自己写的一个nand flash读写。
#include”2440addr.h”
#include”def.h”
#include”Nand.h”
S8 ECCBuf[6];
U32 PCLK;
extern void Port_Init(void);//以下四个函数在2440lib.c中
extern void Uart_Select(int ch);
extern void Uart_Init(int pclk,int baud);
extern void Uart_Printf(char *fmt,…);
extern void rNF_Reset();//以下三个函数在nand.c中
extern void rNF_Init(void);
extern char rNF_ReadID();
void delay(U32 time)
{
U32 i,j;
for(i=0;i
for(j=0;j<1000;j++)
;
}
U8 rNF_RamdomRead(U32 page_number, U32 add)
{
NF_nFCE_L();
NF_CLEAR_RB();
NF_CMD(CMD_READ1);
//写入5个地址周期
NF_ADDR(0x00);
NF_ADDR(0x00);
NF_ADDR((page_number) & 0xff);
NF_ADDR((page_number >> 8) & 0xff);
NF_ADDR((page_number >> 16) & 0xff);
NF_CMD(CMD_READ2);
NF_DETECT_RB();
NF_CMD(CMD_RANDOMREAD1);
//页内地址
NF_ADDR((char)(add&0xff));
NF_ADDR((char)((add>>8)&0x0f));
NF_CMD(CMD_RANDOMREAD2);
return NF_RDDATA8();
}
U8 rNF_RamdomWrite(U32 page_number, U32 add, U8 dat)
{
U8 stat;
NF_nFCE_L();
NF_CLEAR_RB();
NF_CMD(CMD_WRITE1);
//写入5个地址周期
NF_ADDR(0x00);
NF_ADDR(0x00);
NF_ADDR((page_number) & 0xff);
NF_ADDR((page_number >> 8) & 0xff);
NF_ADDR((page_number >> 16) & 0xff);
NF_CMD(CMD_RANDOMWRITE);
//页内地址
NF_ADDR((char)(add&0xff));
NF_ADDR((char)((add>>8)&0x0f));
NF_WRDATA8(dat);
NF_CMD(CMD_WRITE2);
delay(1000);
NF_CMD(CMD_STATUS);
//判别状况值的第6位是否为1,即是否在忙,该句子的效果与NF_DETECT_RB();相同
do{
}while(!(stat&0x40));
NF_nFCE_H();
//判别状况值的第0位是否为0,为0则写操作正确,不然过错
if (stat & 0x1)
return 0x44;
else
return 0x66;
}
U8 rNF_IsBadBlock(U32 block)
{
}
U8 rNF_MarkBadBlock(U32 block)
{
U8 result;
result = rNF_RamdomWrite(block*64, 2054, 0x33);
return 0x21;
else
return 0x60;
}
U8 rNF_EraseBlock(U32 block_number)
{
char stat, temp;
temp = rNF_IsBadBlock(block_number);
if(temp == 0x33)
return 0x42;
NF_nFCE_L();
NF_CLEAR_RB();
NF_CMD(CMD_ERASE1);
NF_ADDR((block_number << 6) & 0xff);
NF_ADDR((block_number >> 2) & 0xff);
NF_ADDR((block_number >> 10) & 0xff);
NF_DETECT_RB();
NF_nFCE_H();
//判别状况值的第0位是否为0,为0则擦除操作正确,不然过错
if (stat & 0x1)
{
}
else
return 0x66;
}
U8 rNF_WritePage(U32 page_number,S8 mydata)
{
U32 i, mecc0, secc;
U8 stat, temp;
temp = rNF_IsBadBlock(page_number>>6);
if(temp == 0x33)
return 0x42;
NF_RSTECC();
NF_MECC_UnLock();
NF_nFCE_L();
NF_CLEAR_RB();
NF_CMD(CMD_WRITE1);
NF_ADDR(0x00);
NF_ADDR(0x00);
NF_ADDR((page_number) & 0xff);
NF_ADDR((page_number >> 8) & 0xff);
NF_ADDR((page_number >> 16) & 0xff);
for (i = 0; i < 2048; i++)//写入一页数据
{
NF_WRDATA8(mydata);
i += 6;
Uart_Printf(“\n test %s”,mydata);
}
NF_MECC_Lock();
mecc0=rNFMECC0;
//把ECC校验码由字型转换为字节型,并保存到全局变量数组ECCBuf中
ECCBuf[0]=(U8)(mecc0&0xff);
ECCBuf[1]=(U8)((mecc0>>8) & 0xff);
ECCBuf[2]=(U8)((mecc0>>16) & 0xff);
ECCBuf[3]=(U8)((mecc0>>24) & 0xff);
NF_SECC_UnLock();
//把main区的ECC值写入到spare区的前4个字节地址内,即第2048~2051地址
for(i=0;i<4;i++)
{
NF_WRDATA8(ECCBuf[i]);
}
NF_SECC_Lock();
secc=rNFSECC;
//把ECC校验码保存到全局变量数组ECCBuf中
ECCBuf[4]=(U8)(secc&0xff);
ECCBuf[5]=(U8)((secc>>8) & 0xff);
//把spare区的ECC值持续写入到spare区的第2052~2053地址内
for(i=4;i<6;i++)
{
NF_WRDATA8(ECCBuf[i]);
}
NF_CMD(CMD_STATUS);
//判别状况值的第6位是否为1,即是否在忙,该句子的效果与NF_DETECT_RB();相同
do{
stat = NF_RDDATA8();
}while(!(stat&0x40));
NF_nFCE_H();
//判别状况值的第0位是否为0,为0则写操作正确,不然过错
if (stat & 0x1)
{
temp = rNF_MarkBadBlock(page_number>>6);//标示该页地点的块为坏块
if (temp == 0x21)
return 0x43;
else
return 0x44;
}
else
return 0x66;
}
U8 rNF_ReadPage( U32 page_number)
{
NF_RSTECC();
NF_MECC_UnLock();
NF_CMD(CMD_READ1);
NF_CMD(CMD_READ2);
NF_MECC_Lock();
NF_SECC_UnLock();
mecc0=NF_RDDATA();
rNFMECCD0=((mecc0&0xff00)<<8)|(mecc0&0xff);
rNFMECCD1=((mecc0&0xff000000)>>8)|((mecc0&0xff0000)>>16);
NF_SECC_Lock();
secc=NF_RDDATA();
rNFSECCD=((secc&0xff00)<<8)|(secc&0xff);
if((rNFESTAT0 & 0xf) == 0x0)
return 0x66;
else
return 0x44;
}
void Main(void)
{
S8 myid;
S8 *str = “BERLIN”;
Port_Init();
Uart_Select(0);
Uart_Init(50000000,115200);//初始化串口
Uart_Printf(“\n\nWelcome to test nand flash!\n”);
delay(100);
Uart_Printf(“Now begin to init the nand flash\n”);
rNF_Init();//初始化nand flash
Uart_Printf(“Complete\n”);
delay(100);
Uart_Printf(“Now begin to reset\n”);
rNF_Reset();//复位
Uart_Printf(“Complete\n”);
delay(100);
Uart_Printf(“Now begin to read ID\n”);
myid=rNF_ReadID();//读ID
Uart_Printf(“The ID is %s \n”,myid);
delay(100);
Uart_Printf(“Now begin to erase the nand flash\n”);
rNF_EraseBlock(0);
Uart_Printf(“Complete\n”);//擦除块
delay(100);
Uart_Printf(“Now begin to write data to nand flash\n”);
rNF_WritePage(0,*str);
Uart_Printf(“Write Complete!\n”);//写页
delay(100);
Uart_Printf(“Now begin to read nand flash\n”);
rNF_ReadPage(0);
Uart_Printf(“Complete”);//读页打印在串口
}
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