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/*
* JFFS2 - - Journalling Flash File System , Version 2.
*
* Copyright ( C ) 2001 - 2003 Red Hat , Inc .
*
* Created by David Woodhouse < dwmw2 @ infradead . org >
*
* For licensing information , see the file ' LICENCE ' in this directory .
*
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* $ Id : nodemgmt . c , v 1.127 2005 / 09 / 20 15 : 49 : 12 dedekind Exp $
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*
*/
# include <linux/kernel.h>
# include <linux/slab.h>
# include <linux/mtd/mtd.h>
# include <linux/compiler.h>
# include <linux/sched.h> /* For cond_resched() */
# include "nodelist.h"
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# include "debug.h"
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/**
* jffs2_reserve_space - request physical space to write nodes to flash
* @ c : superblock info
* @ minsize : Minimum acceptable size of allocation
* @ ofs : Returned value of node offset
* @ len : Returned value of allocation length
* @ prio : Allocation type - ALLOC_ { NORMAL , DELETION }
*
* Requests a block of physical space on the flash . Returns zero for success
* and puts ' ofs ' and ' len ' into the appriopriate place , or returns - ENOSPC
* or other error if appropriate .
*
* If it returns zero , jffs2_reserve_space ( ) also downs the per - filesystem
* allocation semaphore , to prevent more than one allocation from being
* active at any time . The semaphore is later released by jffs2_commit_allocation ( )
*
* jffs2_reserve_space ( ) may trigger garbage collection in order to make room
* for the requested allocation .
*/
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static int jffs2_do_reserve_space ( struct jffs2_sb_info * c , uint32_t minsize ,
uint32_t * ofs , uint32_t * len , uint32_t sumsize ) ;
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int jffs2_reserve_space ( struct jffs2_sb_info * c , uint32_t minsize , uint32_t * ofs ,
uint32_t * len , int prio , uint32_t sumsize )
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{
int ret = - EAGAIN ;
int blocksneeded = c - > resv_blocks_write ;
/* align it */
minsize = PAD ( minsize ) ;
D1 ( printk ( KERN_DEBUG " jffs2_reserve_space(): Requested 0x%x bytes \n " , minsize ) ) ;
down ( & c - > alloc_sem ) ;
D1 ( printk ( KERN_DEBUG " jffs2_reserve_space(): alloc sem got \n " ) ) ;
spin_lock ( & c - > erase_completion_lock ) ;
/* this needs a little more thought (true <tglx> :)) */
while ( ret = = - EAGAIN ) {
while ( c - > nr_free_blocks + c - > nr_erasing_blocks < blocksneeded ) {
int ret ;
uint32_t dirty , avail ;
/* calculate real dirty size
* dirty_size contains blocks on erase_pending_list
* those blocks are counted in c - > nr_erasing_blocks .
* If one block is actually erased , it is not longer counted as dirty_space
* but it is counted in c - > nr_erasing_blocks , so we add it and subtract it
* with c - > nr_erasing_blocks * c - > sector_size again .
* Blocks on erasable_list are counted as dirty_size , but not in c - > nr_erasing_blocks
* This helps us to force gc and pick eventually a clean block to spread the load .
* We add unchecked_size here , as we hopefully will find some space to use .
* This will affect the sum only once , as gc first finishes checking
* of nodes .
*/
dirty = c - > dirty_size + c - > erasing_size - c - > nr_erasing_blocks * c - > sector_size + c - > unchecked_size ;
if ( dirty < c - > nospc_dirty_size ) {
if ( prio = = ALLOC_DELETION & & c - > nr_free_blocks + c - > nr_erasing_blocks > = c - > resv_blocks_deletion ) {
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D1 ( printk ( KERN_NOTICE " jffs2_reserve_space(): Low on dirty space to GC, but it's a deletion. Allowing... \n " ) ) ;
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break ;
}
D1 ( printk ( KERN_DEBUG " dirty size 0x%08x + unchecked_size 0x%08x < nospc_dirty_size 0x%08x, returning -ENOSPC \n " ,
dirty , c - > unchecked_size , c - > sector_size ) ) ;
spin_unlock ( & c - > erase_completion_lock ) ;
up ( & c - > alloc_sem ) ;
return - ENOSPC ;
}
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/* Calc possibly available space. Possibly available means that we
* don ' t know , if unchecked size contains obsoleted nodes , which could give us some
* more usable space . This will affect the sum only once , as gc first finishes checking
* of nodes .
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+ Return - ENOSPC , if the maximum possibly available space is less or equal than
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* blocksneeded * sector_size .
* This blocks endless gc looping on a filesystem , which is nearly full , even if
* the check above passes .
*/
avail = c - > free_size + c - > dirty_size + c - > erasing_size + c - > unchecked_size ;
if ( ( avail / c - > sector_size ) < = blocksneeded ) {
if ( prio = = ALLOC_DELETION & & c - > nr_free_blocks + c - > nr_erasing_blocks > = c - > resv_blocks_deletion ) {
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D1 ( printk ( KERN_NOTICE " jffs2_reserve_space(): Low on possibly available space, but it's a deletion. Allowing... \n " ) ) ;
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break ;
}
D1 ( printk ( KERN_DEBUG " max. available size 0x%08x < blocksneeded * sector_size 0x%08x, returning -ENOSPC \n " ,
avail , blocksneeded * c - > sector_size ) ) ;
spin_unlock ( & c - > erase_completion_lock ) ;
up ( & c - > alloc_sem ) ;
return - ENOSPC ;
}
up ( & c - > alloc_sem ) ;
D1 ( printk ( KERN_DEBUG " Triggering GC pass. nr_free_blocks %d, nr_erasing_blocks %d, free_size 0x%08x, dirty_size 0x%08x, wasted_size 0x%08x, used_size 0x%08x, erasing_size 0x%08x, bad_size 0x%08x (total 0x%08x of 0x%08x) \n " ,
c - > nr_free_blocks , c - > nr_erasing_blocks , c - > free_size , c - > dirty_size , c - > wasted_size , c - > used_size , c - > erasing_size , c - > bad_size ,
c - > free_size + c - > dirty_size + c - > wasted_size + c - > used_size + c - > erasing_size + c - > bad_size , c - > flash_size ) ) ;
spin_unlock ( & c - > erase_completion_lock ) ;
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ret = jffs2_garbage_collect_pass ( c ) ;
if ( ret )
return ret ;
cond_resched ( ) ;
if ( signal_pending ( current ) )
return - EINTR ;
down ( & c - > alloc_sem ) ;
spin_lock ( & c - > erase_completion_lock ) ;
}
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ret = jffs2_do_reserve_space ( c , minsize , ofs , len , sumsize ) ;
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if ( ret ) {
D1 ( printk ( KERN_DEBUG " jffs2_reserve_space: ret is %d \n " , ret ) ) ;
}
}
spin_unlock ( & c - > erase_completion_lock ) ;
if ( ret )
up ( & c - > alloc_sem ) ;
return ret ;
}
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int jffs2_reserve_space_gc ( struct jffs2_sb_info * c , uint32_t minsize , uint32_t * ofs ,
uint32_t * len , uint32_t sumsize )
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{
int ret = - EAGAIN ;
minsize = PAD ( minsize ) ;
D1 ( printk ( KERN_DEBUG " jffs2_reserve_space_gc(): Requested 0x%x bytes \n " , minsize ) ) ;
spin_lock ( & c - > erase_completion_lock ) ;
while ( ret = = - EAGAIN ) {
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ret = jffs2_do_reserve_space ( c , minsize , ofs , len , sumsize ) ;
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if ( ret ) {
D1 ( printk ( KERN_DEBUG " jffs2_reserve_space_gc: looping, ret is %d \n " , ret ) ) ;
}
}
spin_unlock ( & c - > erase_completion_lock ) ;
return ret ;
}
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/* Classify nextblock (clean, dirty of verydirty) and force to select an other one */
static void jffs2_close_nextblock ( struct jffs2_sb_info * c , struct jffs2_eraseblock * jeb )
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{
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/* Check, if we have a dirty block now, or if it was dirty already */
if ( ISDIRTY ( jeb - > wasted_size + jeb - > dirty_size ) ) {
c - > dirty_size + = jeb - > wasted_size ;
c - > wasted_size - = jeb - > wasted_size ;
jeb - > dirty_size + = jeb - > wasted_size ;
jeb - > wasted_size = 0 ;
if ( VERYDIRTY ( c , jeb - > dirty_size ) ) {
D1 ( printk ( KERN_DEBUG " Adding full erase block at 0x%08x to very_dirty_list (free 0x%08x, dirty 0x%08x, used 0x%08x \n " ,
jeb - > offset , jeb - > free_size , jeb - > dirty_size , jeb - > used_size ) ) ;
list_add_tail ( & jeb - > list , & c - > very_dirty_list ) ;
} else {
D1 ( printk ( KERN_DEBUG " Adding full erase block at 0x%08x to dirty_list (free 0x%08x, dirty 0x%08x, used 0x%08x \n " ,
jeb - > offset , jeb - > free_size , jeb - > dirty_size , jeb - > used_size ) ) ;
list_add_tail ( & jeb - > list , & c - > dirty_list ) ;
}
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} else {
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D1 ( printk ( KERN_DEBUG " Adding full erase block at 0x%08x to clean_list (free 0x%08x, dirty 0x%08x, used 0x%08x \n " ,
jeb - > offset , jeb - > free_size , jeb - > dirty_size , jeb - > used_size ) ) ;
list_add_tail ( & jeb - > list , & c - > clean_list ) ;
}
c - > nextblock = NULL ;
}
/* Select a new jeb for nextblock */
static int jffs2_find_nextblock ( struct jffs2_sb_info * c )
{
struct list_head * next ;
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/* Take the next block off the 'free' list */
if ( list_empty ( & c - > free_list ) ) {
if ( ! c - > nr_erasing_blocks & &
! list_empty ( & c - > erasable_list ) ) {
struct jffs2_eraseblock * ejeb ;
ejeb = list_entry ( c - > erasable_list . next , struct jffs2_eraseblock , list ) ;
list_del ( & ejeb - > list ) ;
list_add_tail ( & ejeb - > list , & c - > erase_pending_list ) ;
c - > nr_erasing_blocks + + ;
jffs2_erase_pending_trigger ( c ) ;
D1 ( printk ( KERN_DEBUG " jffs2_find_nextblock: Triggering erase of erasable block at 0x%08x \n " ,
ejeb - > offset ) ) ;
}
if ( ! c - > nr_erasing_blocks & &
! list_empty ( & c - > erasable_pending_wbuf_list ) ) {
D1 ( printk ( KERN_DEBUG " jffs2_find_nextblock: Flushing write buffer \n " ) ) ;
/* c->nextblock is NULL, no update to c->nextblock allowed */
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spin_unlock ( & c - > erase_completion_lock ) ;
jffs2_flush_wbuf_pad ( c ) ;
spin_lock ( & c - > erase_completion_lock ) ;
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/* Have another go. It'll be on the erasable_list now */
return - EAGAIN ;
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}
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if ( ! c - > nr_erasing_blocks ) {
/* Ouch. We're in GC, or we wouldn't have got here.
And there ' s no space left . At all . */
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printk ( KERN_CRIT " Argh. No free space left for GC. nr_erasing_blocks is %d. nr_free_blocks is %d. (erasableempty: %s, erasingempty: %s, erasependingempty: %s) \n " ,
c - > nr_erasing_blocks , c - > nr_free_blocks , list_empty ( & c - > erasable_list ) ? " yes " : " no " ,
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list_empty ( & c - > erasing_list ) ? " yes " : " no " , list_empty ( & c - > erase_pending_list ) ? " yes " : " no " ) ;
return - ENOSPC ;
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}
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spin_unlock ( & c - > erase_completion_lock ) ;
/* Don't wait for it; just erase one right now */
jffs2_erase_pending_blocks ( c , 1 ) ;
spin_lock ( & c - > erase_completion_lock ) ;
/* An erase may have failed, decreasing the
amount of free space available . So we must
restart from the beginning */
return - EAGAIN ;
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}
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next = c - > free_list . next ;
list_del ( next ) ;
c - > nextblock = list_entry ( next , struct jffs2_eraseblock , list ) ;
c - > nr_free_blocks - - ;
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jffs2_sum_reset_collected ( c - > summary ) ; /* reset collected summary */
D1 ( printk ( KERN_DEBUG " jffs2_find_nextblock(): new nextblock = 0x%08x \n " , c - > nextblock - > offset ) ) ;
return 0 ;
}
/* Called with alloc sem _and_ erase_completion_lock */
static int jffs2_do_reserve_space ( struct jffs2_sb_info * c , uint32_t minsize , uint32_t * ofs , uint32_t * len , uint32_t sumsize )
{
struct jffs2_eraseblock * jeb = c - > nextblock ;
uint32_t reserved_size ; /* for summary information at the end of the jeb */
int ret ;
restart :
reserved_size = 0 ;
if ( jffs2_sum_active ( ) & & ( sumsize ! = JFFS2_SUMMARY_NOSUM_SIZE ) ) {
/* NOSUM_SIZE means not to generate summary */
if ( jeb ) {
reserved_size = PAD ( sumsize + c - > summary - > sum_size + JFFS2_SUMMARY_FRAME_SIZE ) ;
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dbg_summary ( " minsize=%d , jeb->free=%d , "
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" summary->size=%d , sumsize=%d \n " ,
minsize , jeb - > free_size ,
c - > summary - > sum_size , sumsize ) ;
}
/* Is there enough space for writing out the current node, or we have to
write out summary information now , close this jeb and select new nextblock ? */
if ( jeb & & ( PAD ( minsize ) + PAD ( c - > summary - > sum_size + sumsize +
JFFS2_SUMMARY_FRAME_SIZE ) > jeb - > free_size ) ) {
/* Has summary been disabled for this jeb? */
if ( jffs2_sum_is_disabled ( c - > summary ) ) {
sumsize = JFFS2_SUMMARY_NOSUM_SIZE ;
goto restart ;
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}
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/* Writing out the collected summary information */
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dbg_summary ( " generating summary for 0x%08x. \n " , jeb - > offset ) ;
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ret = jffs2_sum_write_sumnode ( c ) ;
if ( ret )
return ret ;
if ( jffs2_sum_is_disabled ( c - > summary ) ) {
/* jffs2_write_sumnode() couldn't write out the summary information
diabling summary for this jeb and free the collected information
*/
sumsize = JFFS2_SUMMARY_NOSUM_SIZE ;
goto restart ;
}
jffs2_close_nextblock ( c , jeb ) ;
jeb = NULL ;
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/* keep always valid value in reserved_size */
reserved_size = PAD ( sumsize + c - > summary - > sum_size + JFFS2_SUMMARY_FRAME_SIZE ) ;
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}
} else {
if ( jeb & & minsize > jeb - > free_size ) {
/* Skip the end of this block and file it as having some dirty space */
/* If there's a pending write to it, flush now */
if ( jffs2_wbuf_dirty ( c ) ) {
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spin_unlock ( & c - > erase_completion_lock ) ;
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D1 ( printk ( KERN_DEBUG " jffs2_do_reserve_space: Flushing write buffer \n " ) ) ;
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jffs2_flush_wbuf_pad ( c ) ;
spin_lock ( & c - > erase_completion_lock ) ;
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jeb = c - > nextblock ;
goto restart ;
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}
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c - > wasted_size + = jeb - > free_size ;
c - > free_size - = jeb - > free_size ;
jeb - > wasted_size + = jeb - > free_size ;
jeb - > free_size = 0 ;
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jffs2_close_nextblock ( c , jeb ) ;
jeb = NULL ;
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}
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}
if ( ! jeb ) {
ret = jffs2_find_nextblock ( c ) ;
if ( ret )
return ret ;
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jeb = c - > nextblock ;
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if ( jeb - > free_size ! = c - > sector_size - c - > cleanmarker_size ) {
printk ( KERN_WARNING " Eep. Block 0x%08x taken from free_list had free_size of 0x%08x!! \n " , jeb - > offset , jeb - > free_size ) ;
goto restart ;
}
}
/* OK, jeb (==c->nextblock) is now pointing at a block which definitely has
enough space */
* ofs = jeb - > offset + ( c - > sector_size - jeb - > free_size ) ;
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* len = jeb - > free_size - reserved_size ;
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if ( c - > cleanmarker_size & & jeb - > used_size = = c - > cleanmarker_size & &
! jeb - > first_node - > next_in_ino ) {
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/* Only node in it beforehand was a CLEANMARKER node (we think).
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So mark it obsolete now that there ' s going to be another node
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in the block . This will reduce used_size to zero but We ' ve
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already set c - > nextblock so that jffs2_mark_node_obsolete ( )
won ' t try to refile it to the dirty_list .
*/
spin_unlock ( & c - > erase_completion_lock ) ;
jffs2_mark_node_obsolete ( c , jeb - > first_node ) ;
spin_lock ( & c - > erase_completion_lock ) ;
}
D1 ( printk ( KERN_DEBUG " jffs2_do_reserve_space(): Giving 0x%x bytes at 0x%x \n " , * len , * ofs ) ) ;
return 0 ;
}
/**
* jffs2_add_physical_node_ref - add a physical node reference to the list
* @ c : superblock info
* @ new : new node reference to add
* @ len : length of this physical node
* @ dirty : dirty flag for new node
*
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* Should only be used to report nodes for which space has been allocated
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* by jffs2_reserve_space .
*
* Must be called with the alloc_sem held .
*/
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int jffs2_add_physical_node_ref ( struct jffs2_sb_info * c , struct jffs2_raw_node_ref * new )
{
struct jffs2_eraseblock * jeb ;
uint32_t len ;
jeb = & c - > blocks [ new - > flash_offset / c - > sector_size ] ;
len = ref_totlen ( c , jeb , new ) ;
D1 ( printk ( KERN_DEBUG " jffs2_add_physical_node_ref(): Node at 0x%x(%d), size 0x%x \n " , ref_offset ( new ) , ref_flags ( new ) , len ) ) ;
# if 1
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/* we could get some obsolete nodes after nextblock was refiled
in wbuf . c */
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if ( ( c - > nextblock | | ! ref_obsolete ( new ) )
& & ( jeb ! = c - > nextblock | | ref_offset ( new ) ! = jeb - > offset + ( c - > sector_size - jeb - > free_size ) ) ) {
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printk ( KERN_WARNING " argh. node added in wrong place \n " ) ;
jffs2_free_raw_node_ref ( new ) ;
return - EINVAL ;
}
# endif
spin_lock ( & c - > erase_completion_lock ) ;
if ( ! jeb - > first_node )
jeb - > first_node = new ;
if ( jeb - > last_node )
jeb - > last_node - > next_phys = new ;
jeb - > last_node = new ;
jeb - > free_size - = len ;
c - > free_size - = len ;
if ( ref_obsolete ( new ) ) {
jeb - > dirty_size + = len ;
c - > dirty_size + = len ;
} else {
jeb - > used_size + = len ;
c - > used_size + = len ;
}
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if ( ! jeb - > free_size & & ! jeb - > dirty_size & & ! ISDIRTY ( jeb - > wasted_size ) ) {
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/* If it lives on the dirty_list, jffs2_reserve_space will put it there */
D1 ( printk ( KERN_DEBUG " Adding full erase block at 0x%08x to clean_list (free 0x%08x, dirty 0x%08x, used 0x%08x \n " ,
jeb - > offset , jeb - > free_size , jeb - > dirty_size , jeb - > used_size ) ) ;
if ( jffs2_wbuf_dirty ( c ) ) {
/* Flush the last write in the block if it's outstanding */
spin_unlock ( & c - > erase_completion_lock ) ;
jffs2_flush_wbuf_pad ( c ) ;
spin_lock ( & c - > erase_completion_lock ) ;
}
list_add_tail ( & jeb - > list , & c - > clean_list ) ;
c - > nextblock = NULL ;
}
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jffs2_dbg_acct_sanity_check_nolock ( c , jeb ) ;
jffs2_dbg_acct_paranoia_check_nolock ( c , jeb ) ;
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spin_unlock ( & c - > erase_completion_lock ) ;
return 0 ;
}
void jffs2_complete_reservation ( struct jffs2_sb_info * c )
{
D1 ( printk ( KERN_DEBUG " jffs2_complete_reservation() \n " ) ) ;
jffs2_garbage_collect_trigger ( c ) ;
up ( & c - > alloc_sem ) ;
}
static inline int on_list ( struct list_head * obj , struct list_head * head )
{
struct list_head * this ;
list_for_each ( this , head ) {
if ( this = = obj ) {
D1 ( printk ( " %p is on list at %p \n " , obj , head ) ) ;
return 1 ;
}
}
return 0 ;
}
void jffs2_mark_node_obsolete ( struct jffs2_sb_info * c , struct jffs2_raw_node_ref * ref )
{
struct jffs2_eraseblock * jeb ;
int blocknr ;
struct jffs2_unknown_node n ;
int ret , addedsize ;
size_t retlen ;
if ( ! ref ) {
printk ( KERN_NOTICE " EEEEEK. jffs2_mark_node_obsolete called with NULL node \n " ) ;
return ;
}
if ( ref_obsolete ( ref ) ) {
D1 ( printk ( KERN_DEBUG " jffs2_mark_node_obsolete called with already obsolete node at 0x%08x \n " , ref_offset ( ref ) ) ) ;
return ;
}
blocknr = ref - > flash_offset / c - > sector_size ;
if ( blocknr > = c - > nr_blocks ) {
printk ( KERN_NOTICE " raw node at 0x%08x is off the end of device! \n " , ref - > flash_offset ) ;
BUG ( ) ;
}
jeb = & c - > blocks [ blocknr ] ;
if ( jffs2_can_mark_obsolete ( c ) & & ! jffs2_is_readonly ( c ) & &
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! ( c - > flags & ( JFFS2_SB_FLAG_SCANNING | JFFS2_SB_FLAG_BUILDING ) ) ) {
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/* Hm. This may confuse static lock analysis. If any of the above
three conditions is false , we ' re going to return from this
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function without actually obliterating any nodes or freeing
any jffs2_raw_node_refs . So we don ' t need to stop erases from
happening , or protect against people holding an obsolete
jffs2_raw_node_ref without the erase_completion_lock . */
down ( & c - > erase_free_sem ) ;
}
spin_lock ( & c - > erase_completion_lock ) ;
if ( ref_flags ( ref ) = = REF_UNCHECKED ) {
D1 ( if ( unlikely ( jeb - > unchecked_size < ref_totlen ( c , jeb , ref ) ) ) {
printk ( KERN_NOTICE " raw unchecked node of size 0x%08x freed from erase block %d at 0x%08x, but unchecked_size was already 0x%08x \n " ,
ref_totlen ( c , jeb , ref ) , blocknr , ref - > flash_offset , jeb - > used_size ) ;
BUG ( ) ;
} )
D1 ( printk ( KERN_DEBUG " Obsoleting previously unchecked node at 0x%08x of len %x: " , ref_offset ( ref ) , ref_totlen ( c , jeb , ref ) ) ) ;
jeb - > unchecked_size - = ref_totlen ( c , jeb , ref ) ;
c - > unchecked_size - = ref_totlen ( c , jeb , ref ) ;
} else {
D1 ( if ( unlikely ( jeb - > used_size < ref_totlen ( c , jeb , ref ) ) ) {
printk ( KERN_NOTICE " raw node of size 0x%08x freed from erase block %d at 0x%08x, but used_size was already 0x%08x \n " ,
ref_totlen ( c , jeb , ref ) , blocknr , ref - > flash_offset , jeb - > used_size ) ;
BUG ( ) ;
} )
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D1 ( printk ( KERN_DEBUG " Obsoleting node at 0x%08x of len %#x: " , ref_offset ( ref ) , ref_totlen ( c , jeb , ref ) ) ) ;
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jeb - > used_size - = ref_totlen ( c , jeb , ref ) ;
c - > used_size - = ref_totlen ( c , jeb , ref ) ;
}
// Take care, that wasted size is taken into concern
if ( ( jeb - > dirty_size | | ISDIRTY ( jeb - > wasted_size + ref_totlen ( c , jeb , ref ) ) ) & & jeb ! = c - > nextblock ) {
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D1 ( printk ( KERN_DEBUG " Dirtying \n " ) ) ;
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addedsize = ref_totlen ( c , jeb , ref ) ;
jeb - > dirty_size + = ref_totlen ( c , jeb , ref ) ;
c - > dirty_size + = ref_totlen ( c , jeb , ref ) ;
/* Convert wasted space to dirty, if not a bad block */
if ( jeb - > wasted_size ) {
if ( on_list ( & jeb - > list , & c - > bad_used_list ) ) {
D1 ( printk ( KERN_DEBUG " Leaving block at %08x on the bad_used_list \n " ,
jeb - > offset ) ) ;
addedsize = 0 ; /* To fool the refiling code later */
} else {
D1 ( printk ( KERN_DEBUG " Converting %d bytes of wasted space to dirty in block at %08x \n " ,
jeb - > wasted_size , jeb - > offset ) ) ;
addedsize + = jeb - > wasted_size ;
jeb - > dirty_size + = jeb - > wasted_size ;
c - > dirty_size + = jeb - > wasted_size ;
c - > wasted_size - = jeb - > wasted_size ;
jeb - > wasted_size = 0 ;
}
}
} else {
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D1 ( printk ( KERN_DEBUG " Wasting \n " ) ) ;
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addedsize = 0 ;
jeb - > wasted_size + = ref_totlen ( c , jeb , ref ) ;
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c - > wasted_size + = ref_totlen ( c , jeb , ref ) ;
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}
ref - > flash_offset = ref_offset ( ref ) | REF_OBSOLETE ;
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jffs2_dbg_acct_sanity_check_nolock ( c , jeb ) ;
jffs2_dbg_acct_paranoia_check_nolock ( c , jeb ) ;
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if ( c - > flags & JFFS2_SB_FLAG_SCANNING ) {
/* Flash scanning is in progress. Don't muck about with the block
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lists because they ' re not ready yet , and don ' t actually
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obliterate nodes that look obsolete . If they weren ' t
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marked obsolete on the flash at the time they _became_
obsolete , there was probably a reason for that . */
spin_unlock ( & c - > erase_completion_lock ) ;
/* We didn't lock the erase_free_sem */
return ;
}
if ( jeb = = c - > nextblock ) {
D2 ( printk ( KERN_DEBUG " Not moving nextblock 0x%08x to dirty/erase_pending list \n " , jeb - > offset ) ) ;
} else if ( ! jeb - > used_size & & ! jeb - > unchecked_size ) {
if ( jeb = = c - > gcblock ) {
D1 ( printk ( KERN_DEBUG " gcblock at 0x%08x completely dirtied. Clearing gcblock... \n " , jeb - > offset ) ) ;
c - > gcblock = NULL ;
} else {
D1 ( printk ( KERN_DEBUG " Eraseblock at 0x%08x completely dirtied. Removing from (dirty?) list... \n " , jeb - > offset ) ) ;
list_del ( & jeb - > list ) ;
}
if ( jffs2_wbuf_dirty ( c ) ) {
D1 ( printk ( KERN_DEBUG " ...and adding to erasable_pending_wbuf_list \n " ) ) ;
list_add_tail ( & jeb - > list , & c - > erasable_pending_wbuf_list ) ;
} else {
if ( jiffies & 127 ) {
/* Most of the time, we just erase it immediately. Otherwise we
spend ages scanning it on mount , etc . */
D1 ( printk ( KERN_DEBUG " ...and adding to erase_pending_list \n " ) ) ;
list_add_tail ( & jeb - > list , & c - > erase_pending_list ) ;
c - > nr_erasing_blocks + + ;
jffs2_erase_pending_trigger ( c ) ;
} else {
/* Sometimes, however, we leave it elsewhere so it doesn't get
immediately reused , and we spread the load a bit . */
D1 ( printk ( KERN_DEBUG " ...and adding to erasable_list \n " ) ) ;
list_add_tail ( & jeb - > list , & c - > erasable_list ) ;
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}
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}
D1 ( printk ( KERN_DEBUG " Done OK \n " ) ) ;
} else if ( jeb = = c - > gcblock ) {
D2 ( printk ( KERN_DEBUG " Not moving gcblock 0x%08x to dirty_list \n " , jeb - > offset ) ) ;
} else if ( ISDIRTY ( jeb - > dirty_size ) & & ! ISDIRTY ( jeb - > dirty_size - addedsize ) ) {
D1 ( printk ( KERN_DEBUG " Eraseblock at 0x%08x is freshly dirtied. Removing from clean list... \n " , jeb - > offset ) ) ;
list_del ( & jeb - > list ) ;
D1 ( printk ( KERN_DEBUG " ...and adding to dirty_list \n " ) ) ;
list_add_tail ( & jeb - > list , & c - > dirty_list ) ;
} else if ( VERYDIRTY ( c , jeb - > dirty_size ) & &
! VERYDIRTY ( c , jeb - > dirty_size - addedsize ) ) {
D1 ( printk ( KERN_DEBUG " Eraseblock at 0x%08x is now very dirty. Removing from dirty list... \n " , jeb - > offset ) ) ;
list_del ( & jeb - > list ) ;
D1 ( printk ( KERN_DEBUG " ...and adding to very_dirty_list \n " ) ) ;
list_add_tail ( & jeb - > list , & c - > very_dirty_list ) ;
} else {
D1 ( printk ( KERN_DEBUG " Eraseblock at 0x%08x not moved anywhere. (free 0x%08x, dirty 0x%08x, used 0x%08x) \n " ,
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jeb - > offset , jeb - > free_size , jeb - > dirty_size , jeb - > used_size ) ) ;
}
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spin_unlock ( & c - > erase_completion_lock ) ;
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if ( ! jffs2_can_mark_obsolete ( c ) | | jffs2_is_readonly ( c ) | |
( c - > flags & JFFS2_SB_FLAG_BUILDING ) ) {
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/* We didn't lock the erase_free_sem */
return ;
}
/* The erase_free_sem is locked, and has been since before we marked the node obsolete
and potentially put its eraseblock onto the erase_pending_list . Thus , we know that
the block hasn ' t _already_ been erased , and that ' ref ' itself hasn ' t been freed yet
by jffs2_free_all_node_refs ( ) in erase . c . Which is nice . */
D1 ( printk ( KERN_DEBUG " obliterating obsoleted node at 0x%08x \n " , ref_offset ( ref ) ) ) ;
ret = jffs2_flash_read ( c , ref_offset ( ref ) , sizeof ( n ) , & retlen , ( char * ) & n ) ;
if ( ret ) {
printk ( KERN_WARNING " Read error reading from obsoleted node at 0x%08x: %d \n " , ref_offset ( ref ) , ret ) ;
goto out_erase_sem ;
}
if ( retlen ! = sizeof ( n ) ) {
printk ( KERN_WARNING " Short read from obsoleted node at 0x%08x: %zd \n " , ref_offset ( ref ) , retlen ) ;
goto out_erase_sem ;
}
if ( PAD ( je32_to_cpu ( n . totlen ) ) ! = PAD ( ref_totlen ( c , jeb , ref ) ) ) {
printk ( KERN_WARNING " Node totlen on flash (0x%08x) != totlen from node ref (0x%08x) \n " , je32_to_cpu ( n . totlen ) , ref_totlen ( c , jeb , ref ) ) ;
goto out_erase_sem ;
}
if ( ! ( je16_to_cpu ( n . nodetype ) & JFFS2_NODE_ACCURATE ) ) {
D1 ( printk ( KERN_DEBUG " Node at 0x%08x was already marked obsolete (nodetype 0x%04x) \n " , ref_offset ( ref ) , je16_to_cpu ( n . nodetype ) ) ) ;
goto out_erase_sem ;
}
/* XXX FIXME: This is ugly now */
n . nodetype = cpu_to_je16 ( je16_to_cpu ( n . nodetype ) & ~ JFFS2_NODE_ACCURATE ) ;
ret = jffs2_flash_write ( c , ref_offset ( ref ) , sizeof ( n ) , & retlen , ( char * ) & n ) ;
if ( ret ) {
printk ( KERN_WARNING " Write error in obliterating obsoleted node at 0x%08x: %d \n " , ref_offset ( ref ) , ret ) ;
goto out_erase_sem ;
}
if ( retlen ! = sizeof ( n ) ) {
printk ( KERN_WARNING " Short write in obliterating obsoleted node at 0x%08x: %zd \n " , ref_offset ( ref ) , retlen ) ;
goto out_erase_sem ;
}
/* Nodes which have been marked obsolete no longer need to be
associated with any inode . Remove them from the per - inode list .
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Note we can ' t do this for NAND at the moment because we need
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obsolete dirent nodes to stay on the lists , because of the
horridness in jffs2_garbage_collect_deletion_dirent ( ) . Also
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because we delete the inocache , and on NAND we need that to
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stay around until all the nodes are actually erased , in order
to stop us from giving the same inode number to another newly
created inode . */
if ( ref - > next_in_ino ) {
struct jffs2_inode_cache * ic ;
struct jffs2_raw_node_ref * * p ;
spin_lock ( & c - > erase_completion_lock ) ;
ic = jffs2_raw_ref_to_ic ( ref ) ;
for ( p = & ic - > nodes ; ( * p ) ! = ref ; p = & ( ( * p ) - > next_in_ino ) )
;
* p = ref - > next_in_ino ;
ref - > next_in_ino = NULL ;
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if ( ic - > nodes = = ( void * ) ic & & ic - > nlink = = 0 )
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jffs2_del_ino_cache ( c , ic ) ;
spin_unlock ( & c - > erase_completion_lock ) ;
}
/* Merge with the next node in the physical list, if there is one
and if it ' s also obsolete and if it doesn ' t belong to any inode */
if ( ref - > next_phys & & ref_obsolete ( ref - > next_phys ) & &
! ref - > next_phys - > next_in_ino ) {
struct jffs2_raw_node_ref * n = ref - > next_phys ;
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spin_lock ( & c - > erase_completion_lock ) ;
ref - > __totlen + = n - > __totlen ;
ref - > next_phys = n - > next_phys ;
if ( jeb - > last_node = = n ) jeb - > last_node = ref ;
if ( jeb - > gc_node = = n ) {
/* gc will be happy continuing gc on this node */
jeb - > gc_node = ref ;
}
spin_unlock ( & c - > erase_completion_lock ) ;
jffs2_free_raw_node_ref ( n ) ;
}
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/* Also merge with the previous node in the list, if there is one
and that one is obsolete */
if ( ref ! = jeb - > first_node ) {
struct jffs2_raw_node_ref * p = jeb - > first_node ;
spin_lock ( & c - > erase_completion_lock ) ;
while ( p - > next_phys ! = ref )
p = p - > next_phys ;
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if ( ref_obsolete ( p ) & & ! ref - > next_in_ino ) {
p - > __totlen + = ref - > __totlen ;
if ( jeb - > last_node = = ref ) {
jeb - > last_node = p ;
}
if ( jeb - > gc_node = = ref ) {
/* gc will be happy continuing gc on this node */
jeb - > gc_node = p ;
}
p - > next_phys = ref - > next_phys ;
jffs2_free_raw_node_ref ( ref ) ;
}
spin_unlock ( & c - > erase_completion_lock ) ;
}
out_erase_sem :
up ( & c - > erase_free_sem ) ;
}
int jffs2_thread_should_wake ( struct jffs2_sb_info * c )
{
int ret = 0 ;
uint32_t dirty ;
if ( c - > unchecked_size ) {
D1 ( printk ( KERN_DEBUG " jffs2_thread_should_wake(): unchecked_size %d, checked_ino #%d \n " ,
c - > unchecked_size , c - > checked_ino ) ) ;
return 1 ;
}
/* dirty_size contains blocks on erase_pending_list
* those blocks are counted in c - > nr_erasing_blocks .
* If one block is actually erased , it is not longer counted as dirty_space
* but it is counted in c - > nr_erasing_blocks , so we add it and subtract it
* with c - > nr_erasing_blocks * c - > sector_size again .
* Blocks on erasable_list are counted as dirty_size , but not in c - > nr_erasing_blocks
* This helps us to force gc and pick eventually a clean block to spread the load .
*/
dirty = c - > dirty_size + c - > erasing_size - c - > nr_erasing_blocks * c - > sector_size ;
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if ( c - > nr_free_blocks + c - > nr_erasing_blocks < c - > resv_blocks_gctrigger & &
( dirty > c - > nospc_dirty_size ) )
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ret = 1 ;
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D1 ( printk ( KERN_DEBUG " jffs2_thread_should_wake(): nr_free_blocks %d, nr_erasing_blocks %d, dirty_size 0x%x: %s \n " ,
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c - > nr_free_blocks , c - > nr_erasing_blocks , c - > dirty_size , ret ? " yes " : " no " ) ) ;
return ret ;
}