//
// 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.
//
/*++
THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF
ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A
PARTICULAR PURPOSE.
--*/
/************************************************
 * NAME    : 2410loader.C			*
 * DESC    : 					*
 * History : 2002.02.25 ver 0.0			*
************************************************/
#include <stdlib.h>
#include <string.h>
#include "option.h"
#include "def.h"
#include "2410addr.h"
#include "2410lib.h"
#include "2410slib.h"
#include "2410addr.h"
#include "nand.h"
#include "loader.h"

#define SIGN_ON "\nWinCE NAND Boot v1.00\n" __DATE__ " " __TIME__ "\n"

// HMSEO : Please check UUID memory location from inc\drv_glob.h file.
unsigned char * pbUUID = ((unsigned char *) (0x30030000 + 0x4608));

//
// Globals
//
DWORD JumpAddr;

TOC toc; // made global because it's too big for our tiny stack

// -----------------------------------------------------------------------------
//  ReadImageFromNand:
//      Reads nk.nb0 off NAND
//      Returns ERR_Xxx
// -----------------------------------------------------------------------------

DWORD
ReadImageFromNand()
{
    DWORD dwSectorsNeeded;
    DWORD dwSector, dwLength;         // Start Sector & Length
    DWORD dwRAM, i;
    DWORD dwEntry,dwCount;
    int key;

    if ( !FMD_ReadSector(TOC_SECTOR,
                        (LPBYTE)&toc,
                        NULL, 1) )
    {
        return ERR_DISK_OP_FAIL1;
    }

    if ( !VALID_TOC(&toc) ) {
        Uart_SendString("Read From Nand: ");
        Uart_SendDWORD(toc.dwSignature, TRUE);
        return ERR_INVALID_TOC;
    }

    dwEntry = 1;
    //Uart_SendString("Press [ENTER] to launch image stored on boot media, or [SPACE] to eboot.\r\n");
    while(dwCount > 10000)
    {
        key = Uart_RecvByte();
        if (key == 0x20)
        {
        	dwEntry = 0;
        	break;
        }else if(key == 0x0d)
            break;
        dwCount++;
    }
      

    if ( !(toc.id[dwEntry].dwImageType & IMAGE_TYPE_RAMIMAGE) ) {
  //      Uart_SendString("ERR_INVALID_FILE_TYPE: ");
        Uart_SendDWORD(toc.id[dwEntry].dwImageType, TRUE);
        return ERR_INVALID_FILE_TYPE;
    }

       dwSectorsNeeded = toc.id[dwEntry].dwTtlSectors;
	
	Uart_SendString("Sector addr on NAND: ");
	Uart_SendDWORD(toc.id[dwEntry].sgList[0].dwSector, TRUE);
   	 Uart_SendString("TotalSector: ");
  	 Uart_SendDWORD(dwSectorsNeeded, TRUE);

    dwRAM    = VIRTUAL_TO_PHYSICAL(toc.id[dwEntry].dwLoadAddress);

    JumpAddr = toc.id[dwEntry].dwJumpAddress ? VIRTUAL_TO_PHYSICAL(toc.id[
dwEntry].dwJumpAddress) : VIRTUAL_TO_PHYSICAL(toc.id[dwEntry].dwLoadAddress);
                                               
    // Load the disk image directly into RAM
    // BUGBUG: recover from read failures
    //
        i = 0;
	while (dwSectorsNeeded && i < MAX_SG_SECTORS)
	{
        dwSector = toc.id[dwEntry].sgList[i].dwSector;
        dwLength = toc.id[dwEntry].sgList[i].dwLength;
        // read each sg segment
        while (dwLength) {

            if ( !FMD_ReadSector(dwSector,
                                (LPBYTE)dwRAM,
                                NULL, 1) )
            {
                Uart_SendString("ERR_DISK_OP_FAIL2: ");
                Uart_SendDWORD(dwSector, TRUE);

	    		dwSector++;
				continue;
            }
            
    		dwSector++;
    		dwLength--;
            dwRAM += SECTOR_SIZE;
        }

        dwSectorsNeeded -= toc.id[dwEntry].sgList[i].dwLength;
        i++;
    }

    //  We only do this if the dwRAM is not zero (The default tocblock1 
    //  set the dwRAM to be 0)
    if (toc.chainInfo.dwLoadAddress == 0) {
        return ERR_SUCCESS;
    }

    // Load the Chain.bin stored on NAND to the SDRAM
	if ( toc.id[dwEntry].dwImageType == 6 )		// For WinCE 4.2 Image
	{
	    return ERR_SUCCESS;
	}
	else
	{
		dwRAM = VIRTUAL_TO_PHYSICAL(toc.chainInfo.dwLoadAddress);
		dwSectorsNeeded = toc.chainInfo.dwLength;
		dwSector = toc.chainInfo.dwFlashAddress;
	}

	// Copy UUID to SDRAM drv_glob area from NAND
    Uart_SendString("Reading UUID from NAND : ");

	for ( i = 0; i < 8; i++ )
	{
		*pbUUID = toc.udid[i];
		pbUUID++;
	}
    Uart_SendString("\r\n");

    Uart_SendString("Reading Chain from NAND\r\n");
    Uart_SendString("LoadAddr: ");
    Uart_SendDWORD(dwRAM, TRUE);
    Uart_SendString("NAND SectorAddr: ");
    Uart_SendDWORD(dwSector, TRUE);
    Uart_SendString("Length: ");
    Uart_SendDWORD(dwSectorsNeeded, TRUE);
    Uart_SendString("\r\n                     ");

    while(dwSectorsNeeded) {
        
        if (!FMD_ReadSector(dwSector, 
                            (LPBYTE) dwRAM,
                            NULL, 1) ) {
            Uart_SendString("Failed reading Chain.bin:");
            Uart_SendDWORD(dwSector, TRUE);

			dwSector++;
			continue;
        }

        dwSector++;
        dwSectorsNeeded--;
        dwRAM += SECTOR_SIZE;
    }
    return ERR_SUCCESS;
}


void Main(void)
{
    DWORD 	err; 
    
    //	By default, we launch image CE image. If you want to launch
    //	Eboot, you need to hold down APP4 button (sw803) when it boots.
    MMU_EnableICache();

    Uart_Init();
    //Uart_SendString(SIGN_ON);

    NF_Init();

    err = ReadImageFromNand();
    if (ERR_SUCCESS == err) {
        Launch(JumpAddr);
        err = ERR_JUMP_FAILED;
    }

    Uart_SendString("\nBoot ERROR:");
    Uart_SendDWORD(err, TRUE);
    while (1);
}