📄 hy29lv160.c
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#include <stdio.h>
#include <stdlib.h>
#include "def.h"
#include "pin2410.h"
#include "Jtag.h"
#include "sjf2410.h"
#include "mem_rdwr.h"
#define TARGET_ADDR_29LV160 0x0 // nGCS0, 128MB area
#define _WR(addr,data) MRW_Wr16QQ(addr<<1,data,0,0x3)
#define _RD(addr) MRW_Rd16Q(addr<<1,0,0x3)
#define _RESET() _WR(0x0,0xf0f0)
#define BADDR2WADDR(addr) (addr>>1)
static U32 srcAddress;
static U32 srcOffset;
static U32 targetAddress;
static U32 targetOffset;
static U32 targetSize;
static U32 sectorOffset;
static U32 sectorSize;
static U32 totalSize;
HY29lv160_CheckId()
{
U8 tmp;
U16 manId,devId;
int i;
_RESET();
_WR(0x555,0xaaaa);
_WR(0x2aa,0x5555);
_WR(0x555,0x9090);
manId=_RD(0x0);
_RESET(); // New 5V AM29F800 needs this command.
_WR(0x555,0xaaaa);
_WR(0x2aa,0x5555);
_WR(0x555,0x9090);
devId=_RD(0x1);
_RESET();
//_RESET();
printf("Manufacture ID=%4x(0x0001), Device ID(0x2249)=%4x\n",manId,devId);
if(manId == 0xad && devId == 0x2249 )
return 1;
else
return 0;
}
int _WAIT(void) //Check if the bit6 toggle ends.
{
volatile U16 flashStatus,old;
old=_RD(BADDR2WADDR(0x0));
while(1)
{
flashStatus=_RD(BADDR2WADDR(0x0));
if( (old&0x40) == (flashStatus&0x40) )break;
if( flashStatus&0x20 )
{
//printf("[DQ5=1:%x]\n",flashStatus);
old=_RD(BADDR2WADDR(0x0));
flashStatus=_RD(BADDR2WADDR(0x0));
if( (old&0x40) == (flashStatus&0x40) )
return 0;
else return 1;
}
//printf(".");
old=flashStatus;
}
//printf("!\n");
return 1;
}
static void InputTargetOffset(void)
{
printf("\nImage Size:0h~%xh\n",targetSize);
printf("\nAvailable Target Offset:\n");
printf(" 0x0, 0x4000, 0x6000, 0x8000,0x10000,0x20000,0x30000,0x40000,\n");
printf("0x50000,0x60000,0x70000,0x80000,0x90000,0xa0000,0xb0000,0xc0000,\n");
printf("0xd0000,0xe0000,0xf0000\n");
printf("Input target offset:");
scanf("%x",&targetOffset);
}
void GetSectorSize()
{
if(sectorOffset<0x4000){sectorSize=0x4000;}
else if(sectorOffset<0x6000)sectorSize=0x2000;
else if(sectorOffset<0x8000)sectorSize=0x2000;
else if(sectorOffset<0x10000)sectorSize=0x8000;
else sectorSize=0x10000;
printf("SectorOffset=0x%x\n",sectorOffset);
printf("SectorSize =0x%x\n",sectorSize);
}
void HY29lv160_EraseSector(int targetAddr)
{
printf("Sector Erase is started!\n");
_RESET();
_WR(0x555,0xaaaa);
_WR(0x2aa,0x5555);
_WR(0x555,0x8080);
_WR(0x555,0xaaaa);
_WR(0x2aa,0x5555);
_WR(BADDR2WADDR(targetAddr),0x3030);
_WAIT();
_RESET();
}
int HY29lv160_ProgFlash(U32 realAddr,U16 data)
{
_WR(0x555,0xaaaa);
_WR(0x2aa,0x5555);
_WR(0x555,0xa0a0);
_WR(BADDR2WADDR(realAddr),data);
//return _WAIT(); //not needed at JTAG access
return 1;
}
void ProgramHY29lv160(void)
{
int i;
printf("\n[HY29lv160 Writing Program]\n");
MRW_JtagInit();
printf("[Check HY29lv160]\n");
if(!HY29lv160_CheckId())
{
printf("ID Check Error!!!\n");
return;
}
targetSize=imageSize;
srcAddress=(U32)malloc(targetSize+4);
if(srcAddress==0)return;
LoadImageFile((U8 *)srcAddress,targetSize);
srcOffset=0;
targetAddress=TARGET_ADDR_29LV160;
InputTargetOffset();
totalSize=0;
sectorOffset=targetOffset;
printf("\n");
while(totalSize<imageSize)
{
GetSectorSize(); //sectorSize is updated.
printf("Erase the sector:0x%x.\n",targetAddress+sectorOffset);
HY29lv160_EraseSector(targetAddress+sectorOffset);
printf("Start of the sector data writing.\n");
for(i=0x0;i<sectorSize;i+=2)
{
HY29lv160_ProgFlash(targetAddress+sectorOffset+i,*( (U16 *)(srcAddress+srcOffset+i) ) );
if((i%0x100)==0)printf("%x ",i);
totalSize+=2;
if(totalSize>=targetSize) break;
}
printf("\nEnd of the sector data writing!!!\n\n");
_RESET();
sectorOffset+=sectorSize;
srcOffset+=sectorSize;
}
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