summaryrefslogtreecommitdiff
path: root/packages/linux/linux-titan-sh4/titan-flash.patch
blob: c84adcdb8cfe1957a22bb7ff962d3c2500a7db1a (plain)
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Add the driver for onboard flash.
The quality of this driver means that it has not been included in the
upstream kernel sources.
This implements a block device translation layer to match what the 
onboard firmware implements.

diff --git a/drivers/block/Kconfig b/drivers/block/Kconfig
index 58c1deb..9668ac7 100644
--- a/drivers/block/Kconfig
+++ b/drivers/block/Kconfig
@@ -186,6 +186,13 @@ config BLK_DEV_DAC960
 	  To compile this driver as a module, choose M here: the
 	  module will be called DAC960.
 
+config BLK_SSFDC
+	tristate "SmartMedia(TM) Driver (sm)"
+	depends on SH_TITAN
+	help
+	  Say Y here if you want the SmartMedia chip enabled.
+	  Otherwise say N.
+
 config BLK_DEV_UMEM
 	tristate "Micro Memory MM5415 Battery Backed RAM support (EXPERIMENTAL)"
 	depends on PCI && EXPERIMENTAL
diff --git a/drivers/block/Makefile b/drivers/block/Makefile
index dd88e33..37fc9e8 100644
--- a/drivers/block/Makefile
+++ b/drivers/block/Makefile
@@ -19,6 +19,7 @@ obj-$(CONFIG_BLK_DEV_XD)	+= xd.o
 obj-$(CONFIG_BLK_CPQ_DA)	+= cpqarray.o
 obj-$(CONFIG_BLK_CPQ_CISS_DA)  += cciss.o
 obj-$(CONFIG_BLK_DEV_DAC960)	+= DAC960.o
+obj-$(CONFIG_BLK_SSFDC)		+= ssfdc.o
 obj-$(CONFIG_CDROM_PKTCDVD)	+= pktcdvd.o
 
 obj-$(CONFIG_BLK_DEV_UMEM)	+= umem.o
diff --git a/drivers/block/ssfdc.c b/drivers/block/ssfdc.c
new file mode 100644
index 0000000..482d617
--- /dev/null
+++ b/drivers/block/ssfdc.c
@@ -0,0 +1,2733 @@
+/* $id:   $
+ssfdc.c - Solid State Flopyy Disk Card
+
+Original source curtesy of Toshiba Corporation.
+
+Modification for use by Linux provided by Nimble Microsystems Inc.
+
+TODO:
+
+Modification History:
+	
+	March 2001 - Initial port of Toshiba sources by Bill Mann
+	May 2001 - Debug of staticly linked ssfdc driver, Bill Mann
+	Nov 2001 	- Reimplementation using tasklets and timers.
+	May 2002 - Partition support added.
+	Oct 2003 - Port to kernel 2.6.0
+	Mar 2004 - Stabilization refinements...
+
+Overview:  The kernel interfaces to the device via the "block_device_operations 
+	ssfdc_fops", the device's request handling function 
+	"do_ssfdc_request(request_queue_t * q)", or by the ioctl interface ssfdc_ioctl().
+
+	do_ssfdc_request() purpose is to kickstart ssfdc_thread via a wake_up call.  ssfdc_thread
+	then processes requests from the queue.
+
+	Blocks are mapped logically.  So a sector read/write results in the determination
+	of the logical block address of the block containing the desired sector and the
+	corresponding physical block being accessed.  Note the use of ReadBlock, WriteBlock,
+	and PhyBlock, Log2Phy[] etc.
+
+	This driver implements a wear leveling strategy where sector writes to the
+	SmartMedia causes the block which is the target of the write to be copied into a
+	new block, the new data written and the old block erased.  This makes the driver 
+	more complicated than a straightforward sector read/write.
+
+*/
+
+/* Section device headers */
+#define DEBUG_SSFDC					0
+#define DEBUG_SSFDC_STRUCT			0
+#define DEBUG_SSFDC_REQUEST			0
+#define DEBUG_SSFDC_READREDT		0
+#define DEBUG_SSFDC_WRITE			0
+#define DEBUG_SSFDC_WRITESECT		0
+#define DEBUG_SSFDC_WRITEBLKS		0
+#define DEBUG_SSFDC_READ			0
+#define DEBUG_SSFDC_ADDR			0
+#define DEBUG_SSFDC_ASSIGNRELEASE	0
+#define SSFDC_READINGTASKLET		0
+/* Edition Compilation Mode */
+
+#include <linux/module.h>
+
+#include <asm/delay.h>
+#include <linux/sched.h>
+#include <linux/interrupt.h>
+
+#include <linux/fs.h>
+#include <linux/hdreg.h>
+#include <linux/file.h>
+#include <linux/stat.h>
+#include <linux/time.h>
+#include <linux/errno.h>
+#include <linux/major.h>
+#include <linux/init.h>
+#include <asm/uaccess.h>
+#include <asm/hardirq.h>
+#include <linux/bio.h>
+#include <linux/blkdev.h>
+#include <linux/slab.h>
+#include <linux/highmem.h>
+
+#include "ssfdc.h"
+
+#define SSFDC_MAJOR	240
+
+static int static_ssfdc_debug = 0;
+
+static DECLARE_WAIT_QUEUE_HEAD(ssfdc_wait);
+
+static struct gendisk *disks[MAX_SSFDC];
+static ssfdc_dev *ssfdc[MAX_SSFDC];
+
+static int ssfdc_open(struct inode *i_node, struct file *fptr);
+static int ssfdc_release(struct inode *i_node, struct file *fptr);
+static int ssfdc_ioctl(struct inode *i_node, struct file *fptr, unsigned cmd, unsigned long arg);
+static int ssfdc_revalidate(struct gendisk *disk);
+void do_ssfdc_request(request_queue_t * q);
+
+static struct block_device_operations ssfdc_fops = {
+	.owner			= THIS_MODULE,
+	.open			= ssfdc_open,
+	.release		= ssfdc_release,
+	.ioctl			= ssfdc_ioctl,
+	// bjm out .revalidate_disk	= ssfdc_revalidate,
+};
+
+
+/***************************************************************************
+	BIT Control Macro
+ ***************************************************************************/
+static char BitData[] = {0x01,0x02,0x04,0x08,0x10,0x20,0x40,0x80 };
+#define	SetBit(a,b)	(a[(unsigned char)((b)/8)]|= BitData[(b)%8])
+#define	ClrBit(a,b)	(a[(unsigned char)((b)/8)]&=~BitData[(b)%8])
+#define	ChkBit(a,b)	(a[(unsigned char)((b)/8)] & BitData[(b)%8])
+
+/***************************************************************************/
+static int MediaReadSector(ssfdc_dev *, struct request *, char *, long,int);
+static int MediaWriteSector(ssfdc_dev *, struct request *, char *, long,int);
+
+/***************************************************************************/
+static int  CheckLogCHS(ssfdc_dev *,unsigned int *,unsigned char *,unsigned char *);
+static int  CheckMediaWP(ssfdc_dev *);
+static int  ConvMediaAddr(ssfdc_dev *,long);
+static int  IncMediaAddr(ssfdc_dev *);
+static int  WriteReqInCurrBlk(ssfdc_dev *, long, int *);
+/******************************************/
+/******************************************/
+static int  AssignWriteBlock(ssfdc_dev *, int);
+/******************************************/
+/******************************************/
+static int  SetPhyFmtValue(ssfdc_dev *);
+static int  SearchCIS(ssfdc_dev *,unsigned int *);
+static int  MakeLogTable(ssfdc_dev *,unsigned int);
+/******************************************/
+static int  MarkFailPhyOneBlock(ssfdc_dev *);
+
+static void _ReadSsfdcBuf(ssfdc_dev *, unsigned char *databuf,unsigned char *redundant); 
+static void _WriteSsfdcBuf(ssfdc_dev *,unsigned char *,unsigned char *);
+static void _ReadSsfdcWord(ssfdc_dev *,unsigned int *);
+static void _ReadRedtSsfdcBuf(ssfdc_dev *, unsigned char *redundant);
+static void _WriteRedtSsfdcBuf(ssfdc_dev*, unsigned char *redundant);
+
+/***************************************************************************/
+static void _SetSsfdcCmd(ssfdc_dev *, unsigned char);
+static void _SetSsfdcAddr(ssfdc_dev *, unsigned char);
+static void _SetSsfdcBlock(ssfdc_dev *);
+static void _SetSsfdcChip(ssfdc_dev *);
+static void _SetSsfdcStandby(ssfdc_dev *);
+static int  _CheckSsfdcBusy(ssfdc_dev *, unsigned int);
+static int  _CheckSsfdcStatus(ssfdc_dev *);
+static void _ResetSsfdcErr(ssfdc_dev *psm);
+static unsigned char _CheckDevCode(unsigned char);
+void SsfdcReset(ssfdc_dev *);
+void CntReset(ssfdc_dev *);
+
+static char BitCount(unsigned char);
+static char BitCountWord(unsigned int);
+
+static void _WaitTimer(long int);
+typedef void (*timeout_fn)(unsigned long);
+static void ssfdc_rw_request(ssfdc_dev *psm, struct request *req);
+static int ssfdc_end_request(ssfdc_dev *psm, struct request *req, int status);
+static void ssfdc_terminate_request(ssfdc_dev *psm, struct request *req);
+static struct request *ssfdc_get_request(ssfdc_dev *psm);
+
+/* debugging utils etc. */
+
+#if DEBUG_SSFDC
+static void dump_ssfdc_state(ssfdc_dev * psm);
+#endif
+
+/* end of debugging utils etc. */
+
+/* our tasklets */
+/* top level R/W initiation tasklet */
+static void initxfer(unsigned long);
+#if 0	// use thread and not a tasklet
+DECLARE_TASKLET(initxfer_tasklet0, initxfer, 0);
+#ifdef CONFIG_SH_NIMBLE_MINI
+DECLARE_TASKLET(initxfer_tasklet1, initxfer, 1);
+#endif
+#endif
+
+/* Sector Write Tasklets,  This group includes a readcopy tasklet for block copies...*/
+
+/* Tasklet to read a sector into a temporary buffer for later write */
+
+/* power is turned on, and then left on for TIMER_ON_TIMEOUT */
+// bjm debug struct timer_list mediachange_timer;
+// bjm debug static void mediachangetest(unsigned long);
+
+// bjm out
+// bjm out struct timer_list waiting_timer;
+static void waiting_timeout(unsigned long);
+
+/******************************************************************************/
+static void trans_result        \
+    (unsigned char,unsigned char,unsigned char *,unsigned char *);
+static void calculate_ecc           \
+    (unsigned char *,unsigned char *,unsigned char *,unsigned char *,unsigned char *);
+static unsigned char correct_data   \
+    (unsigned char *,unsigned char *,unsigned char,unsigned char,unsigned char);
+
+                                              /* CP0-CP5 code table           */
+static unsigned char ecctable[256] = {
+    0x00,0x55,0x56,0x03,0x59,0x0C,0x0F,0x5A,0x5A,0x0F,0x0C,0x59,0x03,0x56,0x55,0x00,
+    0x65,0x30,0x33,0x66,0x3C,0x69,0x6A,0x3F,0x3F,0x6A,0x69,0x3C,0x66,0x33,0x30,0x65,
+    0x66,0x33,0x30,0x65,0x3F,0x6A,0x69,0x3C,0x3C,0x69,0x6A,0x3F,0x65,0x30,0x33,0x66,
+    0x03,0x56,0x55,0x00,0x5A,0x0F,0x0C,0x59,0x59,0x0C,0x0F,0x5A,0x00,0x55,0x56,0x03,
+    0x69,0x3C,0x3F,0x6A,0x30,0x65,0x66,0x33,0x33,0x66,0x65,0x30,0x6A,0x3F,0x3C,0x69,
+    0x0C,0x59,0x5A,0x0F,0x55,0x00,0x03,0x56,0x56,0x03,0x00,0x55,0x0F,0x5A,0x59,0x0C,
+    0x0F,0x5A,0x59,0x0C,0x56,0x03,0x00,0x55,0x55,0x00,0x03,0x56,0x0C,0x59,0x5A,0x0F,
+    0x6A,0x3F,0x3C,0x69,0x33,0x66,0x65,0x30,0x30,0x65,0x66,0x33,0x69,0x3C,0x3F,0x6A,
+    0x6A,0x3F,0x3C,0x69,0x33,0x66,0x65,0x30,0x30,0x65,0x66,0x33,0x69,0x3C,0x3F,0x6A,
+    0x0F,0x5A,0x59,0x0C,0x56,0x03,0x00,0x55,0x55,0x00,0x03,0x56,0x0C,0x59,0x5A,0x0F,
+    0x0C,0x59,0x5A,0x0F,0x55,0x00,0x03,0x56,0x56,0x03,0x00,0x55,0x0F,0x5A,0x59,0x0C,
+    0x69,0x3C,0x3F,0x6A,0x30,0x65,0x66,0x33,0x33,0x66,0x65,0x30,0x6A,0x3F,0x3C,0x69,
+    0x03,0x56,0x55,0x00,0x5A,0x0F,0x0C,0x59,0x59,0x0C,0x0F,0x5A,0x00,0x55,0x56,0x03,
+    0x66,0x33,0x30,0x65,0x3F,0x6A,0x69,0x3C,0x3C,0x69,0x6A,0x3F,0x65,0x30,0x33,0x66,
+    0x65,0x30,0x33,0x66,0x3C,0x69,0x6A,0x3F,0x3F,0x6A,0x69,0x3C,0x66,0x33,0x30,0x65,
+    0x00,0x55,0x56,0x03,0x59,0x0C,0x0F,0x5A,0x5A,0x0F,0x0C,0x59,0x03,0x56,0x55,0x00
+};
+
+#define    BIT7    0x80
+#define    BIT6    0x40
+#define    BIT5    0x20
+#define    BIT4    0x10
+#define    BIT3    0x08
+#define    BIT2    0x04
+#define    BIT1    0x02
+#define    BIT0    0x01
+ 
+#define    BIT1BIT0    0x03
+#define    BIT23       0x00800000L
+#define    MASK_CPS    0x3f
+#define    CORRECTABLE 0x00555554L 
+
+/*
+    Transfer result
+    LP14,12,10,... & LP15,13,11,... -> LP15,14,13,... & LP7,6,5,..
+*/
+static void trans_result(reg2,reg3,ecc1,ecc2)
+unsigned char reg2;                           /* LP14,LP12,LP10,...           */
+unsigned char reg3;                           /* LP15,LP13,LP11,...           */
+unsigned char *ecc1;                          /* LP15,LP14,LP13,...           */
+unsigned char *ecc2;                          /* LP07,LP06,LP05,...           */
+{
+    unsigned char a;                          /* Working for reg2,reg3        */
+    unsigned char b;                          /* Working for ecc1,ecc2        */
+    unsigned char i;                          /* For counting                 */
+ 
+    a=BIT7; b=BIT7;                           /* 80h=10000000b                */
+    *ecc1=*ecc2=0;                            /* Clear ecc1,ecc2              */
+    for(i=0; i<4; ++i) {
+        if ((reg3&a)!=0) *ecc1|=b;            /* LP15,13,11,9 -> ecc1         */
+        b=b>>1;                               /* Right shift                  */
+        if ((reg2&a)!=0) *ecc1|=b;            /* LP14,12,10,8 -> ecc1         */
+        b=b>>1;                               /* Right shift                  */
+        a=a>>1;                               /* Right shift                  */
+    }
+    b=BIT7;                                   /* 80h=10000000b                */
+    for(i=0; i<4; ++i) {
+        if ((reg3&a)!=0) *ecc2|=b;            /* LP7,5,3,1 -> ecc2            */
+        b=b>>1;                               /* Right shift                  */
+        if ((reg2&a)!=0) *ecc2|=b;            /* LP6,4,2,0 -> ecc2            */
+        b=b>>1;                               /* Right shift                  */
+        a=a>>1;                               /* Right shift                  */
+    }
+}
+
+
+/*
+    Calculating ECC
+    data[0-255] -> ecc1,ecc2,ecc3 using CP0-CP5 code table[0-255]
+*/
+static void calculate_ecc(table,data,ecc1,ecc2,ecc3)
+unsigned char *table;                         /* CP0-CP5 code table           */
+unsigned char *data;                          /* DATA                         */
+unsigned char *ecc1;                          /* LP15,LP14,LP13,...           */
+unsigned char *ecc2;                          /* LP07,LP06,LP05,...           */
+unsigned char *ecc3;                          /* CP5,CP4,CP3,...,"1","1"      */
+{
+    unsigned int i;                           /* For counting                 */
+    unsigned char a;                          /* Working for table            */
+    unsigned char reg1;                       /* D-all,CP5,CP4,CP3,...        */
+    unsigned char reg2;                       /* LP14,LP12,L10,...            */
+    unsigned char reg3;                       /* LP15,LP13,L11,...            */
+ 
+    reg1=reg2=reg3=0;                         /* Clear parameter              */
+ 
+    for(i=0; i<256; ++i) {
+        a=table[data[i]];                     /* Get CP0-CP5 code from table  */
+        reg1^=(a&MASK_CPS);                   /* XOR with a                   */
+        if ((a&BIT6)!=0) {                    /* If D_all(all bit XOR) = 1    */
+            reg3^=(unsigned char)i;           /* XOR with counter             */
+            reg2^=~((unsigned char)i);        /* XOR with inv. of counter     */
+        }
+    }
+ 
+    /* Trans LP14,12,10,... & LP15,13,11,... -> LP15,14,13,... & LP7,6,5,..   */
+    trans_result(reg2,reg3,ecc1,ecc2);
+ 
+    *ecc1=~(*ecc1); *ecc2=~(*ecc2);           /* Inv. ecc2 & ecc3             */
+    *ecc3=((~reg1)<<2)|BIT1BIT0;              /* Make TEL format              */
+}
+ 
+static unsigned char correct_data(data,eccdata,ecc1,ecc2,ecc3)
+unsigned char *data;                          /* DATA                         */
+unsigned char *eccdata;                       /* ECC DATA                     */
+unsigned char ecc1;                           /* LP15,LP14,LP13,...           */
+unsigned char ecc2;                           /* LP07,LP06,LP05,...           */
+unsigned char ecc3;                           /* CP5,CP4,CP3,...,"1","1"      */
+{
+    unsigned long l;                          /* Working to check d           */
+    unsigned long d;                          /* Result of comparison         */
+    unsigned int i;                           /* For counting                 */
+    unsigned char d1,d2,d3;                   /* Result of comparison         */
+    unsigned char a;                          /* Working for add              */
+    unsigned char add;                        /* Byte address of cor. DATA    */
+    unsigned char b;                          /* Working for bit              */
+    unsigned char bit;                        /* Bit address of cor. DATA     */
+ 
+    d1=ecc1^eccdata[1]; d2=ecc2^eccdata[0];   /* Compare LP's                 */
+    d3=ecc3^eccdata[2];                       /* Comapre CP's                 */
+    d=((unsigned long)d1<<16)                 /* Result of comparison         */
+        +((unsigned long)d2<<8)
+        +(unsigned long)d3;
+ 
+    if (d==0) return(0);                      /* If No error, return          */
+    if (((d^(d>>1))&CORRECTABLE)==CORRECTABLE) {    /* If correctable         */
+        l=BIT23;
+        add=0;                                /* Clear parameter              */
+        a=BIT7;
+        for(i=0; i<8; ++i) {                  /* Checking 8 bit               */
+            if ((d&l)!=0) add|=a;             /* Make byte address from LP's  */
+            l>>=2; a>>=1;                     /* Right Shift                  */
+        }
+        bit=0;                                /* Clear parameter              */
+        b=BIT2;
+        for(i=0; i<3; ++i) {                  /* Checking 3 bit               */
+            if ((d&l)!=0) bit|=b;             /* Make bit address from CP's   */
+            l>>=2; b>>=1;                     /* Right shift                  */
+        }
+        b=BIT0;
+        data[add]^=(b<<bit);                  /* Put corrected data           */
+        return(1);
+    }
+    i=0;                                      /* Clear count                  */
+    d&=0x00ffffffL;                           /* Masking                      */
+    while(d) {                                /* If d=0 finish counting       */
+        if (d&BIT0) ++i;                      /* Count number of 1 bit        */
+        d>>=1;                                /* Right shift                  */
+    }
+    if (i==1) {                               /* If ECC error                 */
+        eccdata[1]=ecc1; eccdata[0]=ecc2;    /* Put right ECC code           */
+        eccdata[2]=ecc3;
+        return(2);
+    }
+    return(3);                                /* Uncorrectable error          */
+}
+/***************************************************************************
+    Common Subroutine
+ ***************************************************************************/
+char BitCount(unsigned char cdata)
+{
+    char bitcount=0;
+    while(cdata) {
+        bitcount+=(cdata &0x01);
+        cdata   /=2;
+    }
+    return(bitcount);
+}
+ 
+char BitCountWord(unsigned int cdata)
+{
+    char bitcount=0;
+    while(cdata) {
+        bitcount+=(cdata &0x01);
+        cdata   /=2;
+    }
+    return(bitcount);
+}
+
+/***************************************************************************/
+void StringCopy(char *stringA, char *stringB, int count)
+{
+    int i;
+    for(i=0; i<count; i++)
+        *stringA++ = *stringB++;
+}
+ 
+int StringCmp(char *stringA, char *stringB, int count)
+{
+    int i;
+    for (i=0;i<count;i++)
+        if (*stringA++ != *stringB++)   return(ERROR);
+    return(SUCCESS);
+}
+/***************************************************************************/
+int  CheckDataBlank(unsigned char *redundant)
+{
+    char i;
+    for(i=0; i<REDTSIZE; i++)
+        if(*redundant++!=0xFF)      return(ERROR);
+    return(SUCCESS);
+}
+
+int  CheckFailBlock(unsigned char *redundant)
+{
+    redundant+=REDT_BLOCK;
+    if(*redundant==0xFF)            return(SUCCESS);
+    if(! *redundant)                return(ERROR);
+    if(BitCount(*redundant)<7)     return(ERROR);
+    return(SUCCESS);
+}
+
+int  CheckCisBlock(unsigned char *redundant)
+{
+    if(! (*(redundant+REDT_ADDR1H)|*(redundant+REDT_ADDR1L)))
+        return(SUCCESS);
+    if(! (*(redundant+REDT_ADDR2H)|*(redundant+REDT_ADDR2L)))
+        return(SUCCESS);
+    return(ERROR);
+}
+
+int  CheckDataStatus(unsigned char *redundant)
+{
+    redundant+=REDT_DATA;
+    if(*redundant==0xFF)            return(SUCCESS);
+    if(! *redundant)                return(ERROR);
+    if(BitCount(*redundant)<5)     return(ERROR);
+    return(SUCCESS);
+}
+
+int  LoadLogBlockAddr(ssfdc_dev *psm)
+{
+    unsigned int addr1,addr2;
+    addr1=*(psm->Redundant+REDT_ADDR1H)*0x100+*(psm->Redundant+REDT_ADDR1L);
+    addr2=*(psm->Redundant+REDT_ADDR2H)*0x100+*(psm->Redundant+REDT_ADDR2L);
+    if(addr1==addr2)
+        if((addr1 &0xF000)==0x1000)
+            { psm->LogBlock=(addr1 &0x0FFF)/2; return(SUCCESS); }
+    if(BitCountWord(addr1^addr2)>1)            return(ERROR);
+    if((addr1 &0xF000)==0x1000)
+        if(! (BitCountWord(addr1) &0x0001))
+            { psm->LogBlock=(addr1 &0x0FFF)/2; return(SUCCESS); }
+    if((addr2 &0xF000)==0x1000)
+        if(! (BitCountWord(addr2) &0x0001))
+            { psm->LogBlock=(addr2 &0x0FFF)/2; return(SUCCESS); }
+    return(ERROR);
+}
+/***************************************************************************/
+void ClrRedundantData(unsigned char *redundant)
+{
+    char i;
+    for(i=0; i<REDTSIZE; i++)   *(redundant+i)=0xFF;
+}
+
+/***************************************************************************/
+void SetLogBlockAddr(ssfdc_dev *psm, unsigned char *redundant)
+{
+    unsigned int addr;
+    *(redundant+REDT_BLOCK)=0xFF;
+    *(redundant+REDT_DATA) =0xFF;
+    addr=psm->LogBlock*2+0x1000;
+    if((BitCountWord(addr)%2)) addr++;
+    *(redundant+REDT_ADDR1H)=*(redundant+REDT_ADDR2H)=addr/0x100;
+    *(redundant+REDT_ADDR1L)=*(redundant+REDT_ADDR2L)=(unsigned char)addr;
+}
+
+void SetFailBlock(unsigned char *redundant)
+{
+    char i;
+    for(i=0; i<REDTSIZE; i++)
+        *redundant++=((i==REDT_BLOCK)?0xF0:0xFF);
+}
+
+void SetDataStatus(unsigned char *redundant)
+{
+    redundant+=REDT_DATA;
+    *redundant=0x00;
+}
+
+
+/***************************************************************************
+    NAND Memory (SmartMedia) Control Subroutine
+ ***************************************************************************/
+static void _SetSsfdcCmd(ssfdc_dev *psm, unsigned char cmd)
+{
+    _HwSetCmd(psm);
+    _HwOutData(psm,cmd);
+    _HwSetData(psm);
+}
+ 
+static void _SetSsfdcAddr(ssfdc_dev *psm, unsigned char add)
+{
+    unsigned int addr;
+
+#if DEBUG_SSFDC_ADDR
+	printk(KERN_DEBUG "_SetSsfdcAddr() Zone %d LogBlock %d PhyBlock %d Sector %d\n",
+		psm->Zone,psm->LogBlock,psm->PhyBlock,psm->Sector);
+#endif
+    addr=(unsigned int)psm->Zone*psm->MaxBlocks+psm->PhyBlock;
+    addr=addr*(unsigned int)psm->MaxSectors+psm->Sector;
+    if((psm->Attribute &MPS)==PS256)       /* for 256byte/page */
+        addr=addr*2+(unsigned int)add;
+/*-----------------------------------------------*/
+    _HwSetAddr(psm);
+    _HwOutData(psm,0x00);
+    _HwOutData(psm,(unsigned char)addr);
+    _HwOutData(psm,(unsigned char)(addr/0x0100));
+    if((psm->Attribute &MADC)==AD4CYC)
+        _HwOutData(psm,(unsigned char)(psm->Zone/2)); /* Patch */
+    _HwSetData(psm);
+}
+
+static void _SetSsfdcBlock(ssfdc_dev *psm)
+{
+    unsigned int addr;
+#if DEBUG_SSFDC_ASSIGNRELEASE
+	printk(KERN_DEBUG "_SetSsfdcBlock() set card addr to PhyBlock %d\n", psm->PhyBlock);
+#endif
+    addr=(unsigned int)psm->Zone*psm->MaxBlocks+psm->PhyBlock;
+    addr=addr*(unsigned int)psm->MaxSectors;
+    if((psm->Attribute &MPS)==PS256)       /* for 256byte/page */
+        addr=addr*2;
+/*-----------------------------------------------*/
+    _HwSetAddr(psm);
+    _HwOutData(psm,(unsigned char)addr);
+    _HwOutData(psm,(unsigned char)(addr/0x0100));
+    if((psm->Attribute &MADC)==AD4CYC)
+        _HwOutData(psm,(unsigned char)(psm->Zone/2)); /* Patch */
+    _HwSetData(psm);
+}
+
+static inline void _SetSsfdcStandby(ssfdc_dev *psm)
+{
+    _HwSetStandby(psm);
+}
+
+static int _CheckSsfdcStatus(ssfdc_dev *psm)
+{
+	int status;
+    if((status=_HwInData(psm)) & WR_FAIL) {
+	   printk(KERN_DEBUG "_CheckSsfdcStatus() error %x\n", status);
+	   return(ERROR);
+	}
+    return(SUCCESS);
+} 
+
+static void _ResetSsfdcErr(ssfdc_dev *psm)
+{
+    _HwSetCmd(psm);
+    _HwOutData(psm,SSFDC_RST_CHIP);
+    _HwSetData(psm);
+   	while(1) {
+		udelay(30);
+		if(! _HwChkBusy(psm))     break;
+	}
+    _HwSetStandby(psm);
+}
+
+static void waiting_timeout(unsigned long psm)
+{
+	// enable the wakeup signal!
+	wake_up(&((ssfdc_dev *)psm)->thread_wq);
+}
+
+/*
+	_CheckSsfdcBusy()
+
+	set a timer in jiffies from int time x .1ms
+*/
+
+static int _CheckSsfdcBusy(ssfdc_dev *psm, unsigned int time)
+{
+	unsigned long	incr_div = 4;
+	unsigned long	incr_us = time / incr_div,
+					jticks=time/(MSEC * JIFFY_TICK_MS);
+	unsigned long 	tick_retried=0, wrap_flag, expires;
+
+	if (!jticks) {
+		// small delay first to test completion
+		do {
+			udelay(incr_us);
+			if (!_HwChkBusy(psm))
+				return(SUCCESS);
+		} while (incr_div--);
+		return(ERROR);
+	}
+
+	// Block the wakeup signal?
+
+one_more_time:
+	expires = jiffies + jticks;
+	wrap_flag = ( expires < jiffies);
+
+	do {
+		wait_event_interruptible_timeout(psm->thread_wq, 0, jticks);
+		if (!_HwChkBusy(psm)) {
+			return(SUCCESS);
+		}
+	} while (wrap_flag ? expires <= jiffies : expires >= jiffies);
+
+#if 1
+	// Is the chip not busy?  If so its an ERROR
+	if (!_HwChkBusy(psm)) {
+		return(SUCCESS);
+	}
+	else {
+		// if we came back, give us one more tick/time
+		if (! tick_retried ) {
+			tick_retried = 1;
+			jticks = 0;
+			printk(".");
+			goto one_more_time;
+		}
+		return(ERROR);
+	}
+#endif
+}
+
+static void _SetSsfdcChip(ssfdc_dev *psm)
+{
+    _HwSetAddr(psm);
+    _HwOutData(psm,0x00);
+    _HwSetData(psm);
+}
+/***************************************************************************
+    NAND Memory (SmartMedia)  Buffer Data Xfer Subroutine
+ ***************************************************************************/      
+static void _ReadSsfdcBuf(ssfdc_dev *psm,unsigned char *databuf,unsigned char *redundant)
+{
+    int i;
+    for(i=0x00;i<(((psm->Attribute &MPS)==PS256)?0x100:0x200);i++)
+        *databuf++   =_HwInData(psm);
+    for(i=0x00;i<(((psm->Attribute &MPS)==PS256)?0x08:0x10);i++)
+        *redundant++ =_HwInData(psm);
+}
+ 
+static void _WriteSsfdcBuf(ssfdc_dev *psm, unsigned char *databuf,unsigned char *redundant)
+{
+    int i;
+    for(i=0x00;i<(((psm->Attribute &MPS)==PS256)?0x100:0x200);i++)
+        _HwOutData(psm,*databuf++);
+    for(i=0x00;i<(((psm->Attribute &MPS)==PS256)?0x08:0x10);i++)
+        _HwOutData(psm,*redundant++);
+}
+
+static void _ReadSsfdcWord(ssfdc_dev *psm, unsigned int *pdata)
+{
+    *pdata =_HwInData(psm)*0x100;
+    *pdata|=(unsigned char)_HwInData(psm);
+}
+
+static void _ReadRedtSsfdcBuf(ssfdc_dev *psm,unsigned char *redundant)
+{
+    int i;
+    for(i=0x00;i<(((psm->Attribute &MPS)==PS256)?0x08:0x10);i++)
+        redundant[i] =_HwInData(psm);
+}
+ 
+static void _WriteRedtSsfdcBuf(ssfdc_dev *psm, unsigned char *redundant)
+{
+    char i;
+    for(i=0x00;i<(((psm->Attribute &MPS)==PS256)?0x08:0x10);i++)
+        _HwOutData(psm,*redundant++);
+}
+
+/***************************************************************************
+    Timer Control Subroutine
+ ***************************************************************************/
+#define SHORT_DELAY 1
+
+
+
+
+void _GetDateTime(char *date)
+{
+}
+
+/*
+_WaitTimer(long time) time is in ticks.
+*/
+
+static inline void _WaitTimer(long time)
+{
+}
+
+/***************************************************************************
+    SmartMedia Function Command Subroutine
+ ***************************************************************************/
+void SsfdcReset(ssfdc_dev *psm)
+{
+    _SetSsfdcCmd(psm, SSFDC_RST_CHIP);
+    _CheckSsfdcBusy(psm,BUSY_RESET);
+    _SetSsfdcCmd(psm,SSFDC_READ);
+    _CheckSsfdcBusy(psm,BUSY_READ);
+    _SetSsfdcStandby(psm);
+}
+
+void SsfdcWriteRedtMode(ssfdc_dev *psm)
+{
+    _SetSsfdcCmd(psm,SSFDC_RST_CHIP);
+    _CheckSsfdcBusy(psm,BUSY_RESET);
+    _SetSsfdcCmd(psm,SSFDC_READ_REDT);
+    _CheckSsfdcBusy(psm,BUSY_READ);
+    _SetSsfdcStandby(psm);
+}
+
+void SsfdcReadID(ssfdc_dev *psm, unsigned int *pid)
+{
+    _SetSsfdcCmd(psm,SSFDC_READ_ID);
+    _SetSsfdcChip(psm);
+    _ReadSsfdcWord(psm,pid);
+    _SetSsfdcStandby(psm);
+}
+
+int  SsfdcCheckStatus(ssfdc_dev *psm)
+{
+    _SetSsfdcCmd(psm,SSFDC_RDSTATUS);
+    if(_CheckSsfdcStatus(psm))
+        { _SetSsfdcStandby(psm);      return(ERROR); }
+    _SetSsfdcStandby(psm);
+    return(SUCCESS);
+}
+
+int  SsfdcReadSect(ssfdc_dev *psm, unsigned char *buf,unsigned char *redundant)
+{
+#if DEBUG_SSFDC_READ
+	 printk(KERN_DEBUG "SsfdcReadSect() - Zone %d LogBlock %d, PhyBlock %d, Sector %d\n",
+        psm->Zone, psm->LogBlock, psm->PhyBlock, psm->Sector);
+#endif
+    _SetSsfdcCmd(psm,SSFDC_READ);
+    _SetSsfdcAddr(psm, EVEN);
+    if(_CheckSsfdcBusy(psm,BUSY_READ))
+        { _ResetSsfdcErr(psm);        return(ERROR); }
+    _ReadSsfdcBuf(psm,buf,redundant);
+    if(_CheckSsfdcBusy(psm,BUSY_READ))
+        { _ResetSsfdcErr(psm);        return(ERROR); }
+    if((psm->Attribute &MPS)==PS256) {
+        _SetSsfdcCmd(psm,SSFDC_READ);
+        _SetSsfdcAddr(psm, ODD);
+        if(_CheckSsfdcBusy(psm,BUSY_READ))
+            { _ResetSsfdcErr(psm);    return(ERROR); }
+        _ReadSsfdcBuf(psm,buf+0x100,redundant+0x08);
+        if(_CheckSsfdcBusy(psm,BUSY_READ))
+            { _ResetSsfdcErr(psm);    return(ERROR); }
+    }
+    _SetSsfdcStandby(psm);
+    return(SUCCESS);
+}
+
+int  SsfdcWriteSect(ssfdc_dev *psm, unsigned char *buf, unsigned char *redundant)
+{
+#if DEBUG_SSFDC_WRITESECT
+	printk(KERN_DEBUG "SsfdcWriteSect() - Zone %d LogBlock %d, PhyBlock %d, Sector %d\n", \
+		psm->Zone, psm->LogBlock, psm->PhyBlock, psm->Sector);
+#endif
+    _SetSsfdcCmd(psm,SSFDC_WRDATA);
+    _SetSsfdcAddr(psm,EVEN);
+    _WriteSsfdcBuf(psm,buf,redundant);
+    _SetSsfdcCmd(psm,SSFDC_WRITE);
+    if(_CheckSsfdcBusy(psm,BUSY_PROG))
+        { _ResetSsfdcErr(psm); 
+#if DEBUG_SSFDC_WRITESECT
+			printk(KERN_DEBUG "SsfdcWriteSect() e 1\n");
+#endif
+		return(ERROR); }
+    if((psm->Attribute &MPS)==PS256) {
+        _SetSsfdcCmd(psm,SSFDC_RDSTATUS);
+        if(_CheckSsfdcStatus(psm))
+            { _SetSsfdcStandby(psm);  return(SUCCESS); }
+        _SetSsfdcCmd(psm,SSFDC_WRDATA);
+        _SetSsfdcAddr(psm,ODD);
+        _WriteSsfdcBuf(psm,buf+0x100,redundant+0x08);
+        _SetSsfdcCmd(psm,SSFDC_WRITE);
+        if(_CheckSsfdcBusy(psm,BUSY_PROG))
+            { _ResetSsfdcErr(psm);
+#if DEBUG_SSFDC_WRITESECT
+            printk(KERN_DEBUG "SsfdcWriteSect() e 2\n");
+#endif
+		    return(ERROR); }
+    }
+    _SetSsfdcStandby(psm);
+    return(SUCCESS);
+}
+
+int  SsfdcEraseBlock(ssfdc_dev *psm)
+{
+    _SetSsfdcCmd(psm,SSFDC_ERASE1);
+    _SetSsfdcBlock(psm);
+    _SetSsfdcCmd(psm,SSFDC_ERASE2);
+    if(_CheckSsfdcBusy(psm,BUSY_ERASE) || SsfdcCheckStatus(psm)) { 
+		_ResetSsfdcErr(psm);
+		return(ERROR);
+	}
+    _SetSsfdcStandby(psm);
+    return(SUCCESS);
+}
+
+int  SsfdcReadRedtData(ssfdc_dev *psm, unsigned char *redundant)
+{
+#if DEBUG_SSFDC_READREDT
+	printk(KERN_DEBUG " +");
+#endif
+    _SetSsfdcCmd(psm,SSFDC_READ_REDT);
+    _SetSsfdcAddr(psm,EVEN);
+    if(_CheckSsfdcBusy(psm,BUSY_READ))
+        { _ResetSsfdcErr(psm);        
+#if DEBUG_SSFDC_READREDT
+			printk(KERN_DEBUG " e 1\n");
+#endif
+		return(ERROR); }
+    _ReadRedtSsfdcBuf(psm, redundant);
+    if(_CheckSsfdcBusy(psm,BUSY_READ))
+        { _ResetSsfdcErr(psm);
+#if DEBUG_SSFDC_READREDT
+			printk(KERN_DEBUG " e 2\n");
+#endif
+	        return(ERROR); }
+    if((psm->Attribute &MPS)==PS256) {
+        _SetSsfdcCmd(psm,SSFDC_READ_REDT);
+        _SetSsfdcAddr(psm,ODD);
+        if(_CheckSsfdcBusy(psm,BUSY_READ))
+            { _ResetSsfdcErr(psm);
+#if DEBUG_SSFDC_READREDT
+				printk(KERN_DEBUG " e 3\n");
+#endif
+
+			    return(ERROR); }
+        _ReadRedtSsfdcBuf(psm, redundant+0x08);
+        if(_CheckSsfdcBusy(psm,BUSY_READ))
+            { _ResetSsfdcErr(psm);
+#if DEBUG_SSFDC_READREDT
+				printk(KERN_DEBUG " e 4\n");
+#endif
+			    return(ERROR); }
+    }
+    _SetSsfdcStandby(psm);
+#if DEBUG_SSFDC_READREDT
+	printk(KERN_DEBUG " -\n");
+#endif
+    return(SUCCESS);
+}
+
+int  SsfdcWriteRedtData(ssfdc_dev *psm, unsigned char *redundant)
+{
+    _SetSsfdcCmd(psm,SSFDC_WRDATA);
+    _SetSsfdcAddr(psm,EVEN);
+    _WriteRedtSsfdcBuf(psm,redundant);
+    _SetSsfdcCmd(psm,SSFDC_WRITE);
+    if(_CheckSsfdcBusy(psm,BUSY_PROG))
+        { _ResetSsfdcErr(psm);        return(ERROR); }
+    if((psm->Attribute &MPS)==PS256) {
+        _SetSsfdcCmd(psm,SSFDC_RDSTATUS);
+        if(_CheckSsfdcStatus(psm))
+            { _SetSsfdcStandby(psm);  return(SUCCESS); }
+        _SetSsfdcCmd(psm,SSFDC_WRDATA);
+        _SetSsfdcAddr(psm,ODD);
+        _WriteRedtSsfdcBuf(psm,redundant+0x08);
+        _SetSsfdcCmd(psm,SSFDC_WRITE);
+        if(_CheckSsfdcBusy(psm,BUSY_PROG))
+            { _ResetSsfdcErr(psm);    return(ERROR); }
+    }
+    _SetSsfdcStandby(psm);
+    return(SUCCESS);
+}
+
+/***************************************************************************
+    SmartMedia ID Code Check & Mode Set Subroutine
+ ***************************************************************************/
+int  SetSsfdcModel(ssfdc_dev *psm, unsigned char dcode)
+{
+    switch(_CheckDevCode(dcode))   {
+       	case SSFDC1MB:
+		psm->Model        = SSFDC1MB;
+		psm->Attribute    = FLASH | AD3CYC | BS16 | PS256;
+		psm->MaxZones     = 1;
+		psm->MaxBlocks    = 256;
+		psm->MaxLogBlocks = 250;
+		psm->MaxSectors   = 8;
+		break;
+       	case SSFDC2MB:
+		psm->Model        = SSFDC2MB;
+		psm->Attribute    = FLASH | AD3CYC | BS16 | PS256;
+		psm->MaxZones     = 1;
+		psm->MaxBlocks    = 512;
+		psm->MaxLogBlocks = 500;
+		psm->MaxSectors   = 8;
+		break;
+       	case SSFDC4MB:
+		psm->Model        = SSFDC4MB;
+		psm->Attribute    = FLASH | AD3CYC | BS16 | PS512;
+		psm->MaxZones     = 1;
+		psm->MaxBlocks    = 512;
+		psm->MaxLogBlocks = 500;
+		psm->MaxSectors   = 16;
+		break;
+       	case SSFDC8MB:
+		psm->Model        = SSFDC8MB;
+		psm->Attribute    = FLASH | AD3CYC | BS16 | PS512;
+		psm->MaxZones     = 1;
+		psm->MaxBlocks    = 1024;
+		psm->MaxLogBlocks = 1000;
+		psm->MaxSectors   = 16;
+		break;
+       	case SSFDC16MB:
+		psm->Model        = SSFDC16MB;
+		psm->Attribute    = FLASH | AD3CYC | BS32 | PS512;
+		psm->MaxZones     = 1;
+		psm->MaxBlocks    = 1024;
+		psm->MaxLogBlocks = 1000;
+		psm->MaxSectors   = 32;
+		break;
+       	case SSFDC32MB:
+		psm->Model        = SSFDC32MB;
+		psm->Attribute    = FLASH | AD3CYC | BS32 | PS512;
+		psm->MaxZones     = 2;
+		psm->MaxBlocks    = 1024;
+		psm->MaxLogBlocks = 1000;
+		psm->MaxSectors   = 32;
+		break;
+       	case SSFDC64MB:
+		psm->Model        = SSFDC64MB;
+		psm->Attribute    = FLASH | AD4CYC | BS32 | PS512;
+		psm->MaxZones     = 4;
+		psm->MaxBlocks    = 1024;
+		psm->MaxLogBlocks = 1000;
+		psm->MaxSectors   = 32;
+		break;
+	case SSFDC128MB:
+		psm->Model        = SSFDC128MB;
+		psm->Attribute    = FLASH | AD4CYC | BS32 | PS512;
+		psm->MaxZones     = 8;
+		psm->MaxBlocks    = 1024;
+		psm->MaxLogBlocks = 1000;
+		psm->MaxSectors   = 32;
+		break;
+	default:
+		psm->Model        = NOSSFDC;
+		return(ERROR);
+	}
+	return(SUCCESS);
+}
+
+/***************************************************************************/
+static unsigned char _CheckDevCode(unsigned char 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 */
+        default:    return(ERROR);
+    }
+}
+/***************************************************************************
+    SmartMedia Power Control Subroutine
+ ***************************************************************************/
+void CntReset(ssfdc_dev *psm)
+{
+    _HwSetStandby(psm);
+    _HwVccOff(psm);
+}
+
+int  CntPowerOn(ssfdc_dev *psm)
+{
+    _HwVccOn(psm);
+    _WaitTimer(TIME_PON);
+    if(_HwChkPower(psm))
+        return(SUCCESS);
+    _HwVccOff(psm);
+    return(ERROR);
+}
+
+#if 0	// remove for now
+static void mediachangetest(unsigned long dev_idx)
+{
+	ssfdc_dev *psm = ssfdc[dev_idx];
+	unsigned int cardpresent;
+	unsigned long flags;
+
+	spin_lock_irqsave( &psm->req_queue_lock, flags );
+	// bjm spin_lock( &psm->req_queue_lock);
+
+	del_timer(&mediachange_timer);
+
+	// check current card presence
+	if ( ! (cardpresent = CntPowerOn(psm)) && psm->CardPresent ) {
+		psm->MediaChange = 1;
+		psm->DataBuf_Valid = 0;
+	}
+	psm->CardPresent = cardpresent;
+
+	// set up to run again...
+	mediachange_timer.function = mediachangetest;
+	mediachange_timer.expires = jiffies + (HZ / 2);
+	mediachange_timer.data = dev_idx;
+	add_timer(&mediachange_timer);
+
+	spin_unlock_irqrestore( &psm->req_queue_lock, flags );
+	// bjm spin_unlock( &psm->req_queue_lock);
+}
+#endif
+
+int  CheckCardExist(ssfdc_dev *psm)
+{
+    char i,j,k;
+    if(! _HwChkStatus(psm))                   /***** Not Status Change *****/
+        if(_HwChkCardIn(psm)) return(SUCCESS);    /* Card exist in Slot */
+    for(i=0,j=0,k=0; i<0x10; i++) {
+        if(_HwChkCardIn(psm))                 /***** Status Change *****/
+             { j++; k=0; }
+        else { j=0; k++; }
+        if(j>3)     return(SUCCESS);            /* Card exist in Slot */
+        if(k>3)     return(ERROR);              /* NO Card exist in Slot */
+        _WaitTimer(TIME_CDCHK);
+    }
+    return(ERROR);
+}
+
+int  CheckSsfdcWP(ssfdc_dev *psm)
+{   /* ERROR: WP, SUCCESS: Not WP */
+    char i;
+    for(i=0; i<0x08; i++) {
+        if(_HwChkWP(psm))
+            return(ERROR);
+        _WaitTimer(TIME_WPCHK);
+    }
+    return(SUCCESS);
+}
+
+/******************************************/
+int  CheckCISdata(unsigned char *buf,unsigned char *redundant)
+{
+    static unsigned char cis[]={ 0x01,0x03,0xD9,0x01,0xFF,0x18,0x02,0xDF,0x01,0x20 };
+    unsigned char ecc1,ecc2,ecc3;
+    unsigned int err;
+    calculate_ecc(ecctable,buf,&ecc1,&ecc2,&ecc3);
+    err=correct_data(buf,redundant+0x0D,ecc1,ecc2,ecc3);
+    if(err==0 || err==1 || err==2)
+        return(StringCmp(buf,cis,10));
+    buf+=0x100;
+    calculate_ecc(ecctable,buf,&ecc1,&ecc2,&ecc3);
+    err=correct_data(buf,redundant+0x08,ecc1,ecc2,ecc3);
+    if(err==0 || err==1 || err==2)
+        return(StringCmp(buf,cis,10));
+    return(ERROR);
+}
+
+int  CheckECCdata(unsigned char *buf,unsigned char *redundant)
+{
+    unsigned char ecc1,ecc2,ecc3;
+    unsigned int err, corr=SUCCESS;
+    calculate_ecc(ecctable,buf,&ecc1,&ecc2,&ecc3);
+    err=correct_data(buf,redundant+0x0D,ecc1,ecc2,ecc3);
+    if(err==1 || err==2)    corr=CORRECT;
+    else if(err)            return(ERROR);
+    buf+=0x100;
+    calculate_ecc(ecctable,buf,&ecc1,&ecc2,&ecc3);
+    err=correct_data(buf,redundant+0x08,ecc1,ecc2,ecc3);
+    if(err==1 || err==2)    corr=CORRECT;
+    else if(err)            return(ERROR);
+    return(corr);
+}
+
+void SetECCdata(unsigned char *buf,unsigned char *redundant)
+{
+    calculate_ecc(ecctable,buf,redundant+0x0E,redundant+0x0D,redundant+0x0F);
+    buf+=0x100;
+    calculate_ecc(ecctable,buf,redundant+0x09,redundant+0x08,redundant+0x0A);
+}
+
+/***************************************************************************
+	Power Control & Media Exist Check Function
+ ***************************************************************************/
+
+/***************************************************************************
+	SmartMedia Read/Write/Erase Function
+ ***************************************************************************/
+static int MediaReadSector(ssfdc_dev *psm, struct request *req,
+				char * bbuf, long start,int count)
+{
+	char *buf;
+	int i, err, request_complete, 
+		PrevBlock = NO_ASSIGN;
+	int read_status=0;
+
+	if (ConvMediaAddr(psm, start)) {
+		printk(KERN_ERR "MediaReadSector() - bad address conversion\n");
+		goto read_exit;
+	}
+
+	psm->ReqSectorSize = count;
+	psm->BufIndex = 0;
+	psm->RetryCount = 0;
+
+#if DEBUG_SSFDC_READ
+	printk(KERN_DEBUG "MediaReadSector() - read %d sectors @ %d\n", psm->ReqSectorSize, start);
+#endif
+	while (psm->ReqSectorSize) {
+    	// if this PhyBlock is not assigned, fill with dummy data and return
+    	// An assigned block results in a card access and readsector schedule...
+    		if (psm->PhyBlock == NO_ASSIGN) {
+#if DEBUG_SSFDC_READ
+			printk(KERN_DEBUG "Read NO_ASSIGN block %x\n", psm->PhyBlock);
+#endif
+			buf = bbuf + psm->BufIndex;
+			for(i=0; i<SSFDC_SECTSIZE; i++)
+				*buf++=DUMMY_DATA;
+		}
+	    else {
+			// send our command
+			if (PrevBlock != psm->PhyBlock) {
+#if DEBUG_SSFDC_READ
+	printk(KERN_DEBUG "Read block %x\n", psm->PhyBlock);
+#endif
+				PrevBlock = psm->PhyBlock;
+				_SetSsfdcCmd(psm,SSFDC_READ);
+				_SetSsfdcAddr(psm, EVEN);
+				for (i=0; i<5; ++i) {
+					if (!_HwChkBusy(psm))
+						break;
+					udelay(10);
+				}
+			}
+
+
+			if ( _HwChkBusy(psm) ) {
+				++psm->Sect_rd_errs_ttl;
+#if DEBUG_SSFDC_READ
+				printk(KERN_DEBUG "MediaReadSector() - Hardware busy!\n");
+#endif
+			}
+			else {
+				++psm->Sector_reads;
+				_ReadSsfdcBuf( psm, psm->SectBuf, psm->Redundant);
+
+				// verify the integrity of what was read
+				if (CheckDataStatus(psm->Redundant)) {
+#if DEBUG_SSFDC_READ
+					printk(KERN_DEBUG "Bad Data Status\n");
+#endif
+					goto error_state;
+				}
+
+				switch (err = CheckECCdata(psm->SectBuf,psm->Redundant))
+				{
+					case CORRECT:
+						// Correctable data, fix and copy like SUCCESS
+						SetECCdata(psm->SectBuf,psm->Redundant);
+					case SUCCESS:
+						memcpy(bbuf + psm->BufIndex, psm->SectBuf, SSFDC_SECTSIZE);
+						break;
+
+					case ERROR:
+error_state:
+						++psm->Sect_rd_errs_ttl;
+#if DEBUG_SSFDC_READ
+						printk(KERN_DEBUG "readsector() - err == ERROR\n");
+#endif
+						_ResetSsfdcErr(psm);
+						if (++psm->RetryCount < RD_RETRY_LIMIT) {
+							continue;
+						}
+						break;
+					default:
+						ssfdc_terminate_request( psm, req);
+						break;
+				}
+ 
+			}	// if ( _HwChkBusy(psm) )
+		}	// if (psm->PhyBlock == NO_ASSIGN)
+
+		// common req/buffer management code for either unassigned or assigned
+		// block from /dev/ssfdc
+		psm->RetryCount = 0;
+		psm->BufIndex += SSFDC_SECTSIZE;
+		request_complete = (--psm->ReqSectorSize == 0);
+        	if (request_complete) {
+			// completed the read, req->buffer now has requested sector(s).
+        		// End the request waking sleeping process and reschedule initxfer().
+#if DEBUG_SSFDC_READ
+			printk(KERN_DEBUG "readsector() - req %x complete\n", req);
+#endif
+			read_status = 1;
+		}
+		else if (IncMediaAddr(psm)) {
+			printk(KERN_DEBUG "readsector() - IncMediaAddr() error.\n");
+			goto read_exit;
+		}
+	}	// while (psm->ReqSectorSize)
+
+read_exit:
+	psm->XferState = xfer_idle;
+
+	return read_status;
+
+}
+
+/*
+	ReadBlkCopy(ssfdc_dev *psm, unsigned char *buf)
+*/
+int ReadBlkCopy(ssfdc_dev *psm, unsigned char *buf, char *rd_sector_status)
+{
+	int err, read_error=0, rw_retry=0;
+	unsigned long PrevBlock=NO_ASSIGN;
+
+	if ( ! buf ) {
+		printk(KERN_ERR "NULL buffer pointer\n");
+		return ERROR;
+	}
+
+	if (psm->PhyBlock == NO_ASSIGN) {
+		memset(buf, 0xff, psm->MaxSectors * SSFDC_SECTSIZE);
+		memset(rd_sector_status, 1, sizeof(char) * MAX_SECTNUM);
+		return SUCCESS;
+	}
+
+#if 0
+	printk(KERN_ERR "ReadBlkCopy() - LogBlk %d\n", psm->LogBlock);
+#endif
+
+	for (psm->Sector = 0; 
+		psm->PhyBlock != NO_ASSIGN && psm->Sector < psm->MaxSectors; 
+		++psm->Sector) 
+	{
+		if (PrevBlock != psm->PhyBlock) {
+			_SetSsfdcCmd(psm,SSFDC_READ);
+			_SetSsfdcAddr(psm, EVEN);
+			PrevBlock = psm->PhyBlock;
+			_CheckSsfdcBusy(psm, BUSY_ADDR_SET);
+		}
+
+		if ( _HwChkBusy(psm) ) {
+			printk(KERN_ERR "%s: HW busy during block copy!\n", MAJOR_NAME);
+			goto error_state;
+		}
+
+		_ReadSsfdcBuf( psm, psm->SectBuf, psm->Redundant);
+		if (CheckDataStatus(psm->Redundant)) {
+			printk("KERN_ERR reading Block %d, sector %d\n", psm->PhyBlock, psm->Sector);
+			goto error_state;
+		}
+
+		// Attempt to correct
+		switch (err = CheckECCdata(psm->SectBuf,psm->Redundant))
+		{
+			case CORRECT:
+#if DEBUG_SSFDC_WRITE
+				printk(KERN_DEBUG "ReadBlkCopy() - err == CORRECT\n");
+#endif
+				SetECCdata(psm->SectBuf,psm->Redundant);
+			case SUCCESS:
+				read_error = 0;
+				rw_retry = 0;
+				memcpy(buf + (psm->Sector * SSFDC_SECTSIZE), psm->SectBuf, SSFDC_SECTSIZE);
+				rd_sector_status[psm->Sector] = 1;
+				read_error = 0;
+				break;
+
+			case ERROR:
+error_state:
+/*bjm*/ printk("ERR - ECC error reading Block %d, Sector %d\n", psm->PhyBlock,psm->Sector);
+#if DEBUG_SSFDC_WRITE
+				printk(KERN_DEBUG "ReadBlkCopy() - err == ERROR\n");
+				printk("_ResetSsfdcErr(psm)\n");
+#endif
+				_ResetSsfdcErr(psm);
+				PrevBlock = NO_ASSIGN;
+				if (++rw_retry < RD_RETRY_LIMIT) {
+					// retry current Sector/loop counter on next loop iteration.
+					--psm->Sector;
+				}
+				else {
+					// set sector data in copy buf to the unassigned value 0xFF
+					// next loop iteration will read next Sector, zero RetryCount 
+					// for next sectors read
+					// map bad sector...
+					memset(buf + psm->Sector * SSFDC_SECTSIZE, 0xFF, SSFDC_SECTSIZE);
+					rw_retry = 0;
+					rd_sector_status[psm->Sector] = 0;
+					++psm->Sect_rd_errs_ttl;
+					read_error = 1;
+				}
+#if DEBUG_SSFDC_WRITE
+				printk(KERN_DEBUG "Unable to read Blk %d Sector %d\n", psm->PhyBlock, psm->Sector);
+#endif
+				break;
+		}
+	}
+	if (!read_error) {
+		if (SsfdcEraseBlock(psm)) {
+			MarkFailPhyOneBlock(psm);
+			++psm->Bad_blks_erase;
+		}
+		else {
+			ClrBit(psm->Assign[psm->Zone], psm->PhyBlock);
+		}
+	}
+	else {
+		printk("Read error block %d\n", psm->PhyBlock);
+		MarkFailPhyOneBlock(psm);
+	}
+	psm->Sector = 0;
+	return read_error ? ERROR : SUCCESS;
+}
+
+/*
+	WriteBlock()
+*/
+int WriteBlock(ssfdc_dev *psm, char *buf, char *wr_sector_status)
+{
+	int write_error=0, reassign_retry=0;
+
+	for ( reassign_retry = 0; reassign_retry < REASSIGN_RETRY_LIMIT; ++reassign_retry)
+	{
+		/*
+		assign new write block for write req
+			- set new write address
+			- write buffer to new block
+		*/
+#if DEBUG_SSFDC_WRITE
+		if (AssignWriteBlock(psm,1)) {
+#else
+		if (AssignWriteBlock(psm,0)) {
+#endif
+			write_error = 1;
+			printk(KERN_ERR "sm%dd Unable to assign new write block.\n", psm->sm_minor); 
+			memset(wr_sector_status, 1, sizeof(char) * MAX_SECTNUM); 
+			// ssfdc_terminate_request(psm, req);
+			return ERROR;
+		}
+
+#if 0
+		printk(KERN_ERR "WriteBlock() - LogBlock %d\n", psm->LogBlock);
+#endif
+
+		for (psm->Sector = 0; psm->Sector < psm->MaxSectors; ++psm->Sector)
+		{
+			memcpy(psm->SectBuf,buf+psm->Sector*SSFDC_SECTSIZE,SSFDC_SECTSIZE);
+
+			_SetSsfdcCmd(psm,SSFDC_WRDATA);
+			_SetSsfdcAddr(psm,EVEN);
+			ClrRedundantData(psm->Redundant);
+			SetLogBlockAddr(psm,psm->Redundant);
+			SetECCdata(psm->SectBuf,psm->Redundant);
+			_WriteSsfdcBuf(psm,psm->SectBuf,psm->Redundant);
+
+#if DEBUG_SSFDC_WRITE
+			printk("%d ", psm->Sector);
+#endif
+
+			_SetSsfdcCmd(psm, SSFDC_WRITE);
+			if ( ! _CheckSsfdcBusy(psm, BUSY_PROG) && !SsfdcCheckStatus(psm)) {
+#if DEBUG_SSFDC_WRITE
+				printk("\nMulti-Sector write OK!\n");
+#endif
+				_SetSsfdcStandby(psm);
+				// mark status a success
+				wr_sector_status[psm->Sector] = 1;
+
+#if 0	// bjm removed
+				{	unsigned char parbuf[SSFDC_SECTSIZE];
+					unsigned char redtpar[REDTSIZE];
+
+					_SetSsfdcCmd(psm,SSFDC_READ);
+					_SetSsfdcAddr(psm, EVEN);
+
+					udelay(30);
+					if ( _HwChkBusy(psm) ) {
+						_ResetSsfdcErr(psm);
+						printk("paranoid read failure\n");
+					}
+					else {
+						_ReadSsfdcBuf(psm, parbuf, redtpar);
+						if (CheckDataStatus(redtpar)) {
+							printk("paranoid read, bad data status\n");
+						}
+						else {
+							switch( err = CheckECCdata(parbuf,redtpar))
+							{
+								case CORRECT:
+									printk("paranoid correctable\n");
+									SetECCdata(parbuf,redtpar);
+								case SUCCESS:
+									if (memcmp(parbuf,psm->SectBuf, SSFDC_SECTSIZE))
+										write_error = 1;
+									else
+										write_error = 0;
+									break;
+								case ERROR:
+									MarkFailPhyOneBlock(psm);
+									write_error=1;
+									break;
+							}
+						}
+					}
+				}	// bjm end of paranoid read back test...
+#endif
+			}
+			else {
+#if DEBUG_SSFDC_WRITE
+				printk("\nMulti-Sector write FAILED!\n");
+#endif
+				// mark status a failure
+				wr_sector_status[psm->Sector] = 0;
+				_ResetSsfdcErr(psm);
+				write_error = 1;
+				break;
+			}	// for (psm->Sector ...)
+			if (write_error)
+				break;
+		}
+		if ( ! write_error ) {
+			psm->Log2Phy[psm->Zone][psm->LogBlock] = psm->WriteBlock;	
+			break;
+		}
+	}
+	psm->Sector = 0;
+	return write_error ? ERROR : SUCCESS;
+}
+
+/* 
+	MediaWriteSector()
+
+*/
+static int MediaWriteSector(ssfdc_dev *psm, struct request *req, char * bbuf, long start, int count)
+{
+	int write_error=0, unwritten_block=0;
+	char *buf;
+	unsigned long curr_sector, blksize, PrevBlock;
+	unsigned long writebuf_index, readbio_index;
+	int i, sector,  rw_retry=0;
+	int sectors_in_block;
+	char rd_sector_status[MAX_SECTNUM];
+	char wr_sector_status[MAX_SECTNUM];
+
+	// optimized write, new vars
+	int	bio_endios=0;
+	int	bio_bvecs=0;
+	struct bio *bio;
+	// optimized for write
+
+#if DEBUG_SSFDC_WRITE
+	printk(KERN_DEBUG "+MediaWriteSector()\n");
+#endif
+
+	if (!count) {
+		printk("MediaWriteSector() count == 0!\n");
+		ssfdc_end_request(psm, req, 0);
+		return 1;
+	}
+
+	if (CheckMediaWP(psm)) {
+		printk(KERN_DEBUG "%s: write protected media.\n", MAJOR_NAME);
+		ssfdc_terminate_request( psm, req);
+		psm->XferState = xfer_idle;
+		return -EIO;
+	}
+
+	// allocate block size buffer
+	blksize = psm->MaxSectors * SSFDC_SECTSIZE;
+#if DEBUG_SSFDC_WRITE
+	printk(KERN_DEBUG "%s: Allocate %d sized block.\n", MAJOR_NAME, blksize);
+#endif
+	if ((buf = kmalloc(blksize, GFP_ATOMIC)) == NULL) {
+		printk(KERN_ERR "%s: Null buffer allocated!\n", MAJOR_NAME);
+		ssfdc_terminate_request( psm, req);
+		goto the_exit;
+	}
+
+	/*
+		Loop to handle a request at the curr_sector of count sectors.
+		The write operation my encompas more than one phys block.
+	*/
+	curr_sector = start;
+	sectors_in_block = 0;
+	// zero out our sector R/W status array
+	memset(rd_sector_status, 1, sizeof(char) * MAX_SECTNUM);
+	memset(wr_sector_status, 1, sizeof(char) * MAX_SECTNUM);
+
+	// rangecheck this sector within the device.
+	if (ConvMediaAddr(psm, curr_sector)) {
+		ssfdc_terminate_request(psm, req);
+		printk(KERN_ERR "WriteSector: ConvMediaAddr() error\n");
+#if DEBUG_SSFDC_WRITE
+		printk(KERN_DEBUG "-MediaWriteSector()\n");
+#endif
+		return 0;
+	}
+	
+#if DEBUG_SSFDC_WRITE
+		printk(KERN_DEBUG "MediaWriteSector() Zone %d, LogBlock %d PhyBlock %d, Sector %d\n",
+						psm->Zone,psm->LogBlock, psm->PhyBlock,psm->Sector);
+#endif
+
+	PrevBlock = NO_ASSIGN;
+	rw_retry = 0;
+
+#if DEBUG_SSFDC_WRITE
+	printk(KERN_DEBUG "Copy Zone %d, Phys %d\n", psm->Zone, psm->PhyBlock);
+#endif
+	// As a technique for wear leveling, a write to the SM results in the contents
+	// of the block to be copied into a blocksize buffer, the write data of the 
+	// write request being overlayed onto the buffer containing the copied block,
+	// a new logical to physical mapping defined, and the buffer written into this
+	// newly mapped (logically) physical block.
+
+	// read the physical block into the buffer.
+#if DEBUG_SSFDC_WRITE
+	printk(KERN_DEBUG "ReadBlock = %d LogBlock %d\n", psm->PhyBlock, psm->LogBlock);
+#endif
+	if (ReadBlkCopy(psm, buf, rd_sector_status) != SUCCESS) {
+		printk(KERN_ERR "Unable to read block.\n");
+		goto the_exit;
+	}
+
+#if DEBUG_SSFDC_WRITE
+	printk(KERN_DEBUG "Read from pending write request ");
+#endif
+		
+#if 0
+	int bio_idx=0;
+#endif
+	rq_for_each_bio(bio, req) {
+		struct bio_vec *bvec;
+		int i, break_flag=0;
+#if 0
+		int segment_idx;
+		printk(KERN_ERR "bio %d\n", bio_idx++);
+
+		segment_idx = 0;
+#endif
+		// bio_bvecs = 0;
+		bio_for_each_segment(bvec, bio, i) {
+#if 0
+			printk(KERN_ERR "segment %d\n", segment_idx++);
+#endif
+			// The conditions...
+			// bio fits within block
+			if (WriteReqInCurrBlk(psm,curr_sector + (bvec->bv_len >> 9) - 1,&sector)
+				&& WriteReqInCurrBlk(psm,curr_sector, &sector))
+			{
+#if 0
+				printk(KERN_ERR "LogBlk %d: write at %d, %d sectors\n", 
+							psm->LogBlock, curr_sector % psm->MaxSectors, bio_cur_sectors(bio));
+#endif
+				// write bio into copied block
+				++bio_bvecs;
+				writebuf_index = sector * SSFDC_SECTSIZE;
+#if 0
+				printk(KERN_ERR "memcpy buf at 0x%x, 0x%x bytes\n",
+						writebuf_index, bvec->bv_len);
+#endif
+				memcpy(buf + writebuf_index, 
+						page_address(bvec->bv_page) + bvec->bv_offset, bvec->bv_len);
+				unwritten_block = 1;
+				curr_sector += bvec->bv_len >> 9;
+			}
+			// bio fits partially within block
+			else if (WriteReqInCurrBlk(psm,curr_sector, &sector))
+			{
+				// put portion of bio in block
+				++bio_bvecs;
+				writebuf_index = sector * SSFDC_SECTSIZE;
+				sectors_in_block = psm->MaxSectors - sector;
+				readbio_index = sectors_in_block * SSFDC_SECTSIZE;
+#if 0
+				printk(KERN_ERR "memcpy buf at %x, %x bytes\n",
+						writebuf_index, readbio_index);
+#endif
+				memcpy(buf + writebuf_index, 
+					page_address(bvec->bv_page) + bvec->bv_offset, readbio_index);
+#if 0
+				printk(KERN_ERR "LogBlk %d: partial-write at %d, %d sectors first\n",
+								psm->LogBlock, curr_sector % psm->MaxSectors, sectors_in_block);
+#endif
+				// write block
+				unwritten_block = 0;
+				if (WriteBlock(psm, buf, wr_sector_status) != SUCCESS) {
+					printk(KERN_ERR "Unable to write block %d\n", psm->LogBlock);
+					// write_error - writing this block failed
+					break_flag = 1;
+					break;
+				}
+				// incr addr & read next block, 
+				curr_sector += sectors_in_block;
+				if (ConvMediaAddr(psm,curr_sector) != SUCCESS) {
+					printk(KERN_ERR "MediaWriteSector() IncMediaAddr() error!\n");
+					// write_error - address into next block is bogus
+					write_error = 1;
+					break_flag = 1;
+					break;
+				}
+				if (ReadBlkCopy(psm, buf, rd_sector_status) != SUCCESS) {
+					printk(KERN_ERR "MediaWriteSector() ReadBlkCopy() error!\n");
+					// write error - next block read error
+					write_error = 1;
+					break_flag =1;
+					break;
+				}
+				// write remainder of bio into block
+#if 0
+				printk(KERN_ERR "LogBlk %d: partial-write at %d, %d sectors, second write\n",
+					psm->LogBlock, curr_sector % psm->MaxSectors, (bvec->bv_len >> 9) - sectors_in_block);
+#endif
+#if 0
+				printk(KERN_ERR "memcpy buf at 0x%x, from bio 0x%x, for 0x%x bytes\n",
+						0, readbio_index, ((bvec->bv_len >> 9) - sectors_in_block) * SSFDC_SECTSIZE);
+#endif
+				memcpy(buf, (page_address(bvec->bv_page) + bvec->bv_offset) + readbio_index,
+								((bvec->bv_len >> 9) - sectors_in_block) * SSFDC_SECTSIZE);
+				writebuf_index = ((bvec->bv_len >> 9) - sectors_in_block) * SSFDC_SECTSIZE;
+				unwritten_block = 1;
+				curr_sector += (bvec->bv_len >> 9) - sectors_in_block;
+			}
+			// bio is not in block at all.  coplete unwritten block and exit loop.
+			else {
+				// write current block
+#if 0
+				printk(KERN_ERR "bio no longer in block\n");
+#endif
+				if (unwritten_block) {
+					if (WriteBlock(psm, buf, wr_sector_status) != SUCCESS) {
+						printk(KERN_ERR "MediaWriteSector() WriteBlock() error!\n");
+						// write_error
+					}
+					unwritten_block = 0;
+				}
+				break_flag = 1;
+				break;
+			}
+		}
+		// bjm if (bio_bvecs) +bio_bvecs;
+
+		if (break_flag)
+			break;
+	}
+
+	if (unwritten_block) {
+		if (WriteBlock(psm, buf, wr_sector_status) != SUCCESS) {
+			printk(KERN_ERR "MediaWriteSector() WriteBlock() error!\n");
+			write_error = 1;
+		}
+	}
+
+	if (!(bio_endios=bio_bvecs)) {
+		if (static_ssfdc_debug)
+			printk("no bios from request!\n");
+		++bio_endios;
+		write_error = 0;
+	}
+
+the_exit:
+	// log sector status for the copied/unmodified Sectors and flag any that have cpy errors
+	for (sector = 0; sector < psm->MaxSectors; ++sector) {
+		if ( ! rd_sector_status[sector] )
+			printk(KERN_ERR "%s: READ sector %d invalid for block %d!\n", \
+					MAJOR_NAME, sector, psm->LogBlock); 
+		if ( ! wr_sector_status[sector])
+			printk(KERN_ERR "%s: WRITTEN sector %d invalid for block %d!\n", \
+					MAJOR_NAME, sector, psm->LogBlock); 
+	}
+
+	// free our prev allocated block for copy...
+	if (buf)
+		kfree(buf);
+
+	psm->XferState = xfer_idle;
+
+#if DEBUG_SSFDC_WRITE
+	printk(KERN_DEBUG "-MediaWriteSector()\n");
+#endif
+	if (static_ssfdc_debug)
+		printk("end_request(%d) ", ! write_error);
+	for (i = 0; i < bio_endios; ++i) {
+		if (static_ssfdc_debug)
+			printk("%d ", i);
+		ssfdc_end_request(psm, req, ! write_error);
+	}
+	if (static_ssfdc_debug)
+		printk("\n");
+
+	return ! write_error;
+
+}
+
+
+/***************************************************************************
+	SmartMedia Logical Format Subroutine
+ ***************************************************************************/
+int CheckLogCHS(ssfdc_dev *psm, unsigned int *c,unsigned char *h,unsigned char *s)
+{
+	switch(psm->Model) {
+		case SSFDC1MB:  	*c=125;	*h= 4;	*s= 4;	break;
+		case SSFDC2MB:  	*c=125;	*h= 4;	*s= 8;	break;
+		case SSFDC4MB:  	*c=250;	*h= 4;	*s= 8;	break;
+		case SSFDC8MB:  	*c=250;	*h= 4;	*s=16;	break;
+		case SSFDC16MB: 	*c=500;	*h= 4;	*s=16;	break;
+		case SSFDC32MB: 	*c=500;	*h= 8;	*s=16;	break;
+		case SSFDC64MB: 	*c=500;	*h= 8;	*s=32;	break;
+		case SSFDC128MB:	*c=500;	*h=16;	*s=32;	break;
+		default:
+        	*c= 0; *h= 0; *s= 0;
+			psm->ErrCode=ERR_NoSmartMedia;
+			return(ERROR);
+	}
+	return(SUCCESS);
+}
+/***************************************************************************
+	Power Control & Media Exist Check Subroutine
+ ***************************************************************************/
+
+int CheckMediaWP(ssfdc_dev *psm)
+{
+	if(psm->Attribute &MWP)
+		{ psm->ErrCode=ERR_WrtProtect;	return(ERROR); }
+	return(SUCCESS);
+}
+
+/***************************************************************************
+	SmartMedia Physical Address Control Subroutine
+ ***************************************************************************/
+int ConvMediaAddr(ssfdc_dev *psm, long addr)
+{
+	long temp;
+	temp          =addr/psm->MaxSectors;
+	psm->Sector  =addr%psm->MaxSectors;
+	psm->LogBlock=temp%psm->MaxLogBlocks;
+	psm->Zone    =temp/psm->MaxLogBlocks;
+	if(psm->Zone<psm->MaxZones) {
+		ClrRedundantData(psm->Redundant);
+		SetLogBlockAddr(psm,psm->Redundant);
+		psm->PhyBlock=psm->Log2Phy[psm->Zone][psm->LogBlock];
+#if DEBUG_SSFDC_ASSIGNRELEASE
+		printk(KERN_DEBUG "ConvMediaAddr() LogBlock %d -> PhyBlock %d\n", 
+			psm->LogBlock, psm->PhyBlock);
+#endif
+		return(SUCCESS);
+	}
+	psm->ErrCode=ERR_OutOfLBA;
+	return(ERROR);
+}
+
+int IncMediaAddr(ssfdc_dev *psm)
+{
+	if(++psm->Sector<psm->MaxSectors)
+		return(SUCCESS);
+	psm->Sector=0;
+	if(++psm->LogBlock<psm->MaxLogBlocks) {
+		ClrRedundantData(psm->Redundant);
+		SetLogBlockAddr(psm,psm->Redundant);
+		psm->PhyBlock=psm->Log2Phy[psm->Zone][psm->LogBlock];
+#if DEBUG_SSFDC_ASSIGNRELEASE
+		printk(KERN_DEBUG "IncMediaAddr() PhyBlock %d <- LogBlock %d\n", 
+			psm->PhyBlock, psm->LogBlock);
+#endif
+		return(SUCCESS);
+	}
+	psm->LogBlock=0;
+	if(++psm->Zone<psm->MaxZones) {
+		ClrRedundantData(psm->Redundant);
+		SetLogBlockAddr(psm,psm->Redundant);
+		psm->PhyBlock=psm->Log2Phy[psm->Zone][psm->LogBlock];
+#if DEBUG_SSFDC_ASSIGNRELEASE
+		printk(KERN_DEBUG "IncMediaAddr() PhyBlock %d <- LogBlock %d\n", 
+			psm->PhyBlock, psm->LogBlock);
+#endif
+		return(SUCCESS);
+	}
+	psm->Zone=0;
+	psm->ErrCode=ERR_OutOfLBA;
+	return(ERROR);
+}
+
+/***************************************************************************/
+
+
+static int WriteReqInCurrBlk(ssfdc_dev *psm, long sector, int *blksector)
+{
+	long temp;
+	unsigned char   Zone;         /* Zone Number */
+	unsigned int    LogBlock;     /* Logical Block Number of Zone */
+
+	if (!psm)
+		return 0;
+
+	temp = sector / psm->MaxSectors;
+	*blksector = sector % psm->MaxSectors;
+	LogBlock = temp % psm->MaxLogBlocks;
+	Zone = temp / psm->MaxLogBlocks;
+
+	return (psm->LogBlock == LogBlock && psm->Zone == Zone);
+}
+
+/***************************************************************************
+	SmartMedia Read/Write Subroutine with Retry
+ ***************************************************************************/
+
+/***************************************************************************
+	SmartMedia Physical Block Assign/Release Subroutine
+ ***************************************************************************/
+int AssignWriteBlock(ssfdc_dev *psm, int verbose_flag)
+{
+	psm->ReadBlock=psm->PhyBlock;
+#if DEBUG_SSFDC_WRITE
+	int Zonesave=psm->Zone, ZoneIndex;
+#endif
+
+#if DEBUG_SSFDC_WRITE
+	if (verbose_flag) {
+		printk("AssignWriteBlock() verbose mode. psm->Zone %d\n",psm->Zone);
+		for (psm->Zone = 0; psm->Zone < psm->MaxZones; psm->Zone++) {
+			int free_blk=0;
+			printk("\tZone %d, AssignStart %d and ", psm->Zone, psm->AssignStart[psm->Zone]);
+			for (psm->WriteBlock=0; psm->WriteBlock < psm->MaxLogBlocks; psm->WriteBlock++)
+				if (! ChkBit(psm->Assign[psm->Zone],psm->WriteBlock)) ++free_blk;
+			printk("%d free blocks.\n", free_blk);
+		}
+		psm->Zone = Zonesave;
+	}
+#endif
+	for(psm->WriteBlock=psm->AssignStart[psm->Zone]; psm->WriteBlock<psm->MaxBlocks; psm->WriteBlock++)
+		if(! ChkBit(psm->Assign[psm->Zone],psm->WriteBlock)) {
+			SetBit(psm->Assign[psm->Zone],psm->WriteBlock);
+			psm->AssignStart[psm->Zone]=psm->WriteBlock+1;
+			psm->PhyBlock=psm->WriteBlock;
+			psm->SectCopyMode=REQ_ERASE;
+#if DEBUG_SSFDC_ASSIGNRELEASE
+    printk(KERN_DEBUG "AssignWriteBlock() - WriteBlock %d ReadBlock %d LogBlock %d\n",
+            psm->WriteBlock, psm->ReadBlock, psm->LogBlock);
+#endif
+			return(SUCCESS);
+		} 
+	for(psm->WriteBlock=0; psm->WriteBlock<psm->AssignStart[psm->Zone]; psm->WriteBlock++)
+		if(! ChkBit(psm->Assign[psm->Zone],psm->WriteBlock)) {
+			SetBit(psm->Assign[psm->Zone],psm->WriteBlock);
+			psm->AssignStart[psm->Zone]=psm->WriteBlock+1;
+			psm->PhyBlock=psm->WriteBlock;
+			psm->SectCopyMode=REQ_ERASE;
+#if DEBUG_SSFDC_ASSIGNRELEASE
+    printk(KERN_DEBUG "AssignWriteBlock() - WriteBlock %d PhyBlock %d LogBlock %d\n",
+            psm->WriteBlock, psm->PhyBlock, psm->LogBlock);
+#endif
+			return(SUCCESS);
+		}
+	psm->WriteBlock=NO_ASSIGN;
+	psm->ErrCode=ERR_WriteFault;
+	return(ERROR);
+}
+
+/***************************************************************************
+	SmartMedia Physical Format Check Local Subroutine
+ ***************************************************************************/
+static int SetPhyFmtValue(ssfdc_dev *psm)
+{
+	unsigned int idcode;
+	SsfdcReadID(psm, &idcode);
+	if(SetSsfdcModel(psm,(unsigned char)idcode))
+		return(ERROR);
+	if(CheckSsfdcWP(psm))
+	 	psm->Attribute|=WP;
+	return(SUCCESS);
+}
+
+static int SearchCIS(ssfdc_dev *psm, unsigned int *pcis)
+{
+	psm->Zone=0;	psm->Sector=0;
+	for(psm->PhyBlock=0; psm->PhyBlock<(psm->MaxBlocks-psm->MaxLogBlocks-1); psm->PhyBlock++) {
+		if(SsfdcReadRedtData(psm, psm->Redundant))
+			{ SsfdcReset(psm);	 	return(ERROR); }  
+		if(! CheckFailBlock(psm->Redundant)) {
+			if(CheckCisBlock(psm->Redundant))
+				{ SsfdcReset(psm);	return(ERROR); }  
+			break;
+		}
+	}
+	while(psm->Sector<psm->MaxSectors) {
+		if(psm->Sector)
+			if(SsfdcReadRedtData(psm, psm->Redundant))
+				{ SsfdcReset(psm);	return(ERROR); } 
+		if(! CheckDataStatus(psm->Redundant)) {
+			if(SsfdcReadSect(psm,psm->WorkBuf,psm->Redundant))
+				{ SsfdcReset(psm);	return(ERROR); } 
+			if(CheckCISdata(psm->WorkBuf,psm->Redundant))
+				{ SsfdcReset(psm);	return(ERROR); }
+			*pcis=psm->PhyBlock;
+			SsfdcReset(psm); 
+			return(SUCCESS);
+		}
+		psm->Sector++;
+	}
+	SsfdcReset(psm); 
+	return(ERROR);
+}
+
+/***************************************************************************/
+static int MakeLogTable(ssfdc_dev *psm, unsigned int start)
+{
+	unsigned int block;
+	unsigned int blk_total=0, blk_blank=0, blk_nologaddr=0,
+				 blk_fail=0, blk_assigned=0;
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "MakeLogTable()\n");
+#endif
+	psm->DataBuf_Valid = 1;
+	psm->Sector=0;
+	for(psm->Zone=0; psm->Zone<psm->MaxZones; psm->Zone++) {
+		/* set all LogBlocks to NO_ASSIGN */
+		for(psm->LogBlock=0; psm->LogBlock<psm->MaxLogBlocks; psm->LogBlock++)
+			psm->Log2Phy[psm->Zone][psm->LogBlock]=NO_ASSIGN;
+		/* for all Assigns[zone][PhyBlock] = 0x00 */
+		for(psm->PhyBlock=0; psm->PhyBlock<(MAX_BLOCKNUM/8); psm->PhyBlock++)
+			psm->Assign[psm->Zone][psm->PhyBlock]=0x00;
+		/*******************************************************************/
+		for(psm->PhyBlock=0; psm->PhyBlock<psm->MaxBlocks; psm->PhyBlock++) {
+			if((! psm->Zone) && (psm->PhyBlock<start)) {
+				SetBit(psm->Assign[psm->Zone],psm->PhyBlock);
+				continue;
+			}
+			++blk_total;
+			if(SsfdcReadRedtData(psm,psm->Redundant)) {
+				SsfdcReset(psm);  
+#if 0
+				printk(KERN_ERR "error 1 PhyBlock %d\n", psm->PhyBlock); 
+#endif
+				return(ERROR);
+			}
+			if(! CheckDataBlank(psm->Redundant)) {
+				++blk_blank;
+				continue;
+			}
+			SetBit(psm->Assign[psm->Zone],psm->PhyBlock);
+			if(CheckFailBlock(psm->Redundant)) {
+#if 0
+				printk("Zone %d, Block %d failed\n", psm->Zone, psm->PhyBlock);
+#endif
+				++blk_fail;
+				continue;
+			}
+			if(LoadLogBlockAddr(psm)) {
+				++blk_nologaddr;
+				continue;
+			}
+			if(psm->LogBlock>=psm->MaxLogBlocks)
+				continue;
+			++blk_assigned;
+			if(psm->Log2Phy[psm->Zone][psm->LogBlock]==NO_ASSIGN) {
+#if DEBUG_SSFDC_ASSIGNRELEASE
+				if (psm->LogBlock == 0)
+    				printk(KERN_DEBUG "MakeLogTable() LogBlock %d = PhyBlock %d\n",
+            			psm->LogBlock, psm->PhyBlock);
+#endif
+				psm->Log2Phy[psm->Zone][psm->LogBlock]=psm->PhyBlock;
+				continue;
+			}
+			psm->Sector=psm->MaxSectors-1;
+			if(SsfdcReadRedtData(psm,psm->Redundant)) {
+				SsfdcReset(psm); 
+#if 0
+				printk(KERN_ERR "error 2\n"); 
+#endif
+				return(ERROR);
+			}
+			psm->Sector=0;
+			block=psm->LogBlock;
+			if(! LoadLogBlockAddr(psm)) 
+				if(psm->LogBlock==block) {
+#ifdef L2P_ERR_ERASE	/***************************************************/
+					block=psm->Log2Phy[psm->Zone][psm->LogBlock];
+					psm->Log2Phy[psm->Zone][psm->LogBlock]=psm->PhyBlock;
+					psm->PhyBlock=block;
+					if(!(psm->Attribute &MWP)) {
+						SsfdcReset(psm);
+						if(SsfdcEraseBlock(psm)) {
+							printk(KERN_ERR "error 3\n");
+							return(ERROR);
+						}
+						if(SsfdcCheckStatus(psm)) {
+							if(MarkFailPhyOneBlock(psm)) {
+								printk(KERN_ERR "error 4\n");
+								return(ERROR); 
+							}
+						}
+						else ClrBit(psm->Assign[psm->Zone],psm->PhyBlock);
+					}
+					psm->PhyBlock=psm->Log2Phy[psm->Zone][psm->LogBlock];
+#else	/*******************************************************************/
+					psm->Log2Phy[psm->Zone][psm->LogBlock]=psm->PhyBlock;
+#endif	/*******************************************************************/
+					continue;
+				}
+#ifdef L2P_ERR_ERASE	/***************************************************/
+			if(!(psm->Attribute &MWP)) {
+				SsfdcReset(psm);
+				if(SsfdcEraseBlock(psm)) {
+					printk(KERN_ERR "error 5\n"); 
+					return(ERROR);
+				}
+				if(SsfdcCheckStatus(psm)) {
+					if(MarkFailPhyOneBlock(psm)) {
+						printk(KERN_ERR "error 6\n");
+						return(ERROR);
+					}
+				}
+				else ClrBit(psm->Assign[psm->Zone],psm->PhyBlock);
+			}
+#endif	/*******************************************************************/
+		}
+		psm->AssignStart[psm->Zone]=0;
+	}
+	SsfdcReset(psm);
+#if 0
+	printk("MakeLogTable()\n");
+	printk("\t%d failed\n", blk_fail);
+	printk("\t%d blank\n", blk_blank);
+	printk("\t%d assigned\n", blk_assigned);
+	printk("\t%d no logical addr\n", blk_nologaddr);
+	printk("\n\t%d total\n", blk_total);
+	printk("\t%d sum total\n", blk_fail + blk_blank + blk_assigned + blk_nologaddr);
+#endif
+	return(SUCCESS);
+}
+
+/***************************************************************************/
+static int MarkFailPhyOneBlock(ssfdc_dev *psm)
+{
+	unsigned char sect;
+	sect=psm->Sector;
+	SetFailBlock(psm->WorkRedund);
+	SsfdcWriteRedtMode(psm); 
+	for(psm->Sector=0; psm->Sector<psm->MaxSectors; psm->Sector++)
+		if(SsfdcWriteRedtData(psm,psm->WorkRedund)) {
+			SsfdcReset(psm);
+			psm->Sector=sect;
+			psm->ErrCode=ERR_HwError;
+			return(ERROR);
+		}	/* NO Status Check */
+	SsfdcReset(psm);	
+	psm->Sector=sect;
+	return(SUCCESS);
+}
+
+/***************************************************************************
+	SmartMedia Control subroutine
+	Rev 0.30('98-06-30)  ***** BETA RELEASE *****
+	Copyright (c) 1997-98, Toshiba Corporation.  All rights reserved.
+ ***************************************************************************/
+
+
+/* Linux Driver Modifications */
+/*
+dump_ssfdc_state
+*/
+#if DEBUG_SSFDC
+void dump_ssfdc_state(ssfdc_dev * psm)
+{
+#if DEBUG_SSFDC_STRUCT
+	// misc structure dump information
+	printk(KERN_DEBUG "psm->\n");
+	/* unsigned long   */ printk(KERN_DEBUG "\t address %x\n", psm->address);
+    /* int             */ printk(KERN_DEBUG "\t sm_minor %d\n",psm->sm_minor);
+    /* struct dentry   printk(KERN_DEBUG "\t *sm_dentry %x\n",psm->sm_dentry );*/ 
+    /* kdev_t          */ printk(KERN_DEBUG "\t sm_device %x\n",psm->sm_device);
+    /* int             */ printk(KERN_DEBUG "\t sm_flags %x\n",psm->sm_flags);
+    /* unsigned int    */ printk(KERN_DEBUG "\t UseCount %d\n",psm->UseCount);
+    /* unsigned int    */ printk(KERN_DEBUG "\t ErrCode %d\n",psm->ErrCode);
+    /* unsigned int    */ printk(KERN_DEBUG "\t MediaChange %d\n",psm->MediaChange);
+    /* unsigned int    */ printk(KERN_DEBUG "\t SectCopyMode %d\n",psm->SectCopyMode);                                                                              
+    /* unsigned int    */ printk(KERN_DEBUG "\t HostCyl %d\n",psm->HostCyl );
+    /* unsigned char   */ printk(KERN_DEBUG "\t HostHead %d\n",psm->HostHead );
+    /* unsigned char   */ printk(KERN_DEBUG "\t HostSect %d\n",psm->HostSect );
+    /* unsigned int  */ printk(KERN_DEBUG "\t ReadBlock %d\n",psm->ReadBlock );
+    /* unsigned int  */ printk(KERN_DEBUG "\t WriteBlock %d\n",psm->WriteBlock );
+ 
+    /* Card attributes */
+    /* unsigned char */ printk(KERN_DEBUG "\t Model %d\n",psm->Model );
+    /* unsigned char */ printk(KERN_DEBUG "\t Attribute %x\n",psm->Attribute );
+    /* unsigned char */ printk(KERN_DEBUG "\t MaxZones %d\n",psm->MaxZones );
+    /* unsigned char */ printk(KERN_DEBUG "\t MaxSectors %d\n",psm->MaxSectors );
+    /* unsigned int  */ printk(KERN_DEBUG "\t MaxBlocks %d\n",psm->MaxBlocks );
+    /* unsigned int  */ printk(KERN_DEBUG "\t MaxLogBlocks %d\n",psm->MaxLogBlocks );
+    /* unsigned char */ printk(KERN_DEBUG "\t Zone %d\n",psm->Zone );
+    /* unsigned char */ printk(KERN_DEBUG "\t Sector %d\n",psm->Sector );
+    /* unsigned int  */ printk(KERN_DEBUG "\t PhyBlock %d\n",psm->PhyBlock );
+    /* unsigned int  */ printk(KERN_DEBUG "\t LogBlock %d\n",psm->LogBlock );
+#endif
+}
+#endif
+
+typedef struct {
+	int sm_error;
+	int lnx_error;
+	char *smerrstr;
+} errmap;
+
+static errmap error_map_table [] = {
+	{ NO_ERROR,	0x0000, ""},
+	{ ERR_WriteFault,	EIO, "Peripheral Device Write Fault	"},
+	{ ERR_HwError,	EIO, "Hardware Error"},
+	{ ERR_DataStatus,	EIO, "DataStatus Error"},
+	{ ERR_EccReadErr, EIO, "Unrecovered Read Error" },
+	{ ERR_CorReadErr, EIO, "Recovered Read Data with ECC" },
+	{ ERR_OutOfLBA, EIO, "Illegal Logical Block Address" },
+	{ ERR_WrtProtect, EROFS, "Write Protected" },
+	{ ERR_ChangedMedia, EIO, "Medium Changed" },
+	{ ERR_UnknownMedia, EIO, "Incompatible Medium Installed" },
+	{ ERR_IllegalFmt, EIO, "Medium Format Corrupted" },
+	{ ERR_NoSmartMedia, EIO, "Medium Not Present" } 
+};
+
+static int ssfdc_maperror(int ssfdc_error) {
+	int loopus=0;
+
+	if (!ssfdc_error) return 0;
+
+	do {
+		if (error_map_table[loopus].sm_error == ssfdc_error) {
+			printk("%s\n", error_map_table[loopus].smerrstr);
+			return -error_map_table[loopus].lnx_error;
+		}
+	} while (++loopus < (sizeof(error_map_table) / (sizeof(errmap))));
+
+	printk(KERN_ERR "%s: error code %d is not mapped, EIO\n", MAJOR_NAME, ssfdc_error);
+	return -EIO;
+}
+
+static int ssfdc_thread(void * arg)
+{
+	ssfdc_dev *psm = arg;
+	unsigned long flags;
+
+	daemonize("sm%dd",psm->sm_minor);
+
+	spin_lock_irqsave(&current->sighand->siglock,flags); // _irq
+	sigfillset(&current->blocked);
+	recalc_sigpending();
+	spin_unlock_irqrestore(&current->sighand->siglock,flags); // _irq
+
+	while (!psm->exiting) {
+		if ( ssfdc_get_request(psm) )
+			initxfer(psm->sm_minor);
+
+		spin_lock_irqsave(&psm->req_queue_lock,flags); // _irq
+		// bjm spin_lock(&psm->req_queue_lock); // _irq
+		psm->waiting = 0;
+		spin_unlock_irqrestore(&psm->req_queue_lock,flags); // _irq
+		// bjm spin_unlock(&psm->req_queue_lock); // _irq
+		if (wait_event_interruptible(psm->thread_wq,ssfdc_get_request(psm)))
+			printk("ssfdc_thread() interrupted\n");
+		// wait_event(psm->thread_wq,ssfdc_get_request(psm));
+		spin_lock_irqsave(&psm->req_queue_lock,flags); // _irq
+		// bjm spin_lock(&psm->req_queue_lock); // _irq
+		psm->waiting = 1;
+		spin_unlock_irqrestore(&psm->req_queue_lock,flags); // _irq
+		// bjm spin_unlock(&psm->req_queue_lock); // _irq
+	}
+
+	printk("ssfdcd Exiting!\n");
+
+	complete_and_exit(&psm->thread_dead, 0);
+
+}
+
+/*
+ssfdc_init_device(ssfdc_dev *, int minor, unsigned long baseaddr, int removable)
+	reset and initialize the ssfdc_dev structure
+*/
+static int ssfdc_init_device(ssfdc_dev *psm, int minor, unsigned long baseaddr)
+{
+	int pid;
+
+	// Establish ssfdc state
+	psm->XferState = xfer_idle;
+	psm->ErrCode = NO_ERROR;
+	psm->MediaChange = SUCCESS;
+	psm->SectCopyMode = COMPLETED;
+	psm->UseCount = 0; 
+	psm->DataBuf_Valid = 0;
+
+	// set minor number
+	psm->sm_minor = minor;
+	// io address
+	psm->address = baseaddr;
+	if (!request_region(psm->address, 3, "sm")) {
+		printk(KERN_ERR "sm: memory already in use!\n");
+		return ERROR;
+	}
+	spin_lock_init(&psm->req_queue_lock);
+
+	// thread related inititializations...
+	init_completion(&psm->thread_dead);
+	init_waitqueue_head(&psm->thread_wq);
+
+	pid = kernel_thread(ssfdc_thread, psm, CLONE_KERNEL);
+	if (pid < 0)
+		printk("ssfdc: ERROR starting thread!\n");
+	else
+		printk("ssfdc: started kernel thread sm%dd pid %d\n", psm->sm_minor, pid);
+
+	// switch on power to device, and set basic attributes of card (no logical to phys mapping)
+	if ( ! CntPowerOn(psm) && ! CheckCardExist(psm) ) {
+		SetPhyFmtValue(psm);
+	}
+	else {
+		printk(KERN_ERR "ssfdc_init_device() unable to SetPhyFmtValue()\n");
+	}
+
+#if DEBUG_SSFDC
+	dump_ssfdc_state(psm);
+#endif
+
+	return SUCCESS;
+}
+
+static int ssfdc_dev_blk_size(ssfdc_dev *psm)
+{
+	if (!psm)
+		return 0;
+
+	// because of the physical to logical block mapping, not as many blocks
+	// as expected...
+	switch(psm->Model) {
+		case SSFDC1MB:
+			return (250 * 8 * 512) / SSFDC_BLKSIZE;
+		case SSFDC2MB:
+			return (500 * 8 * 512) / SSFDC_BLKSIZE;
+		case SSFDC4MB:
+			return (500 * 16 * 512) / SSFDC_BLKSIZE;
+		case SSFDC8MB:
+			return (1000 * 16 * 512) / SSFDC_BLKSIZE;
+		case SSFDC16MB:
+			return (1000 * 32 * 512) / SSFDC_BLKSIZE;
+		case SSFDC32MB:
+			return (2000 * 32 * 512) / SSFDC_BLKSIZE;
+		case SSFDC64MB:
+			return (4000 * 32 * 512) / SSFDC_BLKSIZE;
+		case SSFDC128MB:
+			return (8000 * 32 * 512) / SSFDC_BLKSIZE;
+		default:
+			return 0;
+	}
+}
+
+inline int ssfdc_dev_sectors(ssfdc_dev *psm) {
+	return ssfdc_dev_blk_size(psm) * (SSFDC_BLKSIZE/SSFDC_SECTSIZE);
+}
+
+static int ssfdc_open(struct inode *in, struct file *fptr) 
+{ 
+	int error_code=NO_ERROR;
+	ssfdc_dev *psm = in->i_bdev->bd_disk->private_data;
+	unsigned long flags;
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "+ssfdc_open()\n");
+#endif
+
+	if (!fptr) {
+		return -EIO;
+	}
+
+	spin_lock_irqsave(&psm->req_queue_lock,flags);
+	// bjm spin_lock(&psm->req_queue_lock);
+	// Power up smartmedia device, check for card, check media
+	if ((error_code=CntPowerOn(psm))) {
+		printk(KERN_ERR "%s PowerUP error\n", MAJOR_NAME);
+	}
+	else if ((error_code=CheckCardExist(psm))) {// Check the existence of a card
+		printk(KERN_ERR "%s No Card!\n", MAJOR_NAME);
+	}
+	else if ( ! psm->UseCount++ ) {
+		spin_unlock_irqrestore(&psm->req_queue_lock,flags);
+		// bjm spin_unlock(&psm->req_queue_lock);
+		check_disk_change(in->i_bdev);
+		spin_lock_irqsave(&psm->req_queue_lock,flags);
+		// bjm spin_lock(&psm->req_queue_lock);
+	}
+
+	if ( ! psm->ErrCode ) {
+		// check our open mode against that of removable media's
+		if (WRITE_PROTECTED(psm)) {
+			printk(KERN_ERR "mount read only detected.\n");
+		}
+	}
+
+#if DEBUG_SSFDC
+	dump_ssfdc_state(psm);
+    printk(KERN_DEBUG "-ssfdc_open() error_code %d\n", error_code);
+#endif
+
+	spin_unlock_irqrestore(&psm->req_queue_lock,flags);
+
+#if DEBUG_SSFDC
+	printk("-ssfdc_open()\n");
+#endif
+
+	return ssfdc_maperror(error_code);
+}
+
+static int ssfdc_release(struct inode *i_node, struct file *fptr)
+{
+	int drive;
+    ssfdc_dev *psm=NULL;
+	unsigned long flags;
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "+ssfdc_release("); 
+#endif
+
+	psm = (ssfdc_dev *) i_node->i_bdev->bd_disk->private_data;
+	drive = psm->sm_minor;
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "%d)\n", drive); 
+#endif
+	if (drive < 0 || drive >= MAX_SSFDC)
+        	return -ENODEV;
+  
+	spin_lock_irqsave(&psm->req_queue_lock,flags);
+	// bjm spin_lock(&psm->req_queue_lock);
+
+	if (!psm->UseCount)
+		printk(KERN_ERR "sm: Zero use count!\n");
+	else {
+		--psm->UseCount;
+	}
+
+#if DEBUG_SSFDC
+	dump_ssfdc_state(psm);
+#endif
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "-ssfdc_release()\n");
+#endif
+
+	spin_unlock_irqrestore(&psm->req_queue_lock,flags);
+	// bjm spin_unlock(&psm->req_queue_lock);
+
+	return 0;
+}
+
+static int ssfdc_ioctl(struct inode *i_node, struct file *fptr, unsigned cmd, unsigned long arg)
+{
+	int err, drive, int_val;
+	unsigned char heads, sectors;
+	unsigned int cylinders;
+	struct hd_geometry  geo;
+	ssfdc_dev *psm;
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "ssfdc_ioctl(%d)", cmd);
+#endif
+
+	if (i_node == NULL)
+		return -EINVAL;
+
+	psm = (ssfdc_dev *) i_node->i_bdev->bd_disk->private_data;
+ 	drive = psm->sm_minor;
+	
+	if (drive < 0 || drive >= MAX_SSFDC)
+        	return -ENODEV;                                                                         
+	switch(cmd) {
+		case BLKROSET: /* set device read-only (0 = read-write) */
+			if (!capable(CAP_SYS_ADMIN))
+				return -EACCES;
+			if (copy_from_user((void *) &int_val, (int *)arg, sizeof(int_val)))
+				return -EFAULT;
+			if (int_val)
+				psm->Attribute |= MWP;
+			else
+				psm->Attribute &= ~MWP;
+			return 0;
+			
+		case BLKROGET:/* get read-only status (0 = read_write) */
+			int_val = psm->Attribute & MWP;
+			copy_to_user(arg, (void *) &int_val, sizeof(int_val));
+			return 0;
+
+		/* case BLKRRPART: */		/* re-read partition table */
+
+		case BLKGETSIZE:
+#if DEBUG_SSFDC
+			printk(KERN_DEBUG "BLKGETSIZE");
+#else
+			printk(KERN_DEBUG "ssfdc_ioctl(BLKGETSIZE) not handled.\n");
+#endif
+			break;
+
+		case HDIO_GETGEO:
+			if ((void *) arg == NULL) return -EINVAL;
+			if (!access_ok(VERIFY_WRITE,  (void __user *)arg, sizeof(geo)))
+				return -EFAULT;
+			if ((err=CheckLogCHS( psm, &cylinders, &heads, &sectors)))
+				return ssfdc_maperror(err);	
+			memset(&geo, 0, sizeof(geo));
+			geo.cylinders = cylinders;
+			geo.heads = heads;
+			geo.sectors = sectors;
+			geo.start = get_start_sect(i_node->i_bdev);
+			if (copy_to_user((void *) arg, &geo, sizeof(geo)))
+				return -EFAULT;		
+			if (copy_to_user((void *) arg, &geo, sizeof(geo)))
+				return -EFAULT;		
+			return 0;
+	}
+	return -EINVAL;
+}
+
+
+
+static int ssfdc_revalidate(struct gendisk *disk)
+{
+    unsigned int cis;
+    ssfdc_dev *psm=NULL;
+    int error_code=NO_ERROR;
+	unsigned long flags;
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "ssfdc_revalidate()\n");
+#endif
+
+	psm = disk->private_data;
+
+	spin_lock_irqsave(&psm->req_queue_lock,flags);
+	// bjm spin_lock(&psm->req_queue_lock);
+
+	if ( ! psm->DataBuf_Valid ) {
+		if ((error_code=SetPhyFmtValue(psm)))
+			printk(KERN_ERR "ssfdc_revalidate() SetPhyFmtValue error\n");
+		else if ((error_code=SearchCIS(psm,&cis)))
+			printk(KERN_ERR "ssfdc_revalidate() SearchCIS error\n");
+		else if ((error_code=MakeLogTable(psm,cis+1)))
+			printk(KERN_ERR "ssfdc_revalidate() MakeLogTable error\n");
+	}
+	spin_unlock_irqrestore(&psm->req_queue_lock,flags); 
+	// bjm spin_unlock(&psm->req_queue_lock); 
+
+	return ssfdc_maperror(error_code);
+}
+
+int __init ssfdc_init(void)
+{
+	int i;
+	int err = 0;
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "+ssfdc_init()\n");
+#endif
+
+	memset(disks, 0, sizeof(struct gendisk *) * MAX_SSFDC);
+	memset(ssfdc, 0, sizeof(struct ssfdc_dev *) * MAX_SSFDC);
+	for (i=0; i<MAX_SSFDC; ++i) {
+		disks[i] = alloc_disk(1 << SSFDC_PARTN_BITS);
+		ssfdc[i] = kmalloc(sizeof(ssfdc_dev), GFP_KERNEL);
+		if (!disks[i]  || !ssfdc[i]) {
+			err = -ENOMEM; 
+			goto no_memory_error;
+		}
+		memset( ssfdc[i], 0, sizeof(ssfdc_dev));
+	}
+
+	if (register_blkdev(SSFDC_MAJOR, "smartmedia")) {
+		printk(KERN_ERR "Unable to get major number %d for ssfdc device\n", 
+                       SSFDC_MAJOR);
+                err = -EBUSY;
+		goto busy_error;
+	}
+
+	for ( i=0; i < MAX_SSFDC; ++i) {
+		disks[i]->major = SSFDC_MAJOR;
+		disks[i]->first_minor = i << SSFDC_PARTN_BITS;
+		disks[i]->fops = &ssfdc_fops;
+		sprintf(disks[i]->disk_name, "sm%d", i);
+		disks[i]->private_data = ssfdc[i];
+		ssfdc_init_device(ssfdc[i], i << SSFDC_PARTN_BITS,
+			CPLD_BASE_ADDRESS + SMART_MEDIA_ONE_OFFSET);
+
+		disks[i]->queue = ssfdc[i]->req_queue = 
+					blk_init_queue(do_ssfdc_request, &ssfdc[i]->req_queue_lock);
+		ssfdc[i]->req_queue->queuedata = ssfdc[i];
+
+		set_capacity(disks[i], ssfdc_dev_sectors(ssfdc[i]));
+		// bjm blk_queue_max_sectors(disks[i]->queue, 32);
+		// bjm blk_queue_max_phys_segments(disks[i]->queue, 4);
+		blk_queue_max_segment_size(disks[i]->queue, (ssfdc[i]->MaxSectors / 2) * K_BYTE);
+		add_disk(disks[i]);
+	}
+
+#if 0	// bjm debug
+#ifndef CONFIG_SH_NIMBLE_MINI
+	mediachangetest(0L);
+#else
+	mediachangetest(1L);
+#endif
+#endif	// bjm debug
+
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "-ssfdc_init(0)\n");
+#endif
+	return 0;
+
+busy_error:
+no_memory_error:
+	for (i=0; i < MAX_SSFDC; ++i) {
+		if (disks[i] && disks[i]->queue)
+			kfree(disks[i]->queue);
+		put_disk(disks[i]);
+		if (ssfdc[i])
+			kfree(ssfdc[i]);
+	}
+#if DEBUG_SSFDC
+	printk(KERN_DEBUG "-ssfdc_init(%d)\n", -ENOMEM);
+#endif
+	return -ENOMEM;
+}
+
+void __init ssfdc_clean(void)
+{
+	int i;
+
+	printk(KERN_DEBUG "SSFDC exit code\n");
+
+	for (i=0; i < MAX_SSFDC; ++i) {
+		if (disks[i] != NULL) {
+			blk_cleanup_queue(disks[i]->queue);
+			del_gendisk(disks[i]);
+			put_disk(disks[i]);
+		}
+
+		if (ssfdc[i]) {
+			// signal thread to exit...
+			ssfdc[i]->exiting = 1;
+			wake_up(&ssfdc[i]->thread_wq);
+			wait_for_completion(&ssfdc[i]->thread_dead);
+
+			if (ssfdc[i]->address)
+				release_region(ssfdc[i]->address, 3);
+			kfree(ssfdc[i]);
+		}
+	}
+
+	if (unregister_blkdev(SSFDC_MAJOR, "smartmedia"))
+		printk(KERN_WARNING "smartmedia: cannot unregister blkdev\n");
+}
+
+#if DEBUG_SSFDC
+void dump_request(struct request *req)
+{
+#if DEBUG_SSFDC_REQUEST && DEBUG_SSFDC_REQUEST
+	printk(KERN_DEBUG "req->\n");
+	/* int */	printk(KERN_DEBUG "\t req->cmd %x\n", req->cmd);		/* READ or WRITE */
+	/* int errors */	printk(KERN_DEBUG "\t req->errors %d\n", req->errors);
+	/* unsigned long */	printk(KERN_DEBUG "\t req->sector %d\n", req->sector);
+	/* unsigned long */	printk(KERN_DEBUG "\t req->nr_sectors %d\n",req->nr_sectors);
+	/* unsigned long */	printk(KERN_DEBUG "\t req->hard_sector %d\n", req->hard_sector);
+	/* unsigned int */	printk(KERN_DEBUG "\t req->nr_hw_segments %d\n",req->nr_hw_segments);
+	/* unsigned long */	printk(KERN_DEBUG "\t req->current_nr_sectors %d\n",req->current_nr_sectors);
+
+#endif
+}
+#endif
+
+void do_ssfdc_request(request_queue_t * rq)
+{
+	ssfdc_dev *psm = rq->queuedata;
+
+	if ( ! psm->waiting )
+		wake_up(&psm->thread_wq);
+}
+
+static struct request * ssfdc_get_request(ssfdc_dev *psm)
+{
+	struct request *treq;
+	unsigned long flags;
+
+	spin_lock_irqsave(&psm->req_queue_lock, flags);
+	// bjm spin_lock(&psm->req_queue_lock);
+	treq = elv_next_request(psm->req_queue);
+	spin_unlock_irqrestore(&psm->req_queue_lock, flags);
+	// bjm spin_unlock(&psm->req_queue_lock);
+	
+	return treq;
+}
+
+static void ssfdc_terminate_request(ssfdc_dev *psm, struct request *req)
+{
+	unsigned long flags;
+
+	if (psm && req) {
+		spin_lock_irqsave(&psm->req_queue_lock, flags);
+		// bjm spin_lock(&psm->req_queue_lock);
+		end_request(req,0);
+		spin_unlock_irqrestore(&psm->req_queue_lock, flags);
+		// bjm spin_unlock(&psm->req_queue_lock);
+	}
+}
+
+
+static int ssfdc_end_request(ssfdc_dev *psm, struct request *req, int status)
+{
+	unsigned long flags;
+
+	if (!psm || !req) {
+		printk(KERN_DEBUG "ssfdc_end_request() NULL psm or req!\n");
+		return 0;
+	}
+
+#if DEBUG_SSFDC_REQUEST
+	printk("ssfdc_end_request(%p)\n", req);
+#endif
+
+	spin_lock_irqsave(&psm->req_queue_lock,flags);
+	// bjm spin_lock(&psm->req_queue_lock);
+	end_request(req,status);
+	spin_unlock_irqrestore(&psm->req_queue_lock,flags);
+	// bjm spin_unlock(&psm->req_queue_lock);
+    return 0;
+}
+
+void initxfer(unsigned long dev_idx)
+{
+	ssfdc_dev *psm = ssfdc[dev_idx];
+	struct request *req;
+	int error_code;
+	unsigned int cis;
+
+#if	DEBUG_SSFDC
+	// printk(KERN_DEBUG "+initxfer(%d)", dev_idx);
+#endif
+	// get device lock, and check idle flag, setting if not busy
+
+	req = ssfdc_get_request(psm);
+
+	// if the device is idle, setup a read or write operation
+	if (psm->XferState == xfer_idle) {
+		// get the current request from our device's request list.
+		if (!req) {
+#if DEBUG_SSFDC
+//			printk(KERN_DEBUG "initxfer() terminate, no schedule.\n");
+#endif
+		}
+		// Absence of power indicates absence of card.
+		// terminate request and exit...
+		if ( ! _HwChkPower(psm) ) {
+			printk(KERN_DEBUG "initxfer() - Media power NOT!\n");
+			ssfdc_terminate_request(psm,req);
+			return;
+		}
+
+		// We have a request and we have a card.  Is the Log2Phys mapping still valid?
+		if ( ! psm->DataBuf_Valid ) {
+			if ((error_code = SetPhyFmtValue(psm)))
+				printk(KERN_DEBUG "%s SetPhyFmtValue error\n", MAJOR_NAME);
+			else if ((error_code = SearchCIS(psm,&cis)))
+				printk(KERN_DEBUG "%s SearchCIS error\n", MAJOR_NAME);
+			else if ((error_code = MakeLogTable(psm,cis+1)))
+				printk(KERN_DEBUG "%s MakeLogTable error\n", MAJOR_NAME);
+			if (error_code) {
+				printk(KERN_DEBUG "%s error %d\n", MAJOR_NAME, error_code);
+				ssfdc_terminate_request(psm,req);
+				return;
+			}
+		}
+
+		psm->XferState = xfer_busy;
+#if DEBUG_SSFDC
+		printk(KERN_DEBUG " initxfer() - do the request %x\n", req);
+#endif
+		ssfdc_rw_request(psm, req); 
+	}
+#if DEBUG_SSFDC
+	else {
+		printk(KERN_DEBUG "initxfer(%d) dev is busy, no reschedule.\n", dev_idx);
+	}
+#endif
+
+}
+
+
+void ssfdc_rw_request(ssfdc_dev *psm, struct request *req)
+{
+	int (*rwsector)(ssfdc_dev *, struct request *, char *, long, int);
+	unsigned sector, count;
+	int rw_return=1;
+
+	if (rq_data_dir(req) == WRITE)
+		rwsector = MediaWriteSector;
+	else if (rq_data_dir(req) == READ)
+		rwsector = MediaReadSector;
+	else {
+		printk(KERN_DEBUG "%s: command %d not implemented!\n", MAJOR_NAME, (int) rq_data_dir(req));
+		goto terminal_error;
+	}
+
+	/*
+	*/
+	sector = req->sector;
+	count = req->nr_sectors;
+
+	// check that the request does not extend past ssfdc's max size
+	if ( (sector + count) > ssfdc_dev_sectors(psm) ) {
+		printk(KERN_ERR "Attempt to read past end of device!");
+		goto terminal_error;
+	}
+	else {
+
+		// for each segment in each bio_vec R/W from/to device.
+
+		count = req->current_nr_sectors;
+		rw_return = rwsector(psm, req, req->buffer, sector, count);
+
+		if (rq_data_dir(req) == READ)
+			ssfdc_end_request(psm, req, rw_return);
+	}
+
+	// things appear OK...
+	return;
+
+terminal_error:
+	ssfdc_terminate_request( psm, req);
+	psm->XferState = xfer_idle;
+}
+
+module_init(ssfdc_init);
+module_exit(ssfdc_clean);
+
+MODULE_LICENSE("GPL");
+
+/* End of Linux Driver Modifications */
diff --git a/drivers/block/ssfdc.h b/drivers/block/ssfdc.h
new file mode 100644
index 0000000..06f4a3c
--- /dev/null
+++ b/drivers/block/ssfdc.h
@@ -0,0 +1,372 @@
+/* $id:   $ */
+#ifndef _SSFDC_H
+#define _SSFDC_H
+
+/*
+	Linux related defines
+*/
+
+#ifdef CONFIG_SH_NIMBLE_MINI
+#define MAX_SSFDC	2		/* two drives */
+#else
+#define MAX_SSFDC	1		/* only one drive */
+#endif
+
+#define SSFDC_MAJOR_NAME  "sm"   
+#define MAJOR_NAME  SSFDC_MAJOR_NAME
+#define SSFDC_PARTN_BITS  4   /* number of minor dev bits for partitions */
+#define PARTN_MASK  ((1<<SSFDC_PARTN_BITS)-1) /* a useful bit mask */
+#define MAX_DRIVES  MAX_SSFDC
+
+/***************************************************************************
+	SmartMedia Controll Header
+	Rev 0.30('98-06-30)  ***** BETA RELEASE *****
+	Copyright (c) 1997-98, Toshiba Corporation.  All rights reserved.
+ ***************************************************************************/
+
+/***************************************************************************
+	Define Difinetion
+ ***************************************************************************/
+#define	SUCCESS			 0			/* SUCCESS     */
+#define	ERROR 			-1			/* ERROR       */
+#define	CORRECT 		 1			/* CORRECTABLE */
+
+/***************************************************************************/
+#define	NO_ERROR			0x0000	/* NO ERROR							   */
+#define	ERR_WriteFault		0x0003	/* Peripheral Device Write Fault	   */
+#define	ERR_HwError   		0x0004	/* Hardware Error					   */
+#define	ERR_DataStatus		0x0010	/* DataStatus Error					   */
+#define	ERR_EccReadErr		0x0011	/* Unrecovered Read Error			   */
+#define	ERR_CorReadErr		0x0018	/* Recovered Read Data with ECC		   */
+#define	ERR_OutOfLBA  		0x0021	/* Illegal Logical Block Address	   */
+#define	ERR_WrtProtect		0x0027	/* Write Protected					   */
+#define	ERR_ChangedMedia	0x0028	/* Medium Changed					   */
+#define	ERR_UnknownMedia	0x0030	/* Incompatible Medium Installed	   */
+#define	ERR_IllegalFmt		0x0031	/* Medium Format Corrupted			   */
+#define	ERR_NoSmartMedia	0x003A	/* Medium Not Present				   */
+
+/***************************************************************************
+	Common Controll Header
+	Rev 1.30('98-06-30)  ***** BETA RELEASE *****
+	Copyright (c) 1997-98, Toshiba Corporation.  All rights reserved.
+ ***************************************************************************/
+
+/***************************************************************************
+	SmartMedia Controller Definition
+ ***************************************************************************/
+/* I/O Mode Address */
+#define	DATA(p)		(p->address+0x00)	/* R/W	Data Reg */
+#define	STATUS(p)		(p->address+0x02)	/* R/-	Status Reg */
+#define	MODE(p)		(p->address+0x02)	/* -/W	Mode Reg */
+
+/* Controller Status Reg (Read Only) */
+#define	STS_BUSY	0x80
+#define	STS_VCC		0x10
+#define	STS_SCHG	0x08
+#define	STS_WP		0x01
+#define	STS_CENB	0x04
+
+#ifdef CONFIG_SH_TITAN
+/* Controller Mode Reg (Write Only) */
+/* keep PCI clock running on bit 3 */
+/* CE# on bit 2, CLE on bit 1 and ALE on bit 0 */
+#define	STANDBY		(0x00 | 0x00 | 0x08)
+#define	WR_DATA		(0x00 | 0x04 | 0x08)
+#define	WR_CMD		(0x02 | 0x04 | 0x08)
+#define	WR_ADR		(0x01 | 0x04 | 0x08)
+#else
+/* Controller Mode Reg (Write Only) */
+#define	STANDBY		0x00
+#define	WR_DATA		0x10
+#define	WR_CMD		0x11
+#define	WR_ADR		0x12
+#define	PW_OFF		0x80
+#define	PW_ON		0x88
+#endif
+
+/***************************************************************************/
+#define	_HwSetData(p) 		ctrl_outb(WR_DATA,MODE(p))
+#define	_HwSetCmd(p)		ctrl_outb(WR_CMD,MODE(p))
+#define	_HwSetAddr(p)		ctrl_outb(WR_ADR,MODE(p))
+#define	_HwSetStandby(p)	ctrl_outb(STANDBY,MODE(p))
+
+#define _HwInData(p)        ctrl_inb(DATA(p))
+#define	_HwOutData(p,a)		ctrl_outb((a),DATA(p))
+
+#ifdef	CONFIG_SH_TITAN
+#define	_HwVccOn(p)	
+#define	_HwVccOff(p)
+#else
+#define	_HwVccOn(p)			ctrl_outb(PW_ON,MODE(p))
+#define	_HwVccOff(p)		ctrl_outb(PW_OFF,MODE(p))
+#endif
+
+#ifdef CONFIG_SH_TITAN
+#define _HwChkCardIn(p)		(1)
+#define _HwChkStatus(p)		(0)
+#define _HwChkWP(p)		(0)
+#define _HwChkPower(p)		(1)
+#define _HwChkBusy(p)		(ctrl_inb(STATUS(p))&STS_BUSY)
+
+#else
+
+#define	_HwChkCardIn(p)		(ctrl_inb(STATUS(p))&STS_CENB)
+#define	_HwChkStatus(p)		(ctrl_inb(STATUS(p))&(STS_SCHG))
+#define	_HwChkWP(p)			(ctrl_inb(STATUS(p))&(STS_WP))
+#define	_HwChkPower(p)		(ctrl_inb(STATUS(p))&(STS_VCC))
+#define	_HwChkBusy(p)		(ctrl_inb(STATUS(p))&STS_BUSY)
+
+#endif
+
+#define	_HwRdStatus(p)		(ctrl_inb(STATUS(p)))
+/***************************************************************************/
+#ifdef CONFIG_SH_NIMBLE_MINI
+#define CPLD_BASE_ADDRESS		0xB4030000L
+#define SMART_MEDIA_ONE_OFFSET		0x08	// The "built-in" SmartMedia
+#define SMART_MEDIA_TWO_OFFSET		0x00	// The "removable" SmartMedia
+#elif CONFIG_SH_TITAN
+#define CPLD_BASE_ADDRESS		0xA4000000L
+#define SMART_MEDIA_ONE_OFFSET		0x00
+#else
+#define CPLD_BASE_ADDRESS		0xB8030000L
+#define SMART_MEDIA_ONE_OFFSET      	0x00    // The "built-in" SmartMedia
+#endif
+
+/***************************************************************************
+	Program & Macro for SmartMedia Controller
+	Rev 0.30('98-06-30)  ***** BETA RELEASE *****
+	Copyright (c) 1997-98, Toshiba Corporation.  All rights reserved.
+ ***************************************************************************/
+/***************************************************************************
+	Define Definition
+ ***************************************************************************/
+#define	K_BYTE				1024	/* Kilo Byte */
+#define	SSFDC_SECTSIZE 		512		/* Sector buffer size */
+#define SSFDC_BLKSIZE		(K_BYTE * 4)
+#define	REDTSIZE			16		/* Redundant buffer size */
+
+/***************************************************************************/
+#define	DUMMY_DATA		0xFF	/* No Assign Sector Read Data */
+
+/***************************************************************************
+	Max Zone/Block/Sectors Data Definition
+ ***************************************************************************/
+#define	MAX_ZONENUM		0x08	/* Max Zone Numbers in a SmartMedia */
+#define	MAX_BLOCKNUM	0x0400	/* Max Block Numbers in a Zone */
+#define	MAX_SECTNUM		0x20	/* Max Sector Numbers in a Block */
+#define	MAX_LOGBLOCK	1000	/* Max Logical Block Numbers in a Zone */
+
+/***************************************************************************
+	Logical to Physical Block Table Data Definition
+ ***************************************************************************/
+#define	NO_ASSIGN		0xFFFF	/* No Assign Logical Block Address */
+
+/***************************************************************************
+	'SectCopyMode' Data
+ ***************************************************************************/
+#define	COMPLETED		 0			/* Sector Copy Completed     */
+#define	REQ_ERASE		 1			/* Request Read Block Erase  */
+#define	REQ_FAIL		 2			/* Request Read Block Failed */
+
+/***************************************************************************
+	Retry Counter Definition
+ ***************************************************************************/
+#define	RDERR_REASSIGN	1		/* Reassign with Read Error */
+#define	L2P_ERR_ERASE	1		/* BlockErase for Contradicted L2P Table */
+
+/***************************************************************************
+	SmartMedia Command & Status Definition
+ ***************************************************************************/
+/* SmartMedia Command */
+#define	SSFDC_WRDATA		0x80
+#define	SSFDC_READ			0x00
+#define	SSFDC_READ_REDT		0x50
+#define	SSFDC_READ1			0x00
+#define	SSFDC_READ2			0x01
+#define	SSFDC_READ3			0x50
+#define	SSFDC_RST_CHIP		0xFF
+#define	SSFDC_WRITE			0x10
+#define	SSFDC_DUMMY_WRITE	0x11
+#define SSFDC_MULTI_WRITE   0x15
+#define	SSFDC_ERASE1		0x60
+#define	SSFDC_ERASE2		0xD0
+#define	SSFDC_RDSTATUS		0x70
+#define	SSFDC_READ_ID		0x90
+
+/* SmartMedia Status */
+#define	WR_FAIL		0x01	/* 0:Pass,          1:Fail */
+#define	SUSPENDED	0x20	/* 0:Not Suspended, 1:Suspended */
+#define	READY		0x40	/* 0:Busy,          1:Ready */
+#define	WR_PRTCT	0x80	/* 0:Protect,       1:Not Protect */
+
+#define USEC		1
+#define	MSEC		1000 * USEC
+#define JIFFY_TICK_MS	(MSEC / HZ)
+
+// #define	BUSY_PROG	20 * MSEC	/* 200-1000us -----	Program Time */
+#define	BUSY_PROG	1000 * USEC	/* 200-1000us -----	Program Time */
+#define BUSY_DUMMY_WRITE	10 * USEC	/*	2-10us	dummy write */
+#define BUSY_MULTI_WRITE	1000 * USEC	/*	200 - 1000 usec */
+#define	BUSY_ERASE	10 * MSEC	/* 2-10ms -----	Block Erase Time */
+#define	BUSY_READ	100 * USEC	/* tR     : 100us -----	Data transfer Time */
+#define	BUSY_RESET	10 * USEC	/* tRST   :   10us -----	Device Resetting Time  */
+#define BUSY_ADDR_SET	25 * USEC
+
+#define	TIME_PON	30		/* 300ms ------	Power On Wait Time */
+#define	TIME_CDCHK	2			/*  20ms ------	Card Check Interval Timer */
+#define	TIME_WPCHK	1			/*   5ms ------	WP Check Interval Timer */
+
+/* Power On Timeout */
+#define POWER_ON_TIMEOUT	(HZ*2)
+
+/* Default retry limit for Read/Write */
+#define RD_RETRY_LIMIT	3
+#define WR_RETRY_LIMIT	4
+#define BLOCK_READ_RETRY_LIMIT	2
+#define BLOCK_WRITE_RETRY_LIMIT 3
+#define REASSIGN_RETRY_LIMIT 	4
+
+/***************************************************************************
+	Redundant Data
+ ***************************************************************************/
+#define	REDT_DATA	0x04
+#define	REDT_BLOCK	0x05
+
+#define	REDT_ADDR1H	0x06
+#define	REDT_ADDR1L	0x07
+#define	REDT_ADDR2H	0x0B
+#define	REDT_ADDR2L	0x0C
+
+#define	REDT_ECC10	0x0D
+#define	REDT_ECC11	0x0E
+#define	REDT_ECC12	0x0F
+
+#define	REDT_ECC20	0x08
+#define	REDT_ECC21	0x09
+#define	REDT_ECC22	0x0A
+
+/***************************************************************************
+	SmartMedia Model & Attribute
+ ***************************************************************************/
+/* SmartMedia Attribute */
+#define	NOWP		0x00	/* 0... .... No Write Protect */
+#define	WP  		0x80	/* 1... .... Write Protected */
+#define	MASK		0x00	/* .00. .... NAND MASK ROM Model */
+#define	FLASH		0x20	/* .01. .... NAND Flash ROM Model */
+#define	AD3CYC		0x00	/* ...0 .... Address 3-cycle */
+#define	AD4CYC		0x10	/* ...1 .... Address 4-cycle */
+#define	BS16		0x00	/* .... 00.. 16page/block */
+#define	BS32		0x04	/* .... 01.. 32page/block */
+#define	PS256		0x00	/* .... ..00 256byte/page */
+#define	PS512		0x01	/* .... ..01 512byte/page */
+
+#define	MWP			0x80	/* WriteProtect mask */
+#define	MFLASH		0x60	/* Flash Rom mask */
+#define	MADC		0x10	/* Address Cycle */
+#define	MBS			0x0C	/* BlockSize mask */
+#define	MPS			0x03	/* PageSize mask */
+
+/* SmartMedia Model */
+#define	NOSSFDC			0x00	/*   NO SmartMedia */
+#define	SSFDC1MB		0x01	/*  1MB SmartMedia */
+#define	SSFDC2MB		0x02	/*  2MB SmartMedia */
+#define	SSFDC4MB		0x03	/*  4MB SmartMedia */
+#define	SSFDC8MB		0x04	/*  8MB SmartMedia */
+#define	SSFDC16MB		0x05	/* 16MB SmartMedia */
+#define	SSFDC32MB		0x06	/* 32MB SmartMedia */
+#define	SSFDC64MB		0x07	/* 64MB SmartMedia */
+#define	SSFDC128MB		0x08	/*128MB SmartMedia */
+
+#define EVEN             0          /* Even Page for 256byte/page */
+#define ODD              1          /* Odd  Page for 256byte/page */
+
+/***************************************************************************
+	Struct Definition
+ ***************************************************************************/
+/* Linux kernel additions */
+
+/* device buffer xfer status */
+typedef enum { xfer_idle, xfer_busy} xfer_states;
+
+/* Smartmedia device structure */
+typedef struct {
+	unsigned long		address;
+	int 				sm_minor;
+	int					sm_flags;
+	int					busy;
+	int					waiting;
+
+	/* queue of io requests for the device */
+	spinlock_t			req_queue_lock;
+	request_queue_t 	*req_queue;
+
+	/* our thread related parameters */
+	struct completion 	thread_dead;
+	int 				exiting;
+	wait_queue_head_t 	thread_wq;
+
+	/* accounting variables for each buffer io operation
+		each request may have a chain of buffers, each of
+		which may require I/O of multiple sectors */
+	unsigned int		ReqSectorSize;
+	unsigned int		BufIndex;
+	unsigned int		SectorWriteIndex;
+
+	/* CHS parameters */
+	unsigned int		HostCyl;
+	unsigned char		HostHead;
+	unsigned char		HostSect;
+
+	/* State Information */
+	xfer_states			XferState;
+	unsigned int  		UseCount;
+	unsigned int  		RetryCount;
+	unsigned int  		ErrCode;
+	unsigned int  		MediaChange;
+	unsigned int  		CardPresent;
+	unsigned int  		SectCopyMode;
+
+	/* Working Databuf Area */
+	unsigned char 		SectBuf[SSFDC_SECTSIZE];
+	unsigned char 		WorkBuf[SSFDC_SECTSIZE];
+	unsigned char 		Redundant[REDTSIZE];
+	unsigned char 		WorkRedund[REDTSIZE];
+	unsigned int  		DataBuf_Valid;
+	unsigned int  		Log2Phy[MAX_ZONENUM][MAX_LOGBLOCK];
+	unsigned char 		Assign[MAX_ZONENUM][MAX_BLOCKNUM/8];
+	unsigned int  		AssignStart[MAX_ZONENUM];
+	unsigned int  		ReadBlock;
+	unsigned int  		WriteBlock;
+
+	/* Card attributes */
+	unsigned char 		Model;
+	unsigned char 		Attribute;
+	unsigned char 		MaxZones;
+	unsigned char 		MaxSectors;
+	unsigned int  		MaxBlocks;
+	unsigned int  		MaxLogBlocks; 
+
+	/* Address of current access (Media) */
+	unsigned char		Zone;         /* Zone Number */
+	unsigned char		Sector;       /* Sector(512byte) Number on Block */
+	unsigned int		PhyBlock;     /* Physical Block Number on Zone */
+	unsigned int		LogBlock;     /* Logical Block Number of Zone */               
+
+	/* device statistics */
+	unsigned int		Sector_reads;
+	unsigned int		Sector_writes;
+	unsigned int		Sect_rd_errs_ttl;
+	unsigned int		Sect_wr_errs_ttl;
+	unsigned int		Bad_blks_rd;
+	unsigned int		Bad_blks_wr;
+	unsigned int		Bad_blks_erase;
+} ssfdc_dev;
+
+
+/****************************************************************************/
+/*	Handy defines															*/
+/****************************************************************************/
+#define WRITE_PROTECTED(p)	(p->Attribute & WP)
+
+/* End of Linux kernel additions */
+#endif	/* #ifndef _SSFDC_H */