nand.rar_nandflash

#include "def.h" #include "2410addr.h" #include "2410lib.h" #define EnNandFlash() (rNFCONF |= 0x8000) #define DsNandFlash() (rNFCONF &= ~0x8000) #define InitEcc() (rNFCONF |= 0x1000) #define NoEcc() (rNFCONF &= ~0x1000) #define NFChipEn() (rNFCONF &= ~0x800) #define NFChipDs() (rNFCONF |= 0x800) #define WrNFCmd(cmd) (rNFCMD = (cmd)) #define WrNFAddr(addr) (rNFADDR = (addr)) #define WrNFDat(dat) (rNFDATA = (dat)) #define RdNFDat() (rNFDATA) #define RdNFStat() (rNFSTAT) #define NFIsBusy() (!(rNFSTAT&1)) #define NFIsReady() (rNFSTAT&1) //#define WIAT_BUSY_HARD 1 //#define ER_BAD_BLK_TEST //#define WR_BAD_BLK_TEST #define READCMD0 0 #define READCMD1 1 #define READCMD2 0x50 #define ERASECMD0 0x60 #define ERASECMD1 0xd0 #define PROGCMD0 0x80 #define PROGCMD1 0x10 #define QUERYCMD 0x70 #define RdIDCMD 0x90 static U16 NandAddr; static void InitNandCfg(void) { //enable nand flash control, initilize ecc, chip disable, rNFCONF = (1<<15)|(1<<12)|(1<<11)|(7<<8)|(7<<4)|(7); } #ifdef WIAT_BUSY_HARD #define WaitNFBusy() while(NFIsBusy()) #else static U32 WaitNFBusy(void) // R/B 未接好? { U8 stat; WrNFCmd(QUERYCMD); do { stat = RdNFDat(); //printf("%x\n", stat); }while(!(stat&0x40)); WrNFCmd(READCMD0); return stat&1; } #endif static U32 ReadChipId(void) { U32 id; NFChipEn(); WrNFCmd(RdIDCMD); WrNFAddr(0); while(NFIsBusy()); id = RdNFDat()<<8; id |= RdNFDat(); NFChipDs(); return id; } static U16 ReadStatus(void) { U16 stat; NFChipEn(); WrNFCmd(QUERYCMD); stat = RdNFDat(); NFChipDs(); return stat; } static U32 EraseBlock(U32 addr) { U8 stat; addr &= ~0x1f; NFChipEn(); WrNFCmd(ERASECMD0); WrNFAddr(addr); WrNFAddr(addr>>8); if(NandAddr) WrNFAddr(addr>>16); WrNFCmd(ERASECMD1); stat = WaitNFBusy(); NFChipDs(); #ifdef ER_BAD_BLK_TEST if(!((addr+0xe0)&0xff)) stat = 1; //just for test bad block #endif //printf("Erase block 0x%x %s\n", addr, stat?"fail":"ok"); putch('.'); return stat; } //addr = page address static void ReadPage(U32 addr, U8 *buf) { U16 i; NFChipEn(); WrNFCmd(READCMD0); WrNFAddr(0); WrNFAddr(addr); WrNFAddr(addr>>8); if(NandAddr) WrNFAddr(addr>>16); InitEcc(); WaitNFBusy(); for(i=0; i<512; i++) buf[i] = RdNFDat(); NFChipDs(); } static U32 WritePage(U32 addr, U8 *buf) { U16 i; U8 stat, tmp[3]; NFChipEn(); WrNFCmd(PROGCMD0); WrNFAddr(0); WrNFAddr(addr); WrNFAddr(addr>>8); if(NandAddr) WrNFAddr(addr>>16); InitEcc(); for(i=0; i<512; i++) WrNFDat(buf[i]); tmp[0] = rNFECC0; tmp[1] = rNFECC1; tmp[2] = rNFECC2; WrNFDat(tmp[0]); WrNFDat(tmp[1]); WrNFDat(tmp[2]); WrNFCmd(PROGCMD1); stat = WaitNFBusy(); NFChipDs(); #ifdef WR_BAD_BLK_TEST if((addr&0xff)==0x17) stat = 1; //just for test bad block #endif if(stat) printf("Write nand flash 0x%x fail\n", addr); else { U8 RdDat[512]; ReadPage(addr, RdDat); for(i=0; i<512; i++) if(RdDat[i]!=buf[i]) { printf("Check data at page 0x%x, offset 0x%x fail\n", addr, i); stat = 1; break; } } return stat; } static void MarkBadBlk(U32 addr) { addr &= ~0x1f; NFChipEn(); WrNFCmd(READCMD2); //point to area c WrNFCmd(PROGCMD0); WrNFAddr(4); //mark offset 4,5,6,7 WrNFAddr(addr); WrNFAddr(addr>>8); if(NandAddr) WrNFAddr(addr>>16); WrNFDat(0); //mark with 0 WrNFDat(0); WrNFDat(0); //mark with 0 WrNFDat(0); WrNFCmd(PROGCMD1); WaitNFBusy(); //needn't check return status WrNFCmd(READCMD0); //point to area a NFChipDs(); } static int CheckBadBlk(U32 addr) { U8 dat; addr &= ~0x1f; NFChipEn(); WrNFCmd(READCMD2); //point to area c WrNFAddr(5); //mark offset 4,5,6,7 WrNFAddr(addr); WrNFAddr(addr>>8); if(NandAddr) WrNFAddr(addr>>16); WaitNFBusy(); dat = RdNFDat(); WrNFCmd(READCMD0); //point to area a NFChipDs(); return (dat!=0xff); } /************************************************************/ struct Partition{ U32 offset; U32 size; char *name; }; static struct Partition NandPart[] = { {0, 0x00030000, "boot"}, //256K {0x00030000, 0x001d0000, "kernel"}, {0x00200000, 0x00600000, "rootfs"}, //6M {0x00800000, 0x00800000, "ext-fs1"}, //8M {0x01000000, 0x01000000, "ext-fs2"}, //16M {0x02000000, 0x02000000, "ext-fs3"}, //32M {0, 0 , 0} }; /* static void TestFunc(void) { U32 i; U8 buf[512]; if(EraseBlock(0x180)) return; for(i=0; i<512; i++) buf[i] = i; WritePage(0x180, buf); for(i=0; i<512; i++) buf[i] = 0; ReadPage(0x180, buf); for(i=0; i<512; i++) printf("%4x", buf[i]); } */ static U32 StartPage, BlockCnt; extern U32 downloadAddress; extern U32 downloadFileSize; static int NandSelPart(char *info) { U16 i, max_sel; struct Partition *ptr = NandPart; printf("Please select which region to %s : Esc to abort\n", info); for(i=0; ptr->size!=0; i++, ptr++) printf("%d : offset 0x%-8x, size 0x%-8x [%s]\n", i, ptr->offset, ptr->size, ptr->name); max_sel = i; while(1) { i = getch(); if(i==0x1b) return -1; if((i>='0')&&(i<(max_sel+'0'))) { i -= '0'; StartPage = NandPart[i].offset>>9; BlockCnt = NandPart[i].size>>14; return i; } } } static void WrFileToNF(void) { int nf_part, i ,size, skip_blks; U32 ram_addr; nf_part = NandSelPart("write"); if(nf_part<0) return; if(downloadFileSize>NandPart[nf_part].size) { puts("Download file size is more large than selected partition size!!!\n"); // return; } printf("Now write nand flash page 0x%x from ram address 0x%x, filesize = %d\n", StartPage, downloadAddress, downloadFileSize); puts("Are you sure? [y/n]\n"); while(1) { char c = getch(); if((c=='y')||(c=='Y')) break; if((c=='n')||(c=='N')) return; } skip_blks = 0; ram_addr = downloadAddress; size = downloadFileSize; for(i=0; size>0; ) { if(!(i&0x1f)) { if(EraseBlock(i+StartPage)) { NandPart[nf_part].size -= 32<<9; //partition available size - 1 block size if(downloadFileSize>NandPart[nf_part].size) { puts("Program nand flash fail\n"); return; } MarkBadBlk(i+StartPage); skip_blks++; i += 32; continue; } } if(WritePage(i+StartPage, (U8 *)ram_addr)) { ram_addr -= (i&0x1f)<<9; size += (i&0x1f)<<9; i &= ~0x1f; NandPart[nf_part].size -= 32<<9; //partition available size - 1 block size if(downloadFileSize>NandPart[nf_part].size) { puts("Program nand flash fail\n"); return; } MarkBadBlk(i+StartPage); skip_blks++; i += 32; continue; } ram_addr += 512; size -= 512; i++; } puts("Program nand flash partition success\n"); if(skip_blks) printf("Skiped %d bad block(s)\n", skip_blks); } #define LINUX_PAGE_SHIFT 12 #define LINUX_PAGE_SIZE (1<<LINUX_PAGE_SHIFT) #define COMMAND_LINE_SIZE 1024 struct param_struct { union { struct { unsigned long page_size; /* 0 */ unsigned long nr_pages; /* 4 */ unsigned long ramdisk_size; /* 8 */ unsigned long flags; /* 12 */ #define FLAG_READONLY 1 #define FLAG_RDLOAD 4 #define FLAG_RDPROMPT 8 unsigned long rootdev; /* 16 */ unsigned long video_num_cols; /* 20 */ unsigned long video_num_rows; /* 24 */ unsigned long video_x; /* 28 */ unsigned long video_y; /* 32 */ unsigned long memc_control_reg; /* 36 */ unsigned char sounddefault; /* 40 */ unsigned char adfsdrives; /* 41 */ unsigned char bytes_per_char_h; /* 42 */ unsigned char bytes_per_char_v; /* 43 */ unsigned long pages_in_bank[4]; /* 44 */ unsigned long pages_in_vram; /* 60 */