drivers/staging/keucr/smilsub.c - kernel/mindspeed - Git at Google

 #include <linux/slab.h>
 #include "usb.h"
 #include "scsiglue.h"
 #include "transport.h"

 #include "smcommon.h"
 #include "smil.h"

 void   _Set_D_SsfdcRdCmd(BYTE);
 void   _Set_D_SsfdcRdAddr(BYTE);
 void   _Set_D_SsfdcRdChip(void);
 void   _Set_D_SsfdcRdStandby(void);
 void   _Start_D_SsfdcRdHwECC(void);
 void   _Stop_D_SsfdcRdHwECC(void);
 void   _Load_D_SsfdcRdHwECC(BYTE);
 void   _Set_D_SsfdcWrCmd(BYTE);
 void   _Set_D_SsfdcWrAddr(BYTE);
 void   _Set_D_SsfdcWrBlock(void);
 void   _Set_D_SsfdcWrStandby(void);
 void   _Start_D_SsfdcWrHwECC(void);
 void   _Load_D_SsfdcWrHwECC(BYTE);
 int    _Check_D_SsfdcBusy(WORD);
 int    _Check_D_SsfdcStatus(void);
 void   _Reset_D_SsfdcErr(void);
 void   _Read_D_SsfdcBuf(BYTE *);
 void   _Write_D_SsfdcBuf(BYTE *);
 void   _Read_D_SsfdcByte(BYTE *);
 void   _ReadRedt_D_SsfdcBuf(BYTE *);
 void   _WriteRedt_D_SsfdcBuf(BYTE *);
 BYTE   _Check_D_DevCode(BYTE);

 void   _Set_D_ECCdata(BYTE, BYTE *);
 void   _Calc_D_ECCdata(BYTE *);


 struct SSFDCTYPE                Ssfdc;
 struct ADDRESS                  Media;
 struct CIS_AREA                 CisArea;

 static BYTE                            EccBuf[6];
 extern PBYTE                    SMHostAddr;
 extern DWORD                    ErrXDCode;

 extern WORD  ReadBlock;
 extern WORD  WriteBlock;


 #define EVEN                    0             /* Even Page for 256byte/page */
 #define ODD                     1             /* Odd Page for 256byte/page */


 /* SmartMedia Redundant buffer data Control Subroutine
  *----- Check_D_DataBlank() --------------------------------------------
  */
 int Check_D_DataBlank(BYTE *redundant)
 {
 	char i;

 	for (i = 0; i < REDTSIZE; i++)
 		if (*redundant++ != 0xFF)
 			return  ERROR;

 	return SMSUCCESS;
 }

 /* ----- Check_D_FailBlock() -------------------------------------------- */
 int Check_D_FailBlock(BYTE *redundant)
 {
 	redundant += REDT_BLOCK;

 	if (*redundant == 0xFF)
 		return SMSUCCESS;
 	if (!*redundant)
 		return ERROR;
 	if (hweight8(*redundant) < 7)
 		return ERROR;

 	return SMSUCCESS;
 }

 /* ----- Check_D_DataStatus() ------------------------------------------- */
 int Check_D_DataStatus(BYTE *redundant)
 {
 	redundant += REDT_DATA;

 	if (*redundant == 0xFF)
 		return SMSUCCESS;
 	if (!*redundant) {
 		ErrXDCode = ERR_DataStatus;
 		return ERROR;
 	} else
 		ErrXDCode = NO_ERROR;

 	if (hweight8(*redundant) < 5)
 		return ERROR;

 	return SMSUCCESS;
 }

 /* ----- Load_D_LogBlockAddr() ------------------------------------------ */
 int Load_D_LogBlockAddr(BYTE *redundant)
 {
 	WORD addr1, addr2;

 	addr1 = (WORD)*(redundant + REDT_ADDR1H)*0x0100 + (WORD)*(redundant + REDT_ADDR1L);
 	addr2 = (WORD)*(redundant + REDT_ADDR2H)*0x0100 + (WORD)*(redundant + REDT_ADDR2L);

 	if (addr1 == addr2)
 		if ((addr1 & 0xF000) == 0x1000) {
 			Media.LogBlock = (addr1 & 0x0FFF) / 2;
 			return SMSUCCESS;
 		}

 	if (hweight16((WORD)(addr1^addr2)) != 0x01)
 		return ERROR;

 	if ((addr1 & 0xF000) == 0x1000)
 		if (!(hweight16(addr1) & 0x01)) {
 			Media.LogBlock = (addr1 & 0x0FFF) / 2;
 			return SMSUCCESS;
 		}

 	if ((addr2 & 0xF000) == 0x1000)
 		if (!(hweight16(addr2) & 0x01)) {
 			Media.LogBlock = (addr2 & 0x0FFF) / 2;
 			return SMSUCCESS;
 		}

 	return ERROR;
 }

 /* ----- Clr_D_RedundantData() ------------------------------------------ */
 void Clr_D_RedundantData(BYTE *redundant)
 {
 	char i;

 	for (i = 0; i < REDTSIZE; i++)
 		*(redundant + i) = 0xFF;
 }

 /* ----- Set_D_LogBlockAddr() ------------------------------------------- */
 void Set_D_LogBlockAddr(BYTE *redundant)
 {
 	WORD addr;

 	*(redundant + REDT_BLOCK) = 0xFF;
 	*(redundant + REDT_DATA) = 0xFF;
 	addr = Media.LogBlock*2 + 0x1000;

 	if ((hweight16(addr) % 2))
 		addr++;

 	*(redundant + REDT_ADDR1H) = *(redundant + REDT_ADDR2H) = (BYTE)(addr / 0x0100);
 	*(redundant + REDT_ADDR1L) = *(redundant + REDT_ADDR2L) = (BYTE)addr;
 }

 /*----- Set_D_FailBlock() ---------------------------------------------- */
 void Set_D_FailBlock(BYTE *redundant)
 {
 	char i;
 	for (i = 0; i < REDTSIZE; i++)
 		*redundant++ = (BYTE)((i == REDT_BLOCK) ? 0xF0 : 0xFF);
 }

 /* ----- Set_D_DataStaus() ---------------------------------------------- */
 void Set_D_DataStaus(BYTE *redundant)
 {
 	redundant += REDT_DATA;
 	*redundant = 0x00;
 }

 /* SmartMedia Function Command Subroutine
  * 6250 CMD 6
  */
 /* ----- Ssfdc_D_Reset() ------------------------------------------------ */
 void Ssfdc_D_Reset(struct us_data *us)
 {
 	return;
 }

 /* ----- Ssfdc_D_ReadCisSect() ------------------------------------------ */
 int Ssfdc_D_ReadCisSect(struct us_data *us, BYTE *buf, BYTE *redundant)
 {
 	BYTE zone, sector;
 	WORD block;

 	zone = Media.Zone; block = Media.PhyBlock; sector = Media.Sector;
 	Media.Zone = 0;
 	Media.PhyBlock = CisArea.PhyBlock;
 	Media.Sector = CisArea.Sector;

 	if (Ssfdc_D_ReadSect(us, buf, redundant)) {
 		Media.Zone = zone; Media.PhyBlock = block; Media.Sector = sector;
 		return ERROR;
 	}

 	Media.Zone = zone; Media.PhyBlock = block; Media.Sector = sector;
 	return SMSUCCESS;
 }

 /* 6250 CMD 1 */
 /* ----- Ssfdc_D_ReadSect() --------------------------------------------- */
 int Ssfdc_D_ReadSect(struct us_data *us, BYTE *buf, BYTE *redundant)
 {
 	struct bulk_cb_wrap *bcb = (struct bulk_cb_wrap *) us->iobuf;
 	int	result;
 	WORD	addr;

 	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
 	if (result != USB_STOR_XFER_GOOD) {
 		printk("Load SM RW Code Fail !!\n");
 		return USB_STOR_TRANSPORT_ERROR;
 	}

 	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
 	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

 	/* Read sect data */
 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x200;
 	bcb->Flags			= 0x80;
 	bcb->CDB[0]			= 0xF1;
 	bcb->CDB[1]			= 0x02;
 	bcb->CDB[4]			= (BYTE)addr;
 	bcb->CDB[3]			= (BYTE)(addr / 0x0100);
 	bcb->CDB[2]			= Media.Zone / 2;

 	result = ENE_SendScsiCmd(us, FDIR_READ, buf, 0);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	/* Read redundant */
 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x10;
 	bcb->Flags			= 0x80;
 	bcb->CDB[0]			= 0xF1;
 	bcb->CDB[1]			= 0x03;
 	bcb->CDB[4]			= (BYTE)addr;
 	bcb->CDB[3]			= (BYTE)(addr / 0x0100);
 	bcb->CDB[2]			= Media.Zone / 2;
 	bcb->CDB[8]			= 0;
 	bcb->CDB[9]			= 1;

 	result = ENE_SendScsiCmd(us, FDIR_READ, redundant, 0);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	return USB_STOR_TRANSPORT_GOOD;
 }

 /* ----- Ssfdc_D_ReadBlock() --------------------------------------------- */
 int Ssfdc_D_ReadBlock(struct us_data *us, WORD count, BYTE *buf, BYTE *redundant)
 {
 	struct bulk_cb_wrap *bcb = (struct bulk_cb_wrap *) us->iobuf;
 	int	result;
 	WORD	addr;

 	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
 	if (result != USB_STOR_XFER_GOOD) {
 		printk("Load SM RW Code Fail !!\n");
 		return USB_STOR_TRANSPORT_ERROR;
 	}

 	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
 	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

 	/* Read sect data */
 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x200*count;
 	bcb->Flags			= 0x80;
 	bcb->CDB[0]			= 0xF1;
 	bcb->CDB[1]			= 0x02;
 	bcb->CDB[4]			= (BYTE)addr;
 	bcb->CDB[3]			= (BYTE)(addr / 0x0100);
 	bcb->CDB[2]			= Media.Zone / 2;

 	result = ENE_SendScsiCmd(us, FDIR_READ, buf, 0);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	/* Read redundant */
 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x10;
 	bcb->Flags			= 0x80;
 	bcb->CDB[0]			= 0xF1;
 	bcb->CDB[1]			= 0x03;
 	bcb->CDB[4]			= (BYTE)addr;
 	bcb->CDB[3]			= (BYTE)(addr / 0x0100);
 	bcb->CDB[2]			= Media.Zone / 2;
 	bcb->CDB[8]			= 0;
 	bcb->CDB[9]			= 1;

 	result = ENE_SendScsiCmd(us, FDIR_READ, redundant, 0);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	return USB_STOR_TRANSPORT_GOOD;
 }


 /* ----- Ssfdc_D_CopyBlock() -------------------------------------------- */
 int Ssfdc_D_CopyBlock(struct us_data *us, WORD count, BYTE *buf, BYTE *redundant)
 {
 	struct bulk_cb_wrap *bcb = (struct bulk_cb_wrap *) us->iobuf;
 	int	result;
 	WORD	ReadAddr, WriteAddr;

 	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
 	if (result != USB_STOR_XFER_GOOD) {
 		printk("Load SM RW Code Fail !!\n");
 		return USB_STOR_TRANSPORT_ERROR;
 	}

 	ReadAddr = (WORD)Media.Zone*Ssfdc.MaxBlocks + ReadBlock;
 	ReadAddr = ReadAddr*(WORD)Ssfdc.MaxSectors;
 	WriteAddr = (WORD)Media.Zone*Ssfdc.MaxBlocks + WriteBlock;
 	WriteAddr = WriteAddr*(WORD)Ssfdc.MaxSectors;

 	/* Write sect data */
 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x200*count;
 	bcb->Flags			= 0x00;
 	bcb->CDB[0]			= 0xF0;
 	bcb->CDB[1]			= 0x08;
 	bcb->CDB[7]			= (BYTE)WriteAddr;
 	bcb->CDB[6]			= (BYTE)(WriteAddr / 0x0100);
 	bcb->CDB[5]			= Media.Zone / 2;
 	bcb->CDB[8]			= *(redundant + REDT_ADDR1H);
 	bcb->CDB[9]			= *(redundant + REDT_ADDR1L);
 	bcb->CDB[10]		= Media.Sector;

 	if (ReadBlock != NO_ASSIGN) {
 		bcb->CDB[4]		= (BYTE)ReadAddr;
 		bcb->CDB[3]		= (BYTE)(ReadAddr / 0x0100);
 		bcb->CDB[2]		= Media.Zone / 2;
 	} else
 		bcb->CDB[11]	= 1;

 	result = ENE_SendScsiCmd(us, FDIR_WRITE, buf, 0);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	return USB_STOR_TRANSPORT_GOOD;
 }

 /* ----- Ssfdc_D_WriteSectForCopy() ------------------------------------- */
 int Ssfdc_D_WriteSectForCopy(struct us_data *us, BYTE *buf, BYTE *redundant)
 {
 	struct bulk_cb_wrap *bcb = (struct bulk_cb_wrap *) us->iobuf;
 	int	result;
 	WORD	addr;

 	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
 	if (result != USB_STOR_XFER_GOOD) {
 		printk("Load SM RW Code Fail !!\n");
 		return USB_STOR_TRANSPORT_ERROR;
 	}


 	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
 	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

 	/* Write sect data */
 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x200;
 	bcb->Flags			= 0x00;
 	bcb->CDB[0]			= 0xF0;
 	bcb->CDB[1]			= 0x04;
 	bcb->CDB[7]			= (BYTE)addr;
 	bcb->CDB[6]			= (BYTE)(addr / 0x0100);
 	bcb->CDB[5]			= Media.Zone / 2;
 	bcb->CDB[8]			= *(redundant + REDT_ADDR1H);
 	bcb->CDB[9]			= *(redundant + REDT_ADDR1L);

 	result = ENE_SendScsiCmd(us, FDIR_WRITE, buf, 0);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	return USB_STOR_TRANSPORT_GOOD;
 }

 /* 6250 CMD 5 */
 /* ----- Ssfdc_D_EraseBlock() ------------------------------------------- */
 int Ssfdc_D_EraseBlock(struct us_data *us)
 {
 	struct bulk_cb_wrap *bcb = (struct bulk_cb_wrap *) us->iobuf;
 	int	result;
 	WORD	addr;

 	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
 	if (result != USB_STOR_XFER_GOOD) {
 		printk("Load SM RW Code Fail !!\n");
 		return USB_STOR_TRANSPORT_ERROR;
 	}

 	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
 	addr = addr*(WORD)Ssfdc.MaxSectors;

 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x200;
 	bcb->Flags			= 0x80;
 	bcb->CDB[0]			= 0xF2;
 	bcb->CDB[1]			= 0x06;
 	bcb->CDB[7]			= (BYTE)addr;
 	bcb->CDB[6]			= (BYTE)(addr / 0x0100);
 	bcb->CDB[5]			= Media.Zone / 2;

 	result = ENE_SendScsiCmd(us, FDIR_READ, NULL, 0);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	return USB_STOR_TRANSPORT_GOOD;
 }

 /* 6250 CMD 2 */
 /*----- Ssfdc_D_ReadRedtData() ----------------------------------------- */
 int Ssfdc_D_ReadRedtData(struct us_data *us, BYTE *redundant)
 {
 	struct bulk_cb_wrap *bcb = (struct bulk_cb_wrap *) us->iobuf;
 	int	result;
 	WORD	addr;
 	BYTE	*buf;

 	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
 	if (result != USB_STOR_XFER_GOOD) {
 		printk("Load SM RW Code Fail !!\n");
 		return USB_STOR_TRANSPORT_ERROR;
 	}

 	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
 	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x10;
 	bcb->Flags			= 0x80;
 	bcb->CDB[0]			= 0xF1;
 	bcb->CDB[1]			= 0x03;
 	bcb->CDB[4]			= (BYTE)addr;
 	bcb->CDB[3]			= (BYTE)(addr / 0x0100);
 	bcb->CDB[2]			= Media.Zone / 2;
 	bcb->CDB[8]			= 0;
 	bcb->CDB[9]			= 1;

 	buf = kmalloc(0x10, GFP_KERNEL);
 	result = ENE_SendScsiCmd(us, FDIR_READ, buf, 0);
 	memcpy(redundant, buf, 0x10);
 	kfree(buf);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	return USB_STOR_TRANSPORT_GOOD;
 }

 /* 6250 CMD 4 */
 /* ----- Ssfdc_D_WriteRedtData() ---------------------------------------- */
 int Ssfdc_D_WriteRedtData(struct us_data *us, BYTE *redundant)
 {
 	struct bulk_cb_wrap *bcb = (struct bulk_cb_wrap *) us->iobuf;
 	int	result;
 	WORD                    addr;

 	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
 	if (result != USB_STOR_XFER_GOOD) {
 		printk("Load SM RW Code Fail !!\n");
 		return USB_STOR_TRANSPORT_ERROR;
 	}

 	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
 	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

 	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
 	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
 	bcb->DataTransferLength	= 0x10;
 	bcb->Flags			= 0x80;
 	bcb->CDB[0]			= 0xF2;
 	bcb->CDB[1]			= 0x05;
 	bcb->CDB[7]			= (BYTE)addr;
 	bcb->CDB[6]			= (BYTE)(addr / 0x0100);
 	bcb->CDB[5]			= Media.Zone / 2;
 	bcb->CDB[8]			= *(redundant + REDT_ADDR1H);
 	bcb->CDB[9]			= *(redundant + REDT_ADDR1L);

 	result = ENE_SendScsiCmd(us, FDIR_READ, NULL, 0);
 	if (result != USB_STOR_XFER_GOOD)
 		return USB_STOR_TRANSPORT_ERROR;

 	return USB_STOR_TRANSPORT_GOOD;
 }

 /* ----- Ssfdc_D_CheckStatus() ------------------------------------------ */
 int Ssfdc_D_CheckStatus(void)
 {
 	return SMSUCCESS;
 }


 /* SmartMedia ID Code Check & Mode Set Subroutine
  * ----- Set_D_SsfdcModel() ---------------------------------------------
  */
 int Set_D_SsfdcModel(BYTE dcode)
 {
 	switch (_Check_D_DevCode(dcode)) {
 	case SSFDC1MB:
 		Ssfdc.Model        = SSFDC1MB;
 		Ssfdc.Attribute    = FLASH | AD3CYC | BS16 | PS256;
 		Ssfdc.MaxZones     = 1;
 		Ssfdc.MaxBlocks    = 256;
 		Ssfdc.MaxLogBlocks = 250;
 		Ssfdc.MaxSectors   = 8;
 		break;
 	case SSFDC2MB:
 		Ssfdc.Model        = SSFDC2MB;
 		Ssfdc.Attribute    = FLASH | AD3CYC | BS16 | PS256;
 		Ssfdc.MaxZones     = 1;
 		Ssfdc.MaxBlocks    = 512;
 		Ssfdc.MaxLogBlocks = 500;
 		Ssfdc.MaxSectors   = 8;
 		break;
 	case SSFDC4MB:
 		Ssfdc.Model        = SSFDC4MB;
 		Ssfdc.Attribute    = FLASH | AD3CYC | BS16 | PS512;
 		Ssfdc.MaxZones     = 1;
 		Ssfdc.MaxBlocks    = 512;
 		Ssfdc.MaxLogBlocks = 500;
 		Ssfdc.MaxSectors   = 16;
 		break;
 	case SSFDC8MB:
 		Ssfdc.Model        = SSFDC8MB;
 		Ssfdc.Attribute    = FLASH | AD3CYC | BS16 | PS512;
 		Ssfdc.MaxZones     = 1;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 16;
 		break;
 	case SSFDC16MB:
 		Ssfdc.Model        = SSFDC16MB;
 		Ssfdc.Attribute    = FLASH | AD3CYC | BS32 | PS512;
 		Ssfdc.MaxZones     = 1;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 32;
 		break;
 	case SSFDC32MB:
 		Ssfdc.Model        = SSFDC32MB;
 		Ssfdc.Attribute    = FLASH | AD3CYC | BS32 | PS512;
 		Ssfdc.MaxZones     = 2;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 32;
 		break;
 	case SSFDC64MB:
 		Ssfdc.Model        = SSFDC64MB;
 		Ssfdc.Attribute    = FLASH | AD4CYC | BS32 | PS512;
 		Ssfdc.MaxZones     = 4;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 32;
 		break;
 	case SSFDC128MB:
 		Ssfdc.Model        = SSFDC128MB;
 		Ssfdc.Attribute    = FLASH | AD4CYC | BS32 | PS512;
 		Ssfdc.MaxZones     = 8;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 32;
 		break;
 	case SSFDC256MB:
 		Ssfdc.Model        = SSFDC256MB;
 		Ssfdc.Attribute    = FLASH | AD4CYC | BS32 | PS512;
 		Ssfdc.MaxZones     = 16;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 32;
 		break;
 	case SSFDC512MB:
 		Ssfdc.Model        = SSFDC512MB;
 		Ssfdc.Attribute    = FLASH | AD4CYC | BS32 | PS512;
 		Ssfdc.MaxZones     = 32;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 32;
 		break;
 	case SSFDC1GB:
 		Ssfdc.Model        = SSFDC1GB;
 		Ssfdc.Attribute    = FLASH | AD4CYC | BS32 | PS512;
 		Ssfdc.MaxZones     = 64;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 32;
 		break;
 	case SSFDC2GB:
 		Ssfdc.Model        = SSFDC2GB;
 		Ssfdc.Attribute    = FLASH | AD4CYC | BS32 | PS512;
 		Ssfdc.MaxZones     = 128;
 		Ssfdc.MaxBlocks    = 1024;
 		Ssfdc.MaxLogBlocks = 1000;
 		Ssfdc.MaxSectors   = 32;
 		break;
 	default:
 		Ssfdc.Model = NOSSFDC;
 		return ERROR;
 	}

     return SMSUCCESS;
 }

 /* ----- _Check_D_DevCode() --------------------------------------------- */
 BYTE _Check_D_DevCode(BYTE dcode)
 {
 	switch (dcode) {
 	case 0x6E:
 	case 0xE8:
 	case 0xEC: return SSFDC1MB;   /* 8Mbit (1M) NAND */
 	case 0x64:
 	case 0xEA: return SSFDC2MB;   /* 16Mbit (2M) NAND */
 	case 0x6B:
 	case 0xE3:
 	case 0xE5: return SSFDC4MB;   /* 32Mbit (4M) NAND */
 	case 0xE6: return SSFDC8MB;   /* 64Mbit (8M) NAND */
 	case 0x73: return SSFDC16MB;  /* 128Mbit (16M)NAND */
 	case 0x75: return SSFDC32MB;  /* 256Mbit (32M)NAND */
 	case 0x76: return SSFDC64MB;  /* 512Mbit (64M)NAND */
 	case 0x79: return SSFDC128MB; /* 1Gbit(128M)NAND */
 	case 0x71: return SSFDC256MB;
 	case 0xDC: return SSFDC512MB;
 	case 0xD3: return SSFDC1GB;
 	case 0xD5: return SSFDC2GB;
 	default: return NOSSFDC;
 	}
 }


 /* SmartMedia ECC Control Subroutine
  * ----- Check_D_ReadError() ----------------------------------------------
  */
 int Check_D_ReadError(BYTE *redundant)
 {
 	return SMSUCCESS;
 }

 /* ----- Check_D_Correct() ---------------------------------------------- */
 int Check_D_Correct(BYTE *buf, BYTE *redundant)
 {
 	return SMSUCCESS;
 }

 /* ----- Check_D_CISdata() ---------------------------------------------- */
 int Check_D_CISdata(BYTE *buf, BYTE *redundant)
 {
 	BYTE cis[] = {0x01, 0x03, 0xD9, 0x01, 0xFF, 0x18, 0x02,
 		      0xDF, 0x01, 0x20};

 	int cis_len = sizeof(cis);

 	if (!IsSSFDCCompliance && !IsXDCompliance)
 		return SMSUCCESS;

 	if (!memcmp(redundant + 0x0D, EccBuf, 3))
 		return memcmp(buf, cis, cis_len);

 	if (!_Correct_D_SwECC(buf, redundant + 0x0D, EccBuf))
 		return memcmp(buf, cis, cis_len);

 	buf += 0x100;
 	if (!memcmp(redundant + 0x08, EccBuf + 0x03, 3))
 		return memcmp(buf, cis, cis_len);

 	if (!_Correct_D_SwECC(buf, redundant + 0x08, EccBuf + 0x03))
 		return memcmp(buf, cis, cis_len);

 	return ERROR;
 }

 /* ----- Set_D_RightECC() ---------------------------------------------- */
 void Set_D_RightECC(BYTE *redundant)
 {
     /* Driver ECC Check */
     return;
 }
	#include <linux/slab.h>
	#include "usb.h"
	#include "scsiglue.h"
	#include "transport.h"

	#include "smcommon.h"
	#include "smil.h"

	void _Set_D_SsfdcRdCmd(BYTE);
	void _Set_D_SsfdcRdAddr(BYTE);
	void _Set_D_SsfdcRdChip(void);
	void _Set_D_SsfdcRdStandby(void);
	void _Start_D_SsfdcRdHwECC(void);
	void _Stop_D_SsfdcRdHwECC(void);
	void _Load_D_SsfdcRdHwECC(BYTE);
	void _Set_D_SsfdcWrCmd(BYTE);
	void _Set_D_SsfdcWrAddr(BYTE);
	void _Set_D_SsfdcWrBlock(void);
	void _Set_D_SsfdcWrStandby(void);
	void _Start_D_SsfdcWrHwECC(void);
	void _Load_D_SsfdcWrHwECC(BYTE);
	int _Check_D_SsfdcBusy(WORD);
	int _Check_D_SsfdcStatus(void);
	void _Reset_D_SsfdcErr(void);
	void _Read_D_SsfdcBuf(BYTE *);
	void _Write_D_SsfdcBuf(BYTE *);
	void _Read_D_SsfdcByte(BYTE *);
	void _ReadRedt_D_SsfdcBuf(BYTE *);
	void _WriteRedt_D_SsfdcBuf(BYTE *);
	BYTE _Check_D_DevCode(BYTE);

	void _Set_D_ECCdata(BYTE, BYTE *);
	void _Calc_D_ECCdata(BYTE *);


	struct SSFDCTYPE Ssfdc;
	struct ADDRESS Media;
	struct CIS_AREA CisArea;

	static BYTE EccBuf[6];
	extern PBYTE SMHostAddr;
	extern DWORD ErrXDCode;

	extern WORD ReadBlock;
	extern WORD WriteBlock;



	#define EVEN 0 /* Even Page for 256byte/page */
	#define ODD 1 /* Odd Page for 256byte/page */


	/* SmartMedia Redundant buffer data Control Subroutine
	*----- Check_D_DataBlank() --------------------------------------------
	*/
	int Check_D_DataBlank(BYTE *redundant)
	{
	char i;

	for (i = 0; i < REDTSIZE; i++)
	if (*redundant++ != 0xFF)
	return ERROR;

	return SMSUCCESS;
	}

	/* ----- Check_D_FailBlock() -------------------------------------------- */
	int Check_D_FailBlock(BYTE *redundant)
	{
	redundant += REDT_BLOCK;

	if (*redundant == 0xFF)
	return SMSUCCESS;
	if (!*redundant)
	return ERROR;
	if (hweight8(*redundant) < 7)
	return ERROR;

	return SMSUCCESS;
	}

	/* ----- Check_D_DataStatus() ------------------------------------------- */
	int Check_D_DataStatus(BYTE *redundant)
	{
	redundant += REDT_DATA;

	if (*redundant == 0xFF)
	return SMSUCCESS;
	if (!*redundant) {
	ErrXDCode = ERR_DataStatus;
	return ERROR;
	} else
	ErrXDCode = NO_ERROR;

	if (hweight8(*redundant) < 5)
	return ERROR;

	return SMSUCCESS;
	}

	/* ----- Load_D_LogBlockAddr() ------------------------------------------ */
	int Load_D_LogBlockAddr(BYTE *redundant)
	{
	WORD addr1, addr2;

	addr1 = (WORD)(redundant + REDT_ADDR1H)0x0100 + (WORD)*(redundant + REDT_ADDR1L);
	addr2 = (WORD)(redundant + REDT_ADDR2H)0x0100 + (WORD)*(redundant + REDT_ADDR2L);

	if (addr1 == addr2)
	if ((addr1 & 0xF000) == 0x1000) {
	Media.LogBlock = (addr1 & 0x0FFF) / 2;
	return SMSUCCESS;
	}

	if (hweight16((WORD)(addr1^addr2)) != 0x01)
	return ERROR;

	if ((addr1 & 0xF000) == 0x1000)
	if (!(hweight16(addr1) & 0x01)) {
	Media.LogBlock = (addr1 & 0x0FFF) / 2;
	return SMSUCCESS;
	}

	if ((addr2 & 0xF000) == 0x1000)
	if (!(hweight16(addr2) & 0x01)) {
	Media.LogBlock = (addr2 & 0x0FFF) / 2;
	return SMSUCCESS;
	}

	return ERROR;
	}

	/* ----- Clr_D_RedundantData() ------------------------------------------ */
	void Clr_D_RedundantData(BYTE *redundant)
	{
	char i;

	for (i = 0; i < REDTSIZE; i++)
	*(redundant + i) = 0xFF;
	}

	/* ----- Set_D_LogBlockAddr() ------------------------------------------- */
	void Set_D_LogBlockAddr(BYTE *redundant)
	{
	WORD addr;

	*(redundant + REDT_BLOCK) = 0xFF;
	*(redundant + REDT_DATA) = 0xFF;
	addr = Media.LogBlock*2 + 0x1000;

	if ((hweight16(addr) % 2))
	addr++;

	(redundant + REDT_ADDR1H) = (redundant + REDT_ADDR2H) = (BYTE)(addr / 0x0100);
	(redundant + REDT_ADDR1L) = (redundant + REDT_ADDR2L) = (BYTE)addr;
	}

	/----- Set_D_FailBlock() ---------------------------------------------- /
	void Set_D_FailBlock(BYTE *redundant)
	{
	char i;
	for (i = 0; i < REDTSIZE; i++)
	*redundant++ = (BYTE)((i == REDT_BLOCK) ? 0xF0 : 0xFF);
	}

	/* ----- Set_D_DataStaus() ---------------------------------------------- */
	void Set_D_DataStaus(BYTE *redundant)
	{
	redundant += REDT_DATA;
	*redundant = 0x00;
	}

	/* SmartMedia Function Command Subroutine
	* 6250 CMD 6
	*/
	/* ----- Ssfdc_D_Reset() ------------------------------------------------ */
	void Ssfdc_D_Reset(struct us_data *us)
	{
	return;
	}

	/* ----- Ssfdc_D_ReadCisSect() ------------------------------------------ */
	int Ssfdc_D_ReadCisSect(struct us_data us, BYTE buf, BYTE *redundant)
	{
	BYTE zone, sector;
	WORD block;

	zone = Media.Zone; block = Media.PhyBlock; sector = Media.Sector;
	Media.Zone = 0;
	Media.PhyBlock = CisArea.PhyBlock;
	Media.Sector = CisArea.Sector;

	if (Ssfdc_D_ReadSect(us, buf, redundant)) {
	Media.Zone = zone; Media.PhyBlock = block; Media.Sector = sector;
	return ERROR;
	}

	Media.Zone = zone; Media.PhyBlock = block; Media.Sector = sector;
	return SMSUCCESS;
	}

	/* 6250 CMD 1 */
	/* ----- Ssfdc_D_ReadSect() --------------------------------------------- */
	int Ssfdc_D_ReadSect(struct us_data us, BYTE buf, BYTE *redundant)
	{
	struct bulk_cb_wrap bcb = (struct bulk_cb_wrap ) us->iobuf;
	int result;
	WORD addr;

	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
	if (result != USB_STOR_XFER_GOOD) {
	printk("Load SM RW Code Fail !!\n");
	return USB_STOR_TRANSPORT_ERROR;
	}

	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

	/* Read sect data */
	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x200;
	bcb->Flags = 0x80;
	bcb->CDB[0] = 0xF1;
	bcb->CDB[1] = 0x02;
	bcb->CDB[4] = (BYTE)addr;
	bcb->CDB[3] = (BYTE)(addr / 0x0100);
	bcb->CDB[2] = Media.Zone / 2;

	result = ENE_SendScsiCmd(us, FDIR_READ, buf, 0);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	/* Read redundant */
	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x10;
	bcb->Flags = 0x80;
	bcb->CDB[0] = 0xF1;
	bcb->CDB[1] = 0x03;
	bcb->CDB[4] = (BYTE)addr;
	bcb->CDB[3] = (BYTE)(addr / 0x0100);
	bcb->CDB[2] = Media.Zone / 2;
	bcb->CDB[8] = 0;
	bcb->CDB[9] = 1;

	result = ENE_SendScsiCmd(us, FDIR_READ, redundant, 0);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	return USB_STOR_TRANSPORT_GOOD;
	}

	/* ----- Ssfdc_D_ReadBlock() --------------------------------------------- */
	int Ssfdc_D_ReadBlock(struct us_data us, WORD count, BYTE buf, BYTE *redundant)
	{
	struct bulk_cb_wrap bcb = (struct bulk_cb_wrap ) us->iobuf;
	int result;
	WORD addr;

	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
	if (result != USB_STOR_XFER_GOOD) {
	printk("Load SM RW Code Fail !!\n");
	return USB_STOR_TRANSPORT_ERROR;
	}

	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

	/* Read sect data */
	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x200*count;
	bcb->Flags = 0x80;
	bcb->CDB[0] = 0xF1;
	bcb->CDB[1] = 0x02;
	bcb->CDB[4] = (BYTE)addr;
	bcb->CDB[3] = (BYTE)(addr / 0x0100);
	bcb->CDB[2] = Media.Zone / 2;

	result = ENE_SendScsiCmd(us, FDIR_READ, buf, 0);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	/* Read redundant */
	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x10;
	bcb->Flags = 0x80;
	bcb->CDB[0] = 0xF1;
	bcb->CDB[1] = 0x03;
	bcb->CDB[4] = (BYTE)addr;
	bcb->CDB[3] = (BYTE)(addr / 0x0100);
	bcb->CDB[2] = Media.Zone / 2;
	bcb->CDB[8] = 0;
	bcb->CDB[9] = 1;

	result = ENE_SendScsiCmd(us, FDIR_READ, redundant, 0);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	return USB_STOR_TRANSPORT_GOOD;
	}


	/* ----- Ssfdc_D_CopyBlock() -------------------------------------------- */
	int Ssfdc_D_CopyBlock(struct us_data us, WORD count, BYTE buf, BYTE *redundant)
	{
	struct bulk_cb_wrap bcb = (struct bulk_cb_wrap ) us->iobuf;
	int result;
	WORD ReadAddr, WriteAddr;

	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
	if (result != USB_STOR_XFER_GOOD) {
	printk("Load SM RW Code Fail !!\n");
	return USB_STOR_TRANSPORT_ERROR;
	}

	ReadAddr = (WORD)Media.Zone*Ssfdc.MaxBlocks + ReadBlock;
	ReadAddr = ReadAddr*(WORD)Ssfdc.MaxSectors;
	WriteAddr = (WORD)Media.Zone*Ssfdc.MaxBlocks + WriteBlock;
	WriteAddr = WriteAddr*(WORD)Ssfdc.MaxSectors;

	/* Write sect data */
	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x200*count;
	bcb->Flags = 0x00;
	bcb->CDB[0] = 0xF0;
	bcb->CDB[1] = 0x08;
	bcb->CDB[7] = (BYTE)WriteAddr;
	bcb->CDB[6] = (BYTE)(WriteAddr / 0x0100);
	bcb->CDB[5] = Media.Zone / 2;
	bcb->CDB[8] = *(redundant + REDT_ADDR1H);
	bcb->CDB[9] = *(redundant + REDT_ADDR1L);
	bcb->CDB[10] = Media.Sector;

	if (ReadBlock != NO_ASSIGN) {
	bcb->CDB[4] = (BYTE)ReadAddr;
	bcb->CDB[3] = (BYTE)(ReadAddr / 0x0100);
	bcb->CDB[2] = Media.Zone / 2;
	} else
	bcb->CDB[11] = 1;

	result = ENE_SendScsiCmd(us, FDIR_WRITE, buf, 0);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	return USB_STOR_TRANSPORT_GOOD;
	}

	/* ----- Ssfdc_D_WriteSectForCopy() ------------------------------------- */
	int Ssfdc_D_WriteSectForCopy(struct us_data us, BYTE buf, BYTE *redundant)
	{
	struct bulk_cb_wrap bcb = (struct bulk_cb_wrap ) us->iobuf;
	int result;
	WORD addr;

	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
	if (result != USB_STOR_XFER_GOOD) {
	printk("Load SM RW Code Fail !!\n");
	return USB_STOR_TRANSPORT_ERROR;
	}


	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

	/* Write sect data */
	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x200;
	bcb->Flags = 0x00;
	bcb->CDB[0] = 0xF0;
	bcb->CDB[1] = 0x04;
	bcb->CDB[7] = (BYTE)addr;
	bcb->CDB[6] = (BYTE)(addr / 0x0100);
	bcb->CDB[5] = Media.Zone / 2;
	bcb->CDB[8] = *(redundant + REDT_ADDR1H);
	bcb->CDB[9] = *(redundant + REDT_ADDR1L);

	result = ENE_SendScsiCmd(us, FDIR_WRITE, buf, 0);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	return USB_STOR_TRANSPORT_GOOD;
	}

	/* 6250 CMD 5 */
	/* ----- Ssfdc_D_EraseBlock() ------------------------------------------- */
	int Ssfdc_D_EraseBlock(struct us_data *us)
	{
	struct bulk_cb_wrap bcb = (struct bulk_cb_wrap ) us->iobuf;
	int result;
	WORD addr;

	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
	if (result != USB_STOR_XFER_GOOD) {
	printk("Load SM RW Code Fail !!\n");
	return USB_STOR_TRANSPORT_ERROR;
	}

	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
	addr = addr*(WORD)Ssfdc.MaxSectors;

	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x200;
	bcb->Flags = 0x80;
	bcb->CDB[0] = 0xF2;
	bcb->CDB[1] = 0x06;
	bcb->CDB[7] = (BYTE)addr;
	bcb->CDB[6] = (BYTE)(addr / 0x0100);
	bcb->CDB[5] = Media.Zone / 2;

	result = ENE_SendScsiCmd(us, FDIR_READ, NULL, 0);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	return USB_STOR_TRANSPORT_GOOD;
	}

	/* 6250 CMD 2 */
	/----- Ssfdc_D_ReadRedtData() ----------------------------------------- /
	int Ssfdc_D_ReadRedtData(struct us_data us, BYTE redundant)
	{
	struct bulk_cb_wrap bcb = (struct bulk_cb_wrap ) us->iobuf;
	int result;
	WORD addr;
	BYTE *buf;

	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
	if (result != USB_STOR_XFER_GOOD) {
	printk("Load SM RW Code Fail !!\n");
	return USB_STOR_TRANSPORT_ERROR;
	}

	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x10;
	bcb->Flags = 0x80;
	bcb->CDB[0] = 0xF1;
	bcb->CDB[1] = 0x03;
	bcb->CDB[4] = (BYTE)addr;
	bcb->CDB[3] = (BYTE)(addr / 0x0100);
	bcb->CDB[2] = Media.Zone / 2;
	bcb->CDB[8] = 0;
	bcb->CDB[9] = 1;

	buf = kmalloc(0x10, GFP_KERNEL);
	result = ENE_SendScsiCmd(us, FDIR_READ, buf, 0);
	memcpy(redundant, buf, 0x10);
	kfree(buf);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	return USB_STOR_TRANSPORT_GOOD;
	}

	/* 6250 CMD 4 */
	/* ----- Ssfdc_D_WriteRedtData() ---------------------------------------- */
	int Ssfdc_D_WriteRedtData(struct us_data us, BYTE redundant)
	{
	struct bulk_cb_wrap bcb = (struct bulk_cb_wrap ) us->iobuf;
	int result;
	WORD addr;

	result = ENE_LoadBinCode(us, SM_RW_PATTERN);
	if (result != USB_STOR_XFER_GOOD) {
	printk("Load SM RW Code Fail !!\n");
	return USB_STOR_TRANSPORT_ERROR;
	}

	addr = (WORD)Media.Zone*Ssfdc.MaxBlocks + Media.PhyBlock;
	addr = addr*(WORD)Ssfdc.MaxSectors + Media.Sector;

	memset(bcb, 0, sizeof(struct bulk_cb_wrap));
	bcb->Signature = cpu_to_le32(US_BULK_CB_SIGN);
	bcb->DataTransferLength = 0x10;
	bcb->Flags = 0x80;
	bcb->CDB[0] = 0xF2;
	bcb->CDB[1] = 0x05;
	bcb->CDB[7] = (BYTE)addr;
	bcb->CDB[6] = (BYTE)(addr / 0x0100);
	bcb->CDB[5] = Media.Zone / 2;
	bcb->CDB[8] = *(redundant + REDT_ADDR1H);
	bcb->CDB[9] = *(redundant + REDT_ADDR1L);

	result = ENE_SendScsiCmd(us, FDIR_READ, NULL, 0);
	if (result != USB_STOR_XFER_GOOD)
	return USB_STOR_TRANSPORT_ERROR;

	return USB_STOR_TRANSPORT_GOOD;
	}

	/* ----- Ssfdc_D_CheckStatus() ------------------------------------------ */
	int Ssfdc_D_CheckStatus(void)
	{
	return SMSUCCESS;
	}



	/* SmartMedia ID Code Check & Mode Set Subroutine
	* ----- Set_D_SsfdcModel() ---------------------------------------------
	*/
	int Set_D_SsfdcModel(BYTE dcode)
	{
	switch (_Check_D_DevCode(dcode)) {
	case SSFDC1MB:
	Ssfdc.Model = SSFDC1MB;
	Ssfdc.Attribute = FLASH \| AD3CYC \| BS16 \| PS256;
	Ssfdc.MaxZones = 1;
	Ssfdc.MaxBlocks = 256;
	Ssfdc.MaxLogBlocks = 250;
	Ssfdc.MaxSectors = 8;
	break;
	case SSFDC2MB:
	Ssfdc.Model = SSFDC2MB;
	Ssfdc.Attribute = FLASH \| AD3CYC \| BS16 \| PS256;
	Ssfdc.MaxZones = 1;
	Ssfdc.MaxBlocks = 512;
	Ssfdc.MaxLogBlocks = 500;
	Ssfdc.MaxSectors = 8;
	break;
	case SSFDC4MB:
	Ssfdc.Model = SSFDC4MB;
	Ssfdc.Attribute = FLASH \| AD3CYC \| BS16 \| PS512;
	Ssfdc.MaxZones = 1;
	Ssfdc.MaxBlocks = 512;
	Ssfdc.MaxLogBlocks = 500;
	Ssfdc.MaxSectors = 16;
	break;
	case SSFDC8MB:
	Ssfdc.Model = SSFDC8MB;
	Ssfdc.Attribute = FLASH \| AD3CYC \| BS16 \| PS512;
	Ssfdc.MaxZones = 1;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 16;
	break;
	case SSFDC16MB:
	Ssfdc.Model = SSFDC16MB;
	Ssfdc.Attribute = FLASH \| AD3CYC \| BS32 \| PS512;
	Ssfdc.MaxZones = 1;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 32;
	break;
	case SSFDC32MB:
	Ssfdc.Model = SSFDC32MB;
	Ssfdc.Attribute = FLASH \| AD3CYC \| BS32 \| PS512;
	Ssfdc.MaxZones = 2;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 32;
	break;
	case SSFDC64MB:
	Ssfdc.Model = SSFDC64MB;
	Ssfdc.Attribute = FLASH \| AD4CYC \| BS32 \| PS512;
	Ssfdc.MaxZones = 4;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 32;
	break;
	case SSFDC128MB:
	Ssfdc.Model = SSFDC128MB;
	Ssfdc.Attribute = FLASH \| AD4CYC \| BS32 \| PS512;
	Ssfdc.MaxZones = 8;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 32;
	break;
	case SSFDC256MB:
	Ssfdc.Model = SSFDC256MB;
	Ssfdc.Attribute = FLASH \| AD4CYC \| BS32 \| PS512;
	Ssfdc.MaxZones = 16;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 32;
	break;
	case SSFDC512MB:
	Ssfdc.Model = SSFDC512MB;
	Ssfdc.Attribute = FLASH \| AD4CYC \| BS32 \| PS512;
	Ssfdc.MaxZones = 32;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 32;
	break;
	case SSFDC1GB:
	Ssfdc.Model = SSFDC1GB;
	Ssfdc.Attribute = FLASH \| AD4CYC \| BS32 \| PS512;
	Ssfdc.MaxZones = 64;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 32;
	break;
	case SSFDC2GB:
	Ssfdc.Model = SSFDC2GB;
	Ssfdc.Attribute = FLASH \| AD4CYC \| BS32 \| PS512;
	Ssfdc.MaxZones = 128;
	Ssfdc.MaxBlocks = 1024;
	Ssfdc.MaxLogBlocks = 1000;
	Ssfdc.MaxSectors = 32;
	break;
	default:
	Ssfdc.Model = NOSSFDC;
	return ERROR;
	}

	return SMSUCCESS;
	}

	/* ----- _Check_D_DevCode() --------------------------------------------- */
	BYTE _Check_D_DevCode(BYTE dcode)
	{
	switch (dcode) {
	case 0x6E:
	case 0xE8:
	case 0xEC: return SSFDC1MB; /* 8Mbit (1M) NAND */
	case 0x64:
	case 0xEA: return SSFDC2MB; /* 16Mbit (2M) NAND */
	case 0x6B:
	case 0xE3:
	case 0xE5: return SSFDC4MB; /* 32Mbit (4M) NAND */
	case 0xE6: return SSFDC8MB; /* 64Mbit (8M) NAND */
	case 0x73: return SSFDC16MB; /* 128Mbit (16M)NAND */
	case 0x75: return SSFDC32MB; /* 256Mbit (32M)NAND */
	case 0x76: return SSFDC64MB; /* 512Mbit (64M)NAND */
	case 0x79: return SSFDC128MB; /* 1Gbit(128M)NAND */
	case 0x71: return SSFDC256MB;
	case 0xDC: return SSFDC512MB;
	case 0xD3: return SSFDC1GB;
	case 0xD5: return SSFDC2GB;
	default: return NOSSFDC;
	}
	}




	/* SmartMedia ECC Control Subroutine
	* ----- Check_D_ReadError() ----------------------------------------------
	*/
	int Check_D_ReadError(BYTE *redundant)
	{
	return SMSUCCESS;
	}

	/* ----- Check_D_Correct() ---------------------------------------------- */
	int Check_D_Correct(BYTE buf, BYTE redundant)
	{
	return SMSUCCESS;
	}

	/* ----- Check_D_CISdata() ---------------------------------------------- */
	int Check_D_CISdata(BYTE buf, BYTE redundant)
	{
	BYTE cis[] = {0x01, 0x03, 0xD9, 0x01, 0xFF, 0x18, 0x02,
	0xDF, 0x01, 0x20};

	int cis_len = sizeof(cis);

	if (!IsSSFDCCompliance && !IsXDCompliance)
	return SMSUCCESS;

	if (!memcmp(redundant + 0x0D, EccBuf, 3))
	return memcmp(buf, cis, cis_len);

	if (!_Correct_D_SwECC(buf, redundant + 0x0D, EccBuf))
	return memcmp(buf, cis, cis_len);

	buf += 0x100;
	if (!memcmp(redundant + 0x08, EccBuf + 0x03, 3))
	return memcmp(buf, cis, cis_len);

	if (!_Correct_D_SwECC(buf, redundant + 0x08, EccBuf + 0x03))
	return memcmp(buf, cis, cis_len);

	return ERROR;
	}

	/* ----- Set_D_RightECC() ---------------------------------------------- */
	void Set_D_RightECC(BYTE *redundant)
	{
	/* Driver ECC Check */
	return;
	}