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/*
* MTD device concatenation layer
*
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* Copyright © 2002 Robert Kaiser < rkaiser @ sysgo . de >
* Copyright © 2002 - 2010 David Woodhouse < dwmw2 @ infradead . org >
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*
* NAND support by Christian Gan < cgan @ iders . ca >
*
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* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License , or
* ( at your option ) any later version .
*
* This program is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
*
* You should have received a copy of the GNU General Public License
* along with this program ; if not , write to the Free Software
* Foundation , Inc . , 51 Franklin St , Fifth Floor , Boston , MA 02110 - 1301 USA
*
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*/
# include <linux/kernel.h>
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# include <linux/module.h>
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# include <linux/slab.h>
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# include <linux/sched.h>
# include <linux/types.h>
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# include <linux/backing-dev.h>
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# include <linux/mtd/mtd.h>
# include <linux/mtd/concat.h>
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# include <asm/div64.h>
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/*
* Our storage structure :
* Subdev points to an array of pointers to struct mtd_info objects
* which is allocated along with this structure
*
*/
struct mtd_concat {
struct mtd_info mtd ;
int num_subdev ;
struct mtd_info * * subdev ;
} ;
/*
* how to calculate the size required for the above structure ,
* including the pointer array subdev points to :
*/
# define SIZEOF_STRUCT_MTD_CONCAT(num_subdev) \
( ( sizeof ( struct mtd_concat ) + ( num_subdev ) * sizeof ( struct mtd_info * ) ) )
/*
* Given a pointer to the MTD object in the mtd_concat structure ,
* we can retrieve the pointer to that structure with this macro .
*/
# define CONCAT(x) ((struct mtd_concat *)(x))
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/*
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* MTD methods which look up the relevant subdevice , translate the
* effective address and pass through to the subdevice .
*/
static int
concat_read ( struct mtd_info * mtd , loff_t from , size_t len ,
size_t * retlen , u_char * buf )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
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int ret = 0 , err ;
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int i ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
size_t size , retsize ;
if ( from > = subdev - > size ) {
/* Not destined for this subdev */
size = 0 ;
from - = subdev - > size ;
continue ;
}
if ( from + len > subdev - > size )
/* First part goes into this subdev */
size = subdev - > size - from ;
else
/* Entire transaction goes into this subdev */
size = len ;
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err = mtd_read ( subdev , from , size , & retsize , buf ) ;
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/* Save information about bitflips! */
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if ( unlikely ( err ) ) {
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if ( mtd_is_eccerr ( err ) ) {
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mtd - > ecc_stats . failed + + ;
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ret = err ;
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} else if ( mtd_is_bitflip ( err ) ) {
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mtd - > ecc_stats . corrected + + ;
/* Do not overwrite -EBADMSG !! */
if ( ! ret )
ret = err ;
} else
return err ;
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}
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* retlen + = retsize ;
len - = size ;
if ( len = = 0 )
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return ret ;
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buf + = size ;
from = 0 ;
}
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return - EINVAL ;
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}
static int
concat_write ( struct mtd_info * mtd , loff_t to , size_t len ,
size_t * retlen , const u_char * buf )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int err = - EINVAL ;
int i ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
size_t size , retsize ;
if ( to > = subdev - > size ) {
size = 0 ;
to - = subdev - > size ;
continue ;
}
if ( to + len > subdev - > size )
size = subdev - > size - to ;
else
size = len ;
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err = mtd_write ( subdev , to , size , & retsize , buf ) ;
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if ( err )
break ;
* retlen + = retsize ;
len - = size ;
if ( len = = 0 )
break ;
err = - EINVAL ;
buf + = size ;
to = 0 ;
}
return err ;
}
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static int
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concat_writev ( struct mtd_info * mtd , const struct kvec * vecs ,
unsigned long count , loff_t to , size_t * retlen )
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{
struct mtd_concat * concat = CONCAT ( mtd ) ;
struct kvec * vecs_copy ;
unsigned long entry_low , entry_high ;
size_t total_len = 0 ;
int i ;
int err = - EINVAL ;
/* Calculate total length of data */
for ( i = 0 ; i < count ; i + + )
total_len + = vecs [ i ] . iov_len ;
/* Check alignment */
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if ( mtd - > writesize > 1 ) {
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uint64_t __to = to ;
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if ( do_div ( __to , mtd - > writesize ) | | ( total_len % mtd - > writesize ) )
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return - EINVAL ;
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}
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/* make a copy of vecs */
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vecs_copy = kmemdup ( vecs , sizeof ( struct kvec ) * count , GFP_KERNEL ) ;
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if ( ! vecs_copy )
return - ENOMEM ;
entry_low = 0 ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
size_t size , wsize , retsize , old_iov_len ;
if ( to > = subdev - > size ) {
to - = subdev - > size ;
continue ;
}
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size = min_t ( uint64_t , total_len , subdev - > size - to ) ;
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wsize = size ; /* store for future use */
entry_high = entry_low ;
while ( entry_high < count ) {
if ( size < = vecs_copy [ entry_high ] . iov_len )
break ;
size - = vecs_copy [ entry_high + + ] . iov_len ;
}
old_iov_len = vecs_copy [ entry_high ] . iov_len ;
vecs_copy [ entry_high ] . iov_len = size ;
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err = mtd_writev ( subdev , & vecs_copy [ entry_low ] ,
entry_high - entry_low + 1 , to , & retsize ) ;
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vecs_copy [ entry_high ] . iov_len = old_iov_len - size ;
vecs_copy [ entry_high ] . iov_base + = size ;
entry_low = entry_high ;
if ( err )
break ;
* retlen + = retsize ;
total_len - = wsize ;
if ( total_len = = 0 )
break ;
err = - EINVAL ;
to = 0 ;
}
kfree ( vecs_copy ) ;
return err ;
}
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static int
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concat_read_oob ( struct mtd_info * mtd , loff_t from , struct mtd_oob_ops * ops )
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{
struct mtd_concat * concat = CONCAT ( mtd ) ;
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struct mtd_oob_ops devops = * ops ;
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int i , err , ret = 0 ;
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ops - > retlen = ops - > oobretlen = 0 ;
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for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
if ( from > = subdev - > size ) {
from - = subdev - > size ;
continue ;
}
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/* partial read ? */
if ( from + devops . len > subdev - > size )
devops . len = subdev - > size - from ;
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err = mtd_read_oob ( subdev , from , & devops ) ;
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ops - > retlen + = devops . retlen ;
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ops - > oobretlen + = devops . oobretlen ;
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/* Save information about bitflips! */
if ( unlikely ( err ) ) {
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if ( mtd_is_eccerr ( err ) ) {
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mtd - > ecc_stats . failed + + ;
ret = err ;
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} else if ( mtd_is_bitflip ( err ) ) {
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mtd - > ecc_stats . corrected + + ;
/* Do not overwrite -EBADMSG !! */
if ( ! ret )
ret = err ;
} else
return err ;
}
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if ( devops . datbuf ) {
devops . len = ops - > len - ops - > retlen ;
if ( ! devops . len )
return ret ;
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devops . datbuf + = devops . retlen ;
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}
if ( devops . oobbuf ) {
devops . ooblen = ops - > ooblen - ops - > oobretlen ;
if ( ! devops . ooblen )
return ret ;
devops . oobbuf + = ops - > oobretlen ;
}
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from = 0 ;
}
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return - EINVAL ;
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}
static int
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concat_write_oob ( struct mtd_info * mtd , loff_t to , struct mtd_oob_ops * ops )
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{
struct mtd_concat * concat = CONCAT ( mtd ) ;
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struct mtd_oob_ops devops = * ops ;
int i , err ;
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if ( ! ( mtd - > flags & MTD_WRITEABLE ) )
return - EROFS ;
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ops - > retlen = ops - > oobretlen = 0 ;
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for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
if ( to > = subdev - > size ) {
to - = subdev - > size ;
continue ;
}
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/* partial write ? */
if ( to + devops . len > subdev - > size )
devops . len = subdev - > size - to ;
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err = mtd_write_oob ( subdev , to , & devops ) ;
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ops - > retlen + = devops . retlen ;
ops - > oobretlen + = devops . oobretlen ;
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if ( err )
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return err ;
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if ( devops . datbuf ) {
devops . len = ops - > len - ops - > retlen ;
if ( ! devops . len )
return 0 ;
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devops . datbuf + = devops . retlen ;
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}
if ( devops . oobbuf ) {
devops . ooblen = ops - > ooblen - ops - > oobretlen ;
if ( ! devops . ooblen )
return 0 ;
devops . oobbuf + = devops . oobretlen ;
}
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to = 0 ;
}
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return - EINVAL ;
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}
static void concat_erase_callback ( struct erase_info * instr )
{
wake_up ( ( wait_queue_head_t * ) instr - > priv ) ;
}
static int concat_dev_erase ( struct mtd_info * mtd , struct erase_info * erase )
{
int err ;
wait_queue_head_t waitq ;
DECLARE_WAITQUEUE ( wait , current ) ;
/*
* This code was stol ^ H ^ H ^ H ^ Hinspired by mtdchar . c
*/
init_waitqueue_head ( & waitq ) ;
erase - > mtd = mtd ;
erase - > callback = concat_erase_callback ;
erase - > priv = ( unsigned long ) & waitq ;
/*
* FIXME : Allow INTERRUPTIBLE . Which means
* not having the wait_queue head on the stack .
*/
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err = mtd_erase ( mtd , erase ) ;
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if ( ! err ) {
set_current_state ( TASK_UNINTERRUPTIBLE ) ;
add_wait_queue ( & waitq , & wait ) ;
if ( erase - > state ! = MTD_ERASE_DONE
& & erase - > state ! = MTD_ERASE_FAILED )
schedule ( ) ;
remove_wait_queue ( & waitq , & wait ) ;
set_current_state ( TASK_RUNNING ) ;
err = ( erase - > state = = MTD_ERASE_FAILED ) ? - EIO : 0 ;
}
return err ;
}
static int concat_erase ( struct mtd_info * mtd , struct erase_info * instr )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
struct mtd_info * subdev ;
int i , err ;
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uint64_t length , offset = 0 ;
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struct erase_info * erase ;
/*
* Check for proper erase block alignment of the to - be - erased area .
* It is easier to do this based on the super device ' s erase
* region info rather than looking at each particular sub - device
* in turn .
*/
if ( ! concat - > mtd . numeraseregions ) {
/* the easy case: device has uniform erase block size */
if ( instr - > addr & ( concat - > mtd . erasesize - 1 ) )
return - EINVAL ;
if ( instr - > len & ( concat - > mtd . erasesize - 1 ) )
return - EINVAL ;
} else {
/* device has variable erase size */
struct mtd_erase_region_info * erase_regions =
concat - > mtd . eraseregions ;
/*
* Find the erase region where the to - be - erased area begins :
*/
for ( i = 0 ; i < concat - > mtd . numeraseregions & &
instr - > addr > = erase_regions [ i ] . offset ; i + + ) ;
- - i ;
/*
* Now erase_regions [ i ] is the region in which the
* to - be - erased area begins . Verify that the starting
* offset is aligned to this region ' s erase size :
*/
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if ( i < 0 | | instr - > addr & ( erase_regions [ i ] . erasesize - 1 ) )
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return - EINVAL ;
/*
* now find the erase region where the to - be - erased area ends :
*/
for ( ; i < concat - > mtd . numeraseregions & &
( instr - > addr + instr - > len ) > = erase_regions [ i ] . offset ;
+ + i ) ;
- - i ;
/*
* check if the ending offset is aligned to this region ' s erase size
*/
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if ( i < 0 | | ( ( instr - > addr + instr - > len ) &
( erase_regions [ i ] . erasesize - 1 ) ) )
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return - EINVAL ;
}
/* make a local copy of instr to avoid modifying the caller's struct */
erase = kmalloc ( sizeof ( struct erase_info ) , GFP_KERNEL ) ;
if ( ! erase )
return - ENOMEM ;
* erase = * instr ;
length = instr - > len ;
/*
* find the subdevice where the to - be - erased area begins , adjust
* starting offset to be relative to the subdevice start
*/
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
subdev = concat - > subdev [ i ] ;
if ( subdev - > size < = erase - > addr ) {
erase - > addr - = subdev - > size ;
offset + = subdev - > size ;
} else {
break ;
}
}
/* must never happen since size limit has been verified above */
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BUG_ON ( i > = concat - > num_subdev ) ;
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/* now do the erase: */
err = 0 ;
for ( ; length > 0 ; i + + ) {
/* loop for all subdevices affected by this request */
subdev = concat - > subdev [ i ] ; /* get current subdevice */
/* limit length to subdevice's size: */
if ( erase - > addr + length > subdev - > size )
erase - > len = subdev - > size - erase - > addr ;
else
erase - > len = length ;
length - = erase - > len ;
if ( ( err = concat_dev_erase ( subdev , erase ) ) ) {
/* sanity check: should never happen since
* block alignment has been checked above */
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BUG_ON ( err = = - EINVAL ) ;
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if ( erase - > fail_addr ! = MTD_FAIL_ADDR_UNKNOWN )
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instr - > fail_addr = erase - > fail_addr + offset ;
break ;
}
/*
* erase - > addr specifies the offset of the area to be
* erased * within the current subdevice * . It can be
* non - zero only the first time through this loop , i . e .
* for the first subdevice where blocks need to be erased .
* All the following erases must begin at the start of the
* current subdevice , i . e . at offset zero .
*/
erase - > addr = 0 ;
offset + = subdev - > size ;
}
instr - > state = erase - > state ;
kfree ( erase ) ;
if ( err )
return err ;
if ( instr - > callback )
instr - > callback ( instr ) ;
return 0 ;
}
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static int concat_lock ( struct mtd_info * mtd , loff_t ofs , uint64_t len )
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{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int i , err = - EINVAL ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
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uint64_t size ;
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if ( ofs > = subdev - > size ) {
size = 0 ;
ofs - = subdev - > size ;
continue ;
}
if ( ofs + len > subdev - > size )
size = subdev - > size - ofs ;
else
size = len ;
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err = mtd_lock ( subdev , ofs , size ) ;
if ( err )
break ;
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len - = size ;
if ( len = = 0 )
break ;
err = - EINVAL ;
ofs = 0 ;
}
return err ;
}
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static int concat_unlock ( struct mtd_info * mtd , loff_t ofs , uint64_t len )
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{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int i , err = 0 ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
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uint64_t size ;
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if ( ofs > = subdev - > size ) {
size = 0 ;
ofs - = subdev - > size ;
continue ;
}
if ( ofs + len > subdev - > size )
size = subdev - > size - ofs ;
else
size = len ;
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err = mtd_unlock ( subdev , ofs , size ) ;
if ( err )
break ;
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len - = size ;
if ( len = = 0 )
break ;
err = - EINVAL ;
ofs = 0 ;
}
return err ;
}
static void concat_sync ( struct mtd_info * mtd )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int i ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
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mtd_sync ( subdev ) ;
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}
}
static int concat_suspend ( struct mtd_info * mtd )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int i , rc = 0 ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
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if ( ( rc = mtd_suspend ( subdev ) ) < 0 )
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return rc ;
}
return rc ;
}
static void concat_resume ( struct mtd_info * mtd )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int i ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
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mtd_resume ( subdev ) ;
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}
}
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static int concat_block_isbad ( struct mtd_info * mtd , loff_t ofs )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int i , res = 0 ;
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if ( ! mtd_can_have_bb ( concat - > subdev [ 0 ] ) )
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return res ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
if ( ofs > = subdev - > size ) {
ofs - = subdev - > size ;
continue ;
}
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res = mtd_block_isbad ( subdev , ofs ) ;
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break ;
}
return res ;
}
static int concat_block_markbad ( struct mtd_info * mtd , loff_t ofs )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int i , err = - EINVAL ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
if ( ofs > = subdev - > size ) {
ofs - = subdev - > size ;
continue ;
}
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err = mtd_block_markbad ( subdev , ofs ) ;
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if ( ! err )
mtd - > ecc_stats . badblocks + + ;
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break ;
}
return err ;
}
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/*
* try to support NOMMU mmaps on concatenated devices
* - we don ' t support subdev spanning as we can ' t guarantee it ' ll work
*/
static unsigned long concat_get_unmapped_area ( struct mtd_info * mtd ,
unsigned long len ,
unsigned long offset ,
unsigned long flags )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
int i ;
for ( i = 0 ; i < concat - > num_subdev ; i + + ) {
struct mtd_info * subdev = concat - > subdev [ i ] ;
if ( offset > = subdev - > size ) {
offset - = subdev - > size ;
continue ;
}
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return mtd_get_unmapped_area ( subdev , len , offset , flags ) ;
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}
return ( unsigned long ) - ENOSYS ;
}
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/*
* This function constructs a virtual MTD device by concatenating
* num_devs MTD devices . A pointer to the new device object is
* stored to * new_dev upon success . This function does _not_
* register any devices : this is the caller ' s responsibility .
*/
struct mtd_info * mtd_concat_create ( struct mtd_info * subdev [ ] , /* subdevices to concatenate */
int num_devs , /* number of subdevices */
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const char * name )
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{ /* name for the new device */
int i ;
size_t size ;
struct mtd_concat * concat ;
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uint32_t max_erasesize , curr_erasesize ;
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int num_erase_region ;
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int max_writebufsize = 0 ;
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printk ( KERN_NOTICE " Concatenating MTD devices: \n " ) ;
for ( i = 0 ; i < num_devs ; i + + )
printk ( KERN_NOTICE " (%d): \" %s \" \n " , i , subdev [ i ] - > name ) ;
printk ( KERN_NOTICE " into device \" %s \" \n " , name ) ;
/* allocate the device structure */
size = SIZEOF_STRUCT_MTD_CONCAT ( num_devs ) ;
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concat = kzalloc ( size , GFP_KERNEL ) ;
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if ( ! concat ) {
printk
( " memory allocation error while creating concatenated device \" %s \" \n " ,
name ) ;
return NULL ;
}
concat - > subdev = ( struct mtd_info * * ) ( concat + 1 ) ;
/*
* Set up the new " super " device ' s MTD object structure , check for
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* incompatibilities between the subdevices .
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*/
concat - > mtd . type = subdev [ 0 ] - > type ;
concat - > mtd . flags = subdev [ 0 ] - > flags ;
concat - > mtd . size = subdev [ 0 ] - > size ;
concat - > mtd . erasesize = subdev [ 0 ] - > erasesize ;
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concat - > mtd . writesize = subdev [ 0 ] - > writesize ;
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for ( i = 0 ; i < num_devs ; i + + )
if ( max_writebufsize < subdev [ i ] - > writebufsize )
max_writebufsize = subdev [ i ] - > writebufsize ;
concat - > mtd . writebufsize = max_writebufsize ;
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concat - > mtd . subpage_sft = subdev [ 0 ] - > subpage_sft ;
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concat - > mtd . oobsize = subdev [ 0 ] - > oobsize ;
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concat - > mtd . oobavail = subdev [ 0 ] - > oobavail ;
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if ( subdev [ 0 ] - > _writev )
concat - > mtd . _writev = concat_writev ;
if ( subdev [ 0 ] - > _read_oob )
concat - > mtd . _read_oob = concat_read_oob ;
if ( subdev [ 0 ] - > _write_oob )
concat - > mtd . _write_oob = concat_write_oob ;
if ( subdev [ 0 ] - > _block_isbad )
concat - > mtd . _block_isbad = concat_block_isbad ;
if ( subdev [ 0 ] - > _block_markbad )
concat - > mtd . _block_markbad = concat_block_markbad ;
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concat - > mtd . ecc_stats . badblocks = subdev [ 0 ] - > ecc_stats . badblocks ;
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concat - > subdev [ 0 ] = subdev [ 0 ] ;
for ( i = 1 ; i < num_devs ; i + + ) {
if ( concat - > mtd . type ! = subdev [ i ] - > type ) {
kfree ( concat ) ;
printk ( " Incompatible device type on \" %s \" \n " ,
subdev [ i ] - > name ) ;
return NULL ;
}
if ( concat - > mtd . flags ! = subdev [ i ] - > flags ) {
/*
* Expect all flags except MTD_WRITEABLE to be
* equal on all subdevices .
*/
if ( ( concat - > mtd . flags ^ subdev [ i ] - >
flags ) & ~ MTD_WRITEABLE ) {
kfree ( concat ) ;
printk ( " Incompatible device flags on \" %s \" \n " ,
subdev [ i ] - > name ) ;
return NULL ;
} else
/* if writeable attribute differs,
make super device writeable */
concat - > mtd . flags | =
subdev [ i ] - > flags & MTD_WRITEABLE ;
}
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concat - > mtd . size + = subdev [ i ] - > size ;
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concat - > mtd . ecc_stats . badblocks + =
subdev [ i ] - > ecc_stats . badblocks ;
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if ( concat - > mtd . writesize ! = subdev [ i ] - > writesize | |
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concat - > mtd . subpage_sft ! = subdev [ i ] - > subpage_sft | |
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concat - > mtd . oobsize ! = subdev [ i ] - > oobsize | |
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! concat - > mtd . _read_oob ! = ! subdev [ i ] - > _read_oob | |
! concat - > mtd . _write_oob ! = ! subdev [ i ] - > _write_oob ) {
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kfree ( concat ) ;
printk ( " Incompatible OOB or ECC data on \" %s \" \n " ,
subdev [ i ] - > name ) ;
return NULL ;
}
concat - > subdev [ i ] = subdev [ i ] ;
}
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mtd_set_ooblayout ( & concat - > mtd , subdev [ 0 ] - > ooblayout ) ;
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concat - > num_subdev = num_devs ;
concat - > mtd . name = name ;
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concat - > mtd . _erase = concat_erase ;
concat - > mtd . _read = concat_read ;
concat - > mtd . _write = concat_write ;
concat - > mtd . _sync = concat_sync ;
concat - > mtd . _lock = concat_lock ;
concat - > mtd . _unlock = concat_unlock ;
concat - > mtd . _suspend = concat_suspend ;
concat - > mtd . _resume = concat_resume ;
concat - > mtd . _get_unmapped_area = concat_get_unmapped_area ;
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/*
* Combine the erase block size info of the subdevices :
*
* first , walk the map of the new device and see how
* many changes in erase size we have
*/
max_erasesize = curr_erasesize = subdev [ 0 ] - > erasesize ;
num_erase_region = 1 ;
for ( i = 0 ; i < num_devs ; i + + ) {
if ( subdev [ i ] - > numeraseregions = = 0 ) {
/* current subdevice has uniform erase size */
if ( subdev [ i ] - > erasesize ! = curr_erasesize ) {
/* if it differs from the last subdevice's erase size, count it */
+ + num_erase_region ;
curr_erasesize = subdev [ i ] - > erasesize ;
if ( curr_erasesize > max_erasesize )
max_erasesize = curr_erasesize ;
}
} else {
/* current subdevice has variable erase size */
int j ;
for ( j = 0 ; j < subdev [ i ] - > numeraseregions ; j + + ) {
/* walk the list of erase regions, count any changes */
if ( subdev [ i ] - > eraseregions [ j ] . erasesize ! =
curr_erasesize ) {
+ + num_erase_region ;
curr_erasesize =
subdev [ i ] - > eraseregions [ j ] .
erasesize ;
if ( curr_erasesize > max_erasesize )
max_erasesize = curr_erasesize ;
}
}
}
}
if ( num_erase_region = = 1 ) {
/*
* All subdevices have the same uniform erase size .
* This is easy :
*/
concat - > mtd . erasesize = curr_erasesize ;
concat - > mtd . numeraseregions = 0 ;
} else {
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uint64_t tmp64 ;
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/*
* erase block size varies across the subdevices : allocate
* space to store the data describing the variable erase regions
*/
struct mtd_erase_region_info * erase_region_p ;
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uint64_t begin , position ;
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concat - > mtd . erasesize = max_erasesize ;
concat - > mtd . numeraseregions = num_erase_region ;
concat - > mtd . eraseregions = erase_region_p =
kmalloc ( num_erase_region *
sizeof ( struct mtd_erase_region_info ) , GFP_KERNEL ) ;
if ( ! erase_region_p ) {
kfree ( concat ) ;
printk
( " memory allocation error while creating erase region list "
" for device \" %s \" \n " , name ) ;
return NULL ;
}
/*
* walk the map of the new device once more and fill in
* in erase region info :
*/
curr_erasesize = subdev [ 0 ] - > erasesize ;
begin = position = 0 ;
for ( i = 0 ; i < num_devs ; i + + ) {
if ( subdev [ i ] - > numeraseregions = = 0 ) {
/* current subdevice has uniform erase size */
if ( subdev [ i ] - > erasesize ! = curr_erasesize ) {
/*
* fill in an mtd_erase_region_info structure for the area
* we have walked so far :
*/
erase_region_p - > offset = begin ;
erase_region_p - > erasesize =
curr_erasesize ;
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tmp64 = position - begin ;
do_div ( tmp64 , curr_erasesize ) ;
erase_region_p - > numblocks = tmp64 ;
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begin = position ;
curr_erasesize = subdev [ i ] - > erasesize ;
+ + erase_region_p ;
}
position + = subdev [ i ] - > size ;
} else {
/* current subdevice has variable erase size */
int j ;
for ( j = 0 ; j < subdev [ i ] - > numeraseregions ; j + + ) {
/* walk the list of erase regions, count any changes */
if ( subdev [ i ] - > eraseregions [ j ] .
erasesize ! = curr_erasesize ) {
erase_region_p - > offset = begin ;
erase_region_p - > erasesize =
curr_erasesize ;
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tmp64 = position - begin ;
do_div ( tmp64 , curr_erasesize ) ;
erase_region_p - > numblocks = tmp64 ;
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begin = position ;
curr_erasesize =
subdev [ i ] - > eraseregions [ j ] .
erasesize ;
+ + erase_region_p ;
}
position + =
subdev [ i ] - > eraseregions [ j ] .
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numblocks * ( uint64_t ) curr_erasesize ;
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}
}
}
/* Now write the final entry */
erase_region_p - > offset = begin ;
erase_region_p - > erasesize = curr_erasesize ;
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tmp64 = position - begin ;
do_div ( tmp64 , curr_erasesize ) ;
erase_region_p - > numblocks = tmp64 ;
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}
return & concat - > mtd ;
}
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/*
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* This function destroys an MTD object obtained from concat_mtd_devs ( )
*/
void mtd_concat_destroy ( struct mtd_info * mtd )
{
struct mtd_concat * concat = CONCAT ( mtd ) ;
if ( concat - > mtd . numeraseregions )
kfree ( concat - > mtd . eraseregions ) ;
kfree ( concat ) ;
}
EXPORT_SYMBOL ( mtd_concat_create ) ;
EXPORT_SYMBOL ( mtd_concat_destroy ) ;
MODULE_LICENSE ( " GPL " ) ;
MODULE_AUTHOR ( " Robert Kaiser <rkaiser@sysgo.de> " ) ;
MODULE_DESCRIPTION ( " Generic support for concatenating of MTD devices " ) ;