📄 k9s1208.c
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#include <string.h>
#include "def.h"
#include "option.h"
#include "2460addr.h"
#include "2460lib.h"
#include "2460slib.h"
#include "nand.h"
#define BAD_CHECK (0)
#define ECC_CHECK (0)
void __RdPage528(unsigned char *pPage);
void __WrPage528(unsigned char *pPage);
static int NF_EraseBlock(unsigned int blockNum);
static int NF_ReadPage(unsigned int block,unsigned int page,unsigned char *buffer);
static int NF_WritePage(unsigned int block,unsigned int page,unsigned char *buffer);
static int NF_IsBadBlock(unsigned int block);
static int NF_MarkBadBlock(unsigned int block);
static void NF_AutoLoad(unsigned int block, unsigned int page, unsigned short addr, unsigned char size);
static void NF_AutoStore(unsigned int block, unsigned int page, unsigned short addr);
static void Input_x8_TargetBlock(void);
static void __irq NFCon_Int(void);
static unsigned int srcAddress;
static unsigned int dstAddress;
static unsigned int targetBlock; // Block number (0 ~ 8191)
static unsigned int targetSize; // Total byte size
static unsigned int steppingstone;
static unsigned char seBuf[16]={0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff};
static unsigned char spare[16]={0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff,0xff};
volatile int NFConDone;
#define NF_CMD(cmd) {rNFCMMD=cmd;}
#define NF_ADDR(addr) {rNFADDR=addr;}
#define NF_nFCE_L() {rNFCONT&=~(1<<7);}
#define NF_nFCE_H() {rNFCONT|=(1<<7);}
#define NF_RSTECC() {rNFCONT|=(1<<8);}
#define NF_RDDATA() (rNFDATA)
#define NF_WRDATA8(data) {(*(volatile unsigned char *)0x40c00010)=data;}
#define NF_WRDATA(data) {rNFDATA=data;}
#define NF_RDDATA8() ((*(volatile unsigned char*)0x40c00010) )
#define NF_TRANSRnB() {while(!(rNFSTAT&(1<<13)));}
#define NF_CLRRnB() {(rNFSTAT|=(1<<13));}
#define NF_MECC_Lock() { rNFCONT|=(1<<9);}
#define NF_MECC_UnLock() { rNFCONT&=~(1<<9);}
#define ID_K9S1208V0M 0xec76
#define LdStrAddr 0x00
void K9S1208_Program(void)
{
int i,j;
int programError=0;
unsigned char *srcPt,*saveSrcPt;
unsigned int blockIndex;
unsigned char *testdata;
printf("\n[ SMC(K9S1208V0M) NAND Flash writing program]\n");
//org
//srcAddress=0x10500000;
//khs(050909)
srcAddress=(_RAM_STARTADDRESS+0x00500000);
printf("source base address(0x10500000)=0x%x\n",srcAddress);
/*
// Initializing Buffer ----------------INIT
testdata = (unsigned char *)(srcAddress);
for(i=0;i<4096;i++)
*(testdata++) = i;
*/
Input_x8_TargetBlock();
//printf("target start block number =%d\n",targetBlock);
//printf("target size (0x4000*n) =0x%x\n",targetSize);
srcPt=(unsigned char *)srcAddress;
blockIndex=targetBlock;
while(1)
{
saveSrcPt=srcPt;
#if BAD_CHECK
if(NF_IsBadBlock(blockIndex)) // 1:bad 0:good
{
blockIndex++; // for next block
continue;
}
#endif
if(!NF_EraseBlock(blockIndex))
{
blockIndex++; // for next block
continue;
}
for(i=0;i<32;i++)
{
if(!NF_WritePage(blockIndex,i,srcPt))// block num, page num, buffer
{
programError=1;
printf("ECC Error(block=%d,page=%d!!!\n",blockIndex,i);
break;
}
#if ECC_CHECK
if(!NF_ReadPage(blockIndex,i,srcPt))
{
printf("ECC Error(block=%d,page=%d!!!\n",blockIndex,i);
}
#endif
srcPt+=512; // Increase buffer addr one page size
if((unsigned int)srcPt>=(srcAddress+targetSize)) // Check end of buffer
break; // Exit for loop
}
printf(".");
if(programError==1)
{
blockIndex++;
srcPt=saveSrcPt;
programError=0;
continue;
}
if((unsigned int)srcPt>=(srcAddress+targetSize)) break; // Exit while loop
blockIndex++;
}
}
void K9S1208_PrintBadBlockNum(void)
{
int i,bad_cnt=0;
printf("\n[SMC(K9S1208V0M) NAND Flash bad block check]\n");
for(i=0;i<4096;i++)
{
if(NF_IsBadBlock(i)) // Print bad block
bad_cnt++;
}
if(bad_cnt==0)
printf("There is no bad block\n");
else
printf("There are %d bad blocks\n",bad_cnt);
}
void K9S1208_Page_Write(void)
{
unsigned int block=0, page=0;
int i, offset;
unsigned char * srcPt;
//org.
//srcPt=(unsigned char *)0x11100000;
//khs(050909)
srcPt=(unsigned char *)(_NONCACHE_STARTADDRESS+0x00100000);
printf("SMC(K9S1208V0M) NAND Page Write.\n");
printf("You must erase block before you write data!!! \n");
printf("Block # to write: ");
block = GetIntNum();
printf("Page # to write: ");
page = GetIntNum();
printf("offset data(-1:random): ");
offset = GetIntNum();
#if ADS10==TRUE
srand(0);
#endif
// Init wdata.
for(i=0; i<512; i++) {
if(offset==-1) *srcPt++ = rand()%0xff;
else *srcPt++ = i+offset;
}
//org.
//srcPt=(unsigned char *)0x11100000;
//khs(050909)
srcPt=(unsigned char *)(_NONCACHE_STARTADDRESS+0x00100000);
printf("Write data[%d block, %d page].\n", block, page);
if(NF_WritePage(block, page, srcPt)==FALSE) {
printf("Write Error.\n");
} else {
printf("Write OK.\n");
}
printf("Write data is");
for(i=0; i<512; i++) {
if((i%16)==0) printf("\n%4x: ", i);
printf("%02x ", *srcPt++);
}
printf("\n");
printf("Spare:");
for(i=0; i<16; i++) {
printf("%02x ", spare[i]);
}
printf("\n\n");
}
void K9S1208_PrintBlock(void)// Printf one page
{
int i,j;
unsigned int block,page;
unsigned char * downPt;
//org.
//downPt=(unsigned char *)0x11000000;
//khs(050909)
downPt=(unsigned char *)_NONCACHE_STARTADDRESS;
printf("\n[SMC(K9S1208V0M) NAND Flash block read]\n");
printf("Input target block number:");
block=GetIntNum();
printf("Input target page number:");
page=GetIntNum();
NF_ReadPage(block,page,downPt);
printf("block=%d,page=%d:",block,page);
for(j=0;j<512;j++)
{
if(j%16==0)
printf("\n%3xh:",j);
printf("%02x ",*downPt++);
}
printf("\nSpare:");
for(j=0;j<16;j++) printf("%02x ",spare[j]);
printf("\n");
}
void K9S1208_Erase(void)
{
unsigned int block=0;
printf("SMC(K9S1208V0M) NAND Block erase\n");
printf("Block # to erase: ");
block = GetIntNum();
#if BAD_CHECK
if(NF_IsBadBlock(block)); // 1:bad 0:good
// return;
#endif
// rNFCONT&=~(1<<2); // Lock disable
if(NF_EraseBlock(block)==0) return;
printf("%d-block erased.\n", block);
}
void K9S1208_Lock(void)
{
unsigned int num;
unsigned int S_block, E_block;
printf("SMC(K9S1208V0M) NAND Lock Test !!!\n");
printf("Select Lock type, Softlock(1)/Lock-tight(2) : ");
num=GetIntNum();
printf("\nEnter programmable start block address ");
S_block = GetIntNum();
printf("Enter programmable end block address ");
E_block = GetIntNum();
rNFSBLK=(S_block<<5);
rNFEBLK=(E_block<<5);
if(num==1){
rNFCONT|=(1<<2);
printf("Software Locked\n ");
}
else if(num==2){
rNFCONT|=(1<<3);
printf("Lock-tight: To clear Lock-tight, reset S3C2460!!!\n ");
}
printf("%d block ~ %d block are Programmable\n ", S_block, (E_block)-1);
}
void K9S1208_SoftUnLock(void)
{
unsigned int S_block, E_block;
printf("SMC(K9S1208V0M) NAND SoftUnLock Test !!!\n");
rNFCONT&=~(1<<2);
if(rNFCONT&(1<<3)){
// rNFCONT&=~(1<<3);
printf("Lock-tight\n ");
printf("You can't unlock Protected blocks !!!\n ");
printf("%d block ~ %d block are Programmable\n ", (rNFSBLK>>5), ((rNFEBLK>>5)-1));
}
else printf("All blocks are Programmable\n ");
rNFSBLK=0x0;
rNFEBLK=0x0;
}
static void Input_x8_TargetBlock(void)
{
printf("\nAvailable target block number: 0~4095\n");
printf("Input target start block number:");
targetBlock=GetIntNum(); // Block number(0~4095)
if(targetSize==0)
{
// printf("1,048,576 = 0x100000, 31,457,280 = 0x1e00000 \n");
printf("Input program file size(bytes): ");
targetSize=GetIntNum(); // Total byte size
}
}
static int NF_IsBadBlock(unsigned int block)
{
int i;
unsigned int blockPage;
unsigned char data;
blockPage=(block<<5); // For 2'nd cycle I/O[7:5]
// NF_RSTECC(); // Reset ECC
NF_CLRRnB();
NF_nFCE_L();
NF_CMD(0x50); // Spare array read command
NF_ADDR(0x5); // Read the mark of bad block in spare array(M addr=5)
NF_ADDR(blockPage&0xff); // The mark of bad block is in 0 page
NF_ADDR((blockPage>>8)&0xff); // For block number A[24:17]
NF_ADDR((blockPage>>16)&0xff); // For block number A[25]
// for(i=0;i<10;i++); // wait tWB(100ns) //?????
NF_TRANSRnB(); // Wait tR(max 12us)
data=NF_RDDATA();
NF_nFCE_H();
if(data!=0xff)
{
printf("[block %d has been marked as a bad block(%x)]\n",block,data);
return 1;
}
else
{
return 0;
}
}
static int NF_EraseBlock(unsigned int block)
{
unsigned int blockPage;
int i;
NFConDone=0;
rNFCONT|=(1<<12); // RnB interrupt enable
rNFCONT|=(1<<15); // Illegal interrupt enable
pISR_NFLASH= (unsigned)NFCon_Int;
rSRCPND=BIT_NFLASH;
rINTMSK=~(BIT_NFLASH);
blockPage=(block<<5);
NF_nFCE_L();
NF_CMD(0x60); // Erase one block 1st command
NF_ADDR(blockPage&0xff); // Page number=0
NF_ADDR((blockPage>>8)&0xff);
NF_ADDR((blockPage>>16)&0xff);
NF_CLRRnB();
NF_CMD(0xd0); // Erase one blcok 2nd command
// for(i=0; i<10; i++);
// NF_TRANSRnB(); // Wait tBERS max 3ms.
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