init.c

该2440 BSP是由三星公司提供的wince5.0的BSP移植到到wince6.0下的

//
// Copyright (c) Microsoft Corporation.  All rights reserved.
//
//
// Use of this source code is subject to the terms of the Microsoft end-user
// license agreement (EULA) under which you licensed this SOFTWARE PRODUCT.
// If you did not accept the terms of the EULA, you are not authorized to use
// this source code. For a copy of the EULA, please see the LICENSE.RTF on your
// install media.
//
//------------------------------------------------------------------------------
//
//  File:  init.c
//
//  Samsung SMDK2440A board initialization code.
//
#include <bsp.h>

#include "bitmap.c" 
static void InitDisplay(void);
//extern DWORD CEProcessorType;
void ConfigureGPIO(void);

#ifdef DVS_EN
//-------------------------------------------
// Variables for DVS
static int CurrVoltage;
extern volatile int CurrentState;
extern volatile int PrevState;
extern volatile int NextState;

//---------------------------------------------------------------------------
// Function for DVS
void ChangeVoltage(int);
int GetCurrentVoltage(void);

// ----------------------------------------------------------------------------
#endif

//------------------------------------------------------------------------------
//
//  Function:  OEMInit
//
//  This is Windows CE OAL initialization function. It is called from kernel
//  after basic initialization is made.
//
//extern DWORD dwNKDrWatsonSize;

void OEMInit()
{
    volatile S3C2440A_IOPORT_REG *s2440IOP = (S3C2440A_IOPORT_REG *)OALPAtoVA(S3C2440A_BASE_REG_PA_IOPORT, FALSE);

    OALMSG(OAL_FUNC, (L"+OEMInit\r\n"));

    CEProcessorType=PROCESSOR_STRONGARM;

    // Set memory size for DrWatson kernel support
    dwNKDrWatsonSize = 128 * 1024;

    // Initilize cache globals
    OALCacheGlobalsInit();

    OALLogSerial(
        L"DCache: %d sets, %d ways, %d line size, %d size\r\n", 
        g_oalCacheInfo.L1DSetsPerWay, g_oalCacheInfo.L1DNumWays,
        g_oalCacheInfo.L1DLineSize, g_oalCacheInfo.L1DSize
    );
    OALLogSerial(
        L"ICache: %d sets, %d ways, %d line size, %d size\r\n", 
        g_oalCacheInfo.L1ISetsPerWay, g_oalCacheInfo.L1INumWays,
        g_oalCacheInfo.L1ILineSize, g_oalCacheInfo.L1ISize
    );


    OALArgsInit((BSP_ARGS *) IMAGE_SHARE_ARGS_UA_START);

	{
      // This is the global shared Args flag
      BOOL *bCleanBootFlag = (BOOL*) OALArgsQuery(BSP_ARGS_QUERY_CLEANBOOT);

      if(*bCleanBootFlag)
      {
        OALMSG(1, (TEXT("OEM: Force clean boot.\r\n")));

        // Clear the flag so that we don't get here in the next boot unless it is set again.
        *bCleanBootFlag = FALSE;

        // Tell filesys.exe that we want a clean boot.
        NKForceCleanBoot();

        // Also set the hive and storage clean flags if not already set
        {
          BOOL *bHiveCleanFlag  = (BOOL*) OALArgsQuery(BSP_ARGS_QUERY_HIVECLEAN);
          BOOL *bFormatPartFlag = (BOOL*) OALArgsQuery(BSP_ARGS_QUERY_FORMATPART);

          *bHiveCleanFlag  = TRUE;
          *bFormatPartFlag = TRUE;
        }
      }
    }
    // Initialize interrupts
    if (!OALIntrInit()) {
        OALMSG(OAL_ERROR, (
            L"ERROR: OEMInit: failed to initialize interrupts\r\n"
        ));
    }

    // Initialize system clock
    OALTimerInit(1, 17, 0);	//S3C2440A_PCLK/245/16/1000=16.992

	ConfigureGPIO();

	s2440IOP->GPGUP &= 0xffef;
	s2440IOP->GPGCON &= 0xfffffcff;
	s2440IOP->GPGCON |= 0x00000100;

	s2440IOP->GPGDAT |= 0x0010;//open lcd backlight

	//InitDisplay();

    // Initialize the KITL connection if required
    //OALKitlStart();

    KITLIoctl(IOCTL_KITL_STARTUP, NULL, 0, NULL, 0, NULL);
    OALMSG(OAL_FUNC, (L"-OEMInit\r\n"));
}

//------------------------------------------------------------------------------

static void InitDisplay(void)
{
    volatile S3C2440A_IOPORT_REG *s2440IOP = (S3C2440A_IOPORT_REG *)OALPAtoVA(S3C2440A_BASE_REG_PA_IOPORT, FALSE);
    volatile S3C2440A_LCD_REG    *s2440LCD = (S3C2440A_LCD_REG *)OALPAtoVA(S3C2440A_BASE_REG_PA_LCD, FALSE);
	unsigned int clkval_calc;  // 040507
    // Set up the LCD controller registers to display a power-on bitmap image.
    //
    s2440IOP->GPCUP     = 0xFFFFFFFF;
    s2440IOP->GPCCON    = 0xAAAAAAAA;
                                    
	s2440IOP->GPEDAT    = 0x1;
    s2440IOP->GPDUP     = 0xFFFFFFFF;
    s2440IOP->GPDCON    = 0xAAAAAAA1; 

	clkval_calc = (WORD)((float)(S3C2440A_HCLK)/(2.0*5000000)+0.5)-1;
    s2440LCD->LCDCON1   =  (clkval_calc           <<  8) |       /* VCLK = HCLK / ((CLKVAL + 1) * 2) -> About 7 Mhz  */
                           (LCD_MVAL   <<  7)  |       /* 0 : Each Frame                                   */
                           (3           <<  5) |       /* TFT LCD Pannel                                   */
                           (12          <<  1) |       /* 16bpp Mode                                       */
                           (0           <<  0) ;       /* Disable LCD Output                               */

    s2440LCD->LCDCON2   =  (LCD_VBPD        << 24) |   /* VBPD          :   1                              */
                           (LCD_LINEVAL_TFT << 14) |   /* Vertical Size : 320 - 1                          */
                           (LCD_VFPD        <<  6) |   /* VFPD          :   2                              */
                           (LCD_VSPW        <<  0) ;   /* VSPW          :   1                              */

    s2440LCD->LCDCON3   =  (LCD_HBPD        << 19) |   /* HBPD          :   6                              */
                           (LCD_HOZVAL_TFT  <<  8) |   /* HOZVAL_TFT    : 240 - 1                          */
                           (LCD_HFPD        <<  0) ;   /* HFPD          :   2                              */


    s2440LCD->LCDCON4   =  (LCD_MVAL        <<  8) |   /* MVAL          :  13                              */
                           (LCD_HSPW        <<  0) ;   /* HSPW          :   4                              */

    s2440LCD->LCDCON5   =  (0           << 12) |       /* BPP24BL       : LSB valid                        */
                           (1           << 11) |       /* FRM565 MODE   : 5:6:5 Format                     */
                           (0           << 10) |       /* INVVCLK       : VCLK Falling Edge                */
                           (1           <<  9) |       /* INVVLINE      : Inverted Polarity                */
                           (1           <<  8) |       /* INVVFRAME     : Inverted Polarity                */
                           (0           <<  7) |       /* INVVD         : Normal                           */
                           (0           <<  6) |       /* INVVDEN       : Normal                           */
                           (0           <<  5) |       /* INVPWREN      : Normal                           */
                           (0           <<  4) |       /* INVENDLINE    : Normal                           */
                           (1           <<  3) |       /* PWREN         : Disable PWREN                    */
                           (0           <<  2) |       /* ENLEND        : Disable LEND signal              */
                           (0           <<  1) |       /* BSWP          : Swap Disable                     */
                           (1           <<  0) ;       /* HWSWP         : Swap Enable                      */

    s2440LCD->LCDSADDR1 = ((IMAGE_FRAMEBUFFER_DMA_BASE >> 22)     << 21) | 
                          ((M5D(IMAGE_FRAMEBUFFER_DMA_BASE >> 1)) <<  0);

    s2440LCD->LCDSADDR2 = M5D((IMAGE_FRAMEBUFFER_DMA_BASE + (LCD_XSIZE_TFT * LCD_YSIZE_TFT * 2)) >> 1);

    s2440LCD->LCDSADDR3 = (((LCD_XSIZE_TFT - LCD_XSIZE_TFT) / 1) << 11) | (LCD_XSIZE_TFT / 1);        

    //s2440LCD->TCONSEL   |= 0x3;
	s2440LCD->TCONSEL   &= (~7);
    s2440LCD->TCONSEL   |= (0x1<<4);

	s2440LCD->TPAL      = 0x0;        
    s2440LCD->LCDCON1  |= 1;

    // Display a bitmap image on the LCD...
    //
    memcpy((void *)IMAGE_FRAMEBUFFER_UA_BASE, ScreenBitmap, LCD_ARRAY_SIZE_TFT_16BIT);

#ifdef DVS_EN
#if (DVS_METHOD == 1 || DVS_METHOD == 3)
	// Enable LCD Interrupt for DVS + CLOCK Change.
	s2440LCD->LCDINTMSK = (1); // UnMASK LCD Frame Sub Interrupt
	//s2440INT->INTMSK &= ~(1 << IRQ_LCD);
	//RETAILMSG(1,(TEXT("-E5-\r\n")));
#endif
#endif
}


void ConfigureGPIO()
{
    volatile S3C2440A_IOPORT_REG *s2440IOP = (S3C2440A_IOPORT_REG *)OALPAtoVA(S3C2440A_BASE_REG_PA_IOPORT, FALSE);
    volatile S3C2440A_CLKPWR_REG *s2440CLKPWR = (S3C2440A_CLKPWR_REG *)OALPAtoVA(S3C2440A_BASE_REG_PA_CLOCK_POWER, FALSE);

    s2440IOP->GPACON    = 0x7fffff;

    s2440IOP->GPBDAT    = 0x62;
    s2440IOP->GPBUP     = 0x7FF;
    s2440IOP->GPBCON    = 0x2A96A4;

  //  s2440IOP->GPCUP     = 0xFFFF;
   // s2440IOP->GPCCON    = 0xAAAAAAAA;
                                    
	s2440IOP->GPEDAT    = 0x1;
    s2440IOP->GPDUP     = 0xFFFF;
    s2440IOP->GPDCON    = 0xAAAAAAA1;
    
    s2440IOP->GPEDAT    = 0x0;
    s2440IOP->GPEUP     = 0xFFFF;
    s2440IOP->GPECON    = 0xAAAAAAAA;
    
    s2440IOP->GPFDAT    = 0xF0;
    s2440IOP->GPFUP     = 0xFF;
    s2440IOP->GPFCON    = 0x55aa;
    
    s2440IOP->GPGDAT    = 0x1000;
    s2440IOP->GPGUP     = 0xFEFF;
    s2440IOP->GPGCON    = 0x0480FFBA;
    s2440IOP->GPGDAT    |= 0x1<<12;
    s2440IOP->GPGUP     |= 0x1<<12;
    s2440IOP->GPGCON    = (s2440IOP->GPGCON & ~(0x3<<24)) | 0x1<<24;

    s2440IOP->GPHDAT    = 0x0;
    s2440IOP->GPHUP     = 0x7FF;
    s2440IOP->GPHCON    = 0x14AAAA;

    s2440IOP->GPJDAT    = 0x1000;
    s2440IOP->GPJUP     = 0x1FFF;
    s2440IOP->GPJCON    = 0x1AAAAA;

	s2440IOP->MISCCR &= ~(7<<20);
	s2440IOP->MISCCR |= (4<<20);
	s2440IOP->MISCCR &= ~(7<<8);
	s2440IOP->MISCCR |= (5<<8);
	s2440IOP->MISCCR &= ~(7<<4);
	s2440IOP->MISCCR |= (5<<4);
	s2440IOP->MISCCR |= (3<<0);
	
}

#ifdef DVS_EN
void ChangeVoltage(int vtg)
{
	volatile S3C2440A_IOPORT_REG *s2440IOP = (S3C2440A_IOPORT_REG *)OALPAtoVA(S3C2440A_BASE_REG_PA_IOPORT, FALSE);
	UINT8 temp;
	
//  port setting  
// GPF4:D0, GPF5:D1, GPF6:D2, GPF7:D3, GPB7:D4, GPB8:Latch enable
	CurrVoltage = vtg;
	temp = s2440IOP->GPFDAT;
	switch(vtg) {
	case V090:	// 0.9V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(1<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(0<<7)|(0<<6)|(1<<5)|(1<<4);   //D3~0
		break;
	case V095:	// 0.95V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(1<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(0<<7)|(0<<6)|(0<<5)|(1<<4);   //D3~0
		break;
	case V0975:	// 0.975V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(1<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(0<<7)|(0<<6)|(0<<5)|(0<<4);   //D3~0
		break;
	case V100:	// 1.0V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(1<<7)|(1<<6)|(1<<5)|(1<<4);   //D3~0
		break;
	case V105:	// 1.05V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(1<<7)|(1<<6)|(1<<5)|(0<<4);   //D3~0
		break;
	case V110:	// 1.1V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(1<<7)|(1<<6)|(0<<5)|(1<<4);   //D3~0
		break;
	case V115:	// 1.15V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(1<<7)|(1<<6)|(0<<5)|(0<<4);   //D3~0
		break;
	case V120:	// 1.2V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(1<<7)|(0<<6)|(1<<5)|(1<<4);   //D3~0
		break;
	case V125:	// 1.25V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(1<<7)|(0<<6)|(1<<5)|(0<<4);   //D3~0
		break;
	case V130:	// 1.3V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(1<<7)|(0<<6)|(0<<5)|(1<<4);   //D3~0
		break;
	case V135:	// 1.35V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(1<<7)|(0<<6)|(0<<5)|(0<<4);   //D3~0
		break;
	case V140:	// 1.4V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(0<<7)|(1<<6)|(1<<5)|(1<<4);   //D3~0
		break;
	case V145:	// 1.45V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(0<<7)|(1<<6)|(1<<5)|(0<<4);   //D3~0
		break;
	case V150:	// 1.5V
		s2440IOP->GPBDAT=(s2440IOP->GPBDAT&0x77f)|(0<<7);   //D4
		s2440IOP->GPFDAT=(s2440IOP->GPFDAT&0x0f)|(0<<7)|(1<<6)|(0<<5)|(1<<4);   //D3~0
		break;

	default:
		break;
	}

//  port setting  
// GPF4:D0, GPF5:D1, GPF6:D2, GPF7:D3, GPB7:D4, GPB8:Latch enable, GPB10: OE
	s2440IOP->GPBCON=(s2440IOP->GPBCON&0x3f3fff)|(1<<14);   // GPB7: Output
//	s2440IOP->rGPBUP&=~(1<<7);
	s2440IOP->GPFCON=(s2440IOP->GPFCON&0x00ff)|(0x5500);  // GPF4~7: Output 
//	s2440IOP->rGPFUP&=~(0xf<<4);

	s2440IOP->GPBDAT&=~(1<<8);   //Latch enable
	s2440IOP->GPBCON=(s2440IOP->GPBCON&0x3cffff)|(1<<16);   // GPB8: Output

	s2440IOP->GPBDAT|=(1<<10);   //Output enable
	s2440IOP->GPBCON=(s2440IOP->GPBCON&0x0fffff)|(1<<20);   // GPB10: Output
	
//	s2440IOP->rGPBUP&=~(1<<8);
	s2440IOP->GPBDAT|=(1<<8);   //Latch disable
	
	s2440IOP->GPFDAT = temp;
}

int GetCurrentVoltage()
{
	return CurrVoltage;
}
#endif