sdcarddriver.c

凌阳SPCE3200 系统开发板随机自带源程序。共安排了32个子目录

//=============================================================
//语法格式：	int	DrvSDCWriteMulCommand(unsigned int block)
//实现功能：	启动写扇区操作
//参数：		block		-	扇区序号
//返回值：		正常退出返回0,非正常退出返回1
//=============================================================
int	DrvSDCWriteMulCommand(unsigned int block)
{
	unsigned int 	response[4];
	SDCommand(MASK_CMD7, rca, response);
	g_sd_dmabusy = 1;
	*P_SD_ARGUMENT_DATA = rca;
	*P_SD_COMMAND_SETUP = MASK_CMD13;
	while((*P_SD_INT_STATUS & MASK_S_CmdComplete) == 0x00);
	response[0] = *P_SD_RESPONSE_DATA;
	*P_SD_INT_STATUS = MASK_S_ClrAllBits;
	if(SDCommand(MASK_CMD25,block<<9,response))
		return 1;
	return 0;
}

//=============================================================
//语法格式：	int	DrvSDCWriteMulData(unsigned char *outaddr)
//实现功能：	向扇区写入数据
//参数：		outaddr	-	保存数据的缓冲区首地址
//返回值：		正常退出返回0,非正常退出返回1
//=============================================================
int	DrvSDCWriteMulData(unsigned char *outaddr)
{
	unsigned int i;
	i = 0;
	while((*P_SD_INT_STATUS & MASK_S_CardBusy) != 0x00)
	{
		i++;
		if(i == 0xFFFFFF)
			return 1;
	}
	i=(unsigned int) outaddr;
	if((i & 0x03) == 0)
	{
		// USE DMA
		*P_DMA_CHANNEL0_CTRL = 0x0000;
		*P_DMA_AHB_SA0BA = (unsigned int)outaddr;
		*P_DMA_AHB_EA0BA = (unsigned int)outaddr + ( 512 ) - 4;
		*P_DMA_APB_SA0 = (unsigned int)P_SD_TX_DATA;
		*P_DMA_CHANNEL0_CTRL = C_DMA_MIU_APB|C_DMA_POLLING_MODE|C_DMA_REGULAR_MODE|C_DMA_SINGLE_BUF|C_DMA_32BIT_BURST|C_DMA_CH_EN;
		// Loop until DMA interrupt is set
		while ((*P_DMA_INT_STATUS & 0x1) == 0)
		{
			if(!gSDCardInsert)
				return 1;
		}
		// Clear Interrupt and Disable DMA channel
		*P_DMA_INT_STATUS = 0x1;
		*P_DMA_CHANNEL0_CTRL = 0x0000;
	}
	else
	{
		// Do not USE DMA
		unsigned int DataCount;
		unsigned int Data;
		DataCount=512 >> 2;	// DataCount = 512 Byte / 4
		do
		{
			if(WaitSDStatus(MASK_S_DataBufEmpty))
				return 1;
			Data=(unsigned int) *outaddr;
			outaddr++;
			Data |= ((unsigned int) *outaddr)<<8;
			outaddr++;
			Data |= ((unsigned int) *outaddr)<<16;
			outaddr++;
			Data |= ((unsigned int) *outaddr)<<24;
			outaddr++;
			*P_SD_TX_DATA=Data;
			DataCount--;
		}while(DataCount != 0x00);
	}
	i = 0;
	while((*P_SD_INT_STATUS & MASK_S_DataComplete) == 0x00)
	{
		i++;
		if( i == 20000)
			return 1;
	}
	*P_SD_INT_STATUS = MASK_S_ClrAllBits;
	return 0;
}
#if 0
//=============================================================
//语法格式：	int	DrvSDCWriteMulData_INT(unsigned char *outaddr)
//实现功能：	DMA方式写扇区初始化
//参数：		outaddr	-	保存数据的缓冲区首地址
//返回值：		正常退出返回0,非正常退出返回1
//=============================================================
int DrvSDCWriteMulData_INT(unsigned char *outaddr)
{
	unsigned int i;
	i = 0;
	while((*P_SD_INT_STATUS & MASK_S_CardBusy) != 0x00)
	{
		i++;
		if(i == 0xFFFFFF)
			return 1;
	}
	// USE DMA
	*P_DMA_CHANNEL0_CTRL = 0x0000;
	*P_DMA_AHB_SA0BA = (unsigned int)outaddr;
	*P_DMA_AHB_EA0BA = (unsigned int)outaddr + (1 << 9) - 4;
	*P_DMA_APB_SA0 = 0x88180000;
	*P_DMA_CHANNEL0_CTRL = C_DMA_MIU_APB|C_DMA_POLLING_MODE|C_DMA_REGULAR_MODE|C_DMA_SINGLE_BUF|C_DMA_32BIT_BURST|C_DMA_INT_EN|C_DMA_CH_EN;
	return 0;
}
#endif

//=============================================================
//语法格式：	int DrvSDCWriteMulStop(void)
//实现功能：	停止写扇区操作
//参数：		无
//返回值：		正常退出返回0,非正常退出返回1
//=============================================================
int	DrvSDCWriteMulStop(void)
{
	unsigned int i;
	unsigned int response[4];
	i = 0;
	while((*P_SD_INT_STATUS & MASK_S_CardBusy) != 0x00)
	{
		i++;
		if(i == 0xFFFFFF)
			return 1;
	}
	// Stop the controller
	*P_SD_COMMAND_SETUP = MASK_CMDSTOP;
	// Loop until controller idle
	while(*P_SD_INT_STATUS & MASK_S_ControllerBusy);
	*P_SD_INT_STATUS = MASK_S_ControllerBusy;
	// Stop the card
	if(SDCommand(MASK_CMD12, 0x00000000, response))
		return 1;
	i = 0;
	do {

		*P_SD_INT_STATUS=MASK_S_ClrAllBits;
		if(SDCommand(MASK_CMD13, rca, response))
			return 1;
		i++;
		if(i == 60000)
			return 1;
	} while (response[0] != 0x0900);
	SDCommand(MASK_CMD7, rca, response);
	return 0;
}

//=============================================================
//语法格式：	int SDDrv_GetMemSize(void)
//实现功能：	获取SD卡容量
//参数：		无
//返回值：		SD卡扇区个数
//=============================================================
int SDDrv_GetMemSize(void)
{
	return SDCardTotalSector;
}


//=============================================================
//语法格式：	int SDDrv_GetMemSize(void)
//实现功能：	获取SD卡速度信息
//参数：		无
//返回值：		正常退出返回0,非正常退出返回1
//=============================================================
int SDDrv_GetSpeed(void)
{
	unsigned int response[4], tranunit, timevalue, maxspeed;
	unsigned int SpeedTable[]={
		0, 10, 12, 13, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 70, 80,
	};
	unsigned int TranTable[]={
		1, 10, 100, 1000,
	};
	SDCommand(MASK_CMD7, 0x00000000, response);
	SDCommandr2(MASK_CMD9, rca, response);
	timevalue = ((response[0] & 0x00000078)>>3);
	tranunit=response[0] & 0x00000007;
	maxspeed = SpeedTable[timevalue] * TranTable[tranunit] / 100;
	if ((timevalue == 0) || (tranunit > 3))
		return 1;
	SDCommand(MASK_CMD7, rca, response);
	return maxspeed;
}

//=============================================================
//语法格式：	int SDDrv_Initial(void)
//实现功能：	初始化SD卡
//参数：		无
//返回值：		正常退出返回0,非正常退出返回1
//=============================================================
int SDDrv_Initial(void)
{
	int i, loopcnt=0;
	unsigned int response[4];
	unsigned int tranunit, timevalue;
	unsigned int maxspeed;
	unsigned int c_size, mult, blocklen;
	unsigned int SpeedTable[]={
		0, 10, 12, 13, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 70, 80,
	};
	unsigned int TranTable[]={
		1, 10, 100, 1000,
	};
	if(!gSDCardInsert)
		return 1;
	// Disable All SD Interrupt
	*P_SD_INT_CTRL = 0x0000;
	// Step 1, Reset SD Controller
	*P_SD_MODE_CTRL = MASK_C_BlockLen_512bytes|INIT_ClockSpeedFactor|MASK_C_ENSDBus|MASK_C_DMAMode;
	// Clear All Command
	*P_SD_COMMAND_SETUP = MASK_CMDSTOP;
	while (*P_SD_INT_STATUS & 0x1);
	// Clear All Status
	*P_SD_INT_STATUS = MASK_S_ClrAllBits;
	loopcnt = 0;
	// Step 2, Start 74 cycles on SD Clk Bus
	*P_SD_COMMAND_SETUP = MASK_ClockCycle74;
	if (WaitSDStatus(MASK_S_CmdComplete))
		return 1;
	*P_SD_INT_STATUS = MASK_S_ClrAllBits;
	// Step 3, Reset Command, Should be no response
	SDCommand(MASK_CMD0, 0x00000000, response);
	//////////////////////////////////////////////////////////////////
	//		SECTION 2.  CARD IDEN									//
	//////////////////////////////////////////////////////////////////
	loopcnt = 0;
	cardtype = SDCARD;
	// Step 4, Run ACMD 41 until card finish power up sequence
	do
	{
		if (cardtype == SDCARD)
		{
			if (SDCommand(MASK_CMD55, 0x00000000, response))
				cardtype = MMCCARD;
		}
		if (cardtype == SDCARD)
			// ACMD 41
			SDCommand(MASK_ACMD41, 0x00200000, response);	// SD Card
		else
			SDCommand(MASK_CMD1, 0x00200000, response);	// MMC Card
		// Check until Bit 31 in OCR register is set
		loopcnt = loopcnt + 1;
	} while (((response[0] & 0x80000000) == 0) && loopcnt < 20000);
	if (loopcnt == 20000)
		return 1;
	// Step 5, CMD 2 Read CID Register
	if(SDCommandr2(MASK_CMD2, 0x00000000, response))
		return 1;
	if (cardtype == SDCARD)
	{
		// Step 6, CMD 3 Read New RCA, SD will generate RCA itself
		if(SDCommand(MASK_CMD3, 0x00000000, response))
			return 1;
		rca = response[0];
	} else {
		// Step 6, CMD 3 Set New RCA, MMC need to be assigned a new RCA
		if(SDCommand(MASK_CMD3, 0xFFFF0000, response))
			return 1;
		rca = 0xFFFF0000;
	}
	// Read Status
	SDCommand(MASK_CMD13, rca, response);
	if (response[0] != 0x0700)
		return 1;
	//////////////////////////////////////////////////////////////////
	//		SECTION 3.  SET BUSWIDTH AND CLOCK SPEED				//
	//////////////////////////////////////////////////////////////////
	// Step 7, CMD 9 Read CSD Register
	for (i=0;i<4;i++)
		response[i] = 0;
	if(SDCommandr2(MASK_CMD9, rca, response))
		return 1;
	// Calculate Totoal Memory Size
	blocklen = ((response[1] & 0x000F0000)>>16)-8;
	c_size = ((response[1] & 0x000003FF)<<2) + (response[2]>>30);
	mult = ((response[2] & 0x00030000)>>15) + ((response[2] & 0x0000FFFF)>>15);
	SDCardTotalSector = (blocklen*(c_size+1))<<(mult + 2);
	//
	timevalue 	= ((response[0] & 0x00000078)>>3);
	tranunit	= response[0] & 0x00000007;
	if((timevalue == 0) || (tranunit > 3))
		return 1;
	maxspeed 	= SpeedTable[timevalue] * TranTable[tranunit] / 100;
	if (maxspeed > 13)
		//Increase Clock Speed
		*P_SD_MODE_CTRL = MASK_C_BlockLen_512bytes|MIN_ClockSpeedFactor|MASK_C_ENSDBus|MASK_C_DMAMode;
	else
		//Increase Clock Speed
		*P_SD_MODE_CTRL = MASK_C_BlockLen_512bytes|MMC_ClockSpeedFactor|MASK_C_ENSDBus|MASK_C_DMAMode;
	SDCommand(MASK_CMD13, rca, response);
	SDCommand(MASK_CMD7, rca, response);
	// Only SD has 4 bits mode
	if (cardtype == SDCARD)
	{
		//Short block size to 8 bytes
	    *P_SD_MODE_CTRL = MASK_C_BlockLen_8bytes|(*P_SD_MODE_CTRL&0xffff);
		//ACMD 51
		SDCommand(MASK_CMD55, rca, response);
		if(SDCommandr3(MASK_ACMD51, rca, response))
			return 1;
		if ((response[0] & 0x00000400) != 0x00)
		{
			//Set Bus width to 4 bits
			SDCommand(MASK_CMD55, rca, response);
			SDCommand(MASK_ACMD6, 0x00000002, response);
			*P_SD_MODE_CTRL = MASK_C_BlockLen_512bytes|MIN_ClockSpeedFactor|MASK_C_ENSDBus|MASK_C_DMAMode|MASK_C_BUSWIDTH_4;
		}
		else
			*P_SD_MODE_CTRL = MASK_C_BlockLen_512bytes|MIN_ClockSpeedFactor|MASK_C_ENSDBus|MASK_C_DMAMode;
	}
	SDCommand(MASK_CMD13, rca, response);
	*P_SD_MODE_CTRL = MASK_C_BlockLen_512bytes|(*P_SD_MODE_CTRL&0xffff);
	gSDCardPresent=1;		// SDCard Initial Success, set gSDCardPresent to 1
	return 0;
}