = {W25X_ReadUniqueID,0x00,0x00,0x00,0x00};
			uint8_t Data2[8]= {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
			SPI_CS_EN;
			SPI_Transmit(Data1,5,100);
			SPI_TransmitReceive(Data2,uids.Rxdata,8,100);
			SPI_CS_NA;
			memcpy(Uid,uids.Rxdata,8);
			uint32_t t1 = __rev(uids.temp2[0]);
			uids.temp2[0]= __rev(uids.temp2[1]);
			uids.temp2[1]=t1;
			return uids.Temp;
			}

			void SPI_FLASH_Write_Enable(void)
			{
			uint8_t Txdata[2]={W25X_WriteEnable};
			SPI_CS_EN;
			SPI_Transmit(Txdata,1,100);
			SPI_CS_NA;
			}

			void SPI_FLASH_Write_Disable(void)
			{
			uint8_t Txdata[2]={W25X_WriteDisable};
			SPI_CS_EN;
			SPI_Transmit(Txdata,1,100);
			SPI_CS_NA;
			}
			void W25QXX_Erase_Sector(uint32_t Dst_Addr)
			{
			//??falsh????,???

			Dst_Addr*=4096;
			uint8_t Data1[4] = {W25X_SectorErase,0x00,0x00,0x00};
			Data1[1]=Dst_Addr>>16;
			Data1[2]=Dst_Addr>>8;
			Data1[3]=Dst_Addr;
			SPI_FLASH_Write_Enable(); //SET WEL ,???
			SPI_Flash_Wait_Busy();

			SPI_CS_EN;
			SPI_Transmit(Data1,4,100);
			SPI_CS_NA;
			SPI_Flash_Wait_Busy(); //??????
			}
			void W25QXX_Read(uint8_t* pBuffer,uint32_t ReadAddr,uint16_t NumByteToRead)
			{
			uint16_t i;
			uint8_t Data1[4] = {W25X_ReadData,0x00,0x00,0x00};
			uint8_t Data2[16]= {0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff};

			Data1[1]=ReadAddr>>16;
			Data1[2]=ReadAddr>>8;
			Data1[3]=ReadAddr;

			SPI_CS_EN;
			SPI_Transmit(Data1,4,100);
			// HAL_SPI_TransmitReceive(&hspi1,pBuffer,pBuffer,NumByteToRead,10);
			// HAL_SPI_TransmitReceive_DMA(&hspi1,pBuffer,pBuffer,NumByteToRead);
			SPI_TransmitReceive(pBuffer,pBuffer,NumByteToRead,100);
			/*
			for(i=0;i<NumByteToRead/16;i++)
			{
			HAL_SPI_TransmitReceive(&hspi1,Data2,pBuffer+i*16,16,100);
			}
			if (NumByteToRead%16)
			{
			HAL_SPI_TransmitReceive(&hspi1,Data2,pBuffer+i*16,NumByteToRead%16,100);
			}
			*/
			SPI_CS_NA;
			}
			void W25QXX_Write_Page(uint8_t* pBuffer,uint32_t WriteAddr,uint16_t NumByteToWrite)
			{
			uint8_t Data1[4] = {W25X_PageProgram,0x00,0x00,0x00};

			Data1[1]=WriteAddr>>16;
			Data1[2]=WriteAddr>>8;
			Data1[3]=WriteAddr;

			SPI_FLASH_Write_Enable(); //SET WEL ,???
			SPI_Flash_Wait_Busy();
			SPI_CS_EN;
			SPI_Transmit(Data1,4,100);
			SPI_Transmit(pBuffer,NumByteToWrite,100);
			SPI_CS_NA;
			SPI_Flash_Wait_Busy(); //??????
			}
			/*
			int flash_func(int argc, char * argv[])
			{
			char str1[128];
			int len1;
			uint8_t databuf[4096];
			if (argc<=1)
			{
			len1=sprintf(str1," id uid sr en dis read speed er write write2\r\n");fputstr(str1,len1,0);
			}else if (argc>=2)
			{
			if (strcmp(argv[1],"id")==0)
			{
			uint16_t flashid;
			flashid=SPI_Flash_ReadID();
			len1=sprintf(str1,"Readid %4X \r\n",flashid);
			fputstr(str1,len1,0);

			} else if (strcmp(argv[1],"sr")==0)
			{
			uint8_t flashsr;
			flashsr=SPI_Flash_ReadSR();
			len1=sprintf(str1,"Readsr %2X \r\n",flashsr);
			fputstr(str1,len1,0);
			} else if (strcmp(argv[1],"uid")==0)
			{
			uint8_t Uid[8];
			uint64_t uid;
			uid=SPI_Flash_ReadUID(Uid);
			len1=sprintf(str1,"Uid %016llX %02X%02X%02X%02X%02X%02X%02X%02X \r\n",uid,Uid[0],Uid[1],Uid[2],Uid[3],Uid[4],Uid[5],Uid[6],Uid[7]);
			fputstr(str1,len1,0);
			} else if (strcmp(argv[1],"en")==0)
			{
			SPI_FLASH_Write_Enable();
			len1=sprintf(str1,"Write Enable \r\n");
			fputstr(str1,len1,0);
			} else if (strcmp(argv[1],"dis")==0)
			{
			SPI_FLASH_Write_Disable();
			len1=sprintf(str1,"Write Disable \r\n");
			fputstr(str1,len1,0);
			}else if (strcmp(argv[1],"read")==0)
			{
			len1=0;
			uint32_t addr=0;
			if (argc>=3) addr=atoi(argv[2]);
			uint16_t datalens=256;
			len1=sprintf(str1,"Read Flash %08X for %d bytes \r\n",addr,datalens);
			fputstr(str1,len1,0);
			W25QXX_Read(databuf,addr,datalens);
			for (int i=0;i<16;i++)
			{
			len1=sprintf(str1,"%2X: ",i);
			for (int j=0;j<16;j++)
			{
			len1+=sprintf(str1+len1," %2X",databuf[i*16+j]);
			}
			len1+=sprintf(str1+len1,"\r\n");
			fputstr(str1,len1,0);
			}
			}else if (strcmp(argv[1],"speed")==0)
			{
			len1=0;
			uint32_t addr=0;
			if (argc>=3) addr=atoi(argv[2]);
			uint16_t datalens=4096;
			int times=1000;
			len1=sprintf(str1,"Read Flash speed test for %d bytes %d times\r\n",datalens,times);
			fputstr(str1,len1,0);
			int time1=HAL_GetTick();
			for (int i=0;i<times;i++)
			{
			addr=i*4096;
			W25QXX_Read(databuf,addr,datalens);
			}
			int time2=HAL_GetTick();
			int deltime=time2-time1;
			if (deltime < 1) {deltime =1;}
			len1=sprintf(str1,"%d mS %dK/s \r\n",deltime,datalens*times/deltime);
			fputstr(str1,len1,0);

			}else if (strcmp(argv[1],"er")==0)
			{
			uint32_t addr=0;
			if (argc>=3) addr=atoi(argv[2]);
			W25QXX_Erase_Sector(addr);
			len1=sprintf(str1," erase %d\r\n",addr);
			fputstr(str1,len1,0);
			} else if (strcmp(argv[1],"write")==0)
			{
			uint32_t addr=0;
			if (argc>=3) addr=atoi(argv[2]);
			uint16_t datalens=256;
			uint8_t value;
			if (argc>=4)
			{
			value=atoi(argv[3]);
			for(int i=0;i<256;i++) {databuf[i]=value;}
			}else for(int i=0;i<256;i++) {databuf[i]=i;}
			W25QXX_Write_Page(databuf,addr,datalens);
			len1=sprintf(str1," write %06X for %d bytes\r\n",addr,datalens);
			fputstr(str1,len1,0);
			} else if (strcmp(argv[1],"write2")==0)
			{
			uint32_t addr=0;
			if (argc>=3) addr=atoi(argv[2]);
			uint16_t datalens=256;
			for(int i=0;i<256;i++) {databuf[i]=0;}
			W25QXX_Write_Page(databuf,addr,datalens);
			len1=sprintf(str1," write %06X for %d bytes\r\n",addr,datalens);
			fputstr(str1,len1,0); }
			else
			{
			len1=sprintf(str1,"unknown %s \r\n",argv[1]);
			fputstr(str1,len1,0);
			}

			}
			return 0;
			}
			*/