#include "..\startup\44b.h"#include "..\inc\44blib.h"#include "..\inc\def.h"#include "..\startup\option.h"#include <stdarg.h>#include <string.h>#include <stdlib.h>#include <stdio.h>#include <ctype.h>#define STACKSIZE    0xa00 //SVC satck size(do not use user stack)//#define HEAPEND     (_ISR_STARTADDRESS-STACKSIZE-0x500) // = 0xc7ff000////SVC Stack Area:0xc(e)7ff000-0xc(e)7ffaff//#define SIO_START	0x08	//SIO Startextern char Image$$RW$$Limit[];volatile unsigned char *downPt;unsigned int fileSize;void *mallocPt=Image$$RW$$Limit;void (*restart)(void)=(void (*)(void))0x0;void (*run)(void)=(void (*)(void))DOWNLOAD_ADDRESS;//--------------------------------SYSTEM---------------------------------//static int delayLoopCount=400;void Delay(int time)// time=0: adjust the Delay function by WatchDog timer.//// time>0: the number of loop time//// 100us resolution.//{	int i,adjust=0;	if(time==0)	{		time=200;		adjust=1;		delayLoopCount=400;		rWTCON=((MCLK/1000000-1)<<8)|(2<<3);	// 1M/64,Watch-dog,nRESET,interrupt disable//		rWTDAT=0xffff;		rWTCNT=0xffff;	 		rWTCON=((MCLK/1000000-1)<<8)|(2<<3)|(1<<5); // 1M/64,Watch-dog enable,nRESET,interrupt disable //	}	for(;time>0;time--)		for(i=0;i<delayLoopCount;i++);	if(adjust==1)	{		rWTCON=((MCLK/1000000-1)<<8)|(2<<3);		i=0xffff-rWTCNT;   //  1count/16us?????????//		delayLoopCount=8000000/(i*64);	//400*100/(i*64/200)   //	}}//------------------------PORTS------------------------------//void Port_Init(void){	//CAUTION:Follow the configuration order for setting the ports. 	// 1) setting value 	 // 2) setting control register 	 // 3) configure pull-up resistor.  	//16bit data bus configuration  	// PORT A GROUP	/*  BIT 9		8		7		6		5		4		3		2		1		0            */	/*  GPA9		GPA8	ADDR22	ADDR21	GPA5	ADDR19	ADDR18	ADDR17	ADDR16	ADDR0   */	      	/*  0,			0,		1,          1,           0,      1,          1,          1,          1,           1           */	/*        GPA9->SMCALE*/	/*        GPA8->SMCCLE*/	/*        GPA5->SMCCE*/	/*       GPE0->SMCRB*/	rPCONA = 0xdf;		// PORT B GROUP	/*  BIT 10        9    8    7     6	  5     4       3     2	    1	    0	    */	/*      /CS5      /CS4 /CS3 /CS2  /CS1  nWBE3   nWBE2   /SRAS /SCAS SCLK  SCKE      */	/*      (Reserve) IDE  USB  FLASH SRAM  No care No Care Sdram Sdram Sdram Sdram     */	/*      1,        1,   1,   1,    1,    0,       0,     1,    1,    1,   1          */	rPDATB = 0x7ff;	rPCONB = 0x7cf;    	//PORT C GROUP	//BUSWIDTH=16                                                                       */	/*  PC    15		14		13		12		11		10		9		8                       */	/*          O		O		RXD1	TXD1	I		O		nDREQ1	nDACK1(used as output IO)                       */	/*          LCD_BK	LCDDSP	Uart1	Uart1	tchPen	tchScrCS	USB		USB                 */	/*          01		01		11		11		00		01		00		01                      */	/*  PC	7		6		5		4		3		2		1		0*/	/*		O		O		O		I		I		I		I		I*/	/*		VD4		VD5		VD6		VD7		key		key		key		key*/	/*		11		11		11		11		00		00		00		00*/	rPDATC = 0x3fff;	//All IO is high	rPCONC = 0x5f11ff00;		rPUPC  = 0x3000;	//PULL UP RESISTOR should be enabled to I/O	//PORT D GROUP for KeyBoard	/*  PORT D GROUP(I/O OR LCD)                                                        */	/*  BIT 7  6  5  4  3  2  1  0                                                      */	/*      I  I  I  I  O  O  O  O                                                      */	/*      00 00 00 00 01 01 01 01                                                     */		rPDATD= 0xff;	rPCOND= 0xaaaa;	rPUPD = 0x0;		//PORT E GROUP 	/*  Bit	 	8		7		6		5		4		3		2		1		0	*/	/*		CODECLK	O		O		O		O		Res		RXD0	TXD0	SMRB(I)	*/	/*			10		01		01		01		01		00		10		10		00	*/	rPDATE = 0x1ff;	rPCONE = 0x25528;	rPUPE  = 0x106;	//PORT F GROUP	/*  Bit 8			7		6		5		4	3		2		1      0                       */   	/*      SIOCLK SIORxD GPF6input  SIOTxD Input	Input	Input IICSDA IICSCL                  */	/*      011		011		000		011	00		00		00		10     10                      */	rPDATF = 0x0;	rPCONF = 0x1B0C0A;//0x24900a;	rPUPF  = 0x0;//0x1e3;	//PORT G GROUP	/*  BIT 7   	6   	5   	4   	3   	2   	1   	0    	 */	/*      INT7    INT6    INT5    INT4    INT3    INT2    INT1    INT0     */	/*      11      11      11      11      11      11      11      11       */	rPDATG = 0xff;	rPCONG = 0xffff;	rPUPG  = 0x0;	//should be enabled  	rSPUCR=0x7;  //D15-D0 pull-up disable	/*定義非Cache區*/	rNCACHBE0=((Non_Cache_End>>12)<<16)|(Non_Cache_Start>>12); 	/*所有的外部硬件中斷為低電平觸發*/	rEXTINT=0x0;}/************************* UART ****************************/static int whichUart=0;void Uart_Init(int mclk,int baud){    int i;    if(mclk==0)	mclk=MCLK;    rUFCON0=0x0;     //FIFO disable    rUFCON1=0x0;    rUMCON0=0x0;    rUMCON1=0x0;//UART0    rULCON0=0x3;     //Normal,No parity,1 stop,8 bit    rUCON0=0x245;    //rx=edge,tx=level,disable timeout int.,enable rx error int.,normal,interrupt or polling    rUBRDIV0=( (int)(mclk/16./baud + 0.5) -1 );//UART1    rULCON1=0x3;    rUCON1=0x245;    rUBRDIV1=( (int)(mclk/16./baud + 0.5) -1 );    for(i=0;i<100;i++);}void Uart_Select(int ch){    whichUart=ch;}void Uart_TxEmpty(int ch){    if(ch==0)		while(!(rUTRSTAT0 & 0x4)); //wait until tx shifter is empty.    else    	while(!(rUTRSTAT1 & 0x4)); //wait until tx shifter is empty.}char Uart_Getch(void){    if(whichUart==0)    {	    		while(!(rUTRSTAT0 & 0x1)); //Receive data read		return RdURXH0();    }    else    {		while(!(rUTRSTAT1 & 0x1)); //Receive data ready		return	rURXH1;    }}char Uart_GetKey(void){    if(whichUart==0)    {	    		if(rUTRSTAT0 & 0x1)    //Receive data ready    	    return RdURXH0();		else		    return 0;    }    else    {		if(rUTRSTAT1 & 0x1)    //Receive data ready		    return rURXH1;		else		    return 0;    }}void Uart_GetString(char *string){    char *string2=string;    char c;    while((c=Uart_Getch())!='\r')    {		if(c=='\b')		{		    if(	(int)string2 < (int)string )		    {				Uart_Printf("\b \b");				string--;		    }		}		else 		{		    *string++=c;		    Uart_SendByte(c);		}    }    *string='\0';    Uart_SendByte('\n');}int Uart_GetIntNum(void){    char str[30];    char *string=str;    int base=10;    int minus=0;    int lastIndex;    int result=0;    int i;        Uart_GetString(string);        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( 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 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(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;    }	}		void Uart_SendString(char *pt){    while(*pt)	Uart_SendByte(*pt++);}//if you don't use vsprintf(), the code size is reduced very much.void Uart_Printf(char *fmt,...){    va_list ap;    char string[256];    va_start(ap,fmt);    vsprintf(string,fmt,ap);    Uart_SendString(string);    va_end(ap);}/******************** S3C44B0X EV. BOARD LED **********************/void Led_Display(int data){	rPDATE=(rPDATE & 0x13f) | ((data & 0x03)<<6);}/************************* Timer ********************************/void Timer_Start(int divider)  //0:16us,1:32us 2:64us 3:128us{    rWTCON=((MCLK/1000000-1)<<8)|(divider<<3);    rWTDAT=0xffff;    rWTCNT=0xffff;       // 1/16/(65+1),nRESET & interrupt  disable    rWTCON=((MCLK/1000000-1)<<8)|(divider<<3)|(1<<5);	}int Timer_Stop(void){    rWTCON=((MCLK/1000000-1)<<8);    return (0xffff-rWTCNT);}/************************* PLL ********************************/void ChangePllValue(int mdiv,int pdiv,int sdiv){    rPLLCON=(mdiv<<12)|(pdiv<<4)|sdiv;}/************************* General Library **********************/void * malloc(unsigned nbyte) /*Very simple; Use malloc() & free() like Stack*///void *mallocPt=Image$$RW$$Limit;{    void *returnPt=mallocPt;    mallocPt= (int *)mallocPt+nbyte/4+((nbyte%4)>0); //to align 4byte    if( (int)mallocPt > HEAPEND )    {		mallocPt=returnPt;		return NULL;    }    return returnPt;}void free(void *pt){    mallocPt=pt;}void Cache_Flush(void){    int i,saveSyscfg;        saveSyscfg=rSYSCFG;    rSYSCFG=SYSCFG_0KB; 		          for(i=0x10004000;i<0x10004800;i+=16)        {					   		*((int *)i)=0x0;		       }    rSYSCFG=saveSyscfg; 			    }void init_SIO(){	/*7				6		5					4				3		2			1:0			*/	/*Internal clock,MSB mode,Transmit/Receive mode,rising edge clock,No action,Non hand-shaking mode,SIO interrupt mode*/	/*0				0			1				1				0			0		01*/	rSIOCON=0x31;	rSBRDR=15;//band rate = 60MHz/2/(15+1)=1.875MHz	rIVTCNT=7;//Intervals=60MHz/4/(7+1)=1.875MHz}unsigned char ReadSIOData(){//	while(rSIOCON&SIO_START);//等待發送	return rSIODAT;}void SendSIOData(unsigned char data){//	while(rSIOCON&SIO_START);//等待發送	rI_ISPC=BIT_SIO;	rSIODAT=data;	rSIOCON|=SIO_START;	while(!(rINTPND&BIT_SIO));	rI_ISPC=BIT_SIO;}