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nexedi
linux
Commits
f21bdbba
Commit
f21bdbba
authored
Nov 05, 2019
by
Theodore Ts'o
Browse files
Options
Browse Files
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Plain Diff
Merge branch 'iomap-for-next' into mb/dio
parents
0d0a60c9
a9010042
Changes
26
Show whitespace changes
Inline
Side-by-side
Showing
26 changed files
with
1086 additions
and
915 deletions
+1086
-915
fs/dax.c
fs/dax.c
+8
-5
fs/ext2/inode.c
fs/ext2/inode.c
+1
-1
fs/ext4/inode.c
fs/ext4/inode.c
+1
-1
fs/gfs2/bmap.c
fs/gfs2/bmap.c
+2
-1
fs/gfs2/file.c
fs/gfs2/file.c
+4
-2
fs/iomap/Makefile
fs/iomap/Makefile
+9
-7
fs/iomap/apply.c
fs/iomap/apply.c
+19
-6
fs/iomap/buffered-io.c
fs/iomap/buffered-io.c
+662
-87
fs/iomap/direct-io.c
fs/iomap/direct-io.c
+7
-4
fs/iomap/fiemap.c
fs/iomap/fiemap.c
+2
-2
fs/iomap/seek.c
fs/iomap/seek.c
+2
-2
fs/iomap/swapfile.c
fs/iomap/swapfile.c
+2
-1
fs/iomap/trace.c
fs/iomap/trace.c
+12
-0
fs/iomap/trace.h
fs/iomap/trace.h
+88
-0
fs/xfs/libxfs/xfs_bmap.c
fs/xfs/libxfs/xfs_bmap.c
+10
-4
fs/xfs/libxfs/xfs_bmap.h
fs/xfs/libxfs/xfs_bmap.h
+1
-2
fs/xfs/xfs_aops.c
fs/xfs/xfs_aops.c
+117
-637
fs/xfs/xfs_aops.h
fs/xfs/xfs_aops.h
+0
-17
fs/xfs/xfs_file.c
fs/xfs/xfs_file.c
+5
-8
fs/xfs/xfs_iomap.c
fs/xfs/xfs_iomap.c
+35
-16
fs/xfs/xfs_iomap.h
fs/xfs/xfs_iomap.h
+1
-1
fs/xfs/xfs_pnfs.c
fs/xfs/xfs_pnfs.c
+1
-1
fs/xfs/xfs_reflink.c
fs/xfs/xfs_reflink.c
+1
-1
fs/xfs/xfs_super.c
fs/xfs/xfs_super.c
+1
-10
fs/xfs/xfs_trace.h
fs/xfs/xfs_trace.h
+0
-65
include/linux/iomap.h
include/linux/iomap.h
+95
-34
No files found.
fs/dax.c
View file @
f21bdbba
...
...
@@ -1090,7 +1090,7 @@ EXPORT_SYMBOL_GPL(__dax_zero_page_range);
static
loff_t
dax_iomap_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
block_device
*
bdev
=
iomap
->
bdev
;
struct
dax_device
*
dax_dev
=
iomap
->
dax_dev
;
...
...
@@ -1247,7 +1247,8 @@ static vm_fault_t dax_iomap_pte_fault(struct vm_fault *vmf, pfn_t *pfnp,
struct
inode
*
inode
=
mapping
->
host
;
unsigned
long
vaddr
=
vmf
->
address
;
loff_t
pos
=
(
loff_t
)
vmf
->
pgoff
<<
PAGE_SHIFT
;
struct
iomap
iomap
=
{
0
};
struct
iomap
iomap
=
{
.
type
=
IOMAP_HOLE
};
struct
iomap
srcmap
=
{
.
type
=
IOMAP_HOLE
};
unsigned
flags
=
IOMAP_FAULT
;
int
error
,
major
=
0
;
bool
write
=
vmf
->
flags
&
FAULT_FLAG_WRITE
;
...
...
@@ -1292,7 +1293,7 @@ static vm_fault_t dax_iomap_pte_fault(struct vm_fault *vmf, pfn_t *pfnp,
* the file system block size to be equal the page size, which means
* that we never have to deal with more than a single extent here.
*/
error
=
ops
->
iomap_begin
(
inode
,
pos
,
PAGE_SIZE
,
flags
,
&
iomap
);
error
=
ops
->
iomap_begin
(
inode
,
pos
,
PAGE_SIZE
,
flags
,
&
iomap
,
&
srcmap
);
if
(
iomap_errp
)
*
iomap_errp
=
error
;
if
(
error
)
{
...
...
@@ -1471,7 +1472,8 @@ static vm_fault_t dax_iomap_pmd_fault(struct vm_fault *vmf, pfn_t *pfnp,
unsigned
int
iomap_flags
=
(
write
?
IOMAP_WRITE
:
0
)
|
IOMAP_FAULT
;
struct
inode
*
inode
=
mapping
->
host
;
vm_fault_t
result
=
VM_FAULT_FALLBACK
;
struct
iomap
iomap
=
{
0
};
struct
iomap
iomap
=
{
.
type
=
IOMAP_HOLE
};
struct
iomap
srcmap
=
{
.
type
=
IOMAP_HOLE
};
pgoff_t
max_pgoff
;
void
*
entry
;
loff_t
pos
;
...
...
@@ -1546,7 +1548,8 @@ static vm_fault_t dax_iomap_pmd_fault(struct vm_fault *vmf, pfn_t *pfnp,
* to look up our filesystem block.
*/
pos
=
(
loff_t
)
xas
.
xa_index
<<
PAGE_SHIFT
;
error
=
ops
->
iomap_begin
(
inode
,
pos
,
PMD_SIZE
,
iomap_flags
,
&
iomap
);
error
=
ops
->
iomap_begin
(
inode
,
pos
,
PMD_SIZE
,
iomap_flags
,
&
iomap
,
&
srcmap
);
if
(
error
)
goto
unlock_entry
;
...
...
fs/ext2/inode.c
View file @
f21bdbba
...
...
@@ -801,7 +801,7 @@ int ext2_get_block(struct inode *inode, sector_t iblock,
#ifdef CONFIG_FS_DAX
static
int
ext2_iomap_begin
(
struct
inode
*
inode
,
loff_t
offset
,
loff_t
length
,
unsigned
flags
,
struct
iomap
*
iomap
)
unsigned
flags
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
unsigned
int
blkbits
=
inode
->
i_blkbits
;
unsigned
long
first_block
=
offset
>>
blkbits
;
...
...
fs/ext4/inode.c
View file @
f21bdbba
...
...
@@ -3449,7 +3449,7 @@ static bool ext4_inode_datasync_dirty(struct inode *inode)
}
static
int
ext4_iomap_begin
(
struct
inode
*
inode
,
loff_t
offset
,
loff_t
length
,
unsigned
flags
,
struct
iomap
*
io
map
)
unsigned
flags
,
struct
iomap
*
iomap
,
struct
iomap
*
src
map
)
{
struct
ext4_sb_info
*
sbi
=
EXT4_SB
(
inode
->
i_sb
);
unsigned
int
blkbits
=
inode
->
i_blkbits
;
...
...
fs/gfs2/bmap.c
View file @
f21bdbba
...
...
@@ -1149,7 +1149,8 @@ static inline bool gfs2_iomap_need_write_lock(unsigned flags)
}
static
int
gfs2_iomap_begin
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
unsigned
flags
,
struct
iomap
*
iomap
)
unsigned
flags
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
gfs2_inode
*
ip
=
GFS2_I
(
inode
);
struct
metapath
mp
=
{
.
mp_aheight
=
1
,
};
...
...
fs/gfs2/file.c
View file @
f21bdbba
...
...
@@ -732,7 +732,8 @@ static ssize_t gfs2_file_direct_read(struct kiocb *iocb, struct iov_iter *to)
if
(
ret
)
goto
out_uninit
;
ret
=
iomap_dio_rw
(
iocb
,
to
,
&
gfs2_iomap_ops
,
NULL
);
ret
=
iomap_dio_rw
(
iocb
,
to
,
&
gfs2_iomap_ops
,
NULL
,
is_sync_kiocb
(
iocb
));
gfs2_glock_dq
(
&
gh
);
out_uninit:
...
...
@@ -767,7 +768,8 @@ static ssize_t gfs2_file_direct_write(struct kiocb *iocb, struct iov_iter *from)
if
(
offset
+
len
>
i_size_read
(
&
ip
->
i_inode
))
goto
out
;
ret
=
iomap_dio_rw
(
iocb
,
from
,
&
gfs2_iomap_ops
,
NULL
);
ret
=
iomap_dio_rw
(
iocb
,
from
,
&
gfs2_iomap_ops
,
NULL
,
is_sync_kiocb
(
iocb
));
out:
gfs2_glock_dq
(
&
gh
);
...
...
fs/iomap/Makefile
View file @
f21bdbba
...
...
@@ -3,13 +3,15 @@
# Copyright (c) 2019 Oracle.
# All Rights Reserved.
#
ccflags-y
+=
-I
$(srctree)
/
$(src)
# needed for trace events
obj-$(CONFIG_FS_IOMAP)
+=
iomap.o
iomap-y
+=
\
iomap-y
+=
trace.o
\
apply.o
\
buffered-io.o
\
direct-io.o
\
fiemap.o
\
seek.o
iomap-$(CONFIG_SWAP)
+=
swapfile.o
fs/iomap/apply.c
View file @
f21bdbba
...
...
@@ -23,8 +23,10 @@ loff_t
iomap_apply
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
unsigned
flags
,
const
struct
iomap_ops
*
ops
,
void
*
data
,
iomap_actor_t
actor
)
{
struct
iomap
iomap
=
{
0
};
struct
iomap
iomap
=
{
.
type
=
IOMAP_HOLE
};
struct
iomap
srcmap
=
{
.
type
=
IOMAP_HOLE
};
loff_t
written
=
0
,
ret
;
u64
end
;
/*
* Need to map a range from start position for length bytes. This can
...
...
@@ -38,7 +40,7 @@ iomap_apply(struct inode *inode, loff_t pos, loff_t length, unsigned flags,
* expose transient stale data. If the reserve fails, we can safely
* back out at this point as there is nothing to undo.
*/
ret
=
ops
->
iomap_begin
(
inode
,
pos
,
length
,
flags
,
&
iomap
);
ret
=
ops
->
iomap_begin
(
inode
,
pos
,
length
,
flags
,
&
iomap
,
&
srcmap
);
if
(
ret
)
return
ret
;
if
(
WARN_ON
(
iomap
.
offset
>
pos
))
...
...
@@ -50,15 +52,26 @@ iomap_apply(struct inode *inode, loff_t pos, loff_t length, unsigned flags,
* Cut down the length to the one actually provided by the filesystem,
* as it might not be able to give us the whole size that we requested.
*/
if
(
iomap
.
offset
+
iomap
.
length
<
pos
+
length
)
length
=
iomap
.
offset
+
iomap
.
length
-
pos
;
end
=
iomap
.
offset
+
iomap
.
length
;
if
(
srcmap
.
type
!=
IOMAP_HOLE
)
end
=
min
(
end
,
srcmap
.
offset
+
srcmap
.
length
);
if
(
pos
+
length
>
end
)
length
=
end
-
pos
;
/*
* Now that we have guaranteed that the space allocation will succeed
.
* Now that we have guaranteed that the space allocation will succeed
,
* we can do the copy-in page by page without having to worry about
* failures exposing transient data.
*
* To support COW operations, we read in data for partially blocks from
* the srcmap if the file system filled it in. In that case we the
* length needs to be limited to the earlier of the ends of the iomaps.
* If the file system did not provide a srcmap we pass in the normal
* iomap into the actors so that they don't need to have special
* handling for the two cases.
*/
written
=
actor
(
inode
,
pos
,
length
,
data
,
&
iomap
);
written
=
actor
(
inode
,
pos
,
length
,
data
,
&
iomap
,
srcmap
.
type
!=
IOMAP_HOLE
?
&
srcmap
:
&
iomap
);
/*
* Now the data has been copied, commit the range we've copied. This
...
...
fs/iomap/buffered-io.c
View file @
f21bdbba
// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (C) 2010 Red Hat, Inc.
* Copyright (
c) 2016-2018
Christoph Hellwig.
* Copyright (
C) 2016-2019
Christoph Hellwig.
*/
#include <linux/module.h>
#include <linux/compiler.h>
...
...
@@ -12,13 +12,34 @@
#include <linux/buffer_head.h>
#include <linux/dax.h>
#include <linux/writeback.h>
#include <linux/list_sort.h>
#include <linux/swap.h>
#include <linux/bio.h>
#include <linux/sched/signal.h>
#include <linux/migrate.h>
#include "trace.h"
#include "../internal.h"
/*
* Structure allocated for each page when block size < PAGE_SIZE to track
* sub-page uptodate status and I/O completions.
*/
struct
iomap_page
{
atomic_t
read_count
;
atomic_t
write_count
;
DECLARE_BITMAP
(
uptodate
,
PAGE_SIZE
/
512
);
};
static
inline
struct
iomap_page
*
to_iomap_page
(
struct
page
*
page
)
{
if
(
page_has_private
(
page
))
return
(
struct
iomap_page
*
)
page_private
(
page
);
return
NULL
;
}
static
struct
bio_set
iomap_ioend_bioset
;
static
struct
iomap_page
*
iomap_page_create
(
struct
inode
*
inode
,
struct
page
*
page
)
{
...
...
@@ -203,9 +224,17 @@ iomap_read_inline_data(struct inode *inode, struct page *page,
SetPageUptodate
(
page
);
}
static
inline
bool
iomap_block_needs_zeroing
(
struct
inode
*
inode
,
struct
iomap
*
iomap
,
loff_t
pos
)
{
return
iomap
->
type
!=
IOMAP_MAPPED
||
(
iomap
->
flags
&
IOMAP_F_NEW
)
||
pos
>=
i_size_read
(
inode
);
}
static
loff_t
iomap_readpage_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
iomap_readpage_ctx
*
ctx
=
data
;
struct
page
*
page
=
ctx
->
cur_page
;
...
...
@@ -226,7 +255,7 @@ iomap_readpage_actor(struct inode *inode, loff_t pos, loff_t length, void *data,
if
(
plen
==
0
)
goto
done
;
if
(
iomap
->
type
!=
IOMAP_MAPPED
||
pos
>=
i_size_read
(
inode
))
{
if
(
iomap
_block_needs_zeroing
(
inode
,
iomap
,
pos
))
{
zero_user
(
page
,
poff
,
plen
);
iomap_set_range_uptodate
(
page
,
poff
,
plen
);
goto
done
;
...
...
@@ -293,6 +322,8 @@ iomap_readpage(struct page *page, const struct iomap_ops *ops)
unsigned
poff
;
loff_t
ret
;
trace_iomap_readpage
(
page
->
mapping
->
host
,
1
);
for
(
poff
=
0
;
poff
<
PAGE_SIZE
;
poff
+=
ret
)
{
ret
=
iomap_apply
(
inode
,
page_offset
(
page
)
+
poff
,
PAGE_SIZE
-
poff
,
0
,
ops
,
&
ctx
,
...
...
@@ -351,7 +382,7 @@ iomap_next_page(struct inode *inode, struct list_head *pages, loff_t pos,
static
loff_t
iomap_readpages_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
iomap_readpage_ctx
*
ctx
=
data
;
loff_t
done
,
ret
;
...
...
@@ -371,7 +402,7 @@ iomap_readpages_actor(struct inode *inode, loff_t pos, loff_t length,
ctx
->
cur_page_in_bio
=
false
;
}
ret
=
iomap_readpage_actor
(
inode
,
pos
+
done
,
length
-
done
,
ctx
,
iomap
);
ctx
,
iomap
,
srcmap
);
}
return
done
;
...
...
@@ -389,6 +420,8 @@ iomap_readpages(struct address_space *mapping, struct list_head *pages,
loff_t
last
=
page_offset
(
list_entry
(
pages
->
next
,
struct
page
,
lru
));
loff_t
length
=
last
-
pos
+
PAGE_SIZE
,
ret
=
0
;
trace_iomap_readpages
(
mapping
->
host
,
nr_pages
);
while
(
length
>
0
)
{
ret
=
iomap_apply
(
mapping
->
host
,
pos
,
length
,
0
,
ops
,
&
ctx
,
iomap_readpages_actor
);
...
...
@@ -455,6 +488,8 @@ EXPORT_SYMBOL_GPL(iomap_is_partially_uptodate);
int
iomap_releasepage
(
struct
page
*
page
,
gfp_t
gfp_mask
)
{
trace_iomap_releasepage
(
page
->
mapping
->
host
,
page
,
0
,
0
);
/*
* mm accommodates an old ext3 case where clean pages might not have had
* the dirty bit cleared. Thus, it can send actual dirty pages to
...
...
@@ -470,6 +505,8 @@ EXPORT_SYMBOL_GPL(iomap_releasepage);
void
iomap_invalidatepage
(
struct
page
*
page
,
unsigned
int
offset
,
unsigned
int
len
)
{
trace_iomap_invalidatepage
(
page
->
mapping
->
host
,
page
,
offset
,
len
);
/*
* If we are invalidating the entire page, clear the dirty state from it
* and release it to avoid unnecessary buildup of the LRU.
...
...
@@ -511,6 +548,10 @@ iomap_migrate_page(struct address_space *mapping, struct page *newpage,
EXPORT_SYMBOL_GPL
(
iomap_migrate_page
);
#endif
/* CONFIG_MIGRATION */
enum
{
IOMAP_WRITE_F_UNSHARE
=
(
1
<<
0
),
};
static
void
iomap_write_failed
(
struct
inode
*
inode
,
loff_t
pos
,
unsigned
len
)
{
...
...
@@ -525,19 +566,12 @@ iomap_write_failed(struct inode *inode, loff_t pos, unsigned len)
}
static
int
iomap_read_page_sync
(
struct
inode
*
inode
,
loff_t
block_start
,
struct
page
*
page
,
unsigned
poff
,
unsigned
plen
,
unsigned
from
,
unsigned
to
,
struct
iomap
*
iomap
)
iomap_read_page_sync
(
loff_t
block_start
,
struct
page
*
page
,
unsigned
poff
,
unsigned
plen
,
struct
iomap
*
iomap
)
{
struct
bio_vec
bvec
;
struct
bio
bio
;
if
(
iomap
->
type
!=
IOMAP_MAPPED
||
block_start
>=
i_size_read
(
inode
))
{
zero_user_segments
(
page
,
poff
,
from
,
to
,
poff
+
plen
);
iomap_set_range_uptodate
(
page
,
poff
,
plen
);
return
0
;
}
bio_init
(
&
bio
,
&
bvec
,
1
);
bio
.
bi_opf
=
REQ_OP_READ
;
bio
.
bi_iter
.
bi_sector
=
iomap_sector
(
iomap
,
block_start
);
...
...
@@ -547,15 +581,15 @@ iomap_read_page_sync(struct inode *inode, loff_t block_start, struct page *page,
}
static
int
__iomap_write_begin
(
struct
inode
*
inode
,
loff_t
pos
,
unsigned
len
,
struct
page
*
page
,
struct
iomap
*
io
map
)
__iomap_write_begin
(
struct
inode
*
inode
,
loff_t
pos
,
unsigned
len
,
int
flags
,
struct
page
*
page
,
struct
iomap
*
src
map
)
{
struct
iomap_page
*
iop
=
iomap_page_create
(
inode
,
page
);
loff_t
block_size
=
i_blocksize
(
inode
);
loff_t
block_start
=
pos
&
~
(
block_size
-
1
);
loff_t
block_end
=
(
pos
+
len
+
block_size
-
1
)
&
~
(
block_size
-
1
);
unsigned
from
=
offset_in_page
(
pos
),
to
=
from
+
len
,
poff
,
plen
;
int
status
=
0
;
int
status
;
if
(
PageUptodate
(
page
))
return
0
;
...
...
@@ -566,29 +600,39 @@ __iomap_write_begin(struct inode *inode, loff_t pos, unsigned len,
if
(
plen
==
0
)
break
;
if
((
from
>
poff
&&
from
<
poff
+
plen
)
||
(
to
>
poff
&&
to
<
poff
+
plen
))
{
status
=
iomap_read_page_sync
(
inode
,
block_start
,
page
,
poff
,
plen
,
from
,
to
,
iomap
);
if
(
status
)
break
;
if
(
!
(
flags
&
IOMAP_WRITE_F_UNSHARE
)
&&
(
from
<=
poff
||
from
>=
poff
+
plen
)
&&
(
to
<=
poff
||
to
>=
poff
+
plen
))
continue
;
if
(
iomap_block_needs_zeroing
(
inode
,
srcmap
,
block_start
))
{
if
(
WARN_ON_ONCE
(
flags
&
IOMAP_WRITE_F_UNSHARE
))
return
-
EIO
;
zero_user_segments
(
page
,
poff
,
from
,
to
,
poff
+
plen
);
iomap_set_range_uptodate
(
page
,
poff
,
plen
);
continue
;
}
status
=
iomap_read_page_sync
(
block_start
,
page
,
poff
,
plen
,
srcmap
);
if
(
status
)
return
status
;
}
while
((
block_start
+=
plen
)
<
block_end
);
return
status
;
return
0
;
}
static
int
iomap_write_begin
(
struct
inode
*
inode
,
loff_t
pos
,
unsigned
len
,
unsigned
flags
,
struct
page
**
pagep
,
struct
iomap
*
iomap
)
struct
page
**
pagep
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
const
struct
iomap_page_ops
*
page_ops
=
iomap
->
page_ops
;
pgoff_t
index
=
pos
>>
PAGE_SHIFT
;
struct
page
*
page
;
int
status
=
0
;
BUG_ON
(
pos
+
len
>
iomap
->
offset
+
iomap
->
length
);
if
(
srcmap
!=
iomap
)
BUG_ON
(
pos
+
len
>
srcmap
->
offset
+
srcmap
->
length
);
if
(
fatal_signal_pending
(
current
))
return
-
EINTR
;
...
...
@@ -599,18 +643,20 @@ iomap_write_begin(struct inode *inode, loff_t pos, unsigned len, unsigned flags,
return
status
;
}
page
=
grab_cache_page_write_begin
(
inode
->
i_mapping
,
index
,
flags
);
page
=
grab_cache_page_write_begin
(
inode
->
i_mapping
,
pos
>>
PAGE_SHIFT
,
AOP_FLAG_NOFS
);
if
(
!
page
)
{
status
=
-
ENOMEM
;
goto
out_no_page
;
}
if
(
io
map
->
type
==
IOMAP_INLINE
)
iomap_read_inline_data
(
inode
,
page
,
io
map
);
if
(
src
map
->
type
==
IOMAP_INLINE
)
iomap_read_inline_data
(
inode
,
page
,
src
map
);
else
if
(
iomap
->
flags
&
IOMAP_F_BUFFER_HEAD
)
status
=
__block_write_begin_int
(
page
,
pos
,
len
,
NULL
,
io
map
);
status
=
__block_write_begin_int
(
page
,
pos
,
len
,
NULL
,
src
map
);
else
status
=
__iomap_write_begin
(
inode
,
pos
,
len
,
page
,
iomap
);
status
=
__iomap_write_begin
(
inode
,
pos
,
len
,
flags
,
page
,
srcmap
);
if
(
unlikely
(
status
))
goto
out_unlock
;
...
...
@@ -656,7 +702,7 @@ EXPORT_SYMBOL_GPL(iomap_set_page_dirty);
static
int
__iomap_write_end
(
struct
inode
*
inode
,
loff_t
pos
,
unsigned
len
,
unsigned
copied
,
struct
page
*
page
,
struct
iomap
*
iomap
)
unsigned
copied
,
struct
page
*
page
)
{
flush_dcache_page
(
page
);
...
...
@@ -696,20 +742,20 @@ iomap_write_end_inline(struct inode *inode, struct page *page,
}
static
int
iomap_write_end
(
struct
inode
*
inode
,
loff_t
pos
,
unsigned
len
,
unsigned
copied
,
struct
page
*
page
,
struct
iomap
*
io
map
)
iomap_write_end
(
struct
inode
*
inode
,
loff_t
pos
,
unsigned
len
,
unsigned
copied
,
struct
page
*
page
,
struct
iomap
*
iomap
,
struct
iomap
*
src
map
)
{
const
struct
iomap_page_ops
*
page_ops
=
iomap
->
page_ops
;
loff_t
old_size
=
inode
->
i_size
;
int
ret
;
if
(
io
map
->
type
==
IOMAP_INLINE
)
{
if
(
src
map
->
type
==
IOMAP_INLINE
)
{
ret
=
iomap_write_end_inline
(
inode
,
page
,
iomap
,
pos
,
copied
);
}
else
if
(
io
map
->
flags
&
IOMAP_F_BUFFER_HEAD
)
{
}
else
if
(
src
map
->
flags
&
IOMAP_F_BUFFER_HEAD
)
{
ret
=
block_write_end
(
NULL
,
inode
->
i_mapping
,
pos
,
len
,
copied
,
page
,
NULL
);
}
else
{
ret
=
__iomap_write_end
(
inode
,
pos
,
len
,
copied
,
page
,
iomap
);
ret
=
__iomap_write_end
(
inode
,
pos
,
len
,
copied
,
page
);
}
/*
...
...
@@ -736,12 +782,11 @@ iomap_write_end(struct inode *inode, loff_t pos, unsigned len,
static
loff_t
iomap_write_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
iov_iter
*
i
=
data
;
long
status
=
0
;
ssize_t
written
=
0
;
unsigned
int
flags
=
AOP_FLAG_NOFS
;
do
{
struct
page
*
page
;
...
...
@@ -771,8 +816,8 @@ iomap_write_actor(struct inode *inode, loff_t pos, loff_t length, void *data,
break
;
}
status
=
iomap_write_begin
(
inode
,
pos
,
bytes
,
flags
,
&
page
,
io
map
);
status
=
iomap_write_begin
(
inode
,
pos
,
bytes
,
0
,
&
page
,
iomap
,
src
map
);
if
(
unlikely
(
status
))
break
;
...
...
@@ -783,8 +828,8 @@ iomap_write_actor(struct inode *inode, loff_t pos, loff_t length, void *data,
flush_dcache_page
(
page
);
status
=
iomap_write_end
(
inode
,
pos
,
bytes
,
copied
,
page
,
io
map
);
status
=
iomap_write_end
(
inode
,
pos
,
bytes
,
copied
,
page
,
iomap
,
src
map
);
if
(
unlikely
(
status
<
0
))
break
;
copied
=
status
;
...
...
@@ -835,50 +880,32 @@ iomap_file_buffered_write(struct kiocb *iocb, struct iov_iter *iter,
}
EXPORT_SYMBOL_GPL
(
iomap_file_buffered_write
);
static
struct
page
*
__iomap_read_page
(
struct
inode
*
inode
,
loff_t
offset
)
{
struct
address_space
*
mapping
=
inode
->
i_mapping
;
struct
page
*
page
;
page
=
read_mapping_page
(
mapping
,
offset
>>
PAGE_SHIFT
,
NULL
);
if
(
IS_ERR
(
page
))
return
page
;
if
(
!
PageUptodate
(
page
))
{
put_page
(
page
);
return
ERR_PTR
(
-
EIO
);
}
return
page
;
}
static
loff_t
iomap_
dirty
_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
iomap_
unshare
_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
long
status
=
0
;
ssize_t
written
=
0
;
do
{
struct
page
*
page
,
*
rpage
;
unsigned
long
offset
;
/* Offset into pagecache page */
unsigned
long
bytes
;
/* Bytes to write to page */
offset
=
offset_in_page
(
pos
);
bytes
=
min_t
(
loff_t
,
PAGE_SIZE
-
offset
,
length
);
/* don't bother with blocks that are not shared to start with */
if
(
!
(
iomap
->
flags
&
IOMAP_F_SHARED
))
return
length
;
/* don't bother with holes or unwritten extents */
if
(
srcmap
->
type
==
IOMAP_HOLE
||
srcmap
->
type
==
IOMAP_UNWRITTEN
)
return
length
;
rpage
=
__iomap_read_page
(
inode
,
pos
);
if
(
IS_ERR
(
rpage
))
return
PTR_ERR
(
rpage
);
do
{
unsigned
long
offset
=
offset_in_page
(
pos
);
unsigned
long
bytes
=
min_t
(
loff_t
,
PAGE_SIZE
-
offset
,
length
);
struct
page
*
page
;
status
=
iomap_write_begin
(
inode
,
pos
,
bytes
,
AOP_FLAG_NOFS
,
&
page
,
iomap
);
put_page
(
rpage
);
IOMAP_WRITE_F_UNSHARE
,
&
page
,
iomap
,
srcmap
);
if
(
unlikely
(
status
))
return
status
;
WARN_ON_ONCE
(
!
PageUptodate
(
page
));
status
=
iomap_write_end
(
inode
,
pos
,
bytes
,
bytes
,
page
,
iomap
);
status
=
iomap_write_end
(
inode
,
pos
,
bytes
,
bytes
,
page
,
iomap
,
srcmap
);
if
(
unlikely
(
status
<=
0
))
{
if
(
WARN_ON_ONCE
(
status
==
0
))
return
-
EIO
;
...
...
@@ -898,14 +925,14 @@ iomap_dirty_actor(struct inode *inode, loff_t pos, loff_t length, void *data,
}
int
iomap_file_
dirty
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
len
,
iomap_file_
unshare
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
len
,
const
struct
iomap_ops
*
ops
)
{
loff_t
ret
;
while
(
len
)
{
ret
=
iomap_apply
(
inode
,
pos
,
len
,
IOMAP_WRITE
,
ops
,
NULL
,
iomap_
dirty
_actor
);
iomap_
unshare
_actor
);
if
(
ret
<=
0
)
return
ret
;
pos
+=
ret
;
...
...
@@ -914,23 +941,22 @@ iomap_file_dirty(struct inode *inode, loff_t pos, loff_t len,
return
0
;
}
EXPORT_SYMBOL_GPL
(
iomap_file_
dirty
);
EXPORT_SYMBOL_GPL
(
iomap_file_
unshare
);
static
int
iomap_zero
(
struct
inode
*
inode
,
loff_t
pos
,
unsigned
offset
,
unsigned
bytes
,
struct
iomap
*
iomap
)
unsigned
bytes
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
page
*
page
;
int
status
;
status
=
iomap_write_begin
(
inode
,
pos
,
bytes
,
AOP_FLAG_NOFS
,
&
page
,
iomap
);
status
=
iomap_write_begin
(
inode
,
pos
,
bytes
,
0
,
&
page
,
iomap
,
srcmap
);
if
(
status
)
return
status
;
zero_user
(
page
,
offset
,
bytes
);
mark_page_accessed
(
page
);
return
iomap_write_end
(
inode
,
pos
,
bytes
,
bytes
,
page
,
iomap
);
return
iomap_write_end
(
inode
,
pos
,
bytes
,
bytes
,
page
,
iomap
,
srcmap
);
}
static
int
iomap_dax_zero
(
loff_t
pos
,
unsigned
offset
,
unsigned
bytes
,
...
...
@@ -942,14 +968,14 @@ static int iomap_dax_zero(loff_t pos, unsigned offset, unsigned bytes,
static
loff_t
iomap_zero_range_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
count
,
void
*
data
,
struct
iomap
*
iomap
)
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
bool
*
did_zero
=
data
;
loff_t
written
=
0
;
int
status
;
/* already zeroed? we're done. */
if
(
iomap
->
type
==
IOMAP_HOLE
||
io
map
->
type
==
IOMAP_UNWRITTEN
)
if
(
srcmap
->
type
==
IOMAP_HOLE
||
src
map
->
type
==
IOMAP_UNWRITTEN
)
return
count
;
do
{
...
...
@@ -961,7 +987,8 @@ iomap_zero_range_actor(struct inode *inode, loff_t pos, loff_t count,
if
(
IS_DAX
(
inode
))
status
=
iomap_dax_zero
(
pos
,
offset
,
bytes
,
iomap
);
else
status
=
iomap_zero
(
inode
,
pos
,
offset
,
bytes
,
iomap
);
status
=
iomap_zero
(
inode
,
pos
,
offset
,
bytes
,
iomap
,
srcmap
);
if
(
status
<
0
)
return
status
;
...
...
@@ -1011,7 +1038,7 @@ EXPORT_SYMBOL_GPL(iomap_truncate_page);
static
loff_t
iomap_page_mkwrite_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
page
*
page
=
data
;
int
ret
;
...
...
@@ -1071,3 +1098,551 @@ vm_fault_t iomap_page_mkwrite(struct vm_fault *vmf, const struct iomap_ops *ops)
return
block_page_mkwrite_return
(
ret
);
}
EXPORT_SYMBOL_GPL
(
iomap_page_mkwrite
);
static
void
iomap_finish_page_writeback
(
struct
inode
*
inode
,
struct
page
*
page
,
int
error
)
{
struct
iomap_page
*
iop
=
to_iomap_page
(
page
);
if
(
error
)
{
SetPageError
(
page
);
mapping_set_error
(
inode
->
i_mapping
,
-
EIO
);
}
WARN_ON_ONCE
(
i_blocksize
(
inode
)
<
PAGE_SIZE
&&
!
iop
);
WARN_ON_ONCE
(
iop
&&
atomic_read
(
&
iop
->
write_count
)
<=
0
);
if
(
!
iop
||
atomic_dec_and_test
(
&
iop
->
write_count
))
end_page_writeback
(
page
);
}
/*
* We're now finished for good with this ioend structure. Update the page
* state, release holds on bios, and finally free up memory. Do not use the
* ioend after this.
*/
static
void
iomap_finish_ioend
(
struct
iomap_ioend
*
ioend
,
int
error
)
{
struct
inode
*
inode
=
ioend
->
io_inode
;
struct
bio
*
bio
=
&
ioend
->
io_inline_bio
;
struct
bio
*
last
=
ioend
->
io_bio
,
*
next
;
u64
start
=
bio
->
bi_iter
.
bi_sector
;
bool
quiet
=
bio_flagged
(
bio
,
BIO_QUIET
);
for
(
bio
=
&
ioend
->
io_inline_bio
;
bio
;
bio
=
next
)
{
struct
bio_vec
*
bv
;
struct
bvec_iter_all
iter_all
;
/*
* For the last bio, bi_private points to the ioend, so we
* need to explicitly end the iteration here.
*/
if
(
bio
==
last
)
next
=
NULL
;
else
next
=
bio
->
bi_private
;
/* walk each page on bio, ending page IO on them */
bio_for_each_segment_all
(
bv
,
bio
,
iter_all
)
iomap_finish_page_writeback
(
inode
,
bv
->
bv_page
,
error
);
bio_put
(
bio
);
}
if
(
unlikely
(
error
&&
!
quiet
))
{
printk_ratelimited
(
KERN_ERR
"%s: writeback error on inode %lu, offset %lld, sector %llu"
,
inode
->
i_sb
->
s_id
,
inode
->
i_ino
,
ioend
->
io_offset
,
start
);
}
}
void
iomap_finish_ioends
(
struct
iomap_ioend
*
ioend
,
int
error
)
{
struct
list_head
tmp
;
list_replace_init
(
&
ioend
->
io_list
,
&
tmp
);
iomap_finish_ioend
(
ioend
,
error
);
while
(
!
list_empty
(
&
tmp
))
{
ioend
=
list_first_entry
(
&
tmp
,
struct
iomap_ioend
,
io_list
);
list_del_init
(
&
ioend
->
io_list
);
iomap_finish_ioend
(
ioend
,
error
);
}
}
EXPORT_SYMBOL_GPL
(
iomap_finish_ioends
);
/*
* We can merge two adjacent ioends if they have the same set of work to do.
*/
static
bool
iomap_ioend_can_merge
(
struct
iomap_ioend
*
ioend
,
struct
iomap_ioend
*
next
)
{
if
(
ioend
->
io_bio
->
bi_status
!=
next
->
io_bio
->
bi_status
)
return
false
;
if
((
ioend
->
io_flags
&
IOMAP_F_SHARED
)
^
(
next
->
io_flags
&
IOMAP_F_SHARED
))
return
false
;
if
((
ioend
->
io_type
==
IOMAP_UNWRITTEN
)
^
(
next
->
io_type
==
IOMAP_UNWRITTEN
))
return
false
;
if
(
ioend
->
io_offset
+
ioend
->
io_size
!=
next
->
io_offset
)
return
false
;
return
true
;
}
void
iomap_ioend_try_merge
(
struct
iomap_ioend
*
ioend
,
struct
list_head
*
more_ioends
,
void
(
*
merge_private
)(
struct
iomap_ioend
*
ioend
,
struct
iomap_ioend
*
next
))
{
struct
iomap_ioend
*
next
;
INIT_LIST_HEAD
(
&
ioend
->
io_list
);
while
((
next
=
list_first_entry_or_null
(
more_ioends
,
struct
iomap_ioend
,
io_list
)))
{
if
(
!
iomap_ioend_can_merge
(
ioend
,
next
))
break
;
list_move_tail
(
&
next
->
io_list
,
&
ioend
->
io_list
);
ioend
->
io_size
+=
next
->
io_size
;
if
(
next
->
io_private
&&
merge_private
)
merge_private
(
ioend
,
next
);
}
}
EXPORT_SYMBOL_GPL
(
iomap_ioend_try_merge
);
static
int
iomap_ioend_compare
(
void
*
priv
,
struct
list_head
*
a
,
struct
list_head
*
b
)
{
struct
iomap_ioend
*
ia
=
container_of
(
a
,
struct
iomap_ioend
,
io_list
);
struct
iomap_ioend
*
ib
=
container_of
(
b
,
struct
iomap_ioend
,
io_list
);
if
(
ia
->
io_offset
<
ib
->
io_offset
)
return
-
1
;
if
(
ia
->
io_offset
>
ib
->
io_offset
)
return
1
;
return
0
;
}
void
iomap_sort_ioends
(
struct
list_head
*
ioend_list
)
{
list_sort
(
NULL
,
ioend_list
,
iomap_ioend_compare
);
}
EXPORT_SYMBOL_GPL
(
iomap_sort_ioends
);
static
void
iomap_writepage_end_bio
(
struct
bio
*
bio
)
{
struct
iomap_ioend
*
ioend
=
bio
->
bi_private
;
iomap_finish_ioend
(
ioend
,
blk_status_to_errno
(
bio
->
bi_status
));
}
/*
* Submit the final bio for an ioend.
*
* If @error is non-zero, it means that we have a situation where some part of
* the submission process has failed after we have marked paged for writeback
* and unlocked them. In this situation, we need to fail the bio instead of
* submitting it. This typically only happens on a filesystem shutdown.
*/
static
int
iomap_submit_ioend
(
struct
iomap_writepage_ctx
*
wpc
,
struct
iomap_ioend
*
ioend
,
int
error
)
{
ioend
->
io_bio
->
bi_private
=
ioend
;
ioend
->
io_bio
->
bi_end_io
=
iomap_writepage_end_bio
;
if
(
wpc
->
ops
->
prepare_ioend
)
error
=
wpc
->
ops
->
prepare_ioend
(
ioend
,
error
);
if
(
error
)
{
/*
* If we are failing the IO now, just mark the ioend with an
* error and finish it. This will run IO completion immediately
* as there is only one reference to the ioend at this point in
* time.
*/
ioend
->
io_bio
->
bi_status
=
errno_to_blk_status
(
error
);
bio_endio
(
ioend
->
io_bio
);
return
error
;
}
submit_bio
(
ioend
->
io_bio
);
return
0
;
}
static
struct
iomap_ioend
*
iomap_alloc_ioend
(
struct
inode
*
inode
,
struct
iomap_writepage_ctx
*
wpc
,
loff_t
offset
,
sector_t
sector
,
struct
writeback_control
*
wbc
)
{
struct
iomap_ioend
*
ioend
;
struct
bio
*
bio
;
bio
=
bio_alloc_bioset
(
GFP_NOFS
,
BIO_MAX_PAGES
,
&
iomap_ioend_bioset
);
bio_set_dev
(
bio
,
wpc
->
iomap
.
bdev
);
bio
->
bi_iter
.
bi_sector
=
sector
;
bio
->
bi_opf
=
REQ_OP_WRITE
|
wbc_to_write_flags
(
wbc
);
bio
->
bi_write_hint
=
inode
->
i_write_hint
;
wbc_init_bio
(
wbc
,
bio
);
ioend
=
container_of
(
bio
,
struct
iomap_ioend
,
io_inline_bio
);
INIT_LIST_HEAD
(
&
ioend
->
io_list
);
ioend
->
io_type
=
wpc
->
iomap
.
type
;
ioend
->
io_flags
=
wpc
->
iomap
.
flags
;
ioend
->
io_inode
=
inode
;
ioend
->
io_size
=
0
;
ioend
->
io_offset
=
offset
;
ioend
->
io_private
=
NULL
;
ioend
->
io_bio
=
bio
;
return
ioend
;
}
/*
* Allocate a new bio, and chain the old bio to the new one.
*
* Note that we have to do perform the chaining in this unintuitive order
* so that the bi_private linkage is set up in the right direction for the
* traversal in iomap_finish_ioend().
*/
static
struct
bio
*
iomap_chain_bio
(
struct
bio
*
prev
)
{
struct
bio
*
new
;
new
=
bio_alloc
(
GFP_NOFS
,
BIO_MAX_PAGES
);
bio_copy_dev
(
new
,
prev
);
/* also copies over blkcg information */
new
->
bi_iter
.
bi_sector
=
bio_end_sector
(
prev
);
new
->
bi_opf
=
prev
->
bi_opf
;
new
->
bi_write_hint
=
prev
->
bi_write_hint
;
bio_chain
(
prev
,
new
);
bio_get
(
prev
);
/* for iomap_finish_ioend */
submit_bio
(
prev
);
return
new
;
}
static
bool
iomap_can_add_to_ioend
(
struct
iomap_writepage_ctx
*
wpc
,
loff_t
offset
,
sector_t
sector
)
{
if
((
wpc
->
iomap
.
flags
&
IOMAP_F_SHARED
)
!=
(
wpc
->
ioend
->
io_flags
&
IOMAP_F_SHARED
))
return
false
;
if
(
wpc
->
iomap
.
type
!=
wpc
->
ioend
->
io_type
)
return
false
;
if
(
offset
!=
wpc
->
ioend
->
io_offset
+
wpc
->
ioend
->
io_size
)
return
false
;
if
(
sector
!=
bio_end_sector
(
wpc
->
ioend
->
io_bio
))
return
false
;
return
true
;
}
/*
* Test to see if we have an existing ioend structure that we could append to
* first, otherwise finish off the current ioend and start another.
*/
static
void
iomap_add_to_ioend
(
struct
inode
*
inode
,
loff_t
offset
,
struct
page
*
page
,
struct
iomap_page
*
iop
,
struct
iomap_writepage_ctx
*
wpc
,
struct
writeback_control
*
wbc
,
struct
list_head
*
iolist
)
{
sector_t
sector
=
iomap_sector
(
&
wpc
->
iomap
,
offset
);
unsigned
len
=
i_blocksize
(
inode
);
unsigned
poff
=
offset
&
(
PAGE_SIZE
-
1
);
bool
merged
,
same_page
=
false
;
if
(
!
wpc
->
ioend
||
!
iomap_can_add_to_ioend
(
wpc
,
offset
,
sector
))
{
if
(
wpc
->
ioend
)
list_add
(
&
wpc
->
ioend
->
io_list
,
iolist
);
wpc
->
ioend
=
iomap_alloc_ioend
(
inode
,
wpc
,
offset
,
sector
,
wbc
);
}
merged
=
__bio_try_merge_page
(
wpc
->
ioend
->
io_bio
,
page
,
len
,
poff
,
&
same_page
);
if
(
iop
&&
!
same_page
)
atomic_inc
(
&
iop
->
write_count
);
if
(
!
merged
)
{
if
(
bio_full
(
wpc
->
ioend
->
io_bio
,
len
))
{
wpc
->
ioend
->
io_bio
=
iomap_chain_bio
(
wpc
->
ioend
->
io_bio
);
}
bio_add_page
(
wpc
->
ioend
->
io_bio
,
page
,
len
,
poff
);
}
wpc
->
ioend
->
io_size
+=
len
;
wbc_account_cgroup_owner
(
wbc
,
page
,
len
);
}
/*
* We implement an immediate ioend submission policy here to avoid needing to
* chain multiple ioends and hence nest mempool allocations which can violate
* forward progress guarantees we need to provide. The current ioend we are
* adding blocks to is cached on the writepage context, and if the new block
* does not append to the cached ioend it will create a new ioend and cache that
* instead.
*
* If a new ioend is created and cached, the old ioend is returned and queued
* locally for submission once the entire page is processed or an error has been
* detected. While ioends are submitted immediately after they are completed,
* batching optimisations are provided by higher level block plugging.
*
* At the end of a writeback pass, there will be a cached ioend remaining on the
* writepage context that the caller will need to submit.
*/
static
int
iomap_writepage_map
(
struct
iomap_writepage_ctx
*
wpc
,
struct
writeback_control
*
wbc
,
struct
inode
*
inode
,
struct
page
*
page
,
u64
end_offset
)
{
struct
iomap_page
*
iop
=
to_iomap_page
(
page
);
struct
iomap_ioend
*
ioend
,
*
next
;
unsigned
len
=
i_blocksize
(
inode
);
u64
file_offset
;
/* file offset of page */
int
error
=
0
,
count
=
0
,
i
;
LIST_HEAD
(
submit_list
);
WARN_ON_ONCE
(
i_blocksize
(
inode
)
<
PAGE_SIZE
&&
!
iop
);
WARN_ON_ONCE
(
iop
&&
atomic_read
(
&
iop
->
write_count
)
!=
0
);
/*
* Walk through the page to find areas to write back. If we run off the
* end of the current map or find the current map invalid, grab a new
* one.
*/
for
(
i
=
0
,
file_offset
=
page_offset
(
page
);
i
<
(
PAGE_SIZE
>>
inode
->
i_blkbits
)
&&
file_offset
<
end_offset
;
i
++
,
file_offset
+=
len
)
{
if
(
iop
&&
!
test_bit
(
i
,
iop
->
uptodate
))
continue
;
error
=
wpc
->
ops
->
map_blocks
(
wpc
,
inode
,
file_offset
);
if
(
error
)
break
;
if
(
WARN_ON_ONCE
(
wpc
->
iomap
.
type
==
IOMAP_INLINE
))
continue
;
if
(
wpc
->
iomap
.
type
==
IOMAP_HOLE
)
continue
;
iomap_add_to_ioend
(
inode
,
file_offset
,
page
,
iop
,
wpc
,
wbc
,
&
submit_list
);
count
++
;
}
WARN_ON_ONCE
(
!
wpc
->
ioend
&&
!
list_empty
(
&
submit_list
));
WARN_ON_ONCE
(
!
PageLocked
(
page
));
WARN_ON_ONCE
(
PageWriteback
(
page
));
/*
* We cannot cancel the ioend directly here on error. We may have
* already set other pages under writeback and hence we have to run I/O
* completion to mark the error state of the pages under writeback
* appropriately.
*/
if
(
unlikely
(
error
))
{
if
(
!
count
)
{
/*
* If the current page hasn't been added to ioend, it
* won't be affected by I/O completions and we must
* discard and unlock it right here.
*/
if
(
wpc
->
ops
->
discard_page
)
wpc
->
ops
->
discard_page
(
page
);
ClearPageUptodate
(
page
);
unlock_page
(
page
);
goto
done
;
}
/*
* If the page was not fully cleaned, we need to ensure that the
* higher layers come back to it correctly. That means we need
* to keep the page dirty, and for WB_SYNC_ALL writeback we need
* to ensure the PAGECACHE_TAG_TOWRITE index mark is not removed
* so another attempt to write this page in this writeback sweep
* will be made.
*/
set_page_writeback_keepwrite
(
page
);
}
else
{
clear_page_dirty_for_io
(
page
);
set_page_writeback
(
page
);
}
unlock_page
(
page
);
/*
* Preserve the original error if there was one, otherwise catch
* submission errors here and propagate into subsequent ioend
* submissions.
*/
list_for_each_entry_safe
(
ioend
,
next
,
&
submit_list
,
io_list
)
{
int
error2
;
list_del_init
(
&
ioend
->
io_list
);
error2
=
iomap_submit_ioend
(
wpc
,
ioend
,
error
);
if
(
error2
&&
!
error
)
error
=
error2
;
}
/*
* We can end up here with no error and nothing to write only if we race
* with a partial page truncate on a sub-page block sized filesystem.
*/
if
(
!
count
)
end_page_writeback
(
page
);
done:
mapping_set_error
(
page
->
mapping
,
error
);
return
error
;
}
/*
* Write out a dirty page.
*
* For delalloc space on the page we need to allocate space and flush it.
* For unwritten space on the page we need to start the conversion to
* regular allocated space.
*/
static
int
iomap_do_writepage
(
struct
page
*
page
,
struct
writeback_control
*
wbc
,
void
*
data
)
{
struct
iomap_writepage_ctx
*
wpc
=
data
;
struct
inode
*
inode
=
page
->
mapping
->
host
;
pgoff_t
end_index
;
u64
end_offset
;
loff_t
offset
;
trace_iomap_writepage
(
inode
,
page
,
0
,
0
);
/*
* Refuse to write the page out if we are called from reclaim context.
*
* This avoids stack overflows when called from deeply used stacks in
* random callers for direct reclaim or memcg reclaim. We explicitly
* allow reclaim from kswapd as the stack usage there is relatively low.
*
* This should never happen except in the case of a VM regression so
* warn about it.
*/
if
(
WARN_ON_ONCE
((
current
->
flags
&
(
PF_MEMALLOC
|
PF_KSWAPD
))
==
PF_MEMALLOC
))
goto
redirty
;
/*
* Given that we do not allow direct reclaim to call us, we should
* never be called in a recursive filesystem reclaim context.
*/
if
(
WARN_ON_ONCE
(
current
->
flags
&
PF_MEMALLOC_NOFS
))
goto
redirty
;
/*
* Is this page beyond the end of the file?
*
* The page index is less than the end_index, adjust the end_offset
* to the highest offset that this page should represent.
* -----------------------------------------------------
* | file mapping | <EOF> |
* -----------------------------------------------------
* | Page ... | Page N-2 | Page N-1 | Page N | |
* ^--------------------------------^----------|--------
* | desired writeback range | see else |
* ---------------------------------^------------------|
*/
offset
=
i_size_read
(
inode
);
end_index
=
offset
>>
PAGE_SHIFT
;
if
(
page
->
index
<
end_index
)
end_offset
=
(
loff_t
)(
page
->
index
+
1
)
<<
PAGE_SHIFT
;
else
{
/*
* Check whether the page to write out is beyond or straddles
* i_size or not.
* -------------------------------------------------------
* | file mapping | <EOF> |
* -------------------------------------------------------
* | Page ... | Page N-2 | Page N-1 | Page N | Beyond |
* ^--------------------------------^-----------|---------
* | | Straddles |
* ---------------------------------^-----------|--------|
*/
unsigned
offset_into_page
=
offset
&
(
PAGE_SIZE
-
1
);
/*
* Skip the page if it is fully outside i_size, e.g. due to a
* truncate operation that is in progress. We must redirty the
* page so that reclaim stops reclaiming it. Otherwise
* iomap_vm_releasepage() is called on it and gets confused.
*
* Note that the end_index is unsigned long, it would overflow
* if the given offset is greater than 16TB on 32-bit system
* and if we do check the page is fully outside i_size or not
* via "if (page->index >= end_index + 1)" as "end_index + 1"
* will be evaluated to 0. Hence this page will be redirtied
* and be written out repeatedly which would result in an
* infinite loop, the user program that perform this operation
* will hang. Instead, we can verify this situation by checking
* if the page to write is totally beyond the i_size or if it's
* offset is just equal to the EOF.
*/
if
(
page
->
index
>
end_index
||
(
page
->
index
==
end_index
&&
offset_into_page
==
0
))
goto
redirty
;
/*
* The page straddles i_size. It must be zeroed out on each
* and every writepage invocation because it may be mmapped.
* "A file is mapped in multiples of the page size. For a file
* that is not a multiple of the page size, the remaining
* memory is zeroed when mapped, and writes to that region are
* not written out to the file."
*/
zero_user_segment
(
page
,
offset_into_page
,
PAGE_SIZE
);
/* Adjust the end_offset to the end of file */
end_offset
=
offset
;
}
return
iomap_writepage_map
(
wpc
,
wbc
,
inode
,
page
,
end_offset
);
redirty:
redirty_page_for_writepage
(
wbc
,
page
);
unlock_page
(
page
);
return
0
;
}
int
iomap_writepage
(
struct
page
*
page
,
struct
writeback_control
*
wbc
,
struct
iomap_writepage_ctx
*
wpc
,
const
struct
iomap_writeback_ops
*
ops
)
{
int
ret
;
wpc
->
ops
=
ops
;
ret
=
iomap_do_writepage
(
page
,
wbc
,
wpc
);
if
(
!
wpc
->
ioend
)
return
ret
;
return
iomap_submit_ioend
(
wpc
,
wpc
->
ioend
,
ret
);
}
EXPORT_SYMBOL_GPL
(
iomap_writepage
);
int
iomap_writepages
(
struct
address_space
*
mapping
,
struct
writeback_control
*
wbc
,
struct
iomap_writepage_ctx
*
wpc
,
const
struct
iomap_writeback_ops
*
ops
)
{
int
ret
;
wpc
->
ops
=
ops
;
ret
=
write_cache_pages
(
mapping
,
wbc
,
iomap_do_writepage
,
wpc
);
if
(
!
wpc
->
ioend
)
return
ret
;
return
iomap_submit_ioend
(
wpc
,
wpc
->
ioend
,
ret
);
}
EXPORT_SYMBOL_GPL
(
iomap_writepages
);
static
int
__init
iomap_init
(
void
)
{
return
bioset_init
(
&
iomap_ioend_bioset
,
4
*
(
PAGE_SIZE
/
SECTOR_SIZE
),
offsetof
(
struct
iomap_ioend
,
io_inline_bio
),
BIOSET_NEED_BVECS
);
}
fs_initcall
(
iomap_init
);
fs/iomap/direct-io.c
View file @
f21bdbba
...
...
@@ -358,7 +358,7 @@ iomap_dio_inline_actor(struct inode *inode, loff_t pos, loff_t length,
static
loff_t
iomap_dio_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
iomap_dio
*
dio
=
data
;
...
...
@@ -392,7 +392,8 @@ iomap_dio_actor(struct inode *inode, loff_t pos, loff_t length,
*/
ssize_t
iomap_dio_rw
(
struct
kiocb
*
iocb
,
struct
iov_iter
*
iter
,
const
struct
iomap_ops
*
ops
,
const
struct
iomap_dio_ops
*
dops
)
const
struct
iomap_ops
*
ops
,
const
struct
iomap_dio_ops
*
dops
,
bool
wait_for_completion
)
{
struct
address_space
*
mapping
=
iocb
->
ki_filp
->
f_mapping
;
struct
inode
*
inode
=
file_inode
(
iocb
->
ki_filp
);
...
...
@@ -400,7 +401,6 @@ iomap_dio_rw(struct kiocb *iocb, struct iov_iter *iter,
loff_t
pos
=
iocb
->
ki_pos
,
start
=
pos
;
loff_t
end
=
iocb
->
ki_pos
+
count
-
1
,
ret
=
0
;
unsigned
int
flags
=
IOMAP_DIRECT
;
bool
wait_for_completion
=
is_sync_kiocb
(
iocb
);
struct
blk_plug
plug
;
struct
iomap_dio
*
dio
;
...
...
@@ -409,6 +409,9 @@ iomap_dio_rw(struct kiocb *iocb, struct iov_iter *iter,
if
(
!
count
)
return
0
;
if
(
WARN_ON
(
is_sync_kiocb
(
iocb
)
&&
!
wait_for_completion
))
return
-
EIO
;
dio
=
kmalloc
(
sizeof
(
*
dio
),
GFP_KERNEL
);
if
(
!
dio
)
return
-
ENOMEM
;
...
...
@@ -430,7 +433,7 @@ iomap_dio_rw(struct kiocb *iocb, struct iov_iter *iter,
if
(
pos
>=
dio
->
i_size
)
goto
out_free_dio
;
if
(
iter_is_iovec
(
iter
)
&&
iov_iter_rw
(
iter
)
==
READ
)
if
(
iter_is_iovec
(
iter
))
dio
->
flags
|=
IOMAP_DIO_DIRTY
;
}
else
{
flags
|=
IOMAP_WRITE
;
...
...
fs/iomap/fiemap.c
View file @
f21bdbba
...
...
@@ -44,7 +44,7 @@ static int iomap_to_fiemap(struct fiemap_extent_info *fi,
static
loff_t
iomap_fiemap_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
fiemap_ctx
*
ctx
=
data
;
loff_t
ret
=
length
;
...
...
@@ -111,7 +111,7 @@ EXPORT_SYMBOL_GPL(iomap_fiemap);
static
loff_t
iomap_bmap_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
sector_t
*
bno
=
data
,
addr
;
...
...
fs/iomap/seek.c
View file @
f21bdbba
...
...
@@ -119,7 +119,7 @@ page_cache_seek_hole_data(struct inode *inode, loff_t offset, loff_t length,
static
loff_t
iomap_seek_hole_actor
(
struct
inode
*
inode
,
loff_t
offset
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
switch
(
iomap
->
type
)
{
case
IOMAP_UNWRITTEN
:
...
...
@@ -165,7 +165,7 @@ EXPORT_SYMBOL_GPL(iomap_seek_hole);
static
loff_t
iomap_seek_data_actor
(
struct
inode
*
inode
,
loff_t
offset
,
loff_t
length
,
void
*
data
,
struct
iomap
*
iomap
)
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
switch
(
iomap
->
type
)
{
case
IOMAP_HOLE
:
...
...
fs/iomap/swapfile.c
View file @
f21bdbba
...
...
@@ -76,7 +76,8 @@ static int iomap_swapfile_add_extent(struct iomap_swapfile_info *isi)
* distinction between written and unwritten extents.
*/
static
loff_t
iomap_swapfile_activate_actor
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
count
,
void
*
data
,
struct
iomap
*
iomap
)
loff_t
count
,
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
iomap_swapfile_info
*
isi
=
data
;
int
error
;
...
...
fs/iomap/trace.c
0 → 100644
View file @
f21bdbba
// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2019 Christoph Hellwig
*/
#include <linux/iomap.h>
/*
* We include this last to have the helpers above available for the trace
* event implementations.
*/
#define CREATE_TRACE_POINTS
#include "trace.h"
fs/iomap/trace.h
0 → 100644
View file @
f21bdbba
/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2009-2019 Christoph Hellwig
*
* NOTE: none of these tracepoints shall be consider a stable kernel ABI
* as they can change at any time.
*/
#undef TRACE_SYSTEM
#define TRACE_SYSTEM iomap
#if !defined(_IOMAP_TRACE_H) || defined(TRACE_HEADER_MULTI_READ)
#define _IOMAP_TRACE_H
#include <linux/tracepoint.h>
struct
inode
;
DECLARE_EVENT_CLASS
(
iomap_readpage_class
,
TP_PROTO
(
struct
inode
*
inode
,
int
nr_pages
),
TP_ARGS
(
inode
,
nr_pages
),
TP_STRUCT__entry
(
__field
(
dev_t
,
dev
)
__field
(
u64
,
ino
)
__field
(
int
,
nr_pages
)
),
TP_fast_assign
(
__entry
->
dev
=
inode
->
i_sb
->
s_dev
;
__entry
->
ino
=
inode
->
i_ino
;
__entry
->
nr_pages
=
nr_pages
;
),
TP_printk
(
"dev %d:%d ino 0x%llx nr_pages %d"
,
MAJOR
(
__entry
->
dev
),
MINOR
(
__entry
->
dev
),
__entry
->
ino
,
__entry
->
nr_pages
)
)
#define DEFINE_READPAGE_EVENT(name) \
DEFINE_EVENT(iomap_readpage_class, name, \
TP_PROTO(struct inode *inode, int nr_pages), \
TP_ARGS(inode, nr_pages))
DEFINE_READPAGE_EVENT
(
iomap_readpage
);
DEFINE_READPAGE_EVENT
(
iomap_readpages
);
DECLARE_EVENT_CLASS
(
iomap_page_class
,
TP_PROTO
(
struct
inode
*
inode
,
struct
page
*
page
,
unsigned
long
off
,
unsigned
int
len
),
TP_ARGS
(
inode
,
page
,
off
,
len
),
TP_STRUCT__entry
(
__field
(
dev_t
,
dev
)
__field
(
u64
,
ino
)
__field
(
pgoff_t
,
pgoff
)
__field
(
loff_t
,
size
)
__field
(
unsigned
long
,
offset
)
__field
(
unsigned
int
,
length
)
),
TP_fast_assign
(
__entry
->
dev
=
inode
->
i_sb
->
s_dev
;
__entry
->
ino
=
inode
->
i_ino
;
__entry
->
pgoff
=
page_offset
(
page
);
__entry
->
size
=
i_size_read
(
inode
);
__entry
->
offset
=
off
;
__entry
->
length
=
len
;
),
TP_printk
(
"dev %d:%d ino 0x%llx pgoff 0x%lx size 0x%llx offset %lx "
"length %x"
,
MAJOR
(
__entry
->
dev
),
MINOR
(
__entry
->
dev
),
__entry
->
ino
,
__entry
->
pgoff
,
__entry
->
size
,
__entry
->
offset
,
__entry
->
length
)
)
#define DEFINE_PAGE_EVENT(name) \
DEFINE_EVENT(iomap_page_class, name, \
TP_PROTO(struct inode *inode, struct page *page, unsigned long off, \
unsigned int len), \
TP_ARGS(inode, page, off, len))
DEFINE_PAGE_EVENT
(
iomap_writepage
);
DEFINE_PAGE_EVENT
(
iomap_releasepage
);
DEFINE_PAGE_EVENT
(
iomap_invalidatepage
);
#endif
/* _IOMAP_TRACE_H */
#undef TRACE_INCLUDE_PATH
#define TRACE_INCLUDE_PATH .
#define TRACE_INCLUDE_FILE trace
#include <trace/define_trace.h>
fs/xfs/libxfs/xfs_bmap.c
View file @
f21bdbba
...
...
@@ -34,6 +34,7 @@
#include "xfs_ag_resv.h"
#include "xfs_refcount.h"
#include "xfs_icache.h"
#include "xfs_iomap.h"
kmem_zone_t
*
xfs_bmap_free_item_zone
;
...
...
@@ -4456,16 +4457,21 @@ int
xfs_bmapi_convert_delalloc
(
struct
xfs_inode
*
ip
,
int
whichfork
,
xfs_
fileoff_t
offset_fsb
,
struct
xfs_bmbt_irec
*
i
map
,
xfs_
off_t
offset
,
struct
iomap
*
io
map
,
unsigned
int
*
seq
)
{
struct
xfs_ifork
*
ifp
=
XFS_IFORK_PTR
(
ip
,
whichfork
);
struct
xfs_mount
*
mp
=
ip
->
i_mount
;
xfs_fileoff_t
offset_fsb
=
XFS_B_TO_FSBT
(
mp
,
offset
);
struct
xfs_bmalloca
bma
=
{
NULL
};
u16
flags
=
0
;
struct
xfs_trans
*
tp
;
int
error
;
if
(
whichfork
==
XFS_COW_FORK
)
flags
|=
IOMAP_F_SHARED
;
/*
* Space for the extent and indirect blocks was reserved when the
* delalloc extent was created so there's no need to do so here.
...
...
@@ -4495,7 +4501,7 @@ xfs_bmapi_convert_delalloc(
* the extent. Just return the real extent at this offset.
*/
if
(
!
isnullstartblock
(
bma
.
got
.
br_startblock
))
{
*
imap
=
bma
.
got
;
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
bma
.
got
,
flags
)
;
*
seq
=
READ_ONCE
(
ifp
->
if_seq
);
goto
out_trans_cancel
;
}
...
...
@@ -4528,7 +4534,7 @@ xfs_bmapi_convert_delalloc(
XFS_STATS_INC
(
mp
,
xs_xstrat_quick
);
ASSERT
(
!
isnullstartblock
(
bma
.
got
.
br_startblock
));
*
imap
=
bma
.
got
;
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
bma
.
got
,
flags
)
;
*
seq
=
READ_ONCE
(
ifp
->
if_seq
);
if
(
whichfork
==
XFS_COW_FORK
)
...
...
fs/xfs/libxfs/xfs_bmap.h
View file @
f21bdbba
...
...
@@ -228,8 +228,7 @@ int xfs_bmapi_reserve_delalloc(struct xfs_inode *ip, int whichfork,
struct
xfs_bmbt_irec
*
got
,
struct
xfs_iext_cursor
*
cur
,
int
eof
);
int
xfs_bmapi_convert_delalloc
(
struct
xfs_inode
*
ip
,
int
whichfork
,
xfs_fileoff_t
offset_fsb
,
struct
xfs_bmbt_irec
*
imap
,
unsigned
int
*
seq
);
xfs_off_t
offset
,
struct
iomap
*
iomap
,
unsigned
int
*
seq
);
int
xfs_bmap_add_extent_unwritten_real
(
struct
xfs_trans
*
tp
,
struct
xfs_inode
*
ip
,
int
whichfork
,
struct
xfs_iext_cursor
*
icur
,
struct
xfs_btree_cur
**
curp
,
...
...
fs/xfs/xfs_aops.c
View file @
f21bdbba
...
...
@@ -18,17 +18,18 @@
#include "xfs_bmap_util.h"
#include "xfs_reflink.h"
/*
* structure owned by writepages passed to individual writepage calls
*/
struct
xfs_writepage_ctx
{
struct
xfs_bmbt_irec
imap
;
int
fork
;
struct
iomap_writepage_ctx
ctx
;
unsigned
int
data_seq
;
unsigned
int
cow_seq
;
struct
xfs_ioend
*
ioend
;
};
static
inline
struct
xfs_writepage_ctx
*
XFS_WPC
(
struct
iomap_writepage_ctx
*
ctx
)
{
return
container_of
(
ctx
,
struct
xfs_writepage_ctx
,
ctx
);
}
struct
block_device
*
xfs_find_bdev_for_inode
(
struct
inode
*
inode
)
...
...
@@ -55,71 +56,10 @@ xfs_find_daxdev_for_inode(
return
mp
->
m_ddev_targp
->
bt_daxdev
;
}
static
void
xfs_finish_page_writeback
(
struct
inode
*
inode
,
struct
bio_vec
*
bvec
,
int
error
)
{
struct
iomap_page
*
iop
=
to_iomap_page
(
bvec
->
bv_page
);
if
(
error
)
{
SetPageError
(
bvec
->
bv_page
);
mapping_set_error
(
inode
->
i_mapping
,
-
EIO
);
}
ASSERT
(
iop
||
i_blocksize
(
inode
)
==
PAGE_SIZE
);
ASSERT
(
!
iop
||
atomic_read
(
&
iop
->
write_count
)
>
0
);
if
(
!
iop
||
atomic_dec_and_test
(
&
iop
->
write_count
))
end_page_writeback
(
bvec
->
bv_page
);
}
/*
* We're now finished for good with this ioend structure. Update the page
* state, release holds on bios, and finally free up memory. Do not use the
* ioend after this.
*/
STATIC
void
xfs_destroy_ioend
(
struct
xfs_ioend
*
ioend
,
int
error
)
{
struct
inode
*
inode
=
ioend
->
io_inode
;
struct
bio
*
bio
=
&
ioend
->
io_inline_bio
;
struct
bio
*
last
=
ioend
->
io_bio
,
*
next
;
u64
start
=
bio
->
bi_iter
.
bi_sector
;
bool
quiet
=
bio_flagged
(
bio
,
BIO_QUIET
);
for
(
bio
=
&
ioend
->
io_inline_bio
;
bio
;
bio
=
next
)
{
struct
bio_vec
*
bvec
;
struct
bvec_iter_all
iter_all
;
/*
* For the last bio, bi_private points to the ioend, so we
* need to explicitly end the iteration here.
*/
if
(
bio
==
last
)
next
=
NULL
;
else
next
=
bio
->
bi_private
;
/* walk each page on bio, ending page IO on them */
bio_for_each_segment_all
(
bvec
,
bio
,
iter_all
)
xfs_finish_page_writeback
(
inode
,
bvec
,
error
);
bio_put
(
bio
);
}
if
(
unlikely
(
error
&&
!
quiet
))
{
xfs_err_ratelimited
(
XFS_I
(
inode
)
->
i_mount
,
"writeback error on sector %llu"
,
start
);
}
}
/*
* Fast and loose check if this write could update the on-disk inode size.
*/
static
inline
bool
xfs_ioend_is_append
(
struct
xfs
_ioend
*
ioend
)
static
inline
bool
xfs_ioend_is_append
(
struct
iomap
_ioend
*
ioend
)
{
return
ioend
->
io_offset
+
ioend
->
io_size
>
XFS_I
(
ioend
->
io_inode
)
->
i_d
.
di_size
;
...
...
@@ -127,7 +67,7 @@ static inline bool xfs_ioend_is_append(struct xfs_ioend *ioend)
STATIC
int
xfs_setfilesize_trans_alloc
(
struct
xfs
_ioend
*
ioend
)
struct
iomap
_ioend
*
ioend
)
{
struct
xfs_mount
*
mp
=
XFS_I
(
ioend
->
io_inode
)
->
i_mount
;
struct
xfs_trans
*
tp
;
...
...
@@ -137,7 +77,7 @@ xfs_setfilesize_trans_alloc(
if
(
error
)
return
error
;
ioend
->
io_
append_trans
=
tp
;
ioend
->
io_
private
=
tp
;
/*
* We may pass freeze protection with a transaction. So tell lockdep
...
...
@@ -200,11 +140,11 @@ xfs_setfilesize(
STATIC
int
xfs_setfilesize_ioend
(
struct
xfs
_ioend
*
ioend
,
struct
iomap
_ioend
*
ioend
,
int
error
)
{
struct
xfs_inode
*
ip
=
XFS_I
(
ioend
->
io_inode
);
struct
xfs_trans
*
tp
=
ioend
->
io_
append_trans
;
struct
xfs_trans
*
tp
=
ioend
->
io_
private
;
/*
* The transaction may have been allocated in the I/O submission thread,
...
...
@@ -228,9 +168,8 @@ xfs_setfilesize_ioend(
*/
STATIC
void
xfs_end_ioend
(
struct
xfs
_ioend
*
ioend
)
struct
iomap
_ioend
*
ioend
)
{
struct
list_head
ioend_list
;
struct
xfs_inode
*
ip
=
XFS_I
(
ioend
->
io_inode
);
xfs_off_t
offset
=
ioend
->
io_offset
;
size_t
size
=
ioend
->
io_size
;
...
...
@@ -257,7 +196,7 @@ xfs_end_ioend(
*/
error
=
blk_status_to_errno
(
ioend
->
io_bio
->
bi_status
);
if
(
unlikely
(
error
))
{
if
(
ioend
->
io_f
ork
==
XFS_COW_FORK
)
if
(
ioend
->
io_f
lags
&
IOMAP_F_SHARED
)
xfs_reflink_cancel_cow_range
(
ip
,
offset
,
size
,
true
);
goto
done
;
}
...
...
@@ -265,49 +204,20 @@ xfs_end_ioend(
/*
* Success: commit the COW or unwritten blocks if needed.
*/
if
(
ioend
->
io_f
ork
==
XFS_COW_FORK
)
if
(
ioend
->
io_f
lags
&
IOMAP_F_SHARED
)
error
=
xfs_reflink_end_cow
(
ip
,
offset
,
size
);
else
if
(
ioend
->
io_
state
==
XFS_EXT
_UNWRITTEN
)
else
if
(
ioend
->
io_
type
==
IOMAP
_UNWRITTEN
)
error
=
xfs_iomap_write_unwritten
(
ip
,
offset
,
size
,
false
);
else
ASSERT
(
!
xfs_ioend_is_append
(
ioend
)
||
ioend
->
io_
append_trans
);
ASSERT
(
!
xfs_ioend_is_append
(
ioend
)
||
ioend
->
io_
private
);
done:
if
(
ioend
->
io_
append_trans
)
if
(
ioend
->
io_
private
)
error
=
xfs_setfilesize_ioend
(
ioend
,
error
);
list_replace_init
(
&
ioend
->
io_list
,
&
ioend_list
);
xfs_destroy_ioend
(
ioend
,
error
);
while
(
!
list_empty
(
&
ioend_list
))
{
ioend
=
list_first_entry
(
&
ioend_list
,
struct
xfs_ioend
,
io_list
);
list_del_init
(
&
ioend
->
io_list
);
xfs_destroy_ioend
(
ioend
,
error
);
}
iomap_finish_ioends
(
ioend
,
error
);
memalloc_nofs_restore
(
nofs_flag
);
}
/*
* We can merge two adjacent ioends if they have the same set of work to do.
*/
static
bool
xfs_ioend_can_merge
(
struct
xfs_ioend
*
ioend
,
struct
xfs_ioend
*
next
)
{
if
(
ioend
->
io_bio
->
bi_status
!=
next
->
io_bio
->
bi_status
)
return
false
;
if
((
ioend
->
io_fork
==
XFS_COW_FORK
)
^
(
next
->
io_fork
==
XFS_COW_FORK
))
return
false
;
if
((
ioend
->
io_state
==
XFS_EXT_UNWRITTEN
)
^
(
next
->
io_state
==
XFS_EXT_UNWRITTEN
))
return
false
;
if
(
ioend
->
io_offset
+
ioend
->
io_size
!=
next
->
io_offset
)
return
false
;
return
true
;
}
/*
* If the to be merged ioend has a preallocated transaction for file
* size updates we need to ensure the ioend it is merged into also
...
...
@@ -315,104 +225,65 @@ xfs_ioend_can_merge(
* as it is guaranteed to be clean.
*/
static
void
xfs_ioend_merge_
append_transactions
(
struct
xfs
_ioend
*
ioend
,
struct
xfs
_ioend
*
next
)
xfs_ioend_merge_
private
(
struct
iomap
_ioend
*
ioend
,
struct
iomap
_ioend
*
next
)
{
if
(
!
ioend
->
io_
append_trans
)
{
ioend
->
io_
append_trans
=
next
->
io_append_trans
;
next
->
io_
append_trans
=
NULL
;
if
(
!
ioend
->
io_
private
)
{
ioend
->
io_
private
=
next
->
io_private
;
next
->
io_
private
=
NULL
;
}
else
{
xfs_setfilesize_ioend
(
next
,
-
ECANCELED
);
}
}
/* Try to merge adjacent completions. */
STATIC
void
xfs_ioend_try_merge
(
struct
xfs_ioend
*
ioend
,
struct
list_head
*
more_ioends
)
{
struct
xfs_ioend
*
next_ioend
;
while
(
!
list_empty
(
more_ioends
))
{
next_ioend
=
list_first_entry
(
more_ioends
,
struct
xfs_ioend
,
io_list
);
if
(
!
xfs_ioend_can_merge
(
ioend
,
next_ioend
))
break
;
list_move_tail
(
&
next_ioend
->
io_list
,
&
ioend
->
io_list
);
ioend
->
io_size
+=
next_ioend
->
io_size
;
if
(
next_ioend
->
io_append_trans
)
xfs_ioend_merge_append_transactions
(
ioend
,
next_ioend
);
}
}
/* list_sort compare function for ioends */
static
int
xfs_ioend_compare
(
void
*
priv
,
struct
list_head
*
a
,
struct
list_head
*
b
)
{
struct
xfs_ioend
*
ia
;
struct
xfs_ioend
*
ib
;
ia
=
container_of
(
a
,
struct
xfs_ioend
,
io_list
);
ib
=
container_of
(
b
,
struct
xfs_ioend
,
io_list
);
if
(
ia
->
io_offset
<
ib
->
io_offset
)
return
-
1
;
else
if
(
ia
->
io_offset
>
ib
->
io_offset
)
return
1
;
return
0
;
}
/* Finish all pending io completions. */
void
xfs_end_io
(
struct
work_struct
*
work
)
{
struct
xfs_inode
*
ip
;
struct
xfs_ioend
*
ioend
;
struct
list_head
completion_list
;
struct
xfs_inode
*
ip
=
container_of
(
work
,
struct
xfs_inode
,
i_ioend_work
);
struct
iomap_ioend
*
ioend
;
struct
list_head
tmp
;
unsigned
long
flags
;
ip
=
container_of
(
work
,
struct
xfs_inode
,
i_ioend_work
);
spin_lock_irqsave
(
&
ip
->
i_ioend_lock
,
flags
);
list_replace_init
(
&
ip
->
i_ioend_list
,
&
completion_list
);
list_replace_init
(
&
ip
->
i_ioend_list
,
&
tmp
);
spin_unlock_irqrestore
(
&
ip
->
i_ioend_lock
,
flags
);
list_sort
(
NULL
,
&
completion_list
,
xfs_ioend_compare
);
while
(
!
list_empty
(
&
completion_list
))
{
ioend
=
list_first_entry
(
&
completion_list
,
struct
xfs_ioend
,
io_list
);
iomap_sort_ioends
(
&
tmp
);
while
((
ioend
=
list_first_entry_or_null
(
&
tmp
,
struct
iomap_ioend
,
io_list
)))
{
list_del_init
(
&
ioend
->
io_list
);
xfs_ioend_try_merge
(
ioend
,
&
completion_list
);
iomap_ioend_try_merge
(
ioend
,
&
tmp
,
xfs_ioend_merge_private
);
xfs_end_ioend
(
ioend
);
}
}
static
inline
bool
xfs_ioend_needs_workqueue
(
struct
iomap_ioend
*
ioend
)
{
return
ioend
->
io_private
||
ioend
->
io_type
==
IOMAP_UNWRITTEN
||
(
ioend
->
io_flags
&
IOMAP_F_SHARED
);
}
STATIC
void
xfs_end_bio
(
struct
bio
*
bio
)
{
struct
xfs
_ioend
*
ioend
=
bio
->
bi_private
;
struct
iomap
_ioend
*
ioend
=
bio
->
bi_private
;
struct
xfs_inode
*
ip
=
XFS_I
(
ioend
->
io_inode
);
struct
xfs_mount
*
mp
=
ip
->
i_mount
;
unsigned
long
flags
;
if
(
ioend
->
io_fork
==
XFS_COW_FORK
||
ioend
->
io_state
==
XFS_EXT_UNWRITTEN
||
ioend
->
io_append_trans
!=
NULL
)
{
ASSERT
(
xfs_ioend_needs_workqueue
(
ioend
));
spin_lock_irqsave
(
&
ip
->
i_ioend_lock
,
flags
);
if
(
list_empty
(
&
ip
->
i_ioend_list
))
WARN_ON_ONCE
(
!
queue_work
(
mp
->
m_unwritten_workqueue
,
WARN_ON_ONCE
(
!
queue_work
(
ip
->
i_mount
->
m_unwritten_workqueue
,
&
ip
->
i_ioend_work
));
list_add_tail
(
&
ioend
->
io_list
,
&
ip
->
i_ioend_list
);
spin_unlock_irqrestore
(
&
ip
->
i_ioend_lock
,
flags
);
}
else
xfs_destroy_ioend
(
ioend
,
blk_status_to_errno
(
bio
->
bi_status
));
}
/*
...
...
@@ -421,19 +292,19 @@ xfs_end_bio(
*/
static
bool
xfs_imap_valid
(
struct
xfs
_writepage_ctx
*
wpc
,
struct
iomap
_writepage_ctx
*
wpc
,
struct
xfs_inode
*
ip
,
xfs_fileoff_t
offset_fsb
)
loff_t
offset
)
{
if
(
offset
_fsb
<
wpc
->
imap
.
br_startoff
||
offset
_fsb
>=
wpc
->
imap
.
br_startoff
+
wpc
->
imap
.
br_blockcount
)
if
(
offset
<
wpc
->
iomap
.
offset
||
offset
>=
wpc
->
iomap
.
offset
+
wpc
->
iomap
.
length
)
return
false
;
/*
* If this is a COW mapping, it is sufficient to check that the mapping
* covers the offset. Be careful to check this first because the caller
* can revalidate a COW mapping without updating the data seqno.
*/
if
(
wpc
->
fork
==
XFS_COW_FORK
)
if
(
wpc
->
iomap
.
flags
&
IOMAP_F_SHARED
)
return
true
;
/*
...
...
@@ -443,17 +314,17 @@ xfs_imap_valid(
* checked (and found nothing at this offset) could have added
* overlapping blocks.
*/
if
(
wpc
->
data_seq
!=
READ_ONCE
(
ip
->
i_df
.
if_seq
))
if
(
XFS_WPC
(
wpc
)
->
data_seq
!=
READ_ONCE
(
ip
->
i_df
.
if_seq
))
return
false
;
if
(
xfs_inode_has_cow_data
(
ip
)
&&
wpc
->
cow_seq
!=
READ_ONCE
(
ip
->
i_cowfp
->
if_seq
))
XFS_WPC
(
wpc
)
->
cow_seq
!=
READ_ONCE
(
ip
->
i_cowfp
->
if_seq
))
return
false
;
return
true
;
}
/*
* Pass in a dellalloc extent and convert it to real extents, return the real
* extent that maps offset_fsb in wpc->imap.
* extent that maps offset_fsb in wpc->i
o
map.
*
* The current page is held locked so nothing could have removed the block
* backing offset_fsb, although it could have moved from the COW to the data
...
...
@@ -461,32 +332,38 @@ xfs_imap_valid(
*/
static
int
xfs_convert_blocks
(
struct
xfs
_writepage_ctx
*
wpc
,
struct
iomap
_writepage_ctx
*
wpc
,
struct
xfs_inode
*
ip
,
xfs_fileoff_t
offset_fsb
)
int
whichfork
,
loff_t
offset
)
{
int
error
;
unsigned
*
seq
;
if
(
whichfork
==
XFS_COW_FORK
)
seq
=
&
XFS_WPC
(
wpc
)
->
cow_seq
;
else
seq
=
&
XFS_WPC
(
wpc
)
->
data_seq
;
/*
* Attempt to allocate whatever delalloc extent currently backs
*
offset_fsb and put the result into wpc->imap. Allocate in a loop
*
because it may take several attempts to allocate real blocks for a
*
contiguous
delalloc extent if free space is sufficiently fragmented.
* Attempt to allocate whatever delalloc extent currently backs
offset
*
and put the result into wpc->iomap. Allocate in a loop because it
*
may take several attempts to allocate real blocks for a contiguous
* delalloc extent if free space is sufficiently fragmented.
*/
do
{
error
=
xfs_bmapi_convert_delalloc
(
ip
,
wpc
->
fork
,
offset_fsb
,
&
wpc
->
imap
,
wpc
->
fork
==
XFS_COW_FORK
?
&
wpc
->
cow_seq
:
&
wpc
->
data_seq
);
error
=
xfs_bmapi_convert_delalloc
(
ip
,
whichfork
,
offset
,
&
wpc
->
iomap
,
seq
);
if
(
error
)
return
error
;
}
while
(
wpc
->
i
map
.
br_startoff
+
wpc
->
imap
.
br_blockcount
<=
offset_fsb
);
}
while
(
wpc
->
i
omap
.
offset
+
wpc
->
iomap
.
length
<=
offset
);
return
0
;
}
STATIC
int
static
int
xfs_map_blocks
(
struct
xfs
_writepage_ctx
*
wpc
,
struct
iomap
_writepage_ctx
*
wpc
,
struct
inode
*
inode
,
loff_t
offset
)
{
...
...
@@ -496,6 +373,7 @@ xfs_map_blocks(
xfs_fileoff_t
offset_fsb
=
XFS_B_TO_FSBT
(
mp
,
offset
);
xfs_fileoff_t
end_fsb
=
XFS_B_TO_FSB
(
mp
,
offset
+
count
);
xfs_fileoff_t
cow_fsb
=
NULLFILEOFF
;
int
whichfork
=
XFS_DATA_FORK
;
struct
xfs_bmbt_irec
imap
;
struct
xfs_iext_cursor
icur
;
int
retries
=
0
;
...
...
@@ -519,7 +397,7 @@ xfs_map_blocks(
* against concurrent updates and provides a memory barrier on the way
* out that ensures that we always see the current value.
*/
if
(
xfs_imap_valid
(
wpc
,
ip
,
offset
_fsb
))
if
(
xfs_imap_valid
(
wpc
,
ip
,
offset
))
return
0
;
/*
...
...
@@ -541,10 +419,10 @@ xfs_map_blocks(
xfs_iext_lookup_extent
(
ip
,
ip
->
i_cowfp
,
offset_fsb
,
&
icur
,
&
imap
))
cow_fsb
=
imap
.
br_startoff
;
if
(
cow_fsb
!=
NULLFILEOFF
&&
cow_fsb
<=
offset_fsb
)
{
wpc
->
cow_seq
=
READ_ONCE
(
ip
->
i_cowfp
->
if_seq
);
XFS_WPC
(
wpc
)
->
cow_seq
=
READ_ONCE
(
ip
->
i_cowfp
->
if_seq
);
xfs_iunlock
(
ip
,
XFS_ILOCK_SHARED
);
w
pc
->
fork
=
XFS_COW_FORK
;
w
hich
fork
=
XFS_COW_FORK
;
goto
allocate_blocks
;
}
...
...
@@ -552,7 +430,7 @@ xfs_map_blocks(
* No COW extent overlap. Revalidate now that we may have updated
* ->cow_seq. If the data mapping is still valid, we're done.
*/
if
(
xfs_imap_valid
(
wpc
,
ip
,
offset
_fsb
))
{
if
(
xfs_imap_valid
(
wpc
,
ip
,
offset
))
{
xfs_iunlock
(
ip
,
XFS_ILOCK_SHARED
);
return
0
;
}
...
...
@@ -564,11 +442,9 @@ xfs_map_blocks(
*/
if
(
!
xfs_iext_lookup_extent
(
ip
,
&
ip
->
i_df
,
offset_fsb
,
&
icur
,
&
imap
))
imap
.
br_startoff
=
end_fsb
;
/* fake a hole past EOF */
wpc
->
data_seq
=
READ_ONCE
(
ip
->
i_df
.
if_seq
);
XFS_WPC
(
wpc
)
->
data_seq
=
READ_ONCE
(
ip
->
i_df
.
if_seq
);
xfs_iunlock
(
ip
,
XFS_ILOCK_SHARED
);
wpc
->
fork
=
XFS_DATA_FORK
;
/* landed in a hole or beyond EOF? */
if
(
imap
.
br_startoff
>
offset_fsb
)
{
imap
.
br_blockcount
=
imap
.
br_startoff
-
offset_fsb
;
...
...
@@ -592,11 +468,11 @@ xfs_map_blocks(
isnullstartblock
(
imap
.
br_startblock
))
goto
allocate_blocks
;
wpc
->
imap
=
imap
;
trace_xfs_map_blocks_found
(
ip
,
offset
,
count
,
w
pc
->
fork
,
&
imap
);
xfs_bmbt_to_iomap
(
ip
,
&
wpc
->
iomap
,
&
imap
,
0
)
;
trace_xfs_map_blocks_found
(
ip
,
offset
,
count
,
w
hich
fork
,
&
imap
);
return
0
;
allocate_blocks:
error
=
xfs_convert_blocks
(
wpc
,
ip
,
offset_fsb
);
error
=
xfs_convert_blocks
(
wpc
,
ip
,
whichfork
,
offset
);
if
(
error
)
{
/*
* If we failed to find the extent in the COW fork we might have
...
...
@@ -605,7 +481,7 @@ xfs_map_blocks(
* the former case, but prevent additional retries to avoid
* looping forever for the latter case.
*/
if
(
error
==
-
EAGAIN
&&
w
pc
->
fork
==
XFS_COW_FORK
&&
!
retries
++
)
if
(
error
==
-
EAGAIN
&&
w
hich
fork
==
XFS_COW_FORK
&&
!
retries
++
)
goto
retry
;
ASSERT
(
error
!=
-
EAGAIN
);
return
error
;
...
...
@@ -616,34 +492,22 @@ xfs_map_blocks(
* original delalloc one. Trim the return extent to the next COW
* boundary again to force a re-lookup.
*/
if
(
wpc
->
fork
!=
XFS_COW_FORK
&&
cow_fsb
!=
NULLFILEOFF
&&
cow_fsb
<
wpc
->
imap
.
br_startoff
+
wpc
->
imap
.
br_blockcount
)
wpc
->
imap
.
br_blockcount
=
cow_fsb
-
wpc
->
imap
.
br_startoff
;
if
(
whichfork
!=
XFS_COW_FORK
&&
cow_fsb
!=
NULLFILEOFF
)
{
loff_t
cow_offset
=
XFS_FSB_TO_B
(
mp
,
cow_fsb
);
if
(
cow_offset
<
wpc
->
iomap
.
offset
+
wpc
->
iomap
.
length
)
wpc
->
iomap
.
length
=
cow_offset
-
wpc
->
iomap
.
offset
;
}
ASSERT
(
wpc
->
i
map
.
br_startoff
<=
offset_fsb
);
ASSERT
(
wpc
->
i
map
.
br_startoff
+
wpc
->
imap
.
br_blockcount
>
offset_fsb
);
trace_xfs_map_blocks_alloc
(
ip
,
offset
,
count
,
w
pc
->
fork
,
&
imap
);
ASSERT
(
wpc
->
i
omap
.
offset
<=
offset
);
ASSERT
(
wpc
->
i
omap
.
offset
+
wpc
->
iomap
.
length
>
offset
);
trace_xfs_map_blocks_alloc
(
ip
,
offset
,
count
,
w
hich
fork
,
&
imap
);
return
0
;
}
/*
* Submit the bio for an ioend. We are passed an ioend with a bio attached to
* it, and we submit that bio. The ioend may be used for multiple bio
* submissions, so we only want to allocate an append transaction for the ioend
* once. In the case of multiple bio submission, each bio will take an IO
* reference to the ioend to ensure that the ioend completion is only done once
* all bios have been submitted and the ioend is really done.
*
* If @status is non-zero, it means that we have a situation where some part of
* the submission process has failed after we have marked paged for writeback
* and unlocked them. In this situation, we need to fail the bio and ioend
* rather than submit it to IO. This typically only happens on a filesystem
* shutdown.
*/
STATIC
int
xfs_submit_ioend
(
struct
writeback_control
*
wbc
,
struct
xfs_ioend
*
ioend
,
static
int
xfs_prepare_ioend
(
struct
iomap_ioend
*
ioend
,
int
status
)
{
unsigned
int
nofs_flag
;
...
...
@@ -656,157 +520,24 @@ xfs_submit_ioend(
nofs_flag
=
memalloc_nofs_save
();
/* Convert CoW extents to regular */
if
(
!
status
&&
ioend
->
io_fork
==
XFS_COW_FORK
)
{
if
(
!
status
&&
(
ioend
->
io_flags
&
IOMAP_F_SHARED
)
)
{
status
=
xfs_reflink_convert_cow
(
XFS_I
(
ioend
->
io_inode
),
ioend
->
io_offset
,
ioend
->
io_size
);
}
/* Reserve log space if we might write beyond the on-disk inode size. */
if
(
!
status
&&
(
ioend
->
io_fork
==
XFS_COW_FORK
||
ioend
->
io_
state
!=
XFS_EXT
_UNWRITTEN
)
&&
(
(
ioend
->
io_flags
&
IOMAP_F_SHARED
)
||
ioend
->
io_
type
!=
IOMAP
_UNWRITTEN
)
&&
xfs_ioend_is_append
(
ioend
)
&&
!
ioend
->
io_
append_trans
)
!
ioend
->
io_
private
)
status
=
xfs_setfilesize_trans_alloc
(
ioend
);
memalloc_nofs_restore
(
nofs_flag
);
i
oend
->
io_bio
->
bi_private
=
ioend
;
i
f
(
xfs_ioend_needs_workqueue
(
ioend
))
ioend
->
io_bio
->
bi_end_io
=
xfs_end_bio
;
/*
* If we are failing the IO now, just mark the ioend with an
* error and finish it. This will run IO completion immediately
* as there is only one reference to the ioend at this point in
* time.
*/
if
(
status
)
{
ioend
->
io_bio
->
bi_status
=
errno_to_blk_status
(
status
);
bio_endio
(
ioend
->
io_bio
);
return
status
;
}
submit_bio
(
ioend
->
io_bio
);
return
0
;
}
static
struct
xfs_ioend
*
xfs_alloc_ioend
(
struct
inode
*
inode
,
int
fork
,
xfs_exntst_t
state
,
xfs_off_t
offset
,
struct
block_device
*
bdev
,
sector_t
sector
,
struct
writeback_control
*
wbc
)
{
struct
xfs_ioend
*
ioend
;
struct
bio
*
bio
;
bio
=
bio_alloc_bioset
(
GFP_NOFS
,
BIO_MAX_PAGES
,
&
xfs_ioend_bioset
);
bio_set_dev
(
bio
,
bdev
);
bio
->
bi_iter
.
bi_sector
=
sector
;
bio
->
bi_opf
=
REQ_OP_WRITE
|
wbc_to_write_flags
(
wbc
);
bio
->
bi_write_hint
=
inode
->
i_write_hint
;
wbc_init_bio
(
wbc
,
bio
);
ioend
=
container_of
(
bio
,
struct
xfs_ioend
,
io_inline_bio
);
INIT_LIST_HEAD
(
&
ioend
->
io_list
);
ioend
->
io_fork
=
fork
;
ioend
->
io_state
=
state
;
ioend
->
io_inode
=
inode
;
ioend
->
io_size
=
0
;
ioend
->
io_offset
=
offset
;
ioend
->
io_append_trans
=
NULL
;
ioend
->
io_bio
=
bio
;
return
ioend
;
}
/*
* Allocate a new bio, and chain the old bio to the new one.
*
* Note that we have to do perform the chaining in this unintuitive order
* so that the bi_private linkage is set up in the right direction for the
* traversal in xfs_destroy_ioend().
*/
static
struct
bio
*
xfs_chain_bio
(
struct
bio
*
prev
)
{
struct
bio
*
new
;
new
=
bio_alloc
(
GFP_NOFS
,
BIO_MAX_PAGES
);
bio_copy_dev
(
new
,
prev
);
/* also copies over blkcg information */
new
->
bi_iter
.
bi_sector
=
bio_end_sector
(
prev
);
new
->
bi_opf
=
prev
->
bi_opf
;
new
->
bi_write_hint
=
prev
->
bi_write_hint
;
bio_chain
(
prev
,
new
);
bio_get
(
prev
);
/* for xfs_destroy_ioend */
submit_bio
(
prev
);
return
new
;
}
/*
* Test to see if we have an existing ioend structure that we could append to
* first, otherwise finish off the current ioend and start another.
*/
STATIC
void
xfs_add_to_ioend
(
struct
inode
*
inode
,
xfs_off_t
offset
,
struct
page
*
page
,
struct
iomap_page
*
iop
,
struct
xfs_writepage_ctx
*
wpc
,
struct
writeback_control
*
wbc
,
struct
list_head
*
iolist
)
{
struct
xfs_inode
*
ip
=
XFS_I
(
inode
);
struct
xfs_mount
*
mp
=
ip
->
i_mount
;
struct
block_device
*
bdev
=
xfs_find_bdev_for_inode
(
inode
);
unsigned
len
=
i_blocksize
(
inode
);
unsigned
poff
=
offset
&
(
PAGE_SIZE
-
1
);
bool
merged
,
same_page
=
false
;
sector_t
sector
;
sector
=
xfs_fsb_to_db
(
ip
,
wpc
->
imap
.
br_startblock
)
+
((
offset
-
XFS_FSB_TO_B
(
mp
,
wpc
->
imap
.
br_startoff
))
>>
9
);
if
(
!
wpc
->
ioend
||
wpc
->
fork
!=
wpc
->
ioend
->
io_fork
||
wpc
->
imap
.
br_state
!=
wpc
->
ioend
->
io_state
||
sector
!=
bio_end_sector
(
wpc
->
ioend
->
io_bio
)
||
offset
!=
wpc
->
ioend
->
io_offset
+
wpc
->
ioend
->
io_size
)
{
if
(
wpc
->
ioend
)
list_add
(
&
wpc
->
ioend
->
io_list
,
iolist
);
wpc
->
ioend
=
xfs_alloc_ioend
(
inode
,
wpc
->
fork
,
wpc
->
imap
.
br_state
,
offset
,
bdev
,
sector
,
wbc
);
}
merged
=
__bio_try_merge_page
(
wpc
->
ioend
->
io_bio
,
page
,
len
,
poff
,
&
same_page
);
if
(
iop
&&
!
same_page
)
atomic_inc
(
&
iop
->
write_count
);
if
(
!
merged
)
{
if
(
bio_full
(
wpc
->
ioend
->
io_bio
,
len
))
wpc
->
ioend
->
io_bio
=
xfs_chain_bio
(
wpc
->
ioend
->
io_bio
);
bio_add_page
(
wpc
->
ioend
->
io_bio
,
page
,
len
,
poff
);
}
wpc
->
ioend
->
io_size
+=
len
;
wbc_account_cgroup_owner
(
wbc
,
page
,
len
);
}
STATIC
void
xfs_vm_invalidatepage
(
struct
page
*
page
,
unsigned
int
offset
,
unsigned
int
length
)
{
trace_xfs_invalidatepage
(
page
->
mapping
->
host
,
page
,
offset
,
length
);
iomap_invalidatepage
(
page
,
offset
,
length
);
}
/*
...
...
@@ -820,8 +551,8 @@ xfs_vm_invalidatepage(
* transaction as there is no space left for block reservation (typically why we
* see a ENOSPC in writeback).
*/
STATIC
void
xfs_
aops_
discard_page
(
static
void
xfs_discard_page
(
struct
page
*
page
)
{
struct
inode
*
inode
=
page
->
mapping
->
host
;
...
...
@@ -843,246 +574,14 @@ xfs_aops_discard_page(
if
(
error
&&
!
XFS_FORCED_SHUTDOWN
(
mp
))
xfs_alert
(
mp
,
"page discard unable to remove delalloc mapping."
);
out_invalidate:
xfs_vm_invalidatepage
(
page
,
0
,
PAGE_SIZE
);
}
/*
* We implement an immediate ioend submission policy here to avoid needing to
* chain multiple ioends and hence nest mempool allocations which can violate
* forward progress guarantees we need to provide. The current ioend we are
* adding blocks to is cached on the writepage context, and if the new block
* does not append to the cached ioend it will create a new ioend and cache that
* instead.
*
* If a new ioend is created and cached, the old ioend is returned and queued
* locally for submission once the entire page is processed or an error has been
* detected. While ioends are submitted immediately after they are completed,
* batching optimisations are provided by higher level block plugging.
*
* At the end of a writeback pass, there will be a cached ioend remaining on the
* writepage context that the caller will need to submit.
*/
static
int
xfs_writepage_map
(
struct
xfs_writepage_ctx
*
wpc
,
struct
writeback_control
*
wbc
,
struct
inode
*
inode
,
struct
page
*
page
,
uint64_t
end_offset
)
{
LIST_HEAD
(
submit_list
);
struct
iomap_page
*
iop
=
to_iomap_page
(
page
);
unsigned
len
=
i_blocksize
(
inode
);
struct
xfs_ioend
*
ioend
,
*
next
;
uint64_t
file_offset
;
/* file offset of page */
int
error
=
0
,
count
=
0
,
i
;
ASSERT
(
iop
||
i_blocksize
(
inode
)
==
PAGE_SIZE
);
ASSERT
(
!
iop
||
atomic_read
(
&
iop
->
write_count
)
==
0
);
/*
* Walk through the page to find areas to write back. If we run off the
* end of the current map or find the current map invalid, grab a new
* one.
*/
for
(
i
=
0
,
file_offset
=
page_offset
(
page
);
i
<
(
PAGE_SIZE
>>
inode
->
i_blkbits
)
&&
file_offset
<
end_offset
;
i
++
,
file_offset
+=
len
)
{
if
(
iop
&&
!
test_bit
(
i
,
iop
->
uptodate
))
continue
;
error
=
xfs_map_blocks
(
wpc
,
inode
,
file_offset
);
if
(
error
)
break
;
if
(
wpc
->
imap
.
br_startblock
==
HOLESTARTBLOCK
)
continue
;
xfs_add_to_ioend
(
inode
,
file_offset
,
page
,
iop
,
wpc
,
wbc
,
&
submit_list
);
count
++
;
}
ASSERT
(
wpc
->
ioend
||
list_empty
(
&
submit_list
));
ASSERT
(
PageLocked
(
page
));
ASSERT
(
!
PageWriteback
(
page
));
/*
* On error, we have to fail the ioend here because we may have set
* pages under writeback, we have to make sure we run IO completion to
* mark the error state of the IO appropriately, so we can't cancel the
* ioend directly here. That means we have to mark this page as under
* writeback if we included any blocks from it in the ioend chain so
* that completion treats it correctly.
*
* If we didn't include the page in the ioend, the on error we can
* simply discard and unlock it as there are no other users of the page
* now. The caller will still need to trigger submission of outstanding
* ioends on the writepage context so they are treated correctly on
* error.
*/
if
(
unlikely
(
error
))
{
if
(
!
count
)
{
xfs_aops_discard_page
(
page
);
ClearPageUptodate
(
page
);
unlock_page
(
page
);
goto
done
;
}
/*
* If the page was not fully cleaned, we need to ensure that the
* higher layers come back to it correctly. That means we need
* to keep the page dirty, and for WB_SYNC_ALL writeback we need
* to ensure the PAGECACHE_TAG_TOWRITE index mark is not removed
* so another attempt to write this page in this writeback sweep
* will be made.
*/
set_page_writeback_keepwrite
(
page
);
}
else
{
clear_page_dirty_for_io
(
page
);
set_page_writeback
(
page
);
}
unlock_page
(
page
);
/*
* Preserve the original error if there was one, otherwise catch
* submission errors here and propagate into subsequent ioend
* submissions.
*/
list_for_each_entry_safe
(
ioend
,
next
,
&
submit_list
,
io_list
)
{
int
error2
;
list_del_init
(
&
ioend
->
io_list
);
error2
=
xfs_submit_ioend
(
wbc
,
ioend
,
error
);
if
(
error2
&&
!
error
)
error
=
error2
;
}
/*
* We can end up here with no error and nothing to write only if we race
* with a partial page truncate on a sub-page block sized filesystem.
*/
if
(
!
count
)
end_page_writeback
(
page
);
done:
mapping_set_error
(
page
->
mapping
,
error
);
return
error
;
iomap_invalidatepage
(
page
,
0
,
PAGE_SIZE
);
}
/*
* Write out a dirty page.
*
* For delalloc space on the page we need to allocate space and flush it.
* For unwritten space on the page we need to start the conversion to
* regular allocated space.
*/
STATIC
int
xfs_do_writepage
(
struct
page
*
page
,
struct
writeback_control
*
wbc
,
void
*
data
)
{
struct
xfs_writepage_ctx
*
wpc
=
data
;
struct
inode
*
inode
=
page
->
mapping
->
host
;
loff_t
offset
;
uint64_t
end_offset
;
pgoff_t
end_index
;
trace_xfs_writepage
(
inode
,
page
,
0
,
0
);
/*
* Refuse to write the page out if we are called from reclaim context.
*
* This avoids stack overflows when called from deeply used stacks in
* random callers for direct reclaim or memcg reclaim. We explicitly
* allow reclaim from kswapd as the stack usage there is relatively low.
*
* This should never happen except in the case of a VM regression so
* warn about it.
*/
if
(
WARN_ON_ONCE
((
current
->
flags
&
(
PF_MEMALLOC
|
PF_KSWAPD
))
==
PF_MEMALLOC
))
goto
redirty
;
/*
* Given that we do not allow direct reclaim to call us, we should
* never be called while in a filesystem transaction.
*/
if
(
WARN_ON_ONCE
(
current
->
flags
&
PF_MEMALLOC_NOFS
))
goto
redirty
;
/*
* Is this page beyond the end of the file?
*
* The page index is less than the end_index, adjust the end_offset
* to the highest offset that this page should represent.
* -----------------------------------------------------
* | file mapping | <EOF> |
* -----------------------------------------------------
* | Page ... | Page N-2 | Page N-1 | Page N | |
* ^--------------------------------^----------|--------
* | desired writeback range | see else |
* ---------------------------------^------------------|
*/
offset
=
i_size_read
(
inode
);
end_index
=
offset
>>
PAGE_SHIFT
;
if
(
page
->
index
<
end_index
)
end_offset
=
(
xfs_off_t
)(
page
->
index
+
1
)
<<
PAGE_SHIFT
;
else
{
/*
* Check whether the page to write out is beyond or straddles
* i_size or not.
* -------------------------------------------------------
* | file mapping | <EOF> |
* -------------------------------------------------------
* | Page ... | Page N-2 | Page N-1 | Page N | Beyond |
* ^--------------------------------^-----------|---------
* | | Straddles |
* ---------------------------------^-----------|--------|
*/
unsigned
offset_into_page
=
offset
&
(
PAGE_SIZE
-
1
);
/*
* Skip the page if it is fully outside i_size, e.g. due to a
* truncate operation that is in progress. We must redirty the
* page so that reclaim stops reclaiming it. Otherwise
* xfs_vm_releasepage() is called on it and gets confused.
*
* Note that the end_index is unsigned long, it would overflow
* if the given offset is greater than 16TB on 32-bit system
* and if we do check the page is fully outside i_size or not
* via "if (page->index >= end_index + 1)" as "end_index + 1"
* will be evaluated to 0. Hence this page will be redirtied
* and be written out repeatedly which would result in an
* infinite loop, the user program that perform this operation
* will hang. Instead, we can verify this situation by checking
* if the page to write is totally beyond the i_size or if it's
* offset is just equal to the EOF.
*/
if
(
page
->
index
>
end_index
||
(
page
->
index
==
end_index
&&
offset_into_page
==
0
))
goto
redirty
;
/*
* The page straddles i_size. It must be zeroed out on each
* and every writepage invocation because it may be mmapped.
* "A file is mapped in multiples of the page size. For a file
* that is not a multiple of the page size, the remaining
* memory is zeroed when mapped, and writes to that region are
* not written out to the file."
*/
zero_user_segment
(
page
,
offset_into_page
,
PAGE_SIZE
);
/* Adjust the end_offset to the end of file */
end_offset
=
offset
;
}
return
xfs_writepage_map
(
wpc
,
wbc
,
inode
,
page
,
end_offset
);
redirty:
redirty_page_for_writepage
(
wbc
,
page
);
unlock_page
(
page
);
return
0
;
}
static
const
struct
iomap_writeback_ops
xfs_writeback_ops
=
{
.
map_blocks
=
xfs_map_blocks
,
.
prepare_ioend
=
xfs_prepare_ioend
,
.
discard_page
=
xfs_discard_page
,
};
STATIC
int
xfs_vm_writepage
(
...
...
@@ -1090,12 +589,8 @@ xfs_vm_writepage(
struct
writeback_control
*
wbc
)
{
struct
xfs_writepage_ctx
wpc
=
{
};
int
ret
;
ret
=
xfs_do_writepage
(
page
,
wbc
,
&
wpc
);
if
(
wpc
.
ioend
)
ret
=
xfs_submit_ioend
(
wbc
,
wpc
.
ioend
,
ret
);
return
ret
;
return
iomap_writepage
(
page
,
wbc
,
&
wpc
.
ctx
,
&
xfs_writeback_ops
);
}
STATIC
int
...
...
@@ -1104,13 +599,9 @@ xfs_vm_writepages(
struct
writeback_control
*
wbc
)
{
struct
xfs_writepage_ctx
wpc
=
{
};
int
ret
;
xfs_iflags_clear
(
XFS_I
(
mapping
->
host
),
XFS_ITRUNCATED
);
ret
=
write_cache_pages
(
mapping
,
wbc
,
xfs_do_writepage
,
&
wpc
);
if
(
wpc
.
ioend
)
ret
=
xfs_submit_ioend
(
wbc
,
wpc
.
ioend
,
ret
);
return
ret
;
return
iomap_writepages
(
mapping
,
wbc
,
&
wpc
.
ctx
,
&
xfs_writeback_ops
);
}
STATIC
int
...
...
@@ -1123,15 +614,6 @@ xfs_dax_writepages(
xfs_find_bdev_for_inode
(
mapping
->
host
),
wbc
);
}
STATIC
int
xfs_vm_releasepage
(
struct
page
*
page
,
gfp_t
gfp_mask
)
{
trace_xfs_releasepage
(
page
->
mapping
->
host
,
page
,
0
,
0
);
return
iomap_releasepage
(
page
,
gfp_mask
);
}
STATIC
sector_t
xfs_vm_bmap
(
struct
address_space
*
mapping
,
...
...
@@ -1160,7 +642,6 @@ xfs_vm_readpage(
struct
file
*
unused
,
struct
page
*
page
)
{
trace_xfs_vm_readpage
(
page
->
mapping
->
host
,
1
);
return
iomap_readpage
(
page
,
&
xfs_iomap_ops
);
}
...
...
@@ -1171,7 +652,6 @@ xfs_vm_readpages(
struct
list_head
*
pages
,
unsigned
nr_pages
)
{
trace_xfs_vm_readpages
(
mapping
->
host
,
nr_pages
);
return
iomap_readpages
(
mapping
,
pages
,
nr_pages
,
&
xfs_iomap_ops
);
}
...
...
@@ -1191,8 +671,8 @@ const struct address_space_operations xfs_address_space_operations = {
.
writepage
=
xfs_vm_writepage
,
.
writepages
=
xfs_vm_writepages
,
.
set_page_dirty
=
iomap_set_page_dirty
,
.
releasepage
=
xfs_vm
_releasepage
,
.
invalidatepage
=
xfs_vm
_invalidatepage
,
.
releasepage
=
iomap
_releasepage
,
.
invalidatepage
=
iomap
_invalidatepage
,
.
bmap
=
xfs_vm_bmap
,
.
direct_IO
=
noop_direct_IO
,
.
migratepage
=
iomap_migrate_page
,
...
...
fs/xfs/xfs_aops.h
View file @
f21bdbba
...
...
@@ -6,23 +6,6 @@
#ifndef __XFS_AOPS_H__
#define __XFS_AOPS_H__
extern
struct
bio_set
xfs_ioend_bioset
;
/*
* Structure for buffered I/O completions.
*/
struct
xfs_ioend
{
struct
list_head
io_list
;
/* next ioend in chain */
int
io_fork
;
/* inode fork written back */
xfs_exntst_t
io_state
;
/* extent state */
struct
inode
*
io_inode
;
/* file being written to */
size_t
io_size
;
/* size of the extent */
xfs_off_t
io_offset
;
/* offset in the file */
struct
xfs_trans
*
io_append_trans
;
/* xact. for size update */
struct
bio
*
io_bio
;
/* bio being built */
struct
bio
io_inline_bio
;
/* MUST BE LAST! */
};
extern
const
struct
address_space_operations
xfs_address_space_operations
;
extern
const
struct
address_space_operations
xfs_dax_aops
;
...
...
fs/xfs/xfs_file.c
View file @
f21bdbba
...
...
@@ -188,7 +188,7 @@ xfs_file_dio_aio_read(
file_accessed
(
iocb
->
ki_filp
);
xfs_ilock
(
ip
,
XFS_IOLOCK_SHARED
);
ret
=
iomap_dio_rw
(
iocb
,
to
,
&
xfs_iomap_ops
,
NULL
);
ret
=
iomap_dio_rw
(
iocb
,
to
,
&
xfs_iomap_ops
,
NULL
,
is_sync_kiocb
(
iocb
)
);
xfs_iunlock
(
ip
,
XFS_IOLOCK_SHARED
);
return
ret
;
...
...
@@ -547,15 +547,12 @@ xfs_file_dio_aio_write(
}
trace_xfs_file_direct_write
(
ip
,
count
,
iocb
->
ki_pos
);
ret
=
iomap_dio_rw
(
iocb
,
from
,
&
xfs_iomap_ops
,
&
xfs_dio_write_ops
);
/*
* If unaligned, this is the only IO in-flight. If it has not yet
* completed, wait on it before we release the iolock to prevent
* subsequent overlapping IO.
* If unaligned, this is the only IO in-flight. Wait on it before we
* release the iolock to prevent subsequent overlapping IO.
*/
if
(
ret
==
-
EIOCBQUEUED
&&
unaligned_io
)
inode_dio_wait
(
inode
);
ret
=
iomap_dio_rw
(
iocb
,
from
,
&
xfs_iomap_ops
,
&
xfs_dio_write_ops
,
is_sync_kiocb
(
iocb
)
||
unaligned_io
);
out:
xfs_iunlock
(
ip
,
iolock
);
...
...
fs/xfs/xfs_iomap.c
View file @
f21bdbba
...
...
@@ -54,7 +54,7 @@ xfs_bmbt_to_iomap(
struct
xfs_inode
*
ip
,
struct
iomap
*
iomap
,
struct
xfs_bmbt_irec
*
imap
,
bool
shared
)
u16
flags
)
{
struct
xfs_mount
*
mp
=
ip
->
i_mount
;
...
...
@@ -79,12 +79,11 @@ xfs_bmbt_to_iomap(
iomap
->
length
=
XFS_FSB_TO_B
(
mp
,
imap
->
br_blockcount
);
iomap
->
bdev
=
xfs_find_bdev_for_inode
(
VFS_I
(
ip
));
iomap
->
dax_dev
=
xfs_find_daxdev_for_inode
(
VFS_I
(
ip
));
iomap
->
flags
=
flags
;
if
(
xfs_ipincount
(
ip
)
&&
(
ip
->
i_itemp
->
ili_fsync_fields
&
~
XFS_ILOG_TIMESTAMP
))
iomap
->
flags
|=
IOMAP_F_DIRTY
;
if
(
shared
)
iomap
->
flags
|=
IOMAP_F_SHARED
;
return
0
;
}
...
...
@@ -540,6 +539,7 @@ xfs_file_iomap_begin_delay(
struct
xfs_iext_cursor
icur
,
ccur
;
xfs_fsblock_t
prealloc_blocks
=
0
;
bool
eof
=
false
,
cow_eof
=
false
,
shared
=
false
;
u16
iomap_flags
=
0
;
int
whichfork
=
XFS_DATA_FORK
;
int
error
=
0
;
...
...
@@ -707,22 +707,28 @@ xfs_file_iomap_begin_delay(
* Flag newly allocated delalloc blocks with IOMAP_F_NEW so we punch
* them out if the write happens to fail.
*/
iomap
->
flags
|=
IOMAP_F_NEW
;
trace_xfs_iomap_alloc
(
ip
,
offset
,
count
,
whichfork
,
whichfork
==
XFS_DATA_FORK
?
&
imap
:
&
cmap
);
if
(
whichfork
==
XFS_DATA_FORK
)
{
iomap_flags
|=
IOMAP_F_NEW
;
trace_xfs_iomap_alloc
(
ip
,
offset
,
count
,
whichfork
,
&
imap
);
}
else
{
trace_xfs_iomap_alloc
(
ip
,
offset
,
count
,
whichfork
,
&
cmap
);
}
done:
if
(
whichfork
==
XFS_COW_FORK
)
{
if
(
imap
.
br_startoff
>
offset_fsb
)
{
xfs_trim_extent
(
&
cmap
,
offset_fsb
,
imap
.
br_startoff
-
offset_fsb
);
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
cmap
,
true
);
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
cmap
,
IOMAP_F_SHARED
);
goto
out_unlock
;
}
/* ensure we only report blocks we have a reservation for */
xfs_trim_extent
(
&
imap
,
cmap
.
br_startoff
,
cmap
.
br_blockcount
);
shared
=
true
;
}
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
shared
);
if
(
shared
)
iomap_flags
|=
IOMAP_F_SHARED
;
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
iomap_flags
);
out_unlock:
xfs_iunlock
(
ip
,
XFS_ILOCK_EXCL
);
return
error
;
...
...
@@ -922,7 +928,8 @@ xfs_file_iomap_begin(
loff_t
offset
,
loff_t
length
,
unsigned
flags
,
struct
iomap
*
iomap
)
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
xfs_inode
*
ip
=
XFS_I
(
inode
);
struct
xfs_mount
*
mp
=
ip
->
i_mount
;
...
...
@@ -930,6 +937,7 @@ xfs_file_iomap_begin(
xfs_fileoff_t
offset_fsb
,
end_fsb
;
int
nimaps
=
1
,
error
=
0
;
bool
shared
=
false
;
u16
iomap_flags
=
0
;
unsigned
lockmode
;
if
(
XFS_FORCED_SHUTDOWN
(
mp
))
...
...
@@ -1045,11 +1053,20 @@ xfs_file_iomap_begin(
if
(
error
)
return
error
;
iomap
->
flags
|=
IOMAP_F_NEW
;
iomap
_
flags
|=
IOMAP_F_NEW
;
trace_xfs_iomap_alloc
(
ip
,
offset
,
length
,
XFS_DATA_FORK
,
&
imap
);
out_finish:
return
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
shared
);
/*
* Writes that span EOF might trigger an IO size update on completion,
* so consider them to be dirty for the purposes of O_DSYNC even if
* there is no other metadata changes pending or have been made here.
*/
if
((
flags
&
IOMAP_WRITE
)
&&
offset
+
length
>
i_size_read
(
inode
))
iomap_flags
|=
IOMAP_F_DIRTY
;
if
(
shared
)
iomap_flags
|=
IOMAP_F_SHARED
;
return
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
iomap_flags
);
out_found:
ASSERT
(
nimaps
);
...
...
@@ -1145,7 +1162,8 @@ xfs_seek_iomap_begin(
loff_t
offset
,
loff_t
length
,
unsigned
flags
,
struct
iomap
*
iomap
)
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
xfs_inode
*
ip
=
XFS_I
(
inode
);
struct
xfs_mount
*
mp
=
ip
->
i_mount
;
...
...
@@ -1193,7 +1211,7 @@ xfs_seek_iomap_begin(
if
(
data_fsb
<
cow_fsb
+
cmap
.
br_blockcount
)
end_fsb
=
min
(
end_fsb
,
data_fsb
);
xfs_trim_extent
(
&
cmap
,
offset_fsb
,
end_fsb
);
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
cmap
,
true
);
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
cmap
,
IOMAP_F_SHARED
);
/*
* This is a COW extent, so we must probe the page cache
* because there could be dirty page cache being backed
...
...
@@ -1215,7 +1233,7 @@ xfs_seek_iomap_begin(
imap
.
br_state
=
XFS_EXT_NORM
;
done:
xfs_trim_extent
(
&
imap
,
offset_fsb
,
end_fsb
);
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
false
);
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
0
);
out_unlock:
xfs_iunlock
(
ip
,
lockmode
);
return
error
;
...
...
@@ -1231,7 +1249,8 @@ xfs_xattr_iomap_begin(
loff_t
offset
,
loff_t
length
,
unsigned
flags
,
struct
iomap
*
iomap
)
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
)
{
struct
xfs_inode
*
ip
=
XFS_I
(
inode
);
struct
xfs_mount
*
mp
=
ip
->
i_mount
;
...
...
@@ -1261,7 +1280,7 @@ xfs_xattr_iomap_begin(
if
(
error
)
return
error
;
ASSERT
(
nimaps
);
return
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
false
);
return
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
0
);
}
const
struct
iomap_ops
xfs_xattr_iomap_ops
=
{
...
...
fs/xfs/xfs_iomap.h
View file @
f21bdbba
...
...
@@ -16,7 +16,7 @@ int xfs_iomap_write_direct(struct xfs_inode *, xfs_off_t, size_t,
int
xfs_iomap_write_unwritten
(
struct
xfs_inode
*
,
xfs_off_t
,
xfs_off_t
,
bool
);
int
xfs_bmbt_to_iomap
(
struct
xfs_inode
*
,
struct
iomap
*
,
struct
xfs_bmbt_irec
*
,
bool
shared
);
struct
xfs_bmbt_irec
*
,
u16
);
xfs_extlen_t
xfs_eof_alignment
(
struct
xfs_inode
*
ip
,
xfs_extlen_t
extsize
);
static
inline
xfs_filblks_t
...
...
fs/xfs/xfs_pnfs.c
View file @
f21bdbba
...
...
@@ -178,7 +178,7 @@ xfs_fs_map_blocks(
}
xfs_iunlock
(
ip
,
XFS_IOLOCK_EXCL
);
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
false
);
error
=
xfs_bmbt_to_iomap
(
ip
,
iomap
,
&
imap
,
0
);
*
device_generation
=
mp
->
m_generation
;
return
error
;
out_unlock:
...
...
fs/xfs/xfs_reflink.c
View file @
f21bdbba
...
...
@@ -1442,7 +1442,7 @@ xfs_reflink_dirty_extents(
flen
=
XFS_FSB_TO_B
(
mp
,
rlen
);
if
(
fpos
+
flen
>
isize
)
flen
=
isize
-
fpos
;
error
=
iomap_file_
dirty
(
VFS_I
(
ip
),
fpos
,
flen
,
error
=
iomap_file_
unshare
(
VFS_I
(
ip
),
fpos
,
flen
,
&
xfs_iomap_ops
);
xfs_ilock
(
ip
,
XFS_ILOCK_EXCL
);
if
(
error
)
...
...
fs/xfs/xfs_super.c
View file @
f21bdbba
...
...
@@ -40,7 +40,6 @@
#include <linux/parser.h>
static
const
struct
super_operations
xfs_super_operations
;
struct
bio_set
xfs_ioend_bioset
;
static
struct
kset
*
xfs_kset
;
/* top-level xfs sysfs dir */
#ifdef DEBUG
...
...
@@ -1853,15 +1852,10 @@ MODULE_ALIAS_FS("xfs");
STATIC
int
__init
xfs_init_zones
(
void
)
{
if
(
bioset_init
(
&
xfs_ioend_bioset
,
4
*
(
PAGE_SIZE
/
SECTOR_SIZE
),
offsetof
(
struct
xfs_ioend
,
io_inline_bio
),
BIOSET_NEED_BVECS
))
goto
out
;
xfs_log_ticket_zone
=
kmem_zone_init
(
sizeof
(
xlog_ticket_t
),
"xfs_log_ticket"
);
if
(
!
xfs_log_ticket_zone
)
goto
out
_free_ioend_bioset
;
goto
out
;
xfs_bmap_free_item_zone
=
kmem_zone_init
(
sizeof
(
struct
xfs_extent_free_item
),
...
...
@@ -1996,8 +1990,6 @@ xfs_init_zones(void)
kmem_zone_destroy
(
xfs_bmap_free_item_zone
);
out_destroy_log_ticket_zone:
kmem_zone_destroy
(
xfs_log_ticket_zone
);
out_free_ioend_bioset:
bioset_exit
(
&
xfs_ioend_bioset
);
out:
return
-
ENOMEM
;
}
...
...
@@ -2028,7 +2020,6 @@ xfs_destroy_zones(void)
kmem_zone_destroy
(
xfs_btree_cur_zone
);
kmem_zone_destroy
(
xfs_bmap_free_item_zone
);
kmem_zone_destroy
(
xfs_log_ticket_zone
);
bioset_exit
(
&
xfs_ioend_bioset
);
}
STATIC
int
__init
...
...
fs/xfs/xfs_trace.h
View file @
f21bdbba
...
...
@@ -1158,71 +1158,6 @@ DEFINE_RW_EVENT(xfs_file_buffered_write);
DEFINE_RW_EVENT
(
xfs_file_direct_write
);
DEFINE_RW_EVENT
(
xfs_file_dax_write
);
DECLARE_EVENT_CLASS
(
xfs_page_class
,
TP_PROTO
(
struct
inode
*
inode
,
struct
page
*
page
,
unsigned
long
off
,
unsigned
int
len
),
TP_ARGS
(
inode
,
page
,
off
,
len
),
TP_STRUCT__entry
(
__field
(
dev_t
,
dev
)
__field
(
xfs_ino_t
,
ino
)
__field
(
pgoff_t
,
pgoff
)
__field
(
loff_t
,
size
)
__field
(
unsigned
long
,
offset
)
__field
(
unsigned
int
,
length
)
),
TP_fast_assign
(
__entry
->
dev
=
inode
->
i_sb
->
s_dev
;
__entry
->
ino
=
XFS_I
(
inode
)
->
i_ino
;
__entry
->
pgoff
=
page_offset
(
page
);
__entry
->
size
=
i_size_read
(
inode
);
__entry
->
offset
=
off
;
__entry
->
length
=
len
;
),
TP_printk
(
"dev %d:%d ino 0x%llx pgoff 0x%lx size 0x%llx offset %lx "
"length %x"
,
MAJOR
(
__entry
->
dev
),
MINOR
(
__entry
->
dev
),
__entry
->
ino
,
__entry
->
pgoff
,
__entry
->
size
,
__entry
->
offset
,
__entry
->
length
)
)
#define DEFINE_PAGE_EVENT(name) \
DEFINE_EVENT(xfs_page_class, name, \
TP_PROTO(struct inode *inode, struct page *page, unsigned long off, \
unsigned int len), \
TP_ARGS(inode, page, off, len))
DEFINE_PAGE_EVENT
(
xfs_writepage
);
DEFINE_PAGE_EVENT
(
xfs_releasepage
);
DEFINE_PAGE_EVENT
(
xfs_invalidatepage
);
DECLARE_EVENT_CLASS
(
xfs_readpage_class
,
TP_PROTO
(
struct
inode
*
inode
,
int
nr_pages
),
TP_ARGS
(
inode
,
nr_pages
),
TP_STRUCT__entry
(
__field
(
dev_t
,
dev
)
__field
(
xfs_ino_t
,
ino
)
__field
(
int
,
nr_pages
)
),
TP_fast_assign
(
__entry
->
dev
=
inode
->
i_sb
->
s_dev
;
__entry
->
ino
=
inode
->
i_ino
;
__entry
->
nr_pages
=
nr_pages
;
),
TP_printk
(
"dev %d:%d ino 0x%llx nr_pages %d"
,
MAJOR
(
__entry
->
dev
),
MINOR
(
__entry
->
dev
),
__entry
->
ino
,
__entry
->
nr_pages
)
)
#define DEFINE_READPAGE_EVENT(name) \
DEFINE_EVENT(xfs_readpage_class, name, \
TP_PROTO(struct inode *inode, int nr_pages), \
TP_ARGS(inode, nr_pages))
DEFINE_READPAGE_EVENT
(
xfs_vm_readpage
);
DEFINE_READPAGE_EVENT
(
xfs_vm_readpages
);
DECLARE_EVENT_CLASS
(
xfs_imap_class
,
TP_PROTO
(
struct
xfs_inode
*
ip
,
xfs_off_t
offset
,
ssize_t
count
,
int
whichfork
,
struct
xfs_bmbt_irec
*
irec
),
...
...
include/linux/iomap.h
View file @
f21bdbba
...
...
@@ -4,6 +4,7 @@
#include <linux/atomic.h>
#include <linux/bitmap.h>
#include <linux/blk_types.h>
#include <linux/mm.h>
#include <linux/types.h>
#include <linux/mm_types.h>
...
...
@@ -12,6 +13,7 @@
struct
address_space
;
struct
fiemap_extent_info
;
struct
inode
;
struct
iomap_writepage_ctx
;
struct
iov_iter
;
struct
kiocb
;
struct
page
;
...
...
@@ -21,28 +23,45 @@ struct vm_fault;
/*
* Types of block ranges for iomap mappings:
*/
#define IOMAP_HOLE 0
x01
/* no blocks allocated, need allocation */
#define IOMAP_DELALLOC
0x02
/* delayed allocation blocks */
#define IOMAP_MAPPED
0x03
/* blocks allocated at @addr */
#define IOMAP_UNWRITTEN
0x04
/* blocks allocated at @addr in unwritten state */
#define IOMAP_INLINE
0x05
/* data inline in the inode */
#define IOMAP_HOLE 0
/* no blocks allocated, need allocation */
#define IOMAP_DELALLOC
1
/* delayed allocation blocks */
#define IOMAP_MAPPED
2
/* blocks allocated at @addr */
#define IOMAP_UNWRITTEN
3
/* blocks allocated at @addr in unwritten state */
#define IOMAP_INLINE
4
/* data inline in the inode */
/*
* Flags for all iomap mappings:
* Flags reported by the file system from iomap_begin:
*
* IOMAP_F_NEW indicates that the blocks have been newly allocated and need
* zeroing for areas that no data is copied to.
*
* IOMAP_F_DIRTY indicates the inode has uncommitted metadata needed to access
* written data and requires fdatasync to commit them to persistent storage.
* This needs to take into account metadata changes that *may* be made at IO
* completion, such as file size updates from direct IO.
*
* IOMAP_F_SHARED indicates that the blocks are shared, and will need to be
* unshared as part a write.
*
* IOMAP_F_MERGED indicates that the iomap contains the merge of multiple block
* mappings.
*
* IOMAP_F_BUFFER_HEAD indicates that the file system requires the use of
* buffer heads for this mapping.
*/
#define IOMAP_F_NEW 0x01
/* blocks have been newly allocated */
#define IOMAP_F_DIRTY 0x02
/* uncommitted metadata */
#define IOMAP_F_BUFFER_HEAD 0x04
/* file system requires buffer heads */
#define IOMAP_F_SIZE_CHANGED 0x08
/* file size has changed */
#define IOMAP_F_NEW 0x01
#define IOMAP_F_DIRTY 0x02
#define IOMAP_F_SHARED 0x04
#define IOMAP_F_MERGED 0x08
#define IOMAP_F_BUFFER_HEAD 0x10
/*
* Flags that only need to be reported for IOMAP_REPORT requests:
* Flags set by the core iomap code during operations:
*
* IOMAP_F_SIZE_CHANGED indicates to the iomap_end method that the file size
* has changed as the result of this write operation.
*/
#define IOMAP_F_MERGED 0x10
/* contains multiple blocks/extents */
#define IOMAP_F_SHARED 0x20
/* block shared with another file */
#define IOMAP_F_SIZE_CHANGED 0x100
/*
* Flags from 0x1000 up are for file system specific usage:
...
...
@@ -110,7 +129,8 @@ struct iomap_ops {
* The actual length is returned in iomap->length.
*/
int
(
*
iomap_begin
)(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
unsigned
flags
,
struct
iomap
*
iomap
);
unsigned
flags
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
);
/*
* Commit and/or unreserve space previous allocated using iomap_begin.
...
...
@@ -126,29 +146,12 @@ struct iomap_ops {
* Main iomap iterator function.
*/
typedef
loff_t
(
*
iomap_actor_t
)(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
len
,
void
*
data
,
struct
iomap
*
iomap
);
void
*
data
,
struct
iomap
*
iomap
,
struct
iomap
*
srcmap
);
loff_t
iomap_apply
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
length
,
unsigned
flags
,
const
struct
iomap_ops
*
ops
,
void
*
data
,
iomap_actor_t
actor
);
/*
* Structure allocate for each page when block size < PAGE_SIZE to track
* sub-page uptodate status and I/O completions.
*/
struct
iomap_page
{
atomic_t
read_count
;
atomic_t
write_count
;
DECLARE_BITMAP
(
uptodate
,
PAGE_SIZE
/
512
);
};
static
inline
struct
iomap_page
*
to_iomap_page
(
struct
page
*
page
)
{
if
(
page_has_private
(
page
))
return
(
struct
iomap_page
*
)
page_private
(
page
);
return
NULL
;
}
ssize_t
iomap_file_buffered_write
(
struct
kiocb
*
iocb
,
struct
iov_iter
*
from
,
const
struct
iomap_ops
*
ops
);
int
iomap_readpage
(
struct
page
*
page
,
const
struct
iomap_ops
*
ops
);
...
...
@@ -166,7 +169,7 @@ int iomap_migrate_page(struct address_space *mapping, struct page *newpage,
#else
#define iomap_migrate_page NULL
#endif
int
iomap_file_
dirty
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
len
,
int
iomap_file_
unshare
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
len
,
const
struct
iomap_ops
*
ops
);
int
iomap_zero_range
(
struct
inode
*
inode
,
loff_t
pos
,
loff_t
len
,
bool
*
did_zero
,
const
struct
iomap_ops
*
ops
);
...
...
@@ -183,6 +186,63 @@ loff_t iomap_seek_data(struct inode *inode, loff_t offset,
sector_t
iomap_bmap
(
struct
address_space
*
mapping
,
sector_t
bno
,
const
struct
iomap_ops
*
ops
);
/*
* Structure for writeback I/O completions.
*/
struct
iomap_ioend
{
struct
list_head
io_list
;
/* next ioend in chain */
u16
io_type
;
u16
io_flags
;
/* IOMAP_F_* */
struct
inode
*
io_inode
;
/* file being written to */
size_t
io_size
;
/* size of the extent */
loff_t
io_offset
;
/* offset in the file */
void
*
io_private
;
/* file system private data */
struct
bio
*
io_bio
;
/* bio being built */
struct
bio
io_inline_bio
;
/* MUST BE LAST! */
};
struct
iomap_writeback_ops
{
/*
* Required, maps the blocks so that writeback can be performed on
* the range starting at offset.
*/
int
(
*
map_blocks
)(
struct
iomap_writepage_ctx
*
wpc
,
struct
inode
*
inode
,
loff_t
offset
);
/*
* Optional, allows the file systems to perform actions just before
* submitting the bio and/or override the bio end_io handler for complex
* operations like copy on write extent manipulation or unwritten extent
* conversions.
*/
int
(
*
prepare_ioend
)(
struct
iomap_ioend
*
ioend
,
int
status
);
/*
* Optional, allows the file system to discard state on a page where
* we failed to submit any I/O.
*/
void
(
*
discard_page
)(
struct
page
*
page
);
};
struct
iomap_writepage_ctx
{
struct
iomap
iomap
;
struct
iomap_ioend
*
ioend
;
const
struct
iomap_writeback_ops
*
ops
;
};
void
iomap_finish_ioends
(
struct
iomap_ioend
*
ioend
,
int
error
);
void
iomap_ioend_try_merge
(
struct
iomap_ioend
*
ioend
,
struct
list_head
*
more_ioends
,
void
(
*
merge_private
)(
struct
iomap_ioend
*
ioend
,
struct
iomap_ioend
*
next
));
void
iomap_sort_ioends
(
struct
list_head
*
ioend_list
);
int
iomap_writepage
(
struct
page
*
page
,
struct
writeback_control
*
wbc
,
struct
iomap_writepage_ctx
*
wpc
,
const
struct
iomap_writeback_ops
*
ops
);
int
iomap_writepages
(
struct
address_space
*
mapping
,
struct
writeback_control
*
wbc
,
struct
iomap_writepage_ctx
*
wpc
,
const
struct
iomap_writeback_ops
*
ops
);
/*
* Flags for direct I/O ->end_io:
*/
...
...
@@ -195,7 +255,8 @@ struct iomap_dio_ops {
};
ssize_t
iomap_dio_rw
(
struct
kiocb
*
iocb
,
struct
iov_iter
*
iter
,
const
struct
iomap_ops
*
ops
,
const
struct
iomap_dio_ops
*
dops
);
const
struct
iomap_ops
*
ops
,
const
struct
iomap_dio_ops
*
dops
,
bool
wait_for_completion
);
int
iomap_dio_iopoll
(
struct
kiocb
*
kiocb
,
bool
spin
);
#ifdef CONFIG_SWAP
...
...
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