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/*
* linux / fs / inode . c
*
* ( C ) 1997 Linus Torvalds
*/
# include <linux/fs.h>
# include <linux/mm.h>
# include <linux/dcache.h>
# include <linux/init.h>
# include <linux/slab.h>
# include <linux/writeback.h>
# include <linux/module.h>
# include <linux/backing-dev.h>
# include <linux/wait.h>
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# include <linux/rwsem.h>
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# include <linux/hash.h>
# include <linux/swap.h>
# include <linux/security.h>
# include <linux/pagemap.h>
# include <linux/cdev.h>
# include <linux/bootmem.h>
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# include <linux/fsnotify.h>
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# include <linux/mount.h>
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# include <linux/async.h>
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# include <linux/posix_acl.h>
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# include <linux/ima.h>
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# include <linux/cred.h>
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# include "internal.h"
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2011-03-22 14:23:36 +03:00
/*
* inode locking rules .
*
* inode - > i_lock protects :
* inode - > i_state , inode - > i_hash , __iget ( )
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* inode_lru_lock protects :
* inode_lru , inode - > i_lru
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* inode_sb_list_lock protects :
* sb - > s_inodes , inode - > i_sb_list
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* inode_wb_list_lock protects :
* bdi - > wb . b_ { dirty , io , more_io } , inode - > i_wb_list
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*
* Lock ordering :
* inode_lock
* inode - > i_lock
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*
* inode_sb_list_lock
* inode - > i_lock
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* inode_lru_lock
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*
* inode_wb_list_lock
* inode - > i_lock
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*/
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/*
* This is needed for the following functions :
* - inode_has_buffers
* - invalidate_bdev
*
* FIXME : remove all knowledge of the buffer layer from this file
*/
# include <linux/buffer_head.h>
/*
* New inode . c implementation .
*
* This implementation has the basic premise of trying
* to be extremely low - overhead and SMP - safe , yet be
* simple enough to be " obviously correct " .
*
* Famous last words .
*/
/* inode dynamic allocation 1999, Andrea Arcangeli <andrea@suse.de> */
/* #define INODE_PARANOIA 1 */
/* #define INODE_DEBUG 1 */
/*
* Inode lookup is no longer as critical as it used to be :
* most of the lookups are going to be through the dcache .
*/
# define I_HASHBITS i_hash_shift
# define I_HASHMASK i_hash_mask
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static unsigned int i_hash_mask __read_mostly ;
static unsigned int i_hash_shift __read_mostly ;
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/*
* Each inode can be on two separate lists . One is
* the hash list of the inode , used for lookups . The
* other linked list is the " type " list :
* " in_use " - valid inode , i_count > 0 , i_nlink > 0
* " dirty " - as " in_use " but also dirty
* " unused " - valid inode , i_count = 0
*
* A " dirty " list is maintained for each super block ,
* allowing for low - overhead inode sync ( ) operations .
*/
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static LIST_HEAD ( inode_lru ) ;
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static DEFINE_SPINLOCK ( inode_lru_lock ) ;
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static struct hlist_head * inode_hashtable __read_mostly ;
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/*
* A simple spinlock to protect the list manipulations .
*
* NOTE ! You also have to own the lock if you change
* the i_state of an inode while it is in use . .
*/
DEFINE_SPINLOCK ( inode_lock ) ;
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__cacheline_aligned_in_smp DEFINE_SPINLOCK ( inode_sb_list_lock ) ;
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__cacheline_aligned_in_smp DEFINE_SPINLOCK ( inode_wb_list_lock ) ;
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/*
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* iprune_sem provides exclusion between the icache shrinking and the
* umount path .
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*
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* We don ' t actually need it to protect anything in the umount path ,
* but only need to cycle through it to make sure any inode that
* prune_icache took off the LRU list has been fully torn down by the
* time we are past evict_inodes .
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*/
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static DECLARE_RWSEM ( iprune_sem ) ;
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/*
* Statistics gathering . .
*/
struct inodes_stat_t inodes_stat ;
fs: use fast counters for vfs caches
percpu_counter library generates quite nasty code, so unless you need
to dynamically allocate counters or take fast approximate value, a
simple per cpu set of counters is much better.
The percpu_counter can never be made to work as well, because it has an
indirection from pointer to percpu memory, and it can't use direct
this_cpu_inc interfaces because it doesn't use static PER_CPU data, so
code will always be worse.
In the fastpath, it is the difference between this:
incl %gs:nr_dentry # nr_dentry
and this:
movl percpu_counter_batch(%rip), %edx # percpu_counter_batch,
movl $1, %esi #,
movq $nr_dentry, %rdi #,
call __percpu_counter_add # (plus I clobber registers)
__percpu_counter_add:
pushq %rbp #
movq %rsp, %rbp #,
subq $32, %rsp #,
movq %rbx, -24(%rbp) #,
movq %r12, -16(%rbp) #,
movq %r13, -8(%rbp) #,
movq %rdi, %rbx # fbc, fbc
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
incl -8124(%rax) # <variable>.preempt_count
movq 32(%rdi), %r12 # <variable>.counters, tcp_ptr__
#APP
# 78 "lib/percpu_counter.c" 1
add %gs:this_cpu_off, %r12 # this_cpu_off, tcp_ptr__
# 0 "" 2
#NO_APP
movslq (%r12),%r13 #* tcp_ptr__, tmp73
movslq %edx,%rax # batch, batch
addq %rsi, %r13 # amount, count
cmpq %rax, %r13 # batch, count
jge .L27 #,
negl %edx # tmp76
movslq %edx,%rdx # tmp76, tmp77
cmpq %rdx, %r13 # tmp77, count
jg .L28 #,
.L27:
movq %rbx, %rdi # fbc,
call _raw_spin_lock #
addq %r13, 8(%rbx) # count, <variable>.count
movq %rbx, %rdi # fbc,
movl $0, (%r12) #,* tcp_ptr__
call _raw_spin_unlock #
.L29:
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
decl -8124(%rax) # <variable>.preempt_count
movq -8136(%rax), %rax #, D.14625
testb $8, %al #, D.14625
jne .L32 #,
.L31:
movq -24(%rbp), %rbx #,
movq -16(%rbp), %r12 #,
movq -8(%rbp), %r13 #,
leave
ret
.p2align 4,,10
.p2align 3
.L28:
movl %r13d, (%r12) # count,*
jmp .L29 #
.L32:
call preempt_schedule #
.p2align 4,,6
jmp .L31 #
.size __percpu_counter_add, .-__percpu_counter_add
.p2align 4,,15
Signed-off-by: Nick Piggin <npiggin@kernel.dk>
2011-01-07 09:49:19 +03:00
static DEFINE_PER_CPU ( unsigned int , nr_inodes ) ;
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static struct kmem_cache * inode_cachep __read_mostly ;
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fs: use fast counters for vfs caches
percpu_counter library generates quite nasty code, so unless you need
to dynamically allocate counters or take fast approximate value, a
simple per cpu set of counters is much better.
The percpu_counter can never be made to work as well, because it has an
indirection from pointer to percpu memory, and it can't use direct
this_cpu_inc interfaces because it doesn't use static PER_CPU data, so
code will always be worse.
In the fastpath, it is the difference between this:
incl %gs:nr_dentry # nr_dentry
and this:
movl percpu_counter_batch(%rip), %edx # percpu_counter_batch,
movl $1, %esi #,
movq $nr_dentry, %rdi #,
call __percpu_counter_add # (plus I clobber registers)
__percpu_counter_add:
pushq %rbp #
movq %rsp, %rbp #,
subq $32, %rsp #,
movq %rbx, -24(%rbp) #,
movq %r12, -16(%rbp) #,
movq %r13, -8(%rbp) #,
movq %rdi, %rbx # fbc, fbc
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
incl -8124(%rax) # <variable>.preempt_count
movq 32(%rdi), %r12 # <variable>.counters, tcp_ptr__
#APP
# 78 "lib/percpu_counter.c" 1
add %gs:this_cpu_off, %r12 # this_cpu_off, tcp_ptr__
# 0 "" 2
#NO_APP
movslq (%r12),%r13 #* tcp_ptr__, tmp73
movslq %edx,%rax # batch, batch
addq %rsi, %r13 # amount, count
cmpq %rax, %r13 # batch, count
jge .L27 #,
negl %edx # tmp76
movslq %edx,%rdx # tmp76, tmp77
cmpq %rdx, %r13 # tmp77, count
jg .L28 #,
.L27:
movq %rbx, %rdi # fbc,
call _raw_spin_lock #
addq %r13, 8(%rbx) # count, <variable>.count
movq %rbx, %rdi # fbc,
movl $0, (%r12) #,* tcp_ptr__
call _raw_spin_unlock #
.L29:
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
decl -8124(%rax) # <variable>.preempt_count
movq -8136(%rax), %rax #, D.14625
testb $8, %al #, D.14625
jne .L32 #,
.L31:
movq -24(%rbp), %rbx #,
movq -16(%rbp), %r12 #,
movq -8(%rbp), %r13 #,
leave
ret
.p2align 4,,10
.p2align 3
.L28:
movl %r13d, (%r12) # count,*
jmp .L29 #
.L32:
call preempt_schedule #
.p2align 4,,6
jmp .L31 #
.size __percpu_counter_add, .-__percpu_counter_add
.p2align 4,,15
Signed-off-by: Nick Piggin <npiggin@kernel.dk>
2011-01-07 09:49:19 +03:00
static int get_nr_inodes ( void )
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{
fs: use fast counters for vfs caches
percpu_counter library generates quite nasty code, so unless you need
to dynamically allocate counters or take fast approximate value, a
simple per cpu set of counters is much better.
The percpu_counter can never be made to work as well, because it has an
indirection from pointer to percpu memory, and it can't use direct
this_cpu_inc interfaces because it doesn't use static PER_CPU data, so
code will always be worse.
In the fastpath, it is the difference between this:
incl %gs:nr_dentry # nr_dentry
and this:
movl percpu_counter_batch(%rip), %edx # percpu_counter_batch,
movl $1, %esi #,
movq $nr_dentry, %rdi #,
call __percpu_counter_add # (plus I clobber registers)
__percpu_counter_add:
pushq %rbp #
movq %rsp, %rbp #,
subq $32, %rsp #,
movq %rbx, -24(%rbp) #,
movq %r12, -16(%rbp) #,
movq %r13, -8(%rbp) #,
movq %rdi, %rbx # fbc, fbc
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
incl -8124(%rax) # <variable>.preempt_count
movq 32(%rdi), %r12 # <variable>.counters, tcp_ptr__
#APP
# 78 "lib/percpu_counter.c" 1
add %gs:this_cpu_off, %r12 # this_cpu_off, tcp_ptr__
# 0 "" 2
#NO_APP
movslq (%r12),%r13 #* tcp_ptr__, tmp73
movslq %edx,%rax # batch, batch
addq %rsi, %r13 # amount, count
cmpq %rax, %r13 # batch, count
jge .L27 #,
negl %edx # tmp76
movslq %edx,%rdx # tmp76, tmp77
cmpq %rdx, %r13 # tmp77, count
jg .L28 #,
.L27:
movq %rbx, %rdi # fbc,
call _raw_spin_lock #
addq %r13, 8(%rbx) # count, <variable>.count
movq %rbx, %rdi # fbc,
movl $0, (%r12) #,* tcp_ptr__
call _raw_spin_unlock #
.L29:
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
decl -8124(%rax) # <variable>.preempt_count
movq -8136(%rax), %rax #, D.14625
testb $8, %al #, D.14625
jne .L32 #,
.L31:
movq -24(%rbp), %rbx #,
movq -16(%rbp), %r12 #,
movq -8(%rbp), %r13 #,
leave
ret
.p2align 4,,10
.p2align 3
.L28:
movl %r13d, (%r12) # count,*
jmp .L29 #
.L32:
call preempt_schedule #
.p2align 4,,6
jmp .L31 #
.size __percpu_counter_add, .-__percpu_counter_add
.p2align 4,,15
Signed-off-by: Nick Piggin <npiggin@kernel.dk>
2011-01-07 09:49:19 +03:00
int i ;
int sum = 0 ;
for_each_possible_cpu ( i )
sum + = per_cpu ( nr_inodes , i ) ;
return sum < 0 ? 0 : sum ;
2010-10-23 13:03:02 +04:00
}
static inline int get_nr_inodes_unused ( void )
{
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return inodes_stat . nr_unused ;
2010-10-23 13:03:02 +04:00
}
int get_nr_dirty_inodes ( void )
{
fs: use fast counters for vfs caches
percpu_counter library generates quite nasty code, so unless you need
to dynamically allocate counters or take fast approximate value, a
simple per cpu set of counters is much better.
The percpu_counter can never be made to work as well, because it has an
indirection from pointer to percpu memory, and it can't use direct
this_cpu_inc interfaces because it doesn't use static PER_CPU data, so
code will always be worse.
In the fastpath, it is the difference between this:
incl %gs:nr_dentry # nr_dentry
and this:
movl percpu_counter_batch(%rip), %edx # percpu_counter_batch,
movl $1, %esi #,
movq $nr_dentry, %rdi #,
call __percpu_counter_add # (plus I clobber registers)
__percpu_counter_add:
pushq %rbp #
movq %rsp, %rbp #,
subq $32, %rsp #,
movq %rbx, -24(%rbp) #,
movq %r12, -16(%rbp) #,
movq %r13, -8(%rbp) #,
movq %rdi, %rbx # fbc, fbc
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
incl -8124(%rax) # <variable>.preempt_count
movq 32(%rdi), %r12 # <variable>.counters, tcp_ptr__
#APP
# 78 "lib/percpu_counter.c" 1
add %gs:this_cpu_off, %r12 # this_cpu_off, tcp_ptr__
# 0 "" 2
#NO_APP
movslq (%r12),%r13 #* tcp_ptr__, tmp73
movslq %edx,%rax # batch, batch
addq %rsi, %r13 # amount, count
cmpq %rax, %r13 # batch, count
jge .L27 #,
negl %edx # tmp76
movslq %edx,%rdx # tmp76, tmp77
cmpq %rdx, %r13 # tmp77, count
jg .L28 #,
.L27:
movq %rbx, %rdi # fbc,
call _raw_spin_lock #
addq %r13, 8(%rbx) # count, <variable>.count
movq %rbx, %rdi # fbc,
movl $0, (%r12) #,* tcp_ptr__
call _raw_spin_unlock #
.L29:
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
decl -8124(%rax) # <variable>.preempt_count
movq -8136(%rax), %rax #, D.14625
testb $8, %al #, D.14625
jne .L32 #,
.L31:
movq -24(%rbp), %rbx #,
movq -16(%rbp), %r12 #,
movq -8(%rbp), %r13 #,
leave
ret
.p2align 4,,10
.p2align 3
.L28:
movl %r13d, (%r12) # count,*
jmp .L29 #
.L32:
call preempt_schedule #
.p2align 4,,6
jmp .L31 #
.size __percpu_counter_add, .-__percpu_counter_add
.p2align 4,,15
Signed-off-by: Nick Piggin <npiggin@kernel.dk>
2011-01-07 09:49:19 +03:00
/* not actually dirty inodes, but a wild approximation */
2010-10-23 13:03:02 +04:00
int nr_dirty = get_nr_inodes ( ) - get_nr_inodes_unused ( ) ;
return nr_dirty > 0 ? nr_dirty : 0 ;
}
/*
* Handle nr_inode sysctl
*/
# ifdef CONFIG_SYSCTL
int proc_nr_inodes ( ctl_table * table , int write ,
void __user * buffer , size_t * lenp , loff_t * ppos )
{
inodes_stat . nr_inodes = get_nr_inodes ( ) ;
return proc_dointvec ( table , write , buffer , lenp , ppos ) ;
}
# endif
2008-10-30 09:32:23 +03:00
/**
* inode_init_always - perform inode structure intialisation
2009-01-07 01:41:13 +03:00
* @ sb : superblock inode belongs to
* @ inode : inode to initialise
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*
* These are initializations that need to be done on every inode
* allocation as the fields are not initialised by slab allocation .
*/
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int inode_init_always ( struct super_block * sb , struct inode * inode )
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{
2006-06-28 15:26:44 +04:00
static const struct address_space_operations empty_aops ;
2009-09-22 04:01:11 +04:00
static const struct inode_operations empty_iops ;
2006-03-28 13:56:41 +04:00
static const struct file_operations empty_fops ;
2009-03-31 18:05:54 +04:00
struct address_space * const mapping = & inode - > i_data ;
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inode - > i_sb = sb ;
inode - > i_blkbits = sb - > s_blocksize_bits ;
inode - > i_flags = 0 ;
atomic_set ( & inode - > i_count , 1 ) ;
inode - > i_op = & empty_iops ;
inode - > i_fop = & empty_fops ;
inode - > i_nlink = 1 ;
2008-12-09 17:34:39 +03:00
inode - > i_uid = 0 ;
inode - > i_gid = 0 ;
2008-10-30 09:32:23 +03:00
atomic_set ( & inode - > i_writecount , 0 ) ;
inode - > i_size = 0 ;
inode - > i_blocks = 0 ;
inode - > i_bytes = 0 ;
inode - > i_generation = 0 ;
2005-04-17 02:20:36 +04:00
# ifdef CONFIG_QUOTA
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memset ( & inode - > i_dquot , 0 , sizeof ( inode - > i_dquot ) ) ;
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# endif
2008-10-30 09:32:23 +03:00
inode - > i_pipe = NULL ;
inode - > i_bdev = NULL ;
inode - > i_cdev = NULL ;
inode - > i_rdev = 0 ;
inode - > dirtied_when = 0 ;
2009-02-04 17:06:57 +03:00
if ( security_inode_alloc ( inode ) )
2009-08-07 21:38:25 +04:00
goto out ;
2008-10-30 09:32:23 +03:00
spin_lock_init ( & inode - > i_lock ) ;
lockdep_set_class ( & inode - > i_lock , & sb - > s_type - > i_lock_key ) ;
mutex_init ( & inode - > i_mutex ) ;
lockdep_set_class ( & inode - > i_mutex , & sb - > s_type - > i_mutex_key ) ;
init_rwsem ( & inode - > i_alloc_sem ) ;
lockdep_set_class ( & inode - > i_alloc_sem , & sb - > s_type - > i_alloc_sem_key ) ;
mapping - > a_ops = & empty_aops ;
mapping - > host = inode ;
mapping - > flags = 0 ;
2009-01-07 01:39:23 +03:00
mapping_set_gfp_mask ( mapping , GFP_HIGHUSER_MOVABLE ) ;
2008-10-30 09:32:23 +03:00
mapping - > assoc_mapping = NULL ;
mapping - > backing_dev_info = & default_backing_dev_info ;
mapping - > writeback_index = 0 ;
/*
* If the block_device provides a backing_dev_info for client
* inodes then use that . Otherwise the inode share the bdev ' s
* backing_dev_info .
*/
if ( sb - > s_bdev ) {
struct backing_dev_info * bdi ;
2009-09-15 11:43:56 +04:00
bdi = sb - > s_bdev - > bd_inode - > i_mapping - > backing_dev_info ;
2008-10-30 09:32:23 +03:00
mapping - > backing_dev_info = bdi ;
}
inode - > i_private = NULL ;
inode - > i_mapping = mapping ;
2009-06-09 03:50:45 +04:00
# ifdef CONFIG_FS_POSIX_ACL
inode - > i_acl = inode - > i_default_acl = ACL_NOT_CACHED ;
# endif
2008-10-30 09:32:23 +03:00
2009-05-22 01:01:26 +04:00
# ifdef CONFIG_FSNOTIFY
inode - > i_fsnotify_mask = 0 ;
# endif
fs: use fast counters for vfs caches
percpu_counter library generates quite nasty code, so unless you need
to dynamically allocate counters or take fast approximate value, a
simple per cpu set of counters is much better.
The percpu_counter can never be made to work as well, because it has an
indirection from pointer to percpu memory, and it can't use direct
this_cpu_inc interfaces because it doesn't use static PER_CPU data, so
code will always be worse.
In the fastpath, it is the difference between this:
incl %gs:nr_dentry # nr_dentry
and this:
movl percpu_counter_batch(%rip), %edx # percpu_counter_batch,
movl $1, %esi #,
movq $nr_dentry, %rdi #,
call __percpu_counter_add # (plus I clobber registers)
__percpu_counter_add:
pushq %rbp #
movq %rsp, %rbp #,
subq $32, %rsp #,
movq %rbx, -24(%rbp) #,
movq %r12, -16(%rbp) #,
movq %r13, -8(%rbp) #,
movq %rdi, %rbx # fbc, fbc
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
incl -8124(%rax) # <variable>.preempt_count
movq 32(%rdi), %r12 # <variable>.counters, tcp_ptr__
#APP
# 78 "lib/percpu_counter.c" 1
add %gs:this_cpu_off, %r12 # this_cpu_off, tcp_ptr__
# 0 "" 2
#NO_APP
movslq (%r12),%r13 #* tcp_ptr__, tmp73
movslq %edx,%rax # batch, batch
addq %rsi, %r13 # amount, count
cmpq %rax, %r13 # batch, count
jge .L27 #,
negl %edx # tmp76
movslq %edx,%rdx # tmp76, tmp77
cmpq %rdx, %r13 # tmp77, count
jg .L28 #,
.L27:
movq %rbx, %rdi # fbc,
call _raw_spin_lock #
addq %r13, 8(%rbx) # count, <variable>.count
movq %rbx, %rdi # fbc,
movl $0, (%r12) #,* tcp_ptr__
call _raw_spin_unlock #
.L29:
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
decl -8124(%rax) # <variable>.preempt_count
movq -8136(%rax), %rax #, D.14625
testb $8, %al #, D.14625
jne .L32 #,
.L31:
movq -24(%rbp), %rbx #,
movq -16(%rbp), %r12 #,
movq -8(%rbp), %r13 #,
leave
ret
.p2align 4,,10
.p2align 3
.L28:
movl %r13d, (%r12) # count,*
jmp .L29 #
.L32:
call preempt_schedule #
.p2align 4,,6
jmp .L31 #
.size __percpu_counter_add, .-__percpu_counter_add
.p2align 4,,15
Signed-off-by: Nick Piggin <npiggin@kernel.dk>
2011-01-07 09:49:19 +03:00
this_cpu_inc ( nr_inodes ) ;
2010-10-23 13:03:02 +04:00
2009-08-07 21:38:25 +04:00
return 0 ;
out :
return - ENOMEM ;
2005-04-17 02:20:36 +04:00
}
2008-10-30 09:32:23 +03:00
EXPORT_SYMBOL ( inode_init_always ) ;
static struct inode * alloc_inode ( struct super_block * sb )
{
struct inode * inode ;
if ( sb - > s_op - > alloc_inode )
inode = sb - > s_op - > alloc_inode ( sb ) ;
else
inode = kmem_cache_alloc ( inode_cachep , GFP_KERNEL ) ;
2009-08-07 21:38:25 +04:00
if ( ! inode )
return NULL ;
if ( unlikely ( inode_init_always ( sb , inode ) ) ) {
if ( inode - > i_sb - > s_op - > destroy_inode )
inode - > i_sb - > s_op - > destroy_inode ( inode ) ;
else
kmem_cache_free ( inode_cachep , inode ) ;
return NULL ;
}
return inode ;
2008-10-30 09:32:23 +03:00
}
2005-04-17 02:20:36 +04:00
2011-01-07 09:49:50 +03:00
void free_inode_nonrcu ( struct inode * inode )
{
kmem_cache_free ( inode_cachep , inode ) ;
}
EXPORT_SYMBOL ( free_inode_nonrcu ) ;
2009-08-07 21:38:29 +04:00
void __destroy_inode ( struct inode * inode )
2005-04-17 02:20:36 +04:00
{
2006-04-02 15:38:18 +04:00
BUG_ON ( inode_has_buffers ( inode ) ) ;
2005-04-17 02:20:36 +04:00
security_inode_free ( inode ) ;
2009-05-22 01:01:26 +04:00
fsnotify_inode_delete ( inode ) ;
2009-06-09 03:50:45 +04:00
# ifdef CONFIG_FS_POSIX_ACL
if ( inode - > i_acl & & inode - > i_acl ! = ACL_NOT_CACHED )
posix_acl_release ( inode - > i_acl ) ;
if ( inode - > i_default_acl & & inode - > i_default_acl ! = ACL_NOT_CACHED )
posix_acl_release ( inode - > i_default_acl ) ;
# endif
fs: use fast counters for vfs caches
percpu_counter library generates quite nasty code, so unless you need
to dynamically allocate counters or take fast approximate value, a
simple per cpu set of counters is much better.
The percpu_counter can never be made to work as well, because it has an
indirection from pointer to percpu memory, and it can't use direct
this_cpu_inc interfaces because it doesn't use static PER_CPU data, so
code will always be worse.
In the fastpath, it is the difference between this:
incl %gs:nr_dentry # nr_dentry
and this:
movl percpu_counter_batch(%rip), %edx # percpu_counter_batch,
movl $1, %esi #,
movq $nr_dentry, %rdi #,
call __percpu_counter_add # (plus I clobber registers)
__percpu_counter_add:
pushq %rbp #
movq %rsp, %rbp #,
subq $32, %rsp #,
movq %rbx, -24(%rbp) #,
movq %r12, -16(%rbp) #,
movq %r13, -8(%rbp) #,
movq %rdi, %rbx # fbc, fbc
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
incl -8124(%rax) # <variable>.preempt_count
movq 32(%rdi), %r12 # <variable>.counters, tcp_ptr__
#APP
# 78 "lib/percpu_counter.c" 1
add %gs:this_cpu_off, %r12 # this_cpu_off, tcp_ptr__
# 0 "" 2
#NO_APP
movslq (%r12),%r13 #* tcp_ptr__, tmp73
movslq %edx,%rax # batch, batch
addq %rsi, %r13 # amount, count
cmpq %rax, %r13 # batch, count
jge .L27 #,
negl %edx # tmp76
movslq %edx,%rdx # tmp76, tmp77
cmpq %rdx, %r13 # tmp77, count
jg .L28 #,
.L27:
movq %rbx, %rdi # fbc,
call _raw_spin_lock #
addq %r13, 8(%rbx) # count, <variable>.count
movq %rbx, %rdi # fbc,
movl $0, (%r12) #,* tcp_ptr__
call _raw_spin_unlock #
.L29:
#APP
# 216 "/home/npiggin/usr/src/linux-2.6/arch/x86/include/asm/thread_info.h" 1
movq %gs:kernel_stack,%rax #, pfo_ret__
# 0 "" 2
#NO_APP
decl -8124(%rax) # <variable>.preempt_count
movq -8136(%rax), %rax #, D.14625
testb $8, %al #, D.14625
jne .L32 #,
.L31:
movq -24(%rbp), %rbx #,
movq -16(%rbp), %r12 #,
movq -8(%rbp), %r13 #,
leave
ret
.p2align 4,,10
.p2align 3
.L28:
movl %r13d, (%r12) # count,*
jmp .L29 #
.L32:
call preempt_schedule #
.p2align 4,,6
jmp .L31 #
.size __percpu_counter_add, .-__percpu_counter_add
.p2align 4,,15
Signed-off-by: Nick Piggin <npiggin@kernel.dk>
2011-01-07 09:49:19 +03:00
this_cpu_dec ( nr_inodes ) ;
2009-08-07 21:38:29 +04:00
}
EXPORT_SYMBOL ( __destroy_inode ) ;
2011-01-07 09:49:49 +03:00
static void i_callback ( struct rcu_head * head )
{
struct inode * inode = container_of ( head , struct inode , i_rcu ) ;
INIT_LIST_HEAD ( & inode - > i_dentry ) ;
kmem_cache_free ( inode_cachep , inode ) ;
}
2010-10-06 12:48:55 +04:00
static void destroy_inode ( struct inode * inode )
2009-08-07 21:38:29 +04:00
{
2010-10-21 04:49:30 +04:00
BUG_ON ( ! list_empty ( & inode - > i_lru ) ) ;
2009-08-07 21:38:29 +04:00
__destroy_inode ( inode ) ;
2005-04-17 02:20:36 +04:00
if ( inode - > i_sb - > s_op - > destroy_inode )
inode - > i_sb - > s_op - > destroy_inode ( inode ) ;
else
2011-01-07 09:49:49 +03:00
call_rcu ( & inode - > i_rcu , i_callback ) ;
2005-04-17 02:20:36 +04:00
}
2011-02-23 15:49:47 +03:00
void address_space_init_once ( struct address_space * mapping )
{
memset ( mapping , 0 , sizeof ( * mapping ) ) ;
INIT_RADIX_TREE ( & mapping - > page_tree , GFP_ATOMIC ) ;
spin_lock_init ( & mapping - > tree_lock ) ;
spin_lock_init ( & mapping - > i_mmap_lock ) ;
INIT_LIST_HEAD ( & mapping - > private_list ) ;
spin_lock_init ( & mapping - > private_lock ) ;
INIT_RAW_PRIO_TREE_ROOT ( & mapping - > i_mmap ) ;
INIT_LIST_HEAD ( & mapping - > i_mmap_nonlinear ) ;
mutex_init ( & mapping - > unmap_mutex ) ;
}
EXPORT_SYMBOL ( address_space_init_once ) ;
2005-04-17 02:20:36 +04:00
/*
* These are initializations that only need to be done
* once , because the fields are idempotent across use
* of the inode , so let the slab aware of that .
*/
void inode_init_once ( struct inode * inode )
{
memset ( inode , 0 , sizeof ( * inode ) ) ;
INIT_HLIST_NODE ( & inode - > i_hash ) ;
INIT_LIST_HEAD ( & inode - > i_dentry ) ;
INIT_LIST_HEAD ( & inode - > i_devices ) ;
2010-10-21 04:49:30 +04:00
INIT_LIST_HEAD ( & inode - > i_wb_list ) ;
INIT_LIST_HEAD ( & inode - > i_lru ) ;
2011-02-23 15:49:47 +03:00
address_space_init_once ( & inode - > i_data ) ;
2005-04-17 02:20:36 +04:00
i_size_ordered_init ( inode ) ;
2009-05-22 01:01:26 +04:00
# ifdef CONFIG_FSNOTIFY
2009-12-18 05:24:24 +03:00
INIT_HLIST_HEAD ( & inode - > i_fsnotify_marks ) ;
2009-05-22 01:01:26 +04:00
# endif
2005-04-17 02:20:36 +04:00
}
EXPORT_SYMBOL ( inode_init_once ) ;
2008-07-26 06:45:34 +04:00
static void init_once ( void * foo )
2005-04-17 02:20:36 +04:00
{
2009-03-31 18:05:54 +04:00
struct inode * inode = ( struct inode * ) foo ;
2005-04-17 02:20:36 +04:00
2007-05-17 09:10:57 +04:00
inode_init_once ( inode ) ;
2005-04-17 02:20:36 +04:00
}
/*
2011-03-22 14:23:36 +03:00
* inode - > i_lock must be held
2005-04-17 02:20:36 +04:00
*/
2009-03-31 18:05:54 +04:00
void __iget ( struct inode * inode )
2005-04-17 02:20:36 +04:00
{
2010-10-23 14:55:17 +04:00
atomic_inc ( & inode - > i_count ) ;
}
2010-05-14 13:49:22 +04:00
2010-10-23 19:11:40 +04:00
/*
* get additional reference to inode ; caller must already hold one .
*/
void ihold ( struct inode * inode )
{
WARN_ON ( atomic_inc_return ( & inode - > i_count ) < 2 ) ;
}
EXPORT_SYMBOL ( ihold ) ;
2010-10-23 14:55:17 +04:00
static void inode_lru_list_add ( struct inode * inode )
{
2011-03-22 14:23:38 +03:00
spin_lock ( & inode_lru_lock ) ;
2010-10-21 04:49:30 +04:00
if ( list_empty ( & inode - > i_lru ) ) {
list_add ( & inode - > i_lru , & inode_lru ) ;
2011-01-07 09:49:18 +03:00
inodes_stat . nr_unused + + ;
2010-10-23 14:55:17 +04:00
}
2011-03-22 14:23:38 +03:00
spin_unlock ( & inode_lru_lock ) ;
2010-10-23 14:55:17 +04:00
}
2010-05-14 13:49:22 +04:00
2010-10-23 14:55:17 +04:00
static void inode_lru_list_del ( struct inode * inode )
{
2011-03-22 14:23:38 +03:00
spin_lock ( & inode_lru_lock ) ;
2010-10-21 04:49:30 +04:00
if ( ! list_empty ( & inode - > i_lru ) ) {
list_del_init ( & inode - > i_lru ) ;
2011-01-07 09:49:18 +03:00
inodes_stat . nr_unused - - ;
2010-10-23 14:55:17 +04:00
}
2011-03-22 14:23:38 +03:00
spin_unlock ( & inode_lru_lock ) ;
2005-04-17 02:20:36 +04:00
}
2010-10-23 15:15:32 +04:00
/**
* inode_sb_list_add - add inode to the superblock list of inodes
* @ inode : inode to add
*/
void inode_sb_list_add ( struct inode * inode )
{
2011-03-22 14:23:40 +03:00
spin_lock ( & inode_sb_list_lock ) ;
list_add ( & inode - > i_sb_list , & inode - > i_sb - > s_inodes ) ;
spin_unlock ( & inode_sb_list_lock ) ;
2010-10-23 15:15:32 +04:00
}
EXPORT_SYMBOL_GPL ( inode_sb_list_add ) ;
2011-03-22 14:23:40 +03:00
static inline void inode_sb_list_del ( struct inode * inode )
2010-10-23 15:15:32 +04:00
{
2011-03-22 14:23:40 +03:00
spin_lock ( & inode_sb_list_lock ) ;
2010-10-23 15:15:32 +04:00
list_del_init ( & inode - > i_sb_list ) ;
2011-03-22 14:23:40 +03:00
spin_unlock ( & inode_sb_list_lock ) ;
2010-10-23 15:15:32 +04:00
}
2010-10-23 14:58:09 +04:00
static unsigned long hash ( struct super_block * sb , unsigned long hashval )
{
unsigned long tmp ;
tmp = ( hashval * ( unsigned long ) sb ) ^ ( GOLDEN_RATIO_PRIME + hashval ) /
L1_CACHE_BYTES ;
tmp = tmp ^ ( ( tmp ^ GOLDEN_RATIO_PRIME ) > > I_HASHBITS ) ;
return tmp & I_HASHMASK ;
}
/**
* __insert_inode_hash - hash an inode
* @ inode : unhashed inode
* @ hashval : unsigned long value used to locate this object in the
* inode_hashtable .
*
* Add an inode to the inode hash for this superblock .
*/
void __insert_inode_hash ( struct inode * inode , unsigned long hashval )
{
2010-10-23 15:15:32 +04:00
struct hlist_head * b = inode_hashtable + hash ( inode - > i_sb , hashval ) ;
2010-10-23 14:58:09 +04:00
spin_lock ( & inode_lock ) ;
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
2010-10-23 15:15:32 +04:00
hlist_add_head ( & inode - > i_hash , b ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2010-10-23 14:58:09 +04:00
spin_unlock ( & inode_lock ) ;
}
EXPORT_SYMBOL ( __insert_inode_hash ) ;
/**
* remove_inode_hash - remove an inode from the hash
* @ inode : inode to unhash
*
* Remove an inode from the superblock .
*/
void remove_inode_hash ( struct inode * inode )
{
spin_lock ( & inode_lock ) ;
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
2010-10-23 14:58:09 +04:00
hlist_del_init ( & inode - > i_hash ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2010-10-23 14:58:09 +04:00
spin_unlock ( & inode_lock ) ;
}
EXPORT_SYMBOL ( remove_inode_hash ) ;
2010-06-05 04:55:25 +04:00
void end_writeback ( struct inode * inode )
{
might_sleep ( ) ;
BUG_ON ( inode - > i_data . nrpages ) ;
BUG_ON ( ! list_empty ( & inode - > i_data . private_list ) ) ;
BUG_ON ( ! ( inode - > i_state & I_FREEING ) ) ;
BUG_ON ( inode - > i_state & I_CLEAR ) ;
inode_sync_wait ( inode ) ;
2011-01-07 09:49:49 +03:00
/* don't need i_lock here, no concurrent mods to i_state */
2010-06-05 04:55:25 +04:00
inode - > i_state = I_FREEING | I_CLEAR ;
}
EXPORT_SYMBOL ( end_writeback ) ;
2011-03-22 14:23:37 +03:00
/*
* Free the inode passed in , removing it from the lists it is still connected
* to . We remove any pages still attached to the inode and wait for any IO that
* is still in progress before finally destroying the inode .
*
* An inode must already be marked I_FREEING so that we avoid the inode being
* moved back onto lists if we race with other code that manipulates the lists
* ( e . g . writeback_single_inode ) . The caller is responsible for setting this .
*
* An inode must already be removed from the LRU list before being evicted from
* the cache . This should occur atomically with setting the I_FREEING state
* flag , so no inodes here should ever be on the LRU when being evicted .
*/
2010-06-07 21:21:05 +04:00
static void evict ( struct inode * inode )
2010-06-05 03:33:20 +04:00
{
const struct super_operations * op = inode - > i_sb - > s_op ;
2011-03-22 14:23:37 +03:00
BUG_ON ( ! ( inode - > i_state & I_FREEING ) ) ;
BUG_ON ( ! list_empty ( & inode - > i_lru ) ) ;
2011-03-22 14:23:41 +03:00
inode_wb_list_del ( inode ) ;
2011-03-22 14:23:40 +03:00
inode_sb_list_del ( inode ) ;
2010-06-05 03:40:39 +04:00
if ( op - > evict_inode ) {
op - > evict_inode ( inode ) ;
2010-06-05 03:33:20 +04:00
} else {
if ( inode - > i_data . nrpages )
truncate_inode_pages ( & inode - > i_data , 0 ) ;
2010-06-07 21:23:20 +04:00
end_writeback ( inode ) ;
2010-06-05 03:33:20 +04:00
}
2010-06-05 04:19:55 +04:00
if ( S_ISBLK ( inode - > i_mode ) & & inode - > i_bdev )
bd_forget ( inode ) ;
if ( S_ISCHR ( inode - > i_mode ) & & inode - > i_cdev )
cd_forget ( inode ) ;
2011-03-22 14:23:37 +03:00
remove_inode_hash ( inode ) ;
spin_lock ( & inode - > i_lock ) ;
wake_up_bit ( & inode - > i_state , __I_NEW ) ;
BUG_ON ( inode - > i_state ! = ( I_FREEING | I_CLEAR ) ) ;
spin_unlock ( & inode - > i_lock ) ;
destroy_inode ( inode ) ;
2010-06-05 03:33:20 +04:00
}
2005-04-17 02:20:36 +04:00
/*
* dispose_list - dispose of the contents of a local list
* @ head : the head of the list to free
*
* Dispose - list gets a local list with local inodes in it , so it doesn ' t
* need to worry about list corruption and SMP locks .
*/
static void dispose_list ( struct list_head * head )
{
while ( ! list_empty ( head ) ) {
struct inode * inode ;
2010-10-21 04:49:30 +04:00
inode = list_first_entry ( head , struct inode , i_lru ) ;
list_del_init ( & inode - > i_lru ) ;
2005-04-17 02:20:36 +04:00
2010-06-07 21:21:05 +04:00
evict ( inode ) ;
2005-04-17 02:20:36 +04:00
}
}
2010-10-26 04:49:35 +04:00
/**
* evict_inodes - evict all evictable inodes for a superblock
* @ sb : superblock to operate on
*
* Make sure that no inodes with zero refcount are retained . This is
* called by superblock shutdown after having MS_ACTIVE flag removed ,
* so any inode reaching zero refcount during or after that call will
* be immediately evicted .
2005-04-17 02:20:36 +04:00
*/
2010-10-26 04:49:35 +04:00
void evict_inodes ( struct super_block * sb )
2005-04-17 02:20:36 +04:00
{
2010-10-26 04:49:35 +04:00
struct inode * inode , * next ;
LIST_HEAD ( dispose ) ;
2005-04-17 02:20:36 +04:00
2011-03-22 14:23:40 +03:00
spin_lock ( & inode_sb_list_lock ) ;
2010-10-26 04:49:35 +04:00
list_for_each_entry_safe ( inode , next , & sb - > s_inodes , i_sb_list ) {
if ( atomic_read ( & inode - > i_count ) )
2009-03-11 23:17:36 +03:00
continue ;
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
if ( inode - > i_state & ( I_NEW | I_FREEING | I_WILL_FREE ) ) {
spin_unlock ( & inode - > i_lock ) ;
2005-04-17 02:20:36 +04:00
continue ;
2011-03-22 14:23:36 +03:00
}
2010-10-26 04:49:35 +04:00
inode - > i_state | = I_FREEING ;
2011-03-22 14:23:38 +03:00
inode_lru_list_del ( inode ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2011-03-22 14:23:38 +03:00
list_add ( & inode - > i_lru , & dispose ) ;
2005-04-17 02:20:36 +04:00
}
2011-03-22 14:23:40 +03:00
spin_unlock ( & inode_sb_list_lock ) ;
2010-10-26 04:49:35 +04:00
dispose_list ( & dispose ) ;
2011-03-15 23:51:24 +03:00
/*
* Cycle through iprune_sem to make sure any inode that prune_icache
* moved off the list before we took the lock has been fully torn
* down .
*/
down_write ( & iprune_sem ) ;
2010-10-26 04:49:35 +04:00
up_write ( & iprune_sem ) ;
2005-04-17 02:20:36 +04:00
}
/**
2010-10-24 21:40:33 +04:00
* invalidate_inodes - attempt to free all inodes on a superblock
* @ sb : superblock to operate on
2011-02-24 09:25:47 +03:00
* @ kill_dirty : flag to guide handling of dirty inodes
2005-04-17 02:20:36 +04:00
*
2010-10-24 21:40:33 +04:00
* Attempts to free all inodes for a given superblock . If there were any
* busy inodes return a non - zero value , else zero .
2011-02-24 09:25:47 +03:00
* If @ kill_dirty is set , discard dirty inodes too , otherwise treat
* them as busy .
2005-04-17 02:20:36 +04:00
*/
2011-02-24 09:25:47 +03:00
int invalidate_inodes ( struct super_block * sb , bool kill_dirty )
2005-04-17 02:20:36 +04:00
{
2010-10-23 13:03:02 +04:00
int busy = 0 ;
2010-10-24 21:40:33 +04:00
struct inode * inode , * next ;
LIST_HEAD ( dispose ) ;
2005-04-17 02:20:36 +04:00
2011-03-22 14:23:40 +03:00
spin_lock ( & inode_sb_list_lock ) ;
2010-10-24 21:40:33 +04:00
list_for_each_entry_safe ( inode , next , & sb - > s_inodes , i_sb_list ) {
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
if ( inode - > i_state & ( I_NEW | I_FREEING | I_WILL_FREE ) ) {
spin_unlock ( & inode - > i_lock ) ;
2009-03-11 23:17:36 +03:00
continue ;
2011-03-22 14:23:36 +03:00
}
2011-02-24 09:25:47 +03:00
if ( inode - > i_state & I_DIRTY & & ! kill_dirty ) {
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2011-02-24 09:25:47 +03:00
busy = 1 ;
continue ;
}
2010-10-23 21:07:20 +04:00
if ( atomic_read ( & inode - > i_count ) ) {
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2010-10-23 21:07:20 +04:00
busy = 1 ;
2005-04-17 02:20:36 +04:00
continue ;
}
2010-10-23 21:07:20 +04:00
inode - > i_state | = I_FREEING ;
2011-03-22 14:23:38 +03:00
inode_lru_list_del ( inode ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2011-03-22 14:23:38 +03:00
list_add ( & inode - > i_lru , & dispose ) ;
2005-04-17 02:20:36 +04:00
}
2011-03-22 14:23:40 +03:00
spin_unlock ( & inode_sb_list_lock ) ;
2005-04-17 02:20:36 +04:00
2010-10-24 21:40:33 +04:00
dispose_list ( & dispose ) ;
2005-04-17 02:20:36 +04:00
return busy ;
}
static int can_unuse ( struct inode * inode )
{
2010-10-23 14:55:17 +04:00
if ( inode - > i_state & ~ I_REFERENCED )
2005-04-17 02:20:36 +04:00
return 0 ;
if ( inode_has_buffers ( inode ) )
return 0 ;
if ( atomic_read ( & inode - > i_count ) )
return 0 ;
if ( inode - > i_data . nrpages )
return 0 ;
return 1 ;
}
/*
2010-10-23 14:55:17 +04:00
* Scan ` goal ' inodes on the unused list for freeable ones . They are moved to a
2011-03-22 14:23:38 +03:00
* temporary list and then are freed outside inode_lru_lock by dispose_list ( ) .
2005-04-17 02:20:36 +04:00
*
* Any inodes which are pinned purely because of attached pagecache have their
2010-10-23 14:55:17 +04:00
* pagecache removed . If the inode has metadata buffers attached to
* mapping - > private_list then try to remove them .
2005-04-17 02:20:36 +04:00
*
2010-10-23 14:55:17 +04:00
* If the inode has the I_REFERENCED flag set , then it means that it has been
* used recently - the flag is set in iput_final ( ) . When we encounter such an
* inode , clear the flag and move it to the back of the LRU so it gets another
* pass through the LRU before it gets reclaimed . This is necessary because of
* the fact we are doing lazy LRU updates to minimise lock contention so the
* LRU does not have strict ordering . Hence we don ' t want to reclaim inodes
* with this flag set because they are the inodes that are out of order .
2005-04-17 02:20:36 +04:00
*/
static void prune_icache ( int nr_to_scan )
{
LIST_HEAD ( freeable ) ;
int nr_scanned ;
unsigned long reap = 0 ;
2009-09-23 03:43:50 +04:00
down_read ( & iprune_sem ) ;
2011-03-22 14:23:38 +03:00
spin_lock ( & inode_lru_lock ) ;
2005-04-17 02:20:36 +04:00
for ( nr_scanned = 0 ; nr_scanned < nr_to_scan ; nr_scanned + + ) {
struct inode * inode ;
2010-10-21 04:49:30 +04:00
if ( list_empty ( & inode_lru ) )
2005-04-17 02:20:36 +04:00
break ;
2010-10-21 04:49:30 +04:00
inode = list_entry ( inode_lru . prev , struct inode , i_lru ) ;
2005-04-17 02:20:36 +04:00
2011-03-22 14:23:38 +03:00
/*
* we are inverting the inode_lru_lock / inode - > i_lock here ,
* so use a trylock . If we fail to get the lock , just move the
* inode to the back of the list so we don ' t spin on it .
*/
if ( ! spin_trylock ( & inode - > i_lock ) ) {
list_move ( & inode - > i_lru , & inode_lru ) ;
continue ;
}
2010-10-23 14:55:17 +04:00
/*
* Referenced or dirty inodes are still in use . Give them
* another pass through the LRU as we canot reclaim them now .
*/
if ( atomic_read ( & inode - > i_count ) | |
( inode - > i_state & ~ I_REFERENCED ) ) {
2010-10-21 04:49:30 +04:00
list_del_init ( & inode - > i_lru ) ;
2011-03-22 14:23:39 +03:00
spin_unlock ( & inode - > i_lock ) ;
2011-01-07 09:49:18 +03:00
inodes_stat . nr_unused - - ;
2010-10-23 14:55:17 +04:00
continue ;
}
/* recently referenced inodes get one more pass */
if ( inode - > i_state & I_REFERENCED ) {
inode - > i_state & = ~ I_REFERENCED ;
2011-03-22 14:23:36 +03:00
list_move ( & inode - > i_lru , & inode_lru ) ;
2011-03-22 14:23:39 +03:00
spin_unlock ( & inode - > i_lock ) ;
2005-04-17 02:20:36 +04:00
continue ;
}
if ( inode_has_buffers ( inode ) | | inode - > i_data . nrpages ) {
__iget ( inode ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2011-03-22 14:23:38 +03:00
spin_unlock ( & inode_lru_lock ) ;
2005-04-17 02:20:36 +04:00
if ( remove_inode_buffers ( inode ) )
2007-02-10 12:45:39 +03:00
reap + = invalidate_mapping_pages ( & inode - > i_data ,
0 , - 1 ) ;
2005-04-17 02:20:36 +04:00
iput ( inode ) ;
2011-03-22 14:23:38 +03:00
spin_lock ( & inode_lru_lock ) ;
2005-04-17 02:20:36 +04:00
2010-10-21 04:49:30 +04:00
if ( inode ! = list_entry ( inode_lru . next ,
struct inode , i_lru ) )
2005-04-17 02:20:36 +04:00
continue ; /* wrong inode or list_empty */
2011-03-22 14:23:38 +03:00
/* avoid lock inversions with trylock */
if ( ! spin_trylock ( & inode - > i_lock ) )
continue ;
2011-03-22 14:23:36 +03:00
if ( ! can_unuse ( inode ) ) {
spin_unlock ( & inode - > i_lock ) ;
2005-04-17 02:20:36 +04:00
continue ;
2011-03-22 14:23:36 +03:00
}
2005-04-17 02:20:36 +04:00
}
fs: new inode i_state corruption fix
There was a report of a data corruption
http://lkml.org/lkml/2008/11/14/121. There is a script included to
reproduce the problem.
During testing, I encountered a number of strange things with ext3, so I
tried ext2 to attempt to reduce complexity of the problem. I found that
fsstress would quickly hang in wait_on_inode, waiting for I_LOCK to be
cleared, even though instrumentation showed that unlock_new_inode had
already been called for that inode. This points to memory scribble, or
synchronisation problme.
i_state of I_NEW inodes is not protected by inode_lock because other
processes are not supposed to touch them until I_LOCK (and I_NEW) is
cleared. Adding WARN_ON(inode->i_state & I_NEW) to sites where we modify
i_state revealed that generic_sync_sb_inodes is picking up new inodes from
the inode lists and passing them to __writeback_single_inode without
waiting for I_NEW. Subsequently modifying i_state causes corruption. In
my case it would look like this:
CPU0 CPU1
unlock_new_inode() __sync_single_inode()
reg <- inode->i_state
reg -> reg & ~(I_LOCK|I_NEW) reg <- inode->i_state
reg -> inode->i_state reg -> reg | I_SYNC
reg -> inode->i_state
Non-atomic RMW on CPU1 overwrites CPU0 store and sets I_LOCK|I_NEW again.
Fix for this is rather than wait for I_NEW inodes, just skip over them:
inodes concurrently being created are not subject to data integrity
operations, and should not significantly contribute to dirty memory
either.
After this change, I'm unable to reproduce any of the added warnings or
hangs after ~1hour of running. Previously, the new warnings would start
immediately and hang would happen in under 5 minutes.
I'm also testing on ext3 now, and so far no problems there either. I
don't know whether this fixes the problem reported above, but it fixes a
real problem for me.
Cc: "Jorge Boncompte [DTI2]" <jorge@dti2.net>
Reported-by: Adrian Hunter <ext-adrian.hunter@nokia.com>
Cc: Jan Kara <jack@suse.cz>
Cc: <stable@kernel.org>
Signed-off-by: Nick Piggin <npiggin@suse.de>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2009-03-13 00:31:38 +03:00
WARN_ON ( inode - > i_state & I_NEW ) ;
2005-04-17 02:20:36 +04:00
inode - > i_state | = I_FREEING ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2010-10-21 04:49:30 +04:00
list_move ( & inode - > i_lru , & freeable ) ;
2011-01-07 09:49:18 +03:00
inodes_stat . nr_unused - - ;
2005-04-17 02:20:36 +04:00
}
2006-06-30 12:55:45 +04:00
if ( current_is_kswapd ( ) )
__count_vm_events ( KSWAPD_INODESTEAL , reap ) ;
else
__count_vm_events ( PGINODESTEAL , reap ) ;
2011-03-22 14:23:38 +03:00
spin_unlock ( & inode_lru_lock ) ;
2005-04-17 02:20:36 +04:00
dispose_list ( & freeable ) ;
2009-09-23 03:43:50 +04:00
up_read ( & iprune_sem ) ;
2005-04-17 02:20:36 +04:00
}
/*
* shrink_icache_memory ( ) will attempt to reclaim some unused inodes . Here ,
* " unused " means that no dentries are referring to the inodes : the files are
* not open and the dcache references to those inodes have already been
* reclaimed .
*
* This function is passed the number of inodes to scan , and it returns the
* total number of remaining possibly - reclaimable inodes .
*/
2010-07-19 08:56:17 +04:00
static int shrink_icache_memory ( struct shrinker * shrink , int nr , gfp_t gfp_mask )
2005-04-17 02:20:36 +04:00
{
if ( nr ) {
/*
* Nasty deadlock avoidance . We may hold various FS locks ,
* and we don ' t want to recurse into the FS that called us
* in clear_inode ( ) and friends . .
2009-03-31 18:05:54 +04:00
*/
2005-04-17 02:20:36 +04:00
if ( ! ( gfp_mask & __GFP_FS ) )
return - 1 ;
prune_icache ( nr ) ;
}
2010-10-23 13:03:02 +04:00
return ( get_nr_inodes_unused ( ) / 100 ) * sysctl_vfs_cache_pressure ;
2005-04-17 02:20:36 +04:00
}
2007-07-17 15:03:17 +04:00
static struct shrinker icache_shrinker = {
. shrink = shrink_icache_memory ,
. seeks = DEFAULT_SEEKS ,
} ;
2005-04-17 02:20:36 +04:00
static void __wait_on_freeing_inode ( struct inode * inode ) ;
/*
* Called with the inode lock held .
*/
2009-03-31 18:05:54 +04:00
static struct inode * find_inode ( struct super_block * sb ,
struct hlist_head * head ,
int ( * test ) ( struct inode * , void * ) ,
void * data )
2005-04-17 02:20:36 +04:00
{
struct hlist_node * node ;
2009-03-31 18:05:54 +04:00
struct inode * inode = NULL ;
2005-04-17 02:20:36 +04:00
repeat :
2008-04-29 11:59:40 +04:00
hlist_for_each_entry ( inode , node , head , i_hash ) {
2005-04-17 02:20:36 +04:00
if ( inode - > i_sb ! = sb )
continue ;
if ( ! test ( inode , data ) )
continue ;
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
2010-06-03 01:38:30 +04:00
if ( inode - > i_state & ( I_FREEING | I_WILL_FREE ) ) {
2005-04-17 02:20:36 +04:00
__wait_on_freeing_inode ( inode ) ;
goto repeat ;
}
2010-10-23 15:09:06 +04:00
__iget ( inode ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2010-10-23 15:09:06 +04:00
return inode ;
2005-04-17 02:20:36 +04:00
}
2010-10-23 15:09:06 +04:00
return NULL ;
2005-04-17 02:20:36 +04:00
}
/*
* find_inode_fast is the fast path version of find_inode , see the comment at
* iget_locked for details .
*/
2009-03-31 18:05:54 +04:00
static struct inode * find_inode_fast ( struct super_block * sb ,
struct hlist_head * head , unsigned long ino )
2005-04-17 02:20:36 +04:00
{
struct hlist_node * node ;
2009-03-31 18:05:54 +04:00
struct inode * inode = NULL ;
2005-04-17 02:20:36 +04:00
repeat :
2008-04-29 11:59:40 +04:00
hlist_for_each_entry ( inode , node , head , i_hash ) {
2005-04-17 02:20:36 +04:00
if ( inode - > i_ino ! = ino )
continue ;
if ( inode - > i_sb ! = sb )
continue ;
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
2010-06-03 01:38:30 +04:00
if ( inode - > i_state & ( I_FREEING | I_WILL_FREE ) ) {
2005-04-17 02:20:36 +04:00
__wait_on_freeing_inode ( inode ) ;
goto repeat ;
}
2010-10-23 15:09:06 +04:00
__iget ( inode ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2010-10-23 15:09:06 +04:00
return inode ;
2005-04-17 02:20:36 +04:00
}
2010-10-23 15:09:06 +04:00
return NULL ;
2008-10-30 09:35:24 +03:00
}
2010-10-23 19:18:01 +04:00
/*
* Each cpu owns a range of LAST_INO_BATCH numbers .
* ' shared_last_ino ' is dirtied only once out of LAST_INO_BATCH allocations ,
* to renew the exhausted range .
2008-10-30 09:35:24 +03:00
*
2010-10-23 19:18:01 +04:00
* This does not significantly increase overflow rate because every CPU can
* consume at most LAST_INO_BATCH - 1 unused inode numbers . So there is
* NR_CPUS * ( LAST_INO_BATCH - 1 ) wastage . At 4096 and 1024 , this is ~ 0.1 % of the
* 2 ^ 32 range , and is a worst - case . Even a 50 % wastage would only increase
* overflow rate by 2 x , which does not seem too significant .
*
* On a 32 bit , non LFS stat ( ) call , glibc will generate an EOVERFLOW
* error if st_ino won ' t fit in target struct field . Use 32 bit counter
* here to attempt to avoid that .
2008-10-30 09:35:24 +03:00
*/
2010-10-23 19:18:01 +04:00
# define LAST_INO_BATCH 1024
static DEFINE_PER_CPU ( unsigned int , last_ino ) ;
2010-10-23 19:19:54 +04:00
unsigned int get_next_ino ( void )
2008-10-30 09:35:24 +03:00
{
2010-10-23 19:18:01 +04:00
unsigned int * p = & get_cpu_var ( last_ino ) ;
unsigned int res = * p ;
2008-10-30 09:35:24 +03:00
2010-10-23 19:18:01 +04:00
# ifdef CONFIG_SMP
if ( unlikely ( ( res & ( LAST_INO_BATCH - 1 ) ) = = 0 ) ) {
static atomic_t shared_last_ino ;
int next = atomic_add_return ( LAST_INO_BATCH , & shared_last_ino ) ;
res = next - LAST_INO_BATCH ;
}
# endif
* p = + + res ;
put_cpu_var ( last_ino ) ;
return res ;
2008-10-30 09:35:24 +03:00
}
2010-10-23 19:19:54 +04:00
EXPORT_SYMBOL ( get_next_ino ) ;
2008-10-30 09:35:24 +03:00
2005-04-17 02:20:36 +04:00
/**
* new_inode - obtain an inode
* @ sb : superblock
*
2007-07-17 15:03:05 +04:00
* Allocates a new inode for given superblock . The default gfp_mask
2009-01-07 01:39:23 +03:00
* for allocations related to inode - > i_mapping is GFP_HIGHUSER_MOVABLE .
2007-07-17 15:03:05 +04:00
* If HIGHMEM pages are unsuitable or it is known that pages allocated
* for the page cache are not reclaimable or migratable ,
* mapping_set_gfp_mask ( ) must be called with suitable flags on the
* newly created inode ' s mapping
*
2005-04-17 02:20:36 +04:00
*/
struct inode * new_inode ( struct super_block * sb )
{
2009-03-31 18:05:54 +04:00
struct inode * inode ;
2005-04-17 02:20:36 +04:00
2011-03-22 14:23:40 +03:00
spin_lock_prefetch ( & inode_sb_list_lock ) ;
2009-03-31 18:05:54 +04:00
2005-04-17 02:20:36 +04:00
inode = alloc_inode ( sb ) ;
if ( inode ) {
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
2005-04-17 02:20:36 +04:00
inode - > i_state = 0 ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2011-03-22 14:23:40 +03:00
inode_sb_list_add ( inode ) ;
2005-04-17 02:20:36 +04:00
}
return inode ;
}
EXPORT_SYMBOL ( new_inode ) ;
2011-03-22 14:23:36 +03:00
/**
* unlock_new_inode - clear the I_NEW state and wake up any waiters
* @ inode : new inode to unlock
*
* Called when the inode is fully initialised to clear the new state of the
* inode and wake up anyone waiting for the inode to finish initialisation .
*/
2005-04-17 02:20:36 +04:00
void unlock_new_inode ( struct inode * inode )
{
2007-10-14 03:38:33 +04:00
# ifdef CONFIG_DEBUG_LOCK_ALLOC
2010-10-11 17:38:00 +04:00
if ( S_ISDIR ( inode - > i_mode ) ) {
2007-10-16 08:47:54 +04:00
struct file_system_type * type = inode - > i_sb - > s_type ;
2009-06-04 17:26:49 +04:00
/* Set new key only if filesystem hasn't already changed it */
if ( ! lockdep_match_class ( & inode - > i_mutex ,
& type - > i_mutex_key ) ) {
/*
* ensure nobody is actually holding i_mutex
*/
mutex_destroy ( & inode - > i_mutex ) ;
mutex_init ( & inode - > i_mutex ) ;
lockdep_set_class ( & inode - > i_mutex ,
& type - > i_mutex_dir_key ) ;
}
2007-10-16 08:47:54 +04:00
}
2007-10-14 03:38:33 +04:00
# endif
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
2009-12-17 16:25:01 +03:00
WARN_ON ( ! ( inode - > i_state & I_NEW ) ) ;
inode - > i_state & = ~ I_NEW ;
2011-03-22 14:23:36 +03:00
wake_up_bit ( & inode - > i_state , __I_NEW ) ;
spin_unlock ( & inode - > i_lock ) ;
2005-04-17 02:20:36 +04:00
}
EXPORT_SYMBOL ( unlock_new_inode ) ;
/*
* This is called without the inode lock held . . Be careful .
*
* We no longer cache the sb_flags in i_flags - see fs . h
* - - rmk @ arm . uk . linux . org
*/
2009-03-31 18:05:54 +04:00
static struct inode * get_new_inode ( struct super_block * sb ,
struct hlist_head * head ,
int ( * test ) ( struct inode * , void * ) ,
int ( * set ) ( struct inode * , void * ) ,
void * data )
2005-04-17 02:20:36 +04:00
{
2009-03-31 18:05:54 +04:00
struct inode * inode ;
2005-04-17 02:20:36 +04:00
inode = alloc_inode ( sb ) ;
if ( inode ) {
2009-03-31 18:05:54 +04:00
struct inode * old ;
2005-04-17 02:20:36 +04:00
spin_lock ( & inode_lock ) ;
/* We released the lock, so.. */
old = find_inode ( sb , head , test , data ) ;
if ( ! old ) {
if ( set ( inode , data ) )
goto set_failed ;
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
inode - > i_state = I_NEW ;
2010-10-23 15:15:32 +04:00
hlist_add_head ( & inode - > i_hash , head ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2011-03-22 14:23:40 +03:00
inode_sb_list_add ( inode ) ;
2005-04-17 02:20:36 +04:00
spin_unlock ( & inode_lock ) ;
/* Return the locked inode with I_NEW set, the
* caller is responsible for filling in the contents
*/
return inode ;
}
/*
* Uhhuh , somebody else created the same inode under
* us . Use the old inode instead of the one we just
* allocated .
*/
spin_unlock ( & inode_lock ) ;
destroy_inode ( inode ) ;
inode = old ;
wait_on_inode ( inode ) ;
}
return inode ;
set_failed :
spin_unlock ( & inode_lock ) ;
destroy_inode ( inode ) ;
return NULL ;
}
/*
* get_new_inode_fast is the fast path version of get_new_inode , see the
* comment at iget_locked for details .
*/
2009-03-31 18:05:54 +04:00
static struct inode * get_new_inode_fast ( struct super_block * sb ,
struct hlist_head * head , unsigned long ino )
2005-04-17 02:20:36 +04:00
{
2009-03-31 18:05:54 +04:00
struct inode * inode ;
2005-04-17 02:20:36 +04:00
inode = alloc_inode ( sb ) ;
if ( inode ) {
2009-03-31 18:05:54 +04:00
struct inode * old ;
2005-04-17 02:20:36 +04:00
spin_lock ( & inode_lock ) ;
/* We released the lock, so.. */
old = find_inode_fast ( sb , head , ino ) ;
if ( ! old ) {
inode - > i_ino = ino ;
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
inode - > i_state = I_NEW ;
2010-10-23 15:15:32 +04:00
hlist_add_head ( & inode - > i_hash , head ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2011-03-22 14:23:40 +03:00
inode_sb_list_add ( inode ) ;
2005-04-17 02:20:36 +04:00
spin_unlock ( & inode_lock ) ;
/* Return the locked inode with I_NEW set, the
* caller is responsible for filling in the contents
*/
return inode ;
}
/*
* Uhhuh , somebody else created the same inode under
* us . Use the old inode instead of the one we just
* allocated .
*/
spin_unlock ( & inode_lock ) ;
destroy_inode ( inode ) ;
inode = old ;
wait_on_inode ( inode ) ;
}
return inode ;
}
2010-10-23 15:00:16 +04:00
/*
* search the inode cache for a matching inode number .
* If we find one , then the inode number we are trying to
* allocate is not unique and so we should not use it .
*
* Returns 1 if the inode number is unique , 0 if it is not .
*/
static int test_inode_iunique ( struct super_block * sb , unsigned long ino )
{
struct hlist_head * b = inode_hashtable + hash ( sb , ino ) ;
struct hlist_node * node ;
struct inode * inode ;
hlist_for_each_entry ( inode , node , b , i_hash ) {
if ( inode - > i_ino = = ino & & inode - > i_sb = = sb )
return 0 ;
}
return 1 ;
}
2005-04-17 02:20:36 +04:00
/**
* iunique - get a unique inode number
* @ sb : superblock
* @ max_reserved : highest reserved inode number
*
* Obtain an inode number that is unique on the system for a given
* superblock . This is used by file systems that have no natural
* permanent inode numbering system . An inode number is returned that
* is higher than the reserved limit but unique .
*
* BUGS :
* With a large number of inodes live on the file system this function
* currently becomes quite slow .
*/
ino_t iunique ( struct super_block * sb , ino_t max_reserved )
{
inode numbering: make static counters in new_inode and iunique be 32 bits
The problems are:
- on filesystems w/o permanent inode numbers, i_ino values can be larger
than 32 bits, which can cause problems for some 32 bit userspace programs on
a 64 bit kernel. We can't do anything for filesystems that have actual
>32-bit inode numbers, but on filesystems that generate i_ino values on the
fly, we should try to have them fit in 32 bits. We could trivially fix this
by making the static counters in new_inode and iunique 32 bits, but...
- many filesystems call new_inode and assume that the i_ino values they are
given are unique. They are not guaranteed to be so, since the static
counter can wrap. This problem is exacerbated by the fix for #1.
- after allocating a new inode, some filesystems call iunique to try to get
a unique i_ino value, but they don't actually add their inodes to the
hashtable, and so they're still not guaranteed to be unique if that counter
wraps.
This patch set takes the simpler approach of simply using iunique and hashing
the inodes afterward. Christoph H. previously mentioned that he thought that
this approach may slow down lookups for filesystems that currently hash their
inodes.
The questions are:
1) how much would this slow down lookups for these filesystems?
2) is it enough to justify adding more infrastructure to avoid it?
What might be best is to start with this approach and then only move to using
IDR or some other scheme if these extra inodes in the hashtable prove to be
problematic.
I've done some cursory testing with this patch and the overhead of hashing and
unhashing the inodes with pipefs is pretty low -- just a few seconds of system
time added on to the creation and destruction of 10 million pipes (very
similar to the overhead that the IDR approach would add).
The hard thing to measure is what effect this has on other filesystems. I'm
open to ways to try and gauge this.
Again, I've only converted pipefs as an example. If this approach is
acceptable then I'll start work on patches to convert other filesystems.
With a pretty-much-worst-case microbenchmark provided by Eric Dumazet
<dada1@cosmosbay.com>:
hashing patch (pipebench):
sys 1m15.329s
sys 1m16.249s
sys 1m17.169s
unpatched (pipebench):
sys 1m9.836s
sys 1m12.541s
sys 1m14.153s
Which works out to 1.05642174294555027017. So ~5-6% slowdown.
This patch:
When a 32-bit program that was not compiled with large file offsets does a
stat and gets a st_ino value back that won't fit in the 32 bit field, glibc
(correctly) generates an EOVERFLOW error. We can't do anything about fs's
with larger permanent inode numbers, but when we generate them on the fly, we
ought to try and have them fit within a 32 bit field.
This patch takes the first step toward this by making the static counters in
these two functions be 32 bits.
[jlayton@redhat.com: mention that it's only the case for 32bit, non-LFS stat]
Signed-off-by: Jeff Layton <jlayton@redhat.com>
Cc: Christoph Hellwig <hch@lst.de>
Cc: Al Viro <viro@zeniv.linux.org.uk>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2007-05-08 11:32:29 +04:00
/*
* On a 32 bit , non LFS stat ( ) call , glibc will generate an EOVERFLOW
* error if st_ino won ' t fit in target struct field . Use 32 bit counter
* here to attempt to avoid that .
*/
2010-10-23 15:00:16 +04:00
static DEFINE_SPINLOCK ( iunique_lock ) ;
inode numbering: make static counters in new_inode and iunique be 32 bits
The problems are:
- on filesystems w/o permanent inode numbers, i_ino values can be larger
than 32 bits, which can cause problems for some 32 bit userspace programs on
a 64 bit kernel. We can't do anything for filesystems that have actual
>32-bit inode numbers, but on filesystems that generate i_ino values on the
fly, we should try to have them fit in 32 bits. We could trivially fix this
by making the static counters in new_inode and iunique 32 bits, but...
- many filesystems call new_inode and assume that the i_ino values they are
given are unique. They are not guaranteed to be so, since the static
counter can wrap. This problem is exacerbated by the fix for #1.
- after allocating a new inode, some filesystems call iunique to try to get
a unique i_ino value, but they don't actually add their inodes to the
hashtable, and so they're still not guaranteed to be unique if that counter
wraps.
This patch set takes the simpler approach of simply using iunique and hashing
the inodes afterward. Christoph H. previously mentioned that he thought that
this approach may slow down lookups for filesystems that currently hash their
inodes.
The questions are:
1) how much would this slow down lookups for these filesystems?
2) is it enough to justify adding more infrastructure to avoid it?
What might be best is to start with this approach and then only move to using
IDR or some other scheme if these extra inodes in the hashtable prove to be
problematic.
I've done some cursory testing with this patch and the overhead of hashing and
unhashing the inodes with pipefs is pretty low -- just a few seconds of system
time added on to the creation and destruction of 10 million pipes (very
similar to the overhead that the IDR approach would add).
The hard thing to measure is what effect this has on other filesystems. I'm
open to ways to try and gauge this.
Again, I've only converted pipefs as an example. If this approach is
acceptable then I'll start work on patches to convert other filesystems.
With a pretty-much-worst-case microbenchmark provided by Eric Dumazet
<dada1@cosmosbay.com>:
hashing patch (pipebench):
sys 1m15.329s
sys 1m16.249s
sys 1m17.169s
unpatched (pipebench):
sys 1m9.836s
sys 1m12.541s
sys 1m14.153s
Which works out to 1.05642174294555027017. So ~5-6% slowdown.
This patch:
When a 32-bit program that was not compiled with large file offsets does a
stat and gets a st_ino value back that won't fit in the 32 bit field, glibc
(correctly) generates an EOVERFLOW error. We can't do anything about fs's
with larger permanent inode numbers, but when we generate them on the fly, we
ought to try and have them fit within a 32 bit field.
This patch takes the first step toward this by making the static counters in
these two functions be 32 bits.
[jlayton@redhat.com: mention that it's only the case for 32bit, non-LFS stat]
Signed-off-by: Jeff Layton <jlayton@redhat.com>
Cc: Christoph Hellwig <hch@lst.de>
Cc: Al Viro <viro@zeniv.linux.org.uk>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2007-05-08 11:32:29 +04:00
static unsigned int counter ;
2005-04-17 02:20:36 +04:00
ino_t res ;
2007-05-08 11:29:48 +04:00
2005-04-17 02:20:36 +04:00
spin_lock ( & inode_lock ) ;
2010-10-23 15:00:16 +04:00
spin_lock ( & iunique_lock ) ;
2007-05-08 11:29:48 +04:00
do {
if ( counter < = max_reserved )
counter = max_reserved + 1 ;
2005-04-17 02:20:36 +04:00
res = counter + + ;
2010-10-23 15:00:16 +04:00
} while ( ! test_inode_iunique ( sb , res ) ) ;
spin_unlock ( & iunique_lock ) ;
2007-05-08 11:29:48 +04:00
spin_unlock ( & inode_lock ) ;
2005-04-17 02:20:36 +04:00
2007-05-08 11:29:48 +04:00
return res ;
}
2005-04-17 02:20:36 +04:00
EXPORT_SYMBOL ( iunique ) ;
struct inode * igrab ( struct inode * inode )
{
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
if ( ! ( inode - > i_state & ( I_FREEING | I_WILL_FREE ) ) ) {
2005-04-17 02:20:36 +04:00
__iget ( inode ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
} else {
spin_unlock ( & inode - > i_lock ) ;
2005-04-17 02:20:36 +04:00
/*
* Handle the case where s_op - > clear_inode is not been
* called yet , and somebody is calling igrab
* while the inode is getting freed .
*/
inode = NULL ;
2011-03-22 14:23:36 +03:00
}
2005-04-17 02:20:36 +04:00
return inode ;
}
EXPORT_SYMBOL ( igrab ) ;
/**
* ifind - internal function , you want ilookup5 ( ) or iget5 ( ) .
* @ sb : super block of file system to search
* @ head : the head of the list to search
* @ test : callback used for comparisons between inodes
* @ data : opaque data pointer to pass to @ test
2005-07-13 12:10:44 +04:00
* @ wait : if true wait for the inode to be unlocked , if false do not
2005-04-17 02:20:36 +04:00
*
* ifind ( ) searches for the inode specified by @ data in the inode
* cache . This is a generalized version of ifind_fast ( ) for file systems where
* the inode number is not sufficient for unique identification of an inode .
*
* If the inode is in the cache , the inode is returned with an incremented
* reference count .
*
* Otherwise NULL is returned .
*
* Note , @ test is called with the inode_lock held , so can ' t sleep .
*/
2006-01-08 12:05:21 +03:00
static struct inode * ifind ( struct super_block * sb ,
2005-04-17 02:20:36 +04:00
struct hlist_head * head , int ( * test ) ( struct inode * , void * ) ,
2005-07-13 12:10:44 +04:00
void * data , const int wait )
2005-04-17 02:20:36 +04:00
{
struct inode * inode ;
spin_lock ( & inode_lock ) ;
inode = find_inode ( sb , head , test , data ) ;
if ( inode ) {
spin_unlock ( & inode_lock ) ;
2005-07-13 12:10:44 +04:00
if ( likely ( wait ) )
wait_on_inode ( inode ) ;
2005-04-17 02:20:36 +04:00
return inode ;
}
spin_unlock ( & inode_lock ) ;
return NULL ;
}
/**
* ifind_fast - internal function , you want ilookup ( ) or iget ( ) .
* @ sb : super block of file system to search
* @ head : head of the list to search
* @ ino : inode number to search for
*
* ifind_fast ( ) searches for the inode @ ino in the inode cache . This is for
* file systems where the inode number is sufficient for unique identification
* of an inode .
*
* If the inode is in the cache , the inode is returned with an incremented
* reference count .
*
* Otherwise NULL is returned .
*/
2006-01-08 12:05:21 +03:00
static struct inode * ifind_fast ( struct super_block * sb ,
2005-04-17 02:20:36 +04:00
struct hlist_head * head , unsigned long ino )
{
struct inode * inode ;
spin_lock ( & inode_lock ) ;
inode = find_inode_fast ( sb , head , ino ) ;
if ( inode ) {
spin_unlock ( & inode_lock ) ;
wait_on_inode ( inode ) ;
return inode ;
}
spin_unlock ( & inode_lock ) ;
return NULL ;
}
/**
2005-07-13 12:10:44 +04:00
* ilookup5_nowait - search for an inode in the inode cache
2005-04-17 02:20:36 +04:00
* @ sb : super block of file system to search
* @ hashval : hash value ( usually inode number ) to search for
* @ test : callback used for comparisons between inodes
* @ data : opaque data pointer to pass to @ test
*
* ilookup5 ( ) uses ifind ( ) to search for the inode specified by @ hashval and
* @ data in the inode cache . This is a generalized version of ilookup ( ) for
* file systems where the inode number is not sufficient for unique
* identification of an inode .
*
* If the inode is in the cache , the inode is returned with an incremented
2005-07-13 12:10:44 +04:00
* reference count . Note , the inode lock is not waited upon so you have to be
* very careful what you do with the returned inode . You probably should be
* using ilookup5 ( ) instead .
*
* Otherwise NULL is returned .
*
* Note , @ test is called with the inode_lock held , so can ' t sleep .
*/
struct inode * ilookup5_nowait ( struct super_block * sb , unsigned long hashval ,
int ( * test ) ( struct inode * , void * ) , void * data )
{
struct hlist_head * head = inode_hashtable + hash ( sb , hashval ) ;
return ifind ( sb , head , test , data , 0 ) ;
}
EXPORT_SYMBOL ( ilookup5_nowait ) ;
/**
* ilookup5 - search for an inode in the inode cache
* @ sb : super block of file system to search
* @ hashval : hash value ( usually inode number ) to search for
* @ test : callback used for comparisons between inodes
* @ data : opaque data pointer to pass to @ test
*
* ilookup5 ( ) uses ifind ( ) to search for the inode specified by @ hashval and
* @ data in the inode cache . This is a generalized version of ilookup ( ) for
* file systems where the inode number is not sufficient for unique
* identification of an inode .
*
* If the inode is in the cache , the inode lock is waited upon and the inode is
* returned with an incremented reference count .
2005-04-17 02:20:36 +04:00
*
* Otherwise NULL is returned .
*
* Note , @ test is called with the inode_lock held , so can ' t sleep .
*/
struct inode * ilookup5 ( struct super_block * sb , unsigned long hashval ,
int ( * test ) ( struct inode * , void * ) , void * data )
{
struct hlist_head * head = inode_hashtable + hash ( sb , hashval ) ;
2005-07-13 12:10:44 +04:00
return ifind ( sb , head , test , data , 1 ) ;
2005-04-17 02:20:36 +04:00
}
EXPORT_SYMBOL ( ilookup5 ) ;
/**
* ilookup - search for an inode in the inode cache
* @ sb : super block of file system to search
* @ ino : inode number to search for
*
* ilookup ( ) uses ifind_fast ( ) to search for the inode @ ino in the inode cache .
* This is for file systems where the inode number is sufficient for unique
* identification of an inode .
*
* If the inode is in the cache , the inode is returned with an incremented
* reference count .
*
* Otherwise NULL is returned .
*/
struct inode * ilookup ( struct super_block * sb , unsigned long ino )
{
struct hlist_head * head = inode_hashtable + hash ( sb , ino ) ;
return ifind_fast ( sb , head , ino ) ;
}
EXPORT_SYMBOL ( ilookup ) ;
/**
* iget5_locked - obtain an inode from a mounted file system
* @ sb : super block of file system
* @ hashval : hash value ( usually inode number ) to get
* @ test : callback used for comparisons between inodes
* @ set : callback used to initialize a new struct inode
* @ data : opaque data pointer to pass to @ test and @ set
*
* iget5_locked ( ) uses ifind ( ) to search for the inode specified by @ hashval
* and @ data in the inode cache and if present it is returned with an increased
* reference count . This is a generalized version of iget_locked ( ) for file
* systems where the inode number is not sufficient for unique identification
* of an inode .
*
* If the inode is not in cache , get_new_inode ( ) is called to allocate a new
* inode and this is returned locked , hashed , and with the I_NEW flag set . The
* file system gets to fill it in before unlocking it via unlock_new_inode ( ) .
*
* Note both @ test and @ set are called with the inode_lock held , so can ' t sleep .
*/
struct inode * iget5_locked ( struct super_block * sb , unsigned long hashval ,
int ( * test ) ( struct inode * , void * ) ,
int ( * set ) ( struct inode * , void * ) , void * data )
{
struct hlist_head * head = inode_hashtable + hash ( sb , hashval ) ;
struct inode * inode ;
2005-07-13 12:10:44 +04:00
inode = ifind ( sb , head , test , data , 1 ) ;
2005-04-17 02:20:36 +04:00
if ( inode )
return inode ;
/*
* get_new_inode ( ) will do the right thing , re - trying the search
* in case it had to block at any point .
*/
return get_new_inode ( sb , head , test , set , data ) ;
}
EXPORT_SYMBOL ( iget5_locked ) ;
/**
* iget_locked - obtain an inode from a mounted file system
* @ sb : super block of file system
* @ ino : inode number to get
*
* iget_locked ( ) uses ifind_fast ( ) to search for the inode specified by @ ino in
* the inode cache and if present it is returned with an increased reference
* count . This is for file systems where the inode number is sufficient for
* unique identification of an inode .
*
* If the inode is not in cache , get_new_inode_fast ( ) is called to allocate a
* new inode and this is returned locked , hashed , and with the I_NEW flag set .
* The file system gets to fill it in before unlocking it via
* unlock_new_inode ( ) .
*/
struct inode * iget_locked ( struct super_block * sb , unsigned long ino )
{
struct hlist_head * head = inode_hashtable + hash ( sb , ino ) ;
struct inode * inode ;
inode = ifind_fast ( sb , head , ino ) ;
if ( inode )
return inode ;
/*
* get_new_inode_fast ( ) will do the right thing , re - trying the search
* in case it had to block at any point .
*/
return get_new_inode_fast ( sb , head , ino ) ;
}
EXPORT_SYMBOL ( iget_locked ) ;
2008-12-30 09:48:21 +03:00
int insert_inode_locked ( struct inode * inode )
{
struct super_block * sb = inode - > i_sb ;
ino_t ino = inode - > i_ino ;
struct hlist_head * head = inode_hashtable + hash ( sb , ino ) ;
while ( 1 ) {
2009-05-13 22:13:40 +04:00
struct hlist_node * node ;
struct inode * old = NULL ;
2008-12-30 09:48:21 +03:00
spin_lock ( & inode_lock ) ;
2009-05-13 22:13:40 +04:00
hlist_for_each_entry ( old , node , head , i_hash ) {
if ( old - > i_ino ! = ino )
continue ;
if ( old - > i_sb ! = sb )
continue ;
2011-03-22 14:23:36 +03:00
spin_lock ( & old - > i_lock ) ;
if ( old - > i_state & ( I_FREEING | I_WILL_FREE ) ) {
spin_unlock ( & old - > i_lock ) ;
2009-05-13 22:13:40 +04:00
continue ;
2011-03-22 14:23:36 +03:00
}
2009-05-13 22:13:40 +04:00
break ;
}
if ( likely ( ! node ) ) {
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
inode - > i_state | = I_NEW ;
2008-12-30 09:48:21 +03:00
hlist_add_head ( & inode - > i_hash , head ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2008-12-30 09:48:21 +03:00
spin_unlock ( & inode_lock ) ;
return 0 ;
}
__iget ( old ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & old - > i_lock ) ;
2008-12-30 09:48:21 +03:00
spin_unlock ( & inode_lock ) ;
wait_on_inode ( old ) ;
2010-10-23 23:19:20 +04:00
if ( unlikely ( ! inode_unhashed ( old ) ) ) {
2008-12-30 09:48:21 +03:00
iput ( old ) ;
return - EBUSY ;
}
iput ( old ) ;
}
}
EXPORT_SYMBOL ( insert_inode_locked ) ;
int insert_inode_locked4 ( struct inode * inode , unsigned long hashval ,
int ( * test ) ( struct inode * , void * ) , void * data )
{
struct super_block * sb = inode - > i_sb ;
struct hlist_head * head = inode_hashtable + hash ( sb , hashval ) ;
while ( 1 ) {
2009-05-13 22:13:40 +04:00
struct hlist_node * node ;
struct inode * old = NULL ;
2008-12-30 09:48:21 +03:00
spin_lock ( & inode_lock ) ;
2009-05-13 22:13:40 +04:00
hlist_for_each_entry ( old , node , head , i_hash ) {
if ( old - > i_sb ! = sb )
continue ;
if ( ! test ( old , data ) )
continue ;
2011-03-22 14:23:36 +03:00
spin_lock ( & old - > i_lock ) ;
if ( old - > i_state & ( I_FREEING | I_WILL_FREE ) ) {
spin_unlock ( & old - > i_lock ) ;
2009-05-13 22:13:40 +04:00
continue ;
2011-03-22 14:23:36 +03:00
}
2009-05-13 22:13:40 +04:00
break ;
}
if ( likely ( ! node ) ) {
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
inode - > i_state | = I_NEW ;
2008-12-30 09:48:21 +03:00
hlist_add_head ( & inode - > i_hash , head ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2008-12-30 09:48:21 +03:00
spin_unlock ( & inode_lock ) ;
return 0 ;
}
__iget ( old ) ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & old - > i_lock ) ;
2008-12-30 09:48:21 +03:00
spin_unlock ( & inode_lock ) ;
wait_on_inode ( old ) ;
2010-10-23 23:19:20 +04:00
if ( unlikely ( ! inode_unhashed ( old ) ) ) {
2008-12-30 09:48:21 +03:00
iput ( old ) ;
return - EBUSY ;
}
iput ( old ) ;
}
}
EXPORT_SYMBOL ( insert_inode_locked4 ) ;
2005-04-17 02:20:36 +04:00
2010-06-07 21:43:19 +04:00
int generic_delete_inode ( struct inode * inode )
{
return 1 ;
}
EXPORT_SYMBOL ( generic_delete_inode ) ;
2005-04-17 02:20:36 +04:00
/*
2010-06-07 21:43:19 +04:00
* Normal UNIX filesystem behaviour : delete the
* inode when the usage count drops to zero , and
* i_nlink is zero .
2005-04-17 02:20:36 +04:00
*/
2010-06-07 21:43:19 +04:00
int generic_drop_inode ( struct inode * inode )
2005-04-17 02:20:36 +04:00
{
2010-10-23 23:19:20 +04:00
return ! inode - > i_nlink | | inode_unhashed ( inode ) ;
2005-04-17 02:20:36 +04:00
}
2010-06-07 21:43:19 +04:00
EXPORT_SYMBOL_GPL ( generic_drop_inode ) ;
2005-04-17 02:20:36 +04:00
2010-06-07 21:43:19 +04:00
/*
* Called when we ' re dropping the last reference
* to an inode .
2009-09-19 00:05:44 +04:00
*
2010-06-07 21:43:19 +04:00
* Call the FS " drop_inode() " function , defaulting to
* the legacy UNIX filesystem behaviour . If it tells
* us to evict inode , do so . Otherwise , retain inode
* in cache if fs is alive , sync and evict if fs is
* shutting down .
2009-09-19 00:05:44 +04:00
*/
2010-06-07 21:43:19 +04:00
static void iput_final ( struct inode * inode )
2005-04-17 02:20:36 +04:00
{
struct super_block * sb = inode - > i_sb ;
2010-06-07 21:43:19 +04:00
const struct super_operations * op = inode - > i_sb - > s_op ;
int drop ;
2011-03-22 14:23:36 +03:00
WARN_ON ( inode - > i_state & I_NEW ) ;
2010-06-07 21:43:19 +04:00
if ( op & & op - > drop_inode )
drop = op - > drop_inode ( inode ) ;
else
drop = generic_drop_inode ( inode ) ;
2005-04-17 02:20:36 +04:00
2011-03-22 14:23:37 +03:00
if ( ! drop & & ( sb - > s_flags & MS_ACTIVE ) ) {
inode - > i_state | = I_REFERENCED ;
if ( ! ( inode - > i_state & ( I_DIRTY | I_SYNC ) ) )
inode_lru_list_add ( inode ) ;
spin_unlock ( & inode - > i_lock ) ;
return ;
}
2010-06-07 21:43:19 +04:00
if ( ! drop ) {
2005-06-23 11:09:01 +04:00
inode - > i_state | = I_WILL_FREE ;
2011-03-22 14:23:36 +03:00
spin_unlock ( & inode - > i_lock ) ;
2005-04-17 02:20:36 +04:00
write_inode_now ( inode , 1 ) ;
2011-03-22 14:23:36 +03:00
spin_lock ( & inode - > i_lock ) ;
fs: new inode i_state corruption fix
There was a report of a data corruption
http://lkml.org/lkml/2008/11/14/121. There is a script included to
reproduce the problem.
During testing, I encountered a number of strange things with ext3, so I
tried ext2 to attempt to reduce complexity of the problem. I found that
fsstress would quickly hang in wait_on_inode, waiting for I_LOCK to be
cleared, even though instrumentation showed that unlock_new_inode had
already been called for that inode. This points to memory scribble, or
synchronisation problme.
i_state of I_NEW inodes is not protected by inode_lock because other
processes are not supposed to touch them until I_LOCK (and I_NEW) is
cleared. Adding WARN_ON(inode->i_state & I_NEW) to sites where we modify
i_state revealed that generic_sync_sb_inodes is picking up new inodes from
the inode lists and passing them to __writeback_single_inode without
waiting for I_NEW. Subsequently modifying i_state causes corruption. In
my case it would look like this:
CPU0 CPU1
unlock_new_inode() __sync_single_inode()
reg <- inode->i_state
reg -> reg & ~(I_LOCK|I_NEW) reg <- inode->i_state
reg -> inode->i_state reg -> reg | I_SYNC
reg -> inode->i_state
Non-atomic RMW on CPU1 overwrites CPU0 store and sets I_LOCK|I_NEW again.
Fix for this is rather than wait for I_NEW inodes, just skip over them:
inodes concurrently being created are not subject to data integrity
operations, and should not significantly contribute to dirty memory
either.
After this change, I'm unable to reproduce any of the added warnings or
hangs after ~1hour of running. Previously, the new warnings would start
immediately and hang would happen in under 5 minutes.
I'm also testing on ext3 now, and so far no problems there either. I
don't know whether this fixes the problem reported above, but it fixes a
real problem for me.
Cc: "Jorge Boncompte [DTI2]" <jorge@dti2.net>
Reported-by: Adrian Hunter <ext-adrian.hunter@nokia.com>
Cc: Jan Kara <jack@suse.cz>
Cc: <stable@kernel.org>
Signed-off-by: Nick Piggin <npiggin@suse.de>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2009-03-13 00:31:38 +03:00
WARN_ON ( inode - > i_state & I_NEW ) ;
2005-06-23 11:09:01 +04:00
inode - > i_state & = ~ I_WILL_FREE ;
2005-04-17 02:20:36 +04:00
}
2010-10-21 04:49:30 +04:00
2005-06-23 11:09:01 +04:00
inode - > i_state | = I_FREEING ;
2010-10-23 14:55:17 +04:00
inode_lru_list_del ( inode ) ;
2011-03-22 14:23:37 +03:00
spin_unlock ( & inode - > i_lock ) ;
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evict ( inode ) ;
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}
/**
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* iput - put an inode
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* @ inode : inode to put
*
* Puts an inode , dropping its usage count . If the inode use count hits
* zero , the inode is then freed and may also be destroyed .
*
* Consequently , iput ( ) can sleep .
*/
void iput ( struct inode * inode )
{
if ( inode ) {
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BUG_ON ( inode - > i_state & I_CLEAR ) ;
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if ( atomic_dec_and_lock ( & inode - > i_count , & inode - > i_lock ) )
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iput_final ( inode ) ;
}
}
EXPORT_SYMBOL ( iput ) ;
/**
* bmap - find a block number in a file
* @ inode : inode of file
* @ block : block to find
*
* Returns the block number on the device holding the inode that
* is the disk block number for the block of the file requested .
* That is , asked for block 4 of inode 1 the function will return the
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* disk block relative to the disk start that holds that block of the
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* file .
*/
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sector_t bmap ( struct inode * inode , sector_t block )
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{
sector_t res = 0 ;
if ( inode - > i_mapping - > a_ops - > bmap )
res = inode - > i_mapping - > a_ops - > bmap ( inode - > i_mapping , block ) ;
return res ;
}
EXPORT_SYMBOL ( bmap ) ;
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/*
* With relative atime , only update atime if the previous atime is
* earlier than either the ctime or mtime or if at least a day has
* passed since the last atime update .
*/
static int relatime_need_update ( struct vfsmount * mnt , struct inode * inode ,
struct timespec now )
{
if ( ! ( mnt - > mnt_flags & MNT_RELATIME ) )
return 1 ;
/*
* Is mtime younger than atime ? If yes , update atime :
*/
if ( timespec_compare ( & inode - > i_mtime , & inode - > i_atime ) > = 0 )
return 1 ;
/*
* Is ctime younger than atime ? If yes , update atime :
*/
if ( timespec_compare ( & inode - > i_ctime , & inode - > i_atime ) > = 0 )
return 1 ;
/*
* Is the previous atime value older than a day ? If yes ,
* update atime :
*/
if ( ( long ) ( now . tv_sec - inode - > i_atime . tv_sec ) > = 24 * 60 * 60 )
return 1 ;
/*
* Good , we can skip the atime update :
*/
return 0 ;
}
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/**
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* touch_atime - update the access time
* @ mnt : mount the inode is accessed on
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* @ dentry : dentry accessed
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*
* Update the accessed time on an inode and mark it for writeback .
* This function automatically handles read only file systems and media ,
* as well as the " noatime " flag and inode specific " noatime " markers .
*/
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void touch_atime ( struct vfsmount * mnt , struct dentry * dentry )
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{
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struct inode * inode = dentry - > d_inode ;
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struct timespec now ;
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if ( inode - > i_flags & S_NOATIME )
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return ;
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if ( IS_NOATIME ( inode ) )
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return ;
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if ( ( inode - > i_sb - > s_flags & MS_NODIRATIME ) & & S_ISDIR ( inode - > i_mode ) )
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return ;
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if ( mnt - > mnt_flags & MNT_NOATIME )
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return ;
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if ( ( mnt - > mnt_flags & MNT_NODIRATIME ) & & S_ISDIR ( inode - > i_mode ) )
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return ;
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now = current_fs_time ( inode - > i_sb ) ;
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if ( ! relatime_need_update ( mnt , inode , now ) )
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return ;
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if ( timespec_equal ( & inode - > i_atime , & now ) )
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return ;
if ( mnt_want_write ( mnt ) )
return ;
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inode - > i_atime = now ;
mark_inode_dirty_sync ( inode ) ;
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mnt_drop_write ( mnt ) ;
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}
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EXPORT_SYMBOL ( touch_atime ) ;
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/**
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* file_update_time - update mtime and ctime time
* @ file : file accessed
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*
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* Update the mtime and ctime members of an inode and mark the inode
* for writeback . Note that this function is meant exclusively for
* usage in the file write path of filesystems , and filesystems may
* choose to explicitly ignore update via this function with the
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* S_NOCMTIME inode flag , e . g . for network filesystem where these
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* timestamps are handled by the server .
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*/
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void file_update_time ( struct file * file )
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{
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struct inode * inode = file - > f_path . dentry - > d_inode ;
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struct timespec now ;
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enum { S_MTIME = 1 , S_CTIME = 2 , S_VERSION = 4 } sync_it = 0 ;
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/* First try to exhaust all avenues to not sync */
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if ( IS_NOCMTIME ( inode ) )
return ;
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now = current_fs_time ( inode - > i_sb ) ;
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if ( ! timespec_equal ( & inode - > i_mtime , & now ) )
sync_it = S_MTIME ;
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if ( ! timespec_equal ( & inode - > i_ctime , & now ) )
sync_it | = S_CTIME ;
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if ( IS_I_VERSION ( inode ) )
sync_it | = S_VERSION ;
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if ( ! sync_it )
return ;
/* Finally allowed to write? Takes lock. */
if ( mnt_want_write_file ( file ) )
return ;
/* Only change inode inside the lock region */
if ( sync_it & S_VERSION )
inode_inc_iversion ( inode ) ;
if ( sync_it & S_CTIME )
inode - > i_ctime = now ;
if ( sync_it & S_MTIME )
inode - > i_mtime = now ;
mark_inode_dirty_sync ( inode ) ;
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mnt_drop_write ( file - > f_path . mnt ) ;
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}
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EXPORT_SYMBOL ( file_update_time ) ;
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int inode_needs_sync ( struct inode * inode )
{
if ( IS_SYNC ( inode ) )
return 1 ;
if ( S_ISDIR ( inode - > i_mode ) & & IS_DIRSYNC ( inode ) )
return 1 ;
return 0 ;
}
EXPORT_SYMBOL ( inode_needs_sync ) ;
int inode_wait ( void * word )
{
schedule ( ) ;
return 0 ;
}
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EXPORT_SYMBOL ( inode_wait ) ;
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/*
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* If we try to find an inode in the inode hash while it is being
* deleted , we have to wait until the filesystem completes its
* deletion before reporting that it isn ' t found . This function waits
* until the deletion _might_ have completed . Callers are responsible
* to recheck inode state .
*
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* It doesn ' t matter if I_NEW is not set initially , a call to
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* wake_up_bit ( & inode - > i_state , __I_NEW ) after removing from the hash list
* will DTRT .
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*/
static void __wait_on_freeing_inode ( struct inode * inode )
{
wait_queue_head_t * wq ;
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DEFINE_WAIT_BIT ( wait , & inode - > i_state , __I_NEW ) ;
wq = bit_waitqueue ( & inode - > i_state , __I_NEW ) ;
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prepare_to_wait ( wq , & wait . wait , TASK_UNINTERRUPTIBLE ) ;
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spin_unlock ( & inode - > i_lock ) ;
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spin_unlock ( & inode_lock ) ;
schedule ( ) ;
finish_wait ( wq , & wait . wait ) ;
spin_lock ( & inode_lock ) ;
}
static __initdata unsigned long ihash_entries ;
static int __init set_ihash_entries ( char * str )
{
if ( ! str )
return 0 ;
ihash_entries = simple_strtoul ( str , & str , 0 ) ;
return 1 ;
}
__setup ( " ihash_entries= " , set_ihash_entries ) ;
/*
* Initialize the waitqueues and inode hash table .
*/
void __init inode_init_early ( void )
{
int loop ;
/* If hashes are distributed across NUMA nodes, defer
* hash allocation until vmalloc space is available .
*/
if ( hashdist )
return ;
inode_hashtable =
alloc_large_system_hash ( " Inode-cache " ,
sizeof ( struct hlist_head ) ,
ihash_entries ,
14 ,
HASH_EARLY ,
& i_hash_shift ,
& i_hash_mask ,
0 ) ;
for ( loop = 0 ; loop < ( 1 < < i_hash_shift ) ; loop + + )
INIT_HLIST_HEAD ( & inode_hashtable [ loop ] ) ;
}
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void __init inode_init ( void )
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{
int loop ;
/* inode slab cache */
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inode_cachep = kmem_cache_create ( " inode_cache " ,
sizeof ( struct inode ) ,
0 ,
( SLAB_RECLAIM_ACCOUNT | SLAB_PANIC |
SLAB_MEM_SPREAD ) ,
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init_once ) ;
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register_shrinker ( & icache_shrinker ) ;
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/* Hash may have been set up in inode_init_early */
if ( ! hashdist )
return ;
inode_hashtable =
alloc_large_system_hash ( " Inode-cache " ,
sizeof ( struct hlist_head ) ,
ihash_entries ,
14 ,
0 ,
& i_hash_shift ,
& i_hash_mask ,
0 ) ;
for ( loop = 0 ; loop < ( 1 < < i_hash_shift ) ; loop + + )
INIT_HLIST_HEAD ( & inode_hashtable [ loop ] ) ;
}
void init_special_inode ( struct inode * inode , umode_t mode , dev_t rdev )
{
inode - > i_mode = mode ;
if ( S_ISCHR ( mode ) ) {
inode - > i_fop = & def_chr_fops ;
inode - > i_rdev = rdev ;
} else if ( S_ISBLK ( mode ) ) {
inode - > i_fop = & def_blk_fops ;
inode - > i_rdev = rdev ;
} else if ( S_ISFIFO ( mode ) )
inode - > i_fop = & def_fifo_fops ;
else if ( S_ISSOCK ( mode ) )
inode - > i_fop = & bad_sock_fops ;
else
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printk ( KERN_DEBUG " init_special_inode: bogus i_mode (%o) for "
" inode %s:%lu \n " , mode , inode - > i_sb - > s_id ,
inode - > i_ino ) ;
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}
EXPORT_SYMBOL ( init_special_inode ) ;
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/**
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* inode_init_owner - Init uid , gid , mode for new inode according to posix standards
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* @ inode : New inode
* @ dir : Directory inode
* @ mode : mode of the new inode
*/
void inode_init_owner ( struct inode * inode , const struct inode * dir ,
mode_t mode )
{
inode - > i_uid = current_fsuid ( ) ;
if ( dir & & dir - > i_mode & S_ISGID ) {
inode - > i_gid = dir - > i_gid ;
if ( S_ISDIR ( mode ) )
mode | = S_ISGID ;
} else
inode - > i_gid = current_fsgid ( ) ;
inode - > i_mode = mode ;
}
EXPORT_SYMBOL ( inode_init_owner ) ;
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/**
* inode_owner_or_capable - check current task permissions to inode
* @ inode : inode being checked
*
* Return true if current either has CAP_FOWNER to the inode , or
* owns the file .
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*/
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bool inode_owner_or_capable ( const struct inode * inode )
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{
struct user_namespace * ns = inode_userns ( inode ) ;
if ( current_user_ns ( ) = = ns & & current_fsuid ( ) = = inode - > i_uid )
return true ;
if ( ns_capable ( ns , CAP_FOWNER ) )
return true ;
return false ;
}
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EXPORT_SYMBOL ( inode_owner_or_capable ) ;