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/*
* Linux driver for SSFDC Flash Translation Layer ( Read only )
2010-08-08 23:58:20 +04:00
* © 2005 Eptar srl
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* Author : Claudio Lanconelli < lanconelli . claudio @ eptar . com >
*
* Based on NTFL and MTDBLOCK_RO drivers
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation .
*/
# include <linux/kernel.h>
# include <linux/module.h>
# include <linux/init.h>
# include <linux/slab.h>
# include <linux/hdreg.h>
# include <linux/mtd/mtd.h>
# include <linux/mtd/nand.h>
# include <linux/mtd/blktrans.h>
struct ssfdcr_record {
struct mtd_blktrans_dev mbd ;
int usecount ;
unsigned char heads ;
unsigned char sectors ;
unsigned short cylinders ;
int cis_block ; /* block n. containing CIS/IDI */
int erase_size ; /* phys_block_size */
unsigned short * logic_block_map ; /* all zones (max 8192 phys blocks on
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the 128 MiB ) */
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int map_len ; /* n. phys_blocks on the card */
} ;
# define SSFDCR_MAJOR 257
# define SSFDCR_PARTN_BITS 3
# define SECTOR_SIZE 512
# define SECTOR_SHIFT 9
# define OOB_SIZE 16
# define MAX_LOGIC_BLK_PER_ZONE 1000
# define MAX_PHYS_BLK_PER_ZONE 1024
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# define KiB(x) ( (x) * 1024L )
# define MiB(x) ( KiB(x) * 1024L )
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/** CHS Table
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1 MiB 2 MiB 4 MiB 8 MiB 16 MiB 32 MiB 64 MiB 128 MiB
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NCylinder 125 125 250 250 500 500 500 500
NHead 4 4 4 4 4 8 8 16
NSector 4 8 8 16 16 16 32 32
SumSector 2 , 000 4 , 000 8 , 000 16 , 000 32 , 000 64 , 000 128 , 000 256 , 000
SectorSize 512 512 512 512 512 512 512 512
* */
typedef struct {
unsigned long size ;
unsigned short cyl ;
unsigned char head ;
unsigned char sec ;
} chs_entry_t ;
/* Must be ordered by size */
static const chs_entry_t chs_table [ ] = {
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{ MiB ( 1 ) , 125 , 4 , 4 } ,
{ MiB ( 2 ) , 125 , 4 , 8 } ,
{ MiB ( 4 ) , 250 , 4 , 8 } ,
{ MiB ( 8 ) , 250 , 4 , 16 } ,
{ MiB ( 16 ) , 500 , 4 , 16 } ,
{ MiB ( 32 ) , 500 , 8 , 16 } ,
{ MiB ( 64 ) , 500 , 8 , 32 } ,
{ MiB ( 128 ) , 500 , 16 , 32 } ,
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{ 0 } ,
} ;
static int get_chs ( unsigned long size , unsigned short * cyl , unsigned char * head ,
unsigned char * sec )
{
int k ;
int found = 0 ;
k = 0 ;
while ( chs_table [ k ] . size > 0 & & size > chs_table [ k ] . size )
k + + ;
if ( chs_table [ k ] . size > 0 ) {
if ( cyl )
* cyl = chs_table [ k ] . cyl ;
if ( head )
* head = chs_table [ k ] . head ;
if ( sec )
* sec = chs_table [ k ] . sec ;
found = 1 ;
}
return found ;
}
/* These bytes are the signature for the CIS/IDI sector */
static const uint8_t cis_numbers [ ] = {
0x01 , 0x03 , 0xD9 , 0x01 , 0xFF , 0x18 , 0x02 , 0xDF , 0x01 , 0x20
} ;
/* Read and check for a valid CIS sector */
static int get_valid_cis_sector ( struct mtd_info * mtd )
{
int ret , k , cis_sector ;
size_t retlen ;
loff_t offset ;
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uint8_t * sect_buf ;
cis_sector = - 1 ;
sect_buf = kmalloc ( SECTOR_SIZE , GFP_KERNEL ) ;
if ( ! sect_buf )
goto out ;
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/*
* Look for CIS / IDI sector on the first GOOD block ( give up after 4 bad
* blocks ) . If the first good block doesn ' t contain CIS number the flash
* is not SSFDC formatted
*/
for ( k = 0 , offset = 0 ; k < 4 ; k + + , offset + = mtd - > erasesize ) {
if ( ! mtd - > block_isbad ( mtd , offset ) ) {
ret = mtd - > read ( mtd , offset , SECTOR_SIZE , & retlen ,
sect_buf ) ;
/* CIS pattern match on the sector buffer */
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if ( ret < 0 | | retlen ! = SECTOR_SIZE ) {
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printk ( KERN_WARNING
" SSFDC_RO:can't read CIS/IDI sector \n " ) ;
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} else if ( ! memcmp ( sect_buf , cis_numbers ,
sizeof ( cis_numbers ) ) ) {
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/* Found */
cis_sector = ( int ) ( offset > > SECTOR_SHIFT ) ;
} else {
DEBUG ( MTD_DEBUG_LEVEL1 ,
" SSFDC_RO: CIS/IDI sector not found "
" on %s (mtd%d) \n " , mtd - > name ,
mtd - > index ) ;
}
break ;
}
}
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kfree ( sect_buf ) ;
out :
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return cis_sector ;
}
/* Read physical sector (wrapper to MTD_READ) */
static int read_physical_sector ( struct mtd_info * mtd , uint8_t * sect_buf ,
int sect_no )
{
int ret ;
size_t retlen ;
loff_t offset = ( loff_t ) sect_no < < SECTOR_SHIFT ;
ret = mtd - > read ( mtd , offset , SECTOR_SIZE , & retlen , sect_buf ) ;
if ( ret < 0 | | retlen ! = SECTOR_SIZE )
return - 1 ;
return 0 ;
}
/* Read redundancy area (wrapper to MTD_READ_OOB */
static int read_raw_oob ( struct mtd_info * mtd , loff_t offs , uint8_t * buf )
{
struct mtd_oob_ops ops ;
int ret ;
ops . mode = MTD_OOB_RAW ;
ops . ooboffs = 0 ;
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ops . ooblen = OOB_SIZE ;
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ops . oobbuf = buf ;
ops . datbuf = NULL ;
ret = mtd - > read_oob ( mtd , offs , & ops ) ;
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if ( ret < 0 | | ops . oobretlen ! = OOB_SIZE )
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return - 1 ;
return 0 ;
}
/* Parity calculator on a word of n bit size */
static int get_parity ( int number , int size )
{
int k ;
int parity ;
parity = 1 ;
for ( k = 0 ; k < size ; k + + ) {
parity + = ( number > > k ) ;
parity & = 1 ;
}
return parity ;
}
/* Read and validate the logical block address field stored in the OOB */
static int get_logical_address ( uint8_t * oob_buf )
{
int block_address , parity ;
int offset [ 2 ] = { 6 , 11 } ; /* offset of the 2 address fields within OOB */
int j ;
int ok = 0 ;
/*
* Look for the first valid logical address
* Valid address has fixed pattern on most significant bits and
* parity check
*/
for ( j = 0 ; j < ARRAY_SIZE ( offset ) ; j + + ) {
block_address = ( ( int ) oob_buf [ offset [ j ] ] < < 8 ) |
oob_buf [ offset [ j ] + 1 ] ;
/* Check for the signature bits in the address field (MSBits) */
if ( ( block_address & ~ 0x7FF ) = = 0x1000 ) {
parity = block_address & 0x01 ;
block_address & = 0x7FF ;
block_address > > = 1 ;
if ( get_parity ( block_address , 10 ) ! = parity ) {
DEBUG ( MTD_DEBUG_LEVEL0 ,
" SSFDC_RO: logical address field%d "
" parity error(0x%04X) \n " , j + 1 ,
block_address ) ;
} else {
ok = 1 ;
break ;
}
}
}
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if ( ! ok )
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block_address = - 2 ;
DEBUG ( MTD_DEBUG_LEVEL3 , " SSFDC_RO: get_logical_address() %d \n " ,
block_address ) ;
return block_address ;
}
/* Build the logic block map */
static int build_logical_block_map ( struct ssfdcr_record * ssfdc )
{
unsigned long offset ;
uint8_t oob_buf [ OOB_SIZE ] ;
int ret , block_address , phys_block ;
struct mtd_info * mtd = ssfdc - > mbd . mtd ;
DEBUG ( MTD_DEBUG_LEVEL1 , " SSFDC_RO: build_block_map() nblks=%d (%luK) \n " ,
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ssfdc - > map_len ,
( unsigned long ) ssfdc - > map_len * ssfdc - > erase_size / 1024 ) ;
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/* Scan every physical block, skip CIS block */
for ( phys_block = ssfdc - > cis_block + 1 ; phys_block < ssfdc - > map_len ;
phys_block + + ) {
offset = ( unsigned long ) phys_block * ssfdc - > erase_size ;
if ( mtd - > block_isbad ( mtd , offset ) )
continue ; /* skip bad blocks */
ret = read_raw_oob ( mtd , offset , oob_buf ) ;
if ( ret < 0 ) {
DEBUG ( MTD_DEBUG_LEVEL0 ,
" SSFDC_RO: mtd read_oob() failed at %lu \n " ,
offset ) ;
return - 1 ;
}
block_address = get_logical_address ( oob_buf ) ;
/* Skip invalid addresses */
if ( block_address > = 0 & &
block_address < MAX_LOGIC_BLK_PER_ZONE ) {
int zone_index ;
zone_index = phys_block / MAX_PHYS_BLK_PER_ZONE ;
block_address + = zone_index * MAX_LOGIC_BLK_PER_ZONE ;
ssfdc - > logic_block_map [ block_address ] =
( unsigned short ) phys_block ;
DEBUG ( MTD_DEBUG_LEVEL2 ,
" SSFDC_RO: build_block_map() phys_block=%d, "
" logic_block_addr=%d, zone=%d \n " ,
phys_block , block_address , zone_index ) ;
}
}
return 0 ;
}
static void ssfdcr_add_mtd ( struct mtd_blktrans_ops * tr , struct mtd_info * mtd )
{
struct ssfdcr_record * ssfdc ;
int cis_sector ;
/* Check for small page NAND flash */
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if ( mtd - > type ! = MTD_NANDFLASH | | mtd - > oobsize ! = OOB_SIZE | |
mtd - > size > UINT_MAX )
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return ;
/* Check for SSDFC format by reading CIS/IDI sector */
cis_sector = get_valid_cis_sector ( mtd ) ;
if ( cis_sector = = - 1 )
return ;
ssfdc = kzalloc ( sizeof ( struct ssfdcr_record ) , GFP_KERNEL ) ;
if ( ! ssfdc ) {
printk ( KERN_WARNING
" SSFDC_RO: out of memory for data structures \n " ) ;
return ;
}
ssfdc - > mbd . mtd = mtd ;
ssfdc - > mbd . devnum = - 1 ;
ssfdc - > mbd . tr = tr ;
ssfdc - > mbd . readonly = 1 ;
ssfdc - > cis_block = cis_sector / ( mtd - > erasesize > > SECTOR_SHIFT ) ;
ssfdc - > erase_size = mtd - > erasesize ;
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ssfdc - > map_len = ( u32 ) mtd - > size / mtd - > erasesize ;
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DEBUG ( MTD_DEBUG_LEVEL1 ,
" SSFDC_RO: cis_block=%d,erase_size=%d,map_len=%d,n_zones=%d \n " ,
ssfdc - > cis_block , ssfdc - > erase_size , ssfdc - > map_len ,
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DIV_ROUND_UP ( ssfdc - > map_len , MAX_PHYS_BLK_PER_ZONE ) ) ;
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/* Set geometry */
ssfdc - > heads = 16 ;
ssfdc - > sectors = 32 ;
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get_chs ( mtd - > size , NULL , & ssfdc - > heads , & ssfdc - > sectors ) ;
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ssfdc - > cylinders = ( unsigned short ) ( ( ( u32 ) mtd - > size > > SECTOR_SHIFT ) /
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( ( long ) ssfdc - > sectors * ( long ) ssfdc - > heads ) ) ;
DEBUG ( MTD_DEBUG_LEVEL1 , " SSFDC_RO: using C:%d H:%d S:%d == %ld sects \n " ,
ssfdc - > cylinders , ssfdc - > heads , ssfdc - > sectors ,
( long ) ssfdc - > cylinders * ( long ) ssfdc - > heads *
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( long ) ssfdc - > sectors ) ;
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ssfdc - > mbd . size = ( long ) ssfdc - > heads * ( long ) ssfdc - > cylinders *
( long ) ssfdc - > sectors ;
/* Allocate logical block map */
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ssfdc - > logic_block_map = kmalloc ( sizeof ( ssfdc - > logic_block_map [ 0 ] ) *
ssfdc - > map_len , GFP_KERNEL ) ;
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if ( ! ssfdc - > logic_block_map ) {
printk ( KERN_WARNING
" SSFDC_RO: out of memory for data structures \n " ) ;
goto out_err ;
}
memset ( ssfdc - > logic_block_map , 0xff , sizeof ( ssfdc - > logic_block_map [ 0 ] ) *
ssfdc - > map_len ) ;
/* Build logical block map */
if ( build_logical_block_map ( ssfdc ) < 0 )
goto out_err ;
/* Register device + partitions */
if ( add_mtd_blktrans_dev ( & ssfdc - > mbd ) )
goto out_err ;
printk ( KERN_INFO " SSFDC_RO: Found ssfdc%c on mtd%d (%s) \n " ,
ssfdc - > mbd . devnum + ' a ' , mtd - > index , mtd - > name ) ;
return ;
out_err :
kfree ( ssfdc - > logic_block_map ) ;
kfree ( ssfdc ) ;
}
static void ssfdcr_remove_dev ( struct mtd_blktrans_dev * dev )
{
struct ssfdcr_record * ssfdc = ( struct ssfdcr_record * ) dev ;
DEBUG ( MTD_DEBUG_LEVEL1 , " SSFDC_RO: remove_dev (i=%d) \n " , dev - > devnum ) ;
del_mtd_blktrans_dev ( dev ) ;
kfree ( ssfdc - > logic_block_map ) ;
}
static int ssfdcr_readsect ( struct mtd_blktrans_dev * dev ,
unsigned long logic_sect_no , char * buf )
{
struct ssfdcr_record * ssfdc = ( struct ssfdcr_record * ) dev ;
int sectors_per_block , offset , block_address ;
sectors_per_block = ssfdc - > erase_size > > SECTOR_SHIFT ;
offset = ( int ) ( logic_sect_no % sectors_per_block ) ;
block_address = ( int ) ( logic_sect_no / sectors_per_block ) ;
DEBUG ( MTD_DEBUG_LEVEL3 ,
" SSFDC_RO: ssfdcr_readsect(%lu) sec_per_blk=%d, ofst=%d, "
" block_addr=%d \n " , logic_sect_no , sectors_per_block , offset ,
block_address ) ;
if ( block_address > = ssfdc - > map_len )
BUG ( ) ;
block_address = ssfdc - > logic_block_map [ block_address ] ;
DEBUG ( MTD_DEBUG_LEVEL3 ,
" SSFDC_RO: ssfdcr_readsect() phys_block_addr=%d \n " ,
block_address ) ;
if ( block_address < 0xffff ) {
unsigned long sect_no ;
sect_no = ( unsigned long ) block_address * sectors_per_block +
offset ;
DEBUG ( MTD_DEBUG_LEVEL3 ,
" SSFDC_RO: ssfdcr_readsect() phys_sect_no=%lu \n " ,
sect_no ) ;
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if ( read_physical_sector ( ssfdc - > mbd . mtd , buf , sect_no ) < 0 )
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return - EIO ;
} else {
memset ( buf , 0xff , SECTOR_SIZE ) ;
}
return 0 ;
}
static int ssfdcr_getgeo ( struct mtd_blktrans_dev * dev , struct hd_geometry * geo )
{
struct ssfdcr_record * ssfdc = ( struct ssfdcr_record * ) dev ;
DEBUG ( MTD_DEBUG_LEVEL1 , " SSFDC_RO: ssfdcr_getgeo() C=%d, H=%d, S=%d \n " ,
ssfdc - > cylinders , ssfdc - > heads , ssfdc - > sectors ) ;
geo - > heads = ssfdc - > heads ;
geo - > sectors = ssfdc - > sectors ;
geo - > cylinders = ssfdc - > cylinders ;
return 0 ;
}
/****************************************************************************
*
* Module stuff
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
static struct mtd_blktrans_ops ssfdcr_tr = {
. name = " ssfdc " ,
. major = SSFDCR_MAJOR ,
. part_bits = SSFDCR_PARTN_BITS ,
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. blksize = SECTOR_SIZE ,
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. getgeo = ssfdcr_getgeo ,
. readsect = ssfdcr_readsect ,
. add_mtd = ssfdcr_add_mtd ,
. remove_dev = ssfdcr_remove_dev ,
. owner = THIS_MODULE ,
} ;
static int __init init_ssfdcr ( void )
{
printk ( KERN_INFO " SSFDC read-only Flash Translation layer \n " ) ;
return register_mtd_blktrans ( & ssfdcr_tr ) ;
}
static void __exit cleanup_ssfdcr ( void )
{
deregister_mtd_blktrans ( & ssfdcr_tr ) ;
}
module_init ( init_ssfdcr ) ;
module_exit ( cleanup_ssfdcr ) ;
MODULE_LICENSE ( " GPL " ) ;
MODULE_AUTHOR ( " Claudio Lanconelli <lanconelli.claudio@eptar.com> " ) ;
MODULE_DESCRIPTION ( " Flash Translation Layer for read-only SSFDC SmartMedia card " ) ;