console.c

samsung 2410 demo源代码

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>

#include "Option.h"
#include "2413addr.h"
#include "System.h"


//===========================[ UART ]==============================

void Uart_Init(int baud)
{
	int i;
	
	// Uart clock divider source selection
	rCLKSRC |= (1<<8);
	
	// select UART function
	rGPHCON	&= ~((0xf<<12)|(0xf<<8)|(0xf<<4)|(0xf<<0));
	rGPHCON	|=  ((0xa<<12)|(0xa<<8)|(0xa<<4)|(0xa<<0));
	
	
 
    rUFCON0 = 0x0;   //UART channel 0 FIFO control register, FIFO disable
    rUFCON1 = 0x0;   //UART channel 1 FIFO control register, FIFO disable
    rUFCON2 = 0x0;   //UART channel 2 FIFO control register, FIFO disable
    rUMCON0 = 0x0;   //UART chaneel 0 MODEM control register, AFC disable
    rUMCON1 = 0x0;   //UART chaneel 1 MODEM control register, AFC disable
//UART0
    rULCON0 = 0x3;   //Line control register : Normal,No parity,1 stop,8 bits
     //    [10]       [9]     [8]        [7]        [6]      [5]         [4]           [3:2]        [1:0]
     // Clock Sel,  Tx Int,  Rx Int, Rx Time Out, Rx err, Loop-back, Send break,  Transmit Mode, Receive Mode
     //     0          1       0    ,     0          1        0           0     ,       01          01
     //   PCLK       Level    Pulse    Disable    Generate  Normal      Normal        Interrupt or Polling
    rUCON0  = 0x245;   // Control register
    rUBRDIV0=( (int)(PCLK/16./baud+0.5) -1 );   //Baud rate divisior register 0
//UART1
    rULCON1 = 0x3;
    rUCON1  = 0x245;
    rUBRDIV1=( (int)(PCLK/16./baud+0.5) -1 );
//UART2
    rULCON2 = 0x3;
    rUCON2  = 0x245;
    rUBRDIV2=( (int)(PCLK/16./baud+0.5) -1 );    

    for(i=0;i<100;i++);   
}

//=====================================================================
int GetIntNum( void)
{
    char str[30];
    char *string = str;
    int base     = 10;
    int minus    = 0;
    int result   = 0;
    int lastIndex;    
    int i,j;
    
    gets(string);


	i=0; j=0;
	do {
		if (string[j]==0x8) {
			if (i>0)	i--; 
		} else 
			string[i++]=string[j];
	} while(string[j++]!=0);


    if(string[0]=='-') {
        minus = 1;
        string++;
    }
    
    if(string[0]=='0' && (string[1]=='x' || string[1]=='X')) {
        base    = 16;
        string += 2;
    }
    
    lastIndex = strlen(string) - 1;
    
    if(lastIndex<0)
        return -1;
    
    if(string[lastIndex]=='h' || string[lastIndex]=='H' ) {
        base = 16;
        string[lastIndex] = 0;
        lastIndex--;
    }

    if(base==10) {
        result = atoi(string);
        result = minus ? (-1*result):result;
    }
    else {
        for(i=0;i<=lastIndex;i++) {
            if(isalpha(string[i])) {
                if(isupper(string[i]))
                    result = (result<<4) + string[i] - 'A' + 10;
                else
                    result = (result<<4) + string[i] - 'a' + 10;
            }
            else
                result = (result<<4) + string[i] - '0';
        }
        result = minus ? (-1*result):result;
    }
    return result;
}


void Uart_SendByte(int whichUart,int data)
{
    if(whichUart==0)
    {
        if(data=='\n')
        {
            while(!(rUTRSTAT0 & 0x2));
            Delay(10);                 //because the slow response of hyper_terminal 
            WrUTXH0('\r');
        }
        while(!(rUTRSTAT0 & 0x2));   //Wait until THR is empty.
        Delay(10);
        WrUTXH0(data);
    }
    else if(whichUart==1)
    {
        if(data=='\n')
        {
            while(!(rUTRSTAT1 & 0x2));
            Delay(10);                 //because the slow response of hyper_terminal 
            rUTXH1 = '\r';
        }
        while(!(rUTRSTAT1 & 0x2));   //Wait until THR is empty.
        Delay(10);
        rUTXH1 = data;
    }   
    else if(whichUart==2)
    {
        if(data=='\n')
        {
            while(!(rUTRSTAT2 & 0x2));
            Delay(10);                 //because the slow response of hyper_terminal 
            rUTXH2 = '\r';
        }
        while(!(rUTRSTAT2 & 0x2));   //Wait until THR is empty.
        Delay(10);
        rUTXH2 = data;
    }       
}               


int Uart_putc(int c)
{
	if(c=='\n') {
		while(!(rUTRSTAT1 & 0x2));
		Delay(10);				   //because the slow response of hyper_terminal 
		WrUTXH1('\r');
	}
	while(!(rUTRSTAT1 & 0x2));	 //Wait until THR is empty.
	Delay(10);
	WrUTXH1(c);
	return c;
}

int Uart_puts( const char *s)
{
	while(*s!=0) Uart_putc( *s++);
	return 0;	
}

int Uart_getc( void)
{
	int	ch; 
	while(!(rUTRSTAT1 & 0x1)); //Receive data ready
	ch=RdURXH1();
	return ch; 
}

int Uart_GetKey( void)
{
	if(rUTRSTAT1 & 0x1)    //Receive data ready
		return RdURXH1();
	else
		return 0;
}

void Console( void)
{
	Uart_Init(115200);		
}


//========================**[ BOARD LED ]=================================

void Init_LED( void)
{
    rGPFCON	= (rGPFCON&0xffff00ff)|0xff00;
    rGPFDN	|= (0xf<<4); // pull-down disable
}

void Led_Display(int data)
{
    rGPFDAT = (rGPFDAT & ~(0xf<<4)) | ((~data & 0xf)<<4) ;
}

void Uart_TxEmpty(int ch)
{
    if(ch==0)
        while(!(rUTRSTAT0 & 0x4)); //Wait until tx shifter is empty.
          
    else if(ch==1)
        while(!(rUTRSTAT1 & 0x4)); //Wait until tx shifter is empty.
        
    else if(ch==2)
        while(!(rUTRSTAT2 & 0x4)); //Wait until tx shifter is empty.
}