mem_rdwr.c

s3c6400（ARM11）的JTAG烧写软件

#include <stdio.h>
#include "..\include\pin6400.h"
#include "..\include\Jtag.h"
#include "..\include\mem_rdwr.h"
#include "..\include\sjf6400.h"

static int MRW_RdByte(U32 raddr,U8 *pRDataByte);
static int MRW_RdHW(U32 raddr,U16 *pRDataHW);
static int MRW_RdWord(U32 raddr,U32 *pRDataWord);
static int MRW_WrByte(U32 raddr,U8 rdataByte);
static int MRW_WrHW(U32 raddr,U16 rdataHW);
static int MRW_WrWord(U32 raddr,U32 rdataWord);

int bankWidth[8]={16,16,16,16,16,16,16,16};
int bank_nBE[8]={0,0,1,1,1,1,1,1};

void MRW_Menu(void)
{
    int i,j;
    char command[128];
    U32 raddr;
    U8 rdataByte;
    U16 rdataHW;
    U32 rdataWord;
    int bank;
    int error;

    MRW_JtagInit();

    printf("\n[memory read/write command line]\n");
    printf("h:help x:exit\n");
    while(1)
    {
	error=0;
	printf(">");
	scanf("%s",command);
	switch(command[0])
	{
	case 'h':
	    printf("+---------------------- COMMAND LIST ------------------------+\n");
	    printf("| bs <bank #> <bw> <type> : set bank attribute               |\n");
	    printf("|                           bw=8,16,32 type:0(nWBE),1(nBE)   |\n");
	    printf("| bp                      : print bank attributes            |\n"); 
	    printf("| d <hex_raddr>            : dump 64 bytes                    |\n");
	    printf("| rb <hex_raddr>           : read, byte rdata                  |\n");
	    printf("| rh <hex_raddr>           : read, half-word rdata             |\n");
	    printf("| rw <hex_raddr>           : read, word rdata                  |\n");
   	    printf("| wb <hex_raddr> <hex_rdata>: write, byte rdata                 |\n");
	    printf("| wh <hex_raddr> <hex_rdata>: write, half-word rdata            |\n");
	    printf("| ww <hex_raddr> <hex_rdata>: write, word rdata                 |\n");
	    printf("+-------------------------- NOTE ----------------------------+\n");
	    printf("| 1. nSCS0,1 SDRAM read/write isn't supported now.           |\n");
	    printf("| 2. example: >bs 2 16 1                                     |\n");
	    printf("|             >wb 110003e0 a5                                |\n");
	    printf("+------------------------------------------------------------+\n");
	    break;
	
	case 'x':
	    return;
	
	case 'b':
	    if(command[1]=='s')
	    {
	    scanf("%d",&bank);
	    scanf("%d %d",&bankWidth[bank],&bank_nBE[bank]);
	    printf("nRCS%d= width=%d write_type=%s\n",bank,bankWidth[bank],
		(bank_nBE[bank]==0)? "nWBE":"nBE");
	    }
	    else
	    {
    		for(i=0;i<7;i++)
		{
		    printf("nRCS%d width=%d %s\n",i,bankWidth[i],
			(bank_nBE[i]==0)? "nWBE":"nBE");
		}
	    }
	    break;

	case 'd':
	    scanf("%x",&raddr);
	    raddr=raddr&0xfffffff0;
	    bank=S6400_RAddr2Bank(raddr);
	    for(i=0;i<4;i++)
	    {
		printf("%8x:",raddr);
		for(j=0;j<16;j++)
		{
		    error=MRW_RdByte(raddr++,&rdataByte);
		    if(error!=0)
			printf("?? ");
		    else
			printf("%02x ",rdataByte);
		}
		printf("\n");
	    }
	    break;

	case 'r': //read
	    switch(command[1])
	    {
	    case 'b': //read byte
		scanf("%x",&raddr);
		raddr=raddr&0xffffffff;
		bank=S6400_RAddr2Bank(raddr);
		error=MRW_RdByte(raddr,&rdataByte);
		if(error!=0)
		    printf("ERROR:incorrect bank bus width\n");    
		else
		    printf("rb: %x(%d,%s): %02x\n",raddr,bankWidth[bank],
			(bank_nBE[bank]==0)? "nWBE":"nBE",rdataByte);
		break;
	    case 'h': //read half-word
		scanf("%x",&raddr);
		raddr=raddr&0xfffffffe;
		bank=S6400_RAddr2Bank(raddr);
		error=MRW_RdHW(raddr,&rdataHW);
		if(error!=0)
		    printf("ERROR:incorrect bank bus width\n");    
		else
		    printf("rh: %x(%d,%s): %04x\n",raddr,bankWidth[bank],
			(bank_nBE[bank]==0)? "nWBE":"nBE",rdataHW);
		break;
	    case 'w': //read word
		scanf("%x",&raddr);
		raddr=raddr&0xfffffffc;
		bank=S6400_RAddr2Bank(raddr);
		error=MRW_RdWord(raddr,&rdataWord);
		if(error!=0)
		    printf("ERROR:incorrect bank bus width\n");
		else
		    printf("rw: %x(%d,%s): %08x\n",raddr,bankWidth[bank],
			(bank_nBE[bank]==0)? "nWBE":"nBE",rdataWord);
		break;
	    default:
		printf("ERROR:incorrect command.\n");
		break;
	    }
	    break;

	case 'w': //write
	    switch(command[1])
	    {
	    case 'b': //write byte
		scanf("%x %x",&raddr,&rdataByte);
		raddr=raddr&0xffffffff;
		bank=S6400_RAddr2Bank(raddr);
		error=MRW_WrByte(raddr,rdataByte);
		if(error!=0)
		    printf("ERROR:incorrect bank bus width\n");
		else
		    printf("wb: %x(%d,%s): %02x\n",raddr,bankWidth[bank],
			(bank_nBE[bank]==0)? "nWBE":"nBE",rdataByte);
		break;
	    case 'h': //write half-word
		scanf("%x %x",&raddr,&rdataHW);
		raddr=raddr&0xfffffffe;
		bank=S6400_RAddr2Bank(raddr);
		
		error=MRW_WrHW(raddr,rdataHW);
		
		if(error!=0)
		    printf("ERROR:incorrect bank bus width\n");
		else
		    printf("wh: %x(%d,%s): %04x\n",raddr,bankWidth[bank],
			(bank_nBE[bank]==0)? "nWBE":"nBE",rdataHW);
		break;
	    case 'w': //write word
		scanf("%x %x",&raddr,&rdataWord);
		raddr=raddr&0xfffffffc;
		bank=S6400_RAddr2Bank(raddr);

		error=MRW_WrWord(raddr,rdataWord);

		if(error!=0)
		    printf("ERROR:incorrect bank bus width\n");
		else
		    printf("ww: %x(%d,%s): %08x\n",raddr,bankWidth[bank],
			(bank_nBE[bank]==0)? "nWBE":"nBE",rdataWord);
		break;
	    default:
		printf("ERROR:incorrect command.\n");
		break;
	    }
	    break;
        default:
	    printf("ERROR:incorrect command.\n");
	    break;
	}
    }
}


static int MRW_RdByte(U32 raddr,U8 *pRDataByte)
//raddress should be aligned
{
    U8 rdataByte;
    int bank;
    int error=0;
		
    bank=S6400_RAddr2Bank(raddr);

    switch(bankWidth[bank])
    {
    case 8:
	rdataByte=MRW_Rd8(raddr);
	break;
    case 16:
	if((raddr%2)==0)
	    rdataByte=MRW_Rd16(raddr,bank_nBE[bank],(1<<0))&0xff;
	else
	    rdataByte=(MRW_Rd16(raddr,bank_nBE[bank],(1<<1))&0xff00)>>8;
	break;
    case 32:
	switch(raddr%4)
	{
	case 0:
	    rdataByte=MRW_Rd32(raddr,bank_nBE[bank],(1<<0))&0xff;
	    break;
	case 1:
    	    rdataByte=(MRW_Rd32(raddr,bank_nBE[bank],(1<<1))&0xff00)>>8;
	    break;
	case 2:
	    rdataByte=(MRW_Rd32(raddr,bank_nBE[bank],(1<<2))&0xff0000)>>16;
	    break;
	case 3:
    	    rdataByte=(MRW_Rd32(raddr,bank_nBE[bank],(1<<3))&0xff000000)>>24;
	    break;
	default:
	    error=1;
	    break;
	}
	break;
    default:
	error=1;
	break;
    }
    *pRDataByte=rdataByte;
    return error;
}


static int MRW_RdHW(U32 raddr,U16 *pRDataHW)
//raddress should be aligned
{
    U16 rdataHW;
    int bank;
    int error=0;
		
    bank=S6400_RAddr2Bank(raddr);
    switch(bankWidth[bank])
    {
    case 16:
	rdataHW=MRW_Rd16(raddr,bank_nBE[bank],(3<<0));
	break;
    case 32:
	switch(raddr%4)
	{
	case 0:
	    rdataHW=MRW_Rd32(raddr,bank_nBE[bank],(3<<0))&0xffff;
	    break;
	case 2:
	    rdataHW=(MRW_Rd32(raddr,bank_nBE[bank],(3<<2))&0xffff0000)>>16;
	    break;
	}
	break;
    default:
	error=1;
	break;
    }
    *pRDataHW=rdataHW;
    return error;
}


static int MRW_RdWord(U32 raddr,U32 *pRDataWord)
//raddress should be aligned
{
    U32 rdataWord;
    int bank;
    int error=0;

    bank=S6400_RAddr2Bank(raddr);
    switch(bankWidth[bank])
    {
    case 32:
	rdataWord=MRW_Rd32(raddr,bank_nBE[bank],(0xf<<0));
	break;
    default:
	error=1;
	break;
    }
    *pRDataWord=rdataWord;
    return error;
}


static int MRW_WrByte(U32 raddr,U8 rdataByte)
{
    int bank;
    int error=0;

    bank=S6400_RAddr2Bank(raddr);
    switch(bankWidth[bank])
    {
    case 8:
	MRW_Wr8(raddr,rdataByte);
	break;
    case 16:
	if((raddr%2)==0)
	    MRW_Wr16(raddr,(U16)(rdataByte|(rdataByte<<8)),bank_nBE[bank],(1<<0));
	else
	    MRW_Wr16(raddr,(U16)(rdataByte|(rdataByte<<8)),bank_nBE[bank],(1<<1));
	break;
    case 32:
	switch(raddr%4)
	{
	case 0:
	    MRW_Wr32(raddr,rdataByte|(rdataByte<<8)|(rdataByte<<16)|(rdataByte<<24),
		    bank_nBE[bank],(1<<0));
	    break;
	case 1:
	    MRW_Wr32(raddr,rdataByte|(rdataByte<<8)|(rdataByte<<16)|(rdataByte<<24),
		    bank_nBE[bank],(1<<1));
	    break;
	case 2:
	    MRW_Wr32(raddr,rdataByte|(rdataByte<<8)|(rdataByte<<16)|(rdataByte<<24),
		    bank_nBE[bank],(1<<2));
	    break;
	case 3:
	    MRW_Wr32(raddr,rdataByte|(rdataByte<<8)|(rdataByte<<16)|(rdataByte<<24),
		    bank_nBE[bank],(1<<3));
	    break;
	}
	break;
    default:
	error=1;
	break;
    }
    return error;
}


static int MRW_WrHW(U32 raddr,U16 rdataHW)
//raddress should be aligned
{
    int bank;
    int error=0;

    bank=S6400_RAddr2Bank(raddr);
    switch(bankWidth[bank])
    {
    case 16:
	MRW_Wr16(raddr,rdataHW,bank_nBE[bank],(3<<0));
	break;
    case 32:
	switch(raddr%4)
	{
	case 0:
	    MRW_Wr32(raddr,rdataHW|(rdataHW<<16),bank_nBE[bank],(3<<0));
	    break;
	case 2:
	    MRW_Wr32(raddr,rdataHW|(rdataHW<<16),bank_nBE[bank],(3<<2));
	    break;
	}
    default:
	error=1;
	break;
    }
    return error;
}


static int MRW_WrWord(U32 raddr,U32 rdataWord)
//raddress should be aligned
{
    int bank;
    int error=0;

    bank=S6400_RAddr2Bank(raddr);
    switch(bankWidth[bank])
    {
    case 32:
	MRW_Wr32(raddr,rdataWord,bank_nBE[bank],(0xf<<0));
	break;
    default:
	error=1;
	break;
    }
    return error;
}


//*************************************************
//*************************************************
//**     JTAG dependent primitive functions      **
//************************************************* 
//*************************************************
void MRW_JtagInit(void)
{
    JTAG_RunTestldleState();
    JTAG_ShiftIRState(EXTEST);

    //The initial value of pins will be defined here.
}


int S6400_RAddr2Bank(U32 raddr)
{
    if(raddr<0x8000000)
	return 0;
    else if(raddr<0x10000000)
	return 1;
    else if(raddr<0x18000000)
	return 2;
    else if(raddr<0x20000000)
	return 3;
    else if(raddr<0x28000000)
	return 4;
    else if(raddr<0x30000000)
	return 5;
    else if(raddr<0x38000000)
	return 6;
    else if(raddr<0x40000000)
	return 7;

    printf("ERROR:raddress range overflow\n");
    return 0;
}


void S6400_Assert_nCS(U32 raddr)
{
    if(raddr<0x8000000)
	S6400_SetPin(Xm0CSn0_OUT ,LOW);
    else if(raddr<0x10000000)
	S6400_SetPin(Xm0CSn1_OUT ,LOW);
    else if(raddr<0x18000000)
	S6400_SetPin(Xm0CSn2_OUT ,LOW);
    else if(raddr<0x20000000)
	S6400_SetPin(Xm0CSn3_OUT ,LOW);
    else if(raddr<0x28000000)
	S6400_SetPin(Xm0CSn4_OUT ,LOW);