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nexedi
MariaDB
Commits
ab70ed5e
Commit
ab70ed5e
authored
Dec 01, 2006
by
istruewing@chilla.local
Browse files
Options
Browse Files
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Plain Diff
Merge bk-internal.mysql.com:/home/bk/mysql-4.1
into chilla.local:/home/mydev/mysql-4.1-axmrg
parents
99444d72
0c273a79
Changes
4
Hide whitespace changes
Inline
Side-by-side
Showing
4 changed files
with
406 additions
and
60 deletions
+406
-60
myisam/mi_check.c
myisam/mi_check.c
+73
-17
myisam/mi_dynrec.c
myisam/mi_dynrec.c
+5
-3
myisam/mi_packrec.c
myisam/mi_packrec.c
+328
-37
sql/sql_insert.cc
sql/sql_insert.cc
+0
-3
No files found.
myisam/mi_check.c
View file @
ab70ed5e
...
@@ -251,11 +251,12 @@ static int check_k_link(MI_CHECK *param, register MI_INFO *info, uint nr)
...
@@ -251,11 +251,12 @@ static int check_k_link(MI_CHECK *param, register MI_INFO *info, uint nr)
my_off_t
next_link
;
my_off_t
next_link
;
uint
block_size
=
(
nr
+
1
)
*
MI_MIN_KEY_BLOCK_LENGTH
;
uint
block_size
=
(
nr
+
1
)
*
MI_MIN_KEY_BLOCK_LENGTH
;
ha_rows
records
;
ha_rows
records
;
char
llbuff
[
21
],
*
buff
;
char
llbuff
[
21
],
llbuff2
[
21
],
*
buff
;
DBUG_ENTER
(
"check_k_link"
);
DBUG_ENTER
(
"check_k_link"
);
DBUG_PRINT
(
"enter"
,
(
"block_size: %u"
,
block_size
));
if
(
param
->
testflag
&
T_VERBOSE
)
if
(
param
->
testflag
&
T_VERBOSE
)
printf
(
"block_size %4
d:"
,
block_size
);
printf
(
"block_size %4
u:"
,
block_size
);
/* purecov: tested */
next_link
=
info
->
s
->
state
.
key_del
[
nr
];
next_link
=
info
->
s
->
state
.
key_del
[
nr
];
records
=
(
ha_rows
)
(
info
->
state
->
key_file_length
/
block_size
);
records
=
(
ha_rows
)
(
info
->
state
->
key_file_length
/
block_size
);
...
@@ -265,14 +266,46 @@ static int check_k_link(MI_CHECK *param, register MI_INFO *info, uint nr)
...
@@ -265,14 +266,46 @@ static int check_k_link(MI_CHECK *param, register MI_INFO *info, uint nr)
DBUG_RETURN
(
1
);
DBUG_RETURN
(
1
);
if
(
param
->
testflag
&
T_VERBOSE
)
if
(
param
->
testflag
&
T_VERBOSE
)
printf
(
"%16s"
,
llstr
(
next_link
,
llbuff
));
printf
(
"%16s"
,
llstr
(
next_link
,
llbuff
));
if
(
next_link
>
info
->
state
->
key_file_length
||
next_link
&
(
info
->
s
->
blocksize
-
1
))
/* Key blocks must lay within the key file length entirely. */
if
(
next_link
+
block_size
>
info
->
state
->
key_file_length
)
{
/* purecov: begin tested */
mi_check_print_error
(
param
,
"Invalid key block position: %s "
"key block size: %u file_length: %s"
,
llstr
(
next_link
,
llbuff
),
block_size
,
llstr
(
info
->
state
->
key_file_length
,
llbuff2
));
DBUG_RETURN
(
1
);
/* purecov: end */
}
/* Key blocks must be aligned at MI_MIN_KEY_BLOCK_LENGTH. */
if
(
next_link
&
(
MI_MIN_KEY_BLOCK_LENGTH
-
1
))
{
/* purecov: begin tested */
mi_check_print_error
(
param
,
"Mis-aligned key block: %s "
"minimum key block length: %u"
,
llstr
(
next_link
,
llbuff
),
MI_MIN_KEY_BLOCK_LENGTH
);
DBUG_RETURN
(
1
);
DBUG_RETURN
(
1
);
/* purecov: end */
}
/*
Read the key block with MI_MIN_KEY_BLOCK_LENGTH to find next link.
If the key cache block size is smaller than block_size, we can so
avoid unecessary eviction of cache block.
*/
if
(
!
(
buff
=
key_cache_read
(
info
->
s
->
key_cache
,
if
(
!
(
buff
=
key_cache_read
(
info
->
s
->
key_cache
,
info
->
s
->
kfile
,
next_link
,
DFLT_INIT_HITS
,
info
->
s
->
kfile
,
next_link
,
DFLT_INIT_HITS
,
(
byte
*
)
info
->
buff
,
(
byte
*
)
info
->
buff
,
MI_MIN_KEY_BLOCK_LENGTH
,
myisam_block_size
,
block_size
,
1
)))
MI_MIN_KEY_BLOCK_LENGTH
,
1
)))
{
/* purecov: begin tested */
mi_check_print_error
(
param
,
"key cache read error for block: %s"
,
llstr
(
next_link
,
llbuff
));
DBUG_RETURN
(
1
);
DBUG_RETURN
(
1
);
/* purecov: end */
}
next_link
=
mi_sizekorr
(
buff
);
next_link
=
mi_sizekorr
(
buff
);
records
--
;
records
--
;
param
->
key_file_blocks
+=
block_size
;
param
->
key_file_blocks
+=
block_size
;
...
@@ -555,17 +588,37 @@ static int chk_index_down(MI_CHECK *param, MI_INFO *info, MI_KEYDEF *keyinfo,
...
@@ -555,17 +588,37 @@ static int chk_index_down(MI_CHECK *param, MI_INFO *info, MI_KEYDEF *keyinfo,
ha_checksum
*
key_checksum
,
uint
level
)
ha_checksum
*
key_checksum
,
uint
level
)
{
{
char
llbuff
[
22
],
llbuff2
[
22
];
char
llbuff
[
22
],
llbuff2
[
22
];
if
(
page
>
info
->
state
->
key_file_length
||
(
page
&
(
info
->
s
->
blocksize
-
1
)))
DBUG_ENTER
(
"chk_index_down"
);
{
my_off_t
max_length
=
my_seek
(
info
->
s
->
kfile
,
0L
,
MY_SEEK_END
,
MYF
(
0
));
/* Key blocks must lay within the key file length entirely. */
mi_check_print_error
(
param
,
"Wrong pagepointer: %s at page: %s"
,
if
(
page
+
keyinfo
->
block_length
>
info
->
state
->
key_file_length
)
llstr
(
page
,
llbuff
),
llstr
(
page
,
llbuff2
));
{
/* purecov: begin tested */
if
(
page
+
info
->
s
->
blocksize
>
max_length
)
/* Give it a chance to fit in the real file size. */
my_off_t
max_length
=
my_seek
(
info
->
s
->
kfile
,
0L
,
MY_SEEK_END
,
MYF
(
0
));
mi_check_print_error
(
param
,
"Invalid key block position: %s "
"key block size: %u file_length: %s"
,
llstr
(
page
,
llbuff
),
keyinfo
->
block_length
,
llstr
(
info
->
state
->
key_file_length
,
llbuff2
));
if
(
page
+
keyinfo
->
block_length
>
max_length
)
goto
err
;
goto
err
;
info
->
state
->
key_file_length
=
(
max_length
&
/* Fix the remebered key file length. */
~
(
my_off_t
)
(
info
->
s
->
blocksize
-
1
));
info
->
state
->
key_file_length
=
(
max_length
&
~
(
my_off_t
)
(
keyinfo
->
block_length
-
1
));
/* purecov: end */
}
/* Key blocks must be aligned at MI_MIN_KEY_BLOCK_LENGTH. */
if
(
page
&
(
MI_MIN_KEY_BLOCK_LENGTH
-
1
))
{
/* purecov: begin tested */
mi_check_print_error
(
param
,
"Mis-aligned key block: %s "
"minimum key block length: %u"
,
llstr
(
page
,
llbuff
),
MI_MIN_KEY_BLOCK_LENGTH
);
goto
err
;
/* purecov: end */
}
}
if
(
!
_mi_fetch_keypage
(
info
,
keyinfo
,
page
,
DFLT_INIT_HITS
,
buff
,
0
))
if
(
!
_mi_fetch_keypage
(
info
,
keyinfo
,
page
,
DFLT_INIT_HITS
,
buff
,
0
))
{
{
mi_check_print_error
(
param
,
"Can't read key from filepos: %s"
,
mi_check_print_error
(
param
,
"Can't read key from filepos: %s"
,
...
@@ -576,9 +629,12 @@ static int chk_index_down(MI_CHECK *param, MI_INFO *info, MI_KEYDEF *keyinfo,
...
@@ -576,9 +629,12 @@ static int chk_index_down(MI_CHECK *param, MI_INFO *info, MI_KEYDEF *keyinfo,
if
(
chk_index
(
param
,
info
,
keyinfo
,
page
,
buff
,
keys
,
key_checksum
,
level
))
if
(
chk_index
(
param
,
info
,
keyinfo
,
page
,
buff
,
keys
,
key_checksum
,
level
))
goto
err
;
goto
err
;
return
0
;
DBUG_RETURN
(
0
);
/* purecov: begin tested */
err:
err:
return
1
;
DBUG_RETURN
(
1
);
/* purecov: end */
}
}
...
...
myisam/mi_dynrec.c
View file @
ab70ed5e
...
@@ -992,9 +992,11 @@ ulong _mi_rec_unpack(register MI_INFO *info, register byte *to, byte *from,
...
@@ -992,9 +992,11 @@ ulong _mi_rec_unpack(register MI_INFO *info, register byte *to, byte *from,
{
{
uint
size_length
=
rec_length
-
mi_portable_sizeof_char_ptr
;
uint
size_length
=
rec_length
-
mi_portable_sizeof_char_ptr
;
ulong
blob_length
=
_mi_calc_blob_length
(
size_length
,
from
);
ulong
blob_length
=
_mi_calc_blob_length
(
size_length
,
from
);
if
((
ulong
)
(
from_end
-
from
)
-
size_length
<
blob_length
||
ulong
from_left
=
(
ulong
)
(
from_end
-
from
);
min_pack_length
>
(
uint
)
(
from_end
-
(
from
+
size_length
+
blob_length
)))
if
(
from_left
<
size_length
||
goto
err
;
from_left
-
size_length
<
blob_length
||
from_left
-
size_length
-
blob_length
<
min_pack_length
)
goto
err
;
memcpy
((
byte
*
)
to
,(
byte
*
)
from
,(
size_t
)
size_length
);
memcpy
((
byte
*
)
to
,(
byte
*
)
from
,(
size_t
)
size_length
);
from
+=
size_length
;
from
+=
size_length
;
memcpy_fixed
((
byte
*
)
to
+
size_length
,(
byte
*
)
&
from
,
sizeof
(
char
*
));
memcpy_fixed
((
byte
*
)
to
+
size_length
,(
byte
*
)
&
from
,
sizeof
(
char
*
));
...
...
myisam/mi_packrec.c
View file @
ab70ed5e
...
@@ -20,7 +20,10 @@
...
@@ -20,7 +20,10 @@
#define IS_CHAR ((uint) 32768)
/* Bit if char (not offset) in tree */
#define IS_CHAR ((uint) 32768)
/* Bit if char (not offset) in tree */
#if INT_MAX > 65536L
/* Some definitions to keep in sync with myisampack.c */
#define HEAD_LENGTH 32
/* Length of fixed header */
#if INT_MAX > 32767
#define BITS_SAVED 32
#define BITS_SAVED 32
#define MAX_QUICK_TABLE_BITS 9
/* Because we may shift in 24 bits */
#define MAX_QUICK_TABLE_BITS 9
/* Because we may shift in 24 bits */
#else
#else
...
@@ -42,6 +45,7 @@
...
@@ -42,6 +45,7 @@
{ bits-=(bit+1); break; } \
{ bits-=(bit+1); break; } \
pos+= *pos
pos+= *pos
/* Size in uint16 of a Huffman tree for byte compression of 256 byte values. */
#define OFFSET_TABLE_SIZE 512
#define OFFSET_TABLE_SIZE 512
static
uint
read_huff_table
(
MI_BIT_BUFF
*
bit_buff
,
MI_DECODE_TREE
*
decode_tree
,
static
uint
read_huff_table
(
MI_BIT_BUFF
*
bit_buff
,
MI_DECODE_TREE
*
decode_tree
,
...
@@ -132,7 +136,7 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
...
@@ -132,7 +136,7 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
uint16
*
decode_table
,
*
tmp_buff
;
uint16
*
decode_table
,
*
tmp_buff
;
ulong
elements
,
intervall_length
;
ulong
elements
,
intervall_length
;
char
*
disk_cache
,
*
intervall_buff
;
char
*
disk_cache
,
*
intervall_buff
;
uchar
header
[
32
];
uchar
header
[
HEAD_LENGTH
];
MYISAM_SHARE
*
share
=
info
->
s
;
MYISAM_SHARE
*
share
=
info
->
s
;
MI_BIT_BUFF
bit_buff
;
MI_BIT_BUFF
bit_buff
;
DBUG_ENTER
(
"_mi_read_pack_info"
);
DBUG_ENTER
(
"_mi_read_pack_info"
);
...
@@ -150,12 +154,13 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
...
@@ -150,12 +154,13 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
my_errno
=
HA_ERR_END_OF_FILE
;
my_errno
=
HA_ERR_END_OF_FILE
;
goto
err0
;
goto
err0
;
}
}
/* Only the first three bytes of magic number are independent of version. */
if
(
memcmp
((
byte
*
)
header
,
(
byte
*
)
myisam_pack_file_magic
,
3
))
if
(
memcmp
((
byte
*
)
header
,
(
byte
*
)
myisam_pack_file_magic
,
3
))
{
{
my_errno
=
HA_ERR_WRONG_IN_RECORD
;
my_errno
=
HA_ERR_WRONG_IN_RECORD
;
goto
err0
;
goto
err0
;
}
}
share
->
pack
.
version
=
header
[
3
];
share
->
pack
.
version
=
header
[
3
];
/* fourth byte of magic number */
share
->
pack
.
header_length
=
uint4korr
(
header
+
4
);
share
->
pack
.
header_length
=
uint4korr
(
header
+
4
);
share
->
min_pack_length
=
(
uint
)
uint4korr
(
header
+
8
);
share
->
min_pack_length
=
(
uint
)
uint4korr
(
header
+
8
);
share
->
max_pack_length
=
(
uint
)
uint4korr
(
header
+
12
);
share
->
max_pack_length
=
(
uint
)
uint4korr
(
header
+
12
);
...
@@ -171,7 +176,22 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
...
@@ -171,7 +176,22 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
share
->
base
.
min_block_length
=
share
->
min_pack_length
+
1
;
share
->
base
.
min_block_length
=
share
->
min_pack_length
+
1
;
if
(
share
->
min_pack_length
>
254
)
if
(
share
->
min_pack_length
>
254
)
share
->
base
.
min_block_length
+=
2
;
share
->
base
.
min_block_length
+=
2
;
DBUG_PRINT
(
"info"
,
(
"fixed header length: %u"
,
HEAD_LENGTH
));
DBUG_PRINT
(
"info"
,
(
"total header length: %u"
,
share
->
pack
.
header_length
));
DBUG_PRINT
(
"info"
,
(
"pack file version: %u"
,
share
->
pack
.
version
));
DBUG_PRINT
(
"info"
,
(
"min pack length: %u"
,
share
->
min_pack_length
));
DBUG_PRINT
(
"info"
,
(
"max pack length: %u"
,
share
->
max_pack_length
));
DBUG_PRINT
(
"info"
,
(
"elements of all trees: %u"
,
elements
));
DBUG_PRINT
(
"info"
,
(
"distinct values bytes: %u"
,
intervall_length
));
DBUG_PRINT
(
"info"
,
(
"number of code trees: %u"
,
trees
));
DBUG_PRINT
(
"info"
,
(
"bytes for record lgt: %u"
,
share
->
pack
.
ref_length
));
DBUG_PRINT
(
"info"
,
(
"record pointer length: %u"
,
rec_reflength
));
/*
Memory segment #1:
- Decode tree heads
- Distinct column values
*/
if
(
!
(
share
->
decode_trees
=
(
MI_DECODE_TREE
*
)
if
(
!
(
share
->
decode_trees
=
(
MI_DECODE_TREE
*
)
my_malloc
((
uint
)
(
trees
*
sizeof
(
MI_DECODE_TREE
)
+
my_malloc
((
uint
)
(
trees
*
sizeof
(
MI_DECODE_TREE
)
+
intervall_length
*
sizeof
(
byte
)),
intervall_length
*
sizeof
(
byte
)),
...
@@ -179,11 +199,19 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
...
@@ -179,11 +199,19 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
goto
err0
;
goto
err0
;
intervall_buff
=
(
byte
*
)
(
share
->
decode_trees
+
trees
);
intervall_buff
=
(
byte
*
)
(
share
->
decode_trees
+
trees
);
/*
Memory segment #2:
- Decode tables
- Quick decode tables
- Temporary decode table
- Compressed data file header cache
This segment will be reallocated after construction of the tables.
*/
length
=
(
uint
)
(
elements
*
2
+
trees
*
(
1
<<
myisam_quick_table_bits
));
length
=
(
uint
)
(
elements
*
2
+
trees
*
(
1
<<
myisam_quick_table_bits
));
if
(
!
(
share
->
decode_tables
=
(
uint16
*
)
if
(
!
(
share
->
decode_tables
=
(
uint16
*
)
my_malloc
((
length
+
OFFSET_TABLE_SIZE
)
*
sizeof
(
uint16
)
+
my_malloc
((
length
+
OFFSET_TABLE_SIZE
)
*
sizeof
(
uint16
)
+
(
uint
)
(
share
->
pack
.
header_length
+
7
),
(
uint
)
(
share
->
pack
.
header_length
-
sizeof
(
header
)
),
MYF
(
MY_WME
|
MY_ZEROFILL
))))
MYF
(
MY_WME
|
MY_ZEROFILL
))))
goto
err1
;
goto
err1
;
tmp_buff
=
share
->
decode_tables
+
length
;
tmp_buff
=
share
->
decode_tables
+
length
;
disk_cache
=
(
byte
*
)
(
tmp_buff
+
OFFSET_TABLE_SIZE
);
disk_cache
=
(
byte
*
)
(
tmp_buff
+
OFFSET_TABLE_SIZE
);
...
@@ -196,7 +224,7 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
...
@@ -196,7 +224,7 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
huff_tree_bits
=
max_bit
(
trees
?
trees
-
1
:
0
);
huff_tree_bits
=
max_bit
(
trees
?
trees
-
1
:
0
);
init_bit_buffer
(
&
bit_buff
,
(
uchar
*
)
disk_cache
,
init_bit_buffer
(
&
bit_buff
,
(
uchar
*
)
disk_cache
,
(
uint
)
(
share
->
pack
.
header_length
-
sizeof
(
header
)));
(
uint
)
(
share
->
pack
.
header_length
-
sizeof
(
header
)));
/* Read new info for each field */
/* Read new info for each field */
for
(
i
=
0
;
i
<
share
->
base
.
fields
;
i
++
)
for
(
i
=
0
;
i
<
share
->
base
.
fields
;
i
++
)
{
{
share
->
rec
[
i
].
base_type
=
(
enum
en_fieldtype
)
get_bits
(
&
bit_buff
,
5
);
share
->
rec
[
i
].
base_type
=
(
enum
en_fieldtype
)
get_bits
(
&
bit_buff
,
5
);
...
@@ -205,17 +233,26 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
...
@@ -205,17 +233,26 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
share
->
rec
[
i
].
huff_tree
=
share
->
decode_trees
+
(
uint
)
get_bits
(
&
bit_buff
,
share
->
rec
[
i
].
huff_tree
=
share
->
decode_trees
+
(
uint
)
get_bits
(
&
bit_buff
,
huff_tree_bits
);
huff_tree_bits
);
share
->
rec
[
i
].
unpack
=
get_unpack_function
(
share
->
rec
+
i
);
share
->
rec
[
i
].
unpack
=
get_unpack_function
(
share
->
rec
+
i
);
DBUG_PRINT
(
"info"
,
(
"col: %2u type: %2u pack: %u slbits: %2u"
,
i
,
share
->
rec
[
i
].
base_type
,
share
->
rec
[
i
].
pack_type
,
share
->
rec
[
i
].
space_length_bits
));
}
}
skip_to_next_byte
(
&
bit_buff
);
skip_to_next_byte
(
&
bit_buff
);
/*
Construct the decoding tables from the file header. Keep track of
the used memory.
*/
decode_table
=
share
->
decode_tables
;
decode_table
=
share
->
decode_tables
;
for
(
i
=
0
;
i
<
trees
;
i
++
)
for
(
i
=
0
;
i
<
trees
;
i
++
)
if
(
read_huff_table
(
&
bit_buff
,
share
->
decode_trees
+
i
,
&
decode_table
,
if
(
read_huff_table
(
&
bit_buff
,
share
->
decode_trees
+
i
,
&
decode_table
,
&
intervall_buff
,
tmp_buff
))
&
intervall_buff
,
tmp_buff
))
goto
err3
;
goto
err3
;
/* Reallocate the decoding tables to the used size. */
decode_table
=
(
uint16
*
)
decode_table
=
(
uint16
*
)
my_realloc
((
gptr
)
share
->
decode_tables
,
my_realloc
((
gptr
)
share
->
decode_tables
,
(
uint
)
((
byte
*
)
decode_table
-
(
byte
*
)
share
->
decode_tables
),
(
uint
)
((
byte
*
)
decode_table
-
(
byte
*
)
share
->
decode_tables
),
MYF
(
MY_HOLD_ON_ERROR
));
MYF
(
MY_HOLD_ON_ERROR
));
/* Fix the table addresses in the tree heads. */
{
{
long
diff
=
PTR_BYTE_DIFF
(
decode_table
,
share
->
decode_tables
);
long
diff
=
PTR_BYTE_DIFF
(
decode_table
,
share
->
decode_tables
);
share
->
decode_tables
=
decode_table
;
share
->
decode_tables
=
decode_table
;
...
@@ -224,7 +261,7 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
...
@@ -224,7 +261,7 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
diff
,
uint16
*
);
diff
,
uint16
*
);
}
}
/* Fix record-ref-length for keys */
/* Fix record-ref-length for keys */
if
(
fix_keys
)
if
(
fix_keys
)
{
{
for
(
i
=
0
;
i
<
share
->
base
.
keys
;
i
++
)
for
(
i
=
0
;
i
<
share
->
base
.
keys
;
i
++
)
...
@@ -261,7 +298,23 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
...
@@ -261,7 +298,23 @@ my_bool _mi_read_pack_info(MI_INFO *info, pbool fix_keys)
}
}
/* Read on huff-code-table from datafile */
/*
Read a huff-code-table from datafile.
SYNOPSIS
read_huff_table()
bit_buff Bit buffer pointing at start of the
decoding table in the file header cache.
decode_tree Pointer to the decode tree head.
decode_table IN/OUT Address of a pointer to the next free space.
intervall_buff IN/OUT Address of a pointer to the next unused values.
tmp_buff Buffer for temporary extraction of a full
decoding table as read from bit_buff.
RETURN
0 OK.
1 Error.
*/
static
uint
read_huff_table
(
MI_BIT_BUFF
*
bit_buff
,
MI_DECODE_TREE
*
decode_tree
,
static
uint
read_huff_table
(
MI_BIT_BUFF
*
bit_buff
,
MI_DECODE_TREE
*
decode_tree
,
uint16
**
decode_table
,
byte
**
intervall_buff
,
uint16
**
decode_table
,
byte
**
intervall_buff
,
...
@@ -270,19 +323,32 @@ static uint read_huff_table(MI_BIT_BUFF *bit_buff, MI_DECODE_TREE *decode_tree,
...
@@ -270,19 +323,32 @@ static uint read_huff_table(MI_BIT_BUFF *bit_buff, MI_DECODE_TREE *decode_tree,
uint
min_chr
,
elements
,
char_bits
,
offset_bits
,
size
,
intervall_length
,
table_bits
,
uint
min_chr
,
elements
,
char_bits
,
offset_bits
,
size
,
intervall_length
,
table_bits
,
next_free_offset
;
next_free_offset
;
uint16
*
ptr
,
*
end
;
uint16
*
ptr
,
*
end
;
DBUG_ENTER
(
"read_huff_table"
);
LINT_INIT
(
ptr
);
if
(
!
get_bits
(
bit_buff
,
1
))
if
(
!
get_bits
(
bit_buff
,
1
))
{
{
/* Byte value compression. */
min_chr
=
get_bits
(
bit_buff
,
8
);
min_chr
=
get_bits
(
bit_buff
,
8
);
elements
=
get_bits
(
bit_buff
,
9
);
elements
=
get_bits
(
bit_buff
,
9
);
char_bits
=
get_bits
(
bit_buff
,
5
);
char_bits
=
get_bits
(
bit_buff
,
5
);
offset_bits
=
get_bits
(
bit_buff
,
5
);
offset_bits
=
get_bits
(
bit_buff
,
5
);
intervall_length
=
0
;
intervall_length
=
0
;
ptr
=
tmp_buff
;
ptr
=
tmp_buff
;
DBUG_PRINT
(
"info"
,
(
"byte value compression"
));
DBUG_PRINT
(
"info"
,
(
"minimum byte value: %u"
,
min_chr
));
DBUG_PRINT
(
"info"
,
(
"number of tree nodes: %u"
,
elements
));
DBUG_PRINT
(
"info"
,
(
"bits for values: %u"
,
char_bits
));
DBUG_PRINT
(
"info"
,
(
"bits for tree offsets: %u"
,
offset_bits
));
if
(
elements
>
256
)
{
DBUG_PRINT
(
"error"
,
(
"ERROR: illegal number of tree elements: %u"
,
elements
));
DBUG_RETURN
(
1
);
}
}
}
else
else
{
{
/* Distinct column value compression. */
min_chr
=
0
;
min_chr
=
0
;
elements
=
get_bits
(
bit_buff
,
15
);
elements
=
get_bits
(
bit_buff
,
15
);
intervall_length
=
get_bits
(
bit_buff
,
16
);
intervall_length
=
get_bits
(
bit_buff
,
16
);
...
@@ -290,13 +356,27 @@ static uint read_huff_table(MI_BIT_BUFF *bit_buff, MI_DECODE_TREE *decode_tree,
...
@@ -290,13 +356,27 @@ static uint read_huff_table(MI_BIT_BUFF *bit_buff, MI_DECODE_TREE *decode_tree,
offset_bits
=
get_bits
(
bit_buff
,
5
);
offset_bits
=
get_bits
(
bit_buff
,
5
);
decode_tree
->
quick_table_bits
=
0
;
decode_tree
->
quick_table_bits
=
0
;
ptr
=
*
decode_table
;
ptr
=
*
decode_table
;
DBUG_PRINT
(
"info"
,
(
"distinct column value compression"
));
DBUG_PRINT
(
"info"
,
(
"number of tree nodes: %u"
,
elements
));
DBUG_PRINT
(
"info"
,
(
"value buffer length: %u"
,
intervall_length
));
DBUG_PRINT
(
"info"
,
(
"bits for value index: %u"
,
char_bits
));
DBUG_PRINT
(
"info"
,
(
"bits for tree offsets: %u"
,
offset_bits
));
}
}
size
=
elements
*
2
-
2
;
size
=
elements
*
2
-
2
;
DBUG_PRINT
(
"info"
,
(
"tree size in uint16: %u"
,
size
));
DBUG_PRINT
(
"info"
,
(
"tree size in bytes: %u"
,
size
*
sizeof
(
uint16
)));
for
(
end
=
ptr
+
size
;
ptr
<
end
;
ptr
++
)
for
(
end
=
ptr
+
size
;
ptr
<
end
;
ptr
++
)
{
{
if
(
get_bit
(
bit_buff
))
if
(
get_bit
(
bit_buff
))
{
*
ptr
=
(
uint16
)
get_bits
(
bit_buff
,
offset_bits
);
*
ptr
=
(
uint16
)
get_bits
(
bit_buff
,
offset_bits
);
if
((
ptr
+
*
ptr
>=
end
)
||
!*
ptr
)
{
DBUG_PRINT
(
"error"
,
(
"ERROR: illegal pointer in decode tree"
));
DBUG_RETURN
(
1
);
}
}
else
else
*
ptr
=
(
uint16
)
(
IS_CHAR
+
(
get_bits
(
bit_buff
,
char_bits
)
+
min_chr
));
*
ptr
=
(
uint16
)
(
IS_CHAR
+
(
get_bits
(
bit_buff
,
char_bits
)
+
min_chr
));
}
}
...
@@ -306,11 +386,15 @@ static uint read_huff_table(MI_BIT_BUFF *bit_buff, MI_DECODE_TREE *decode_tree,
...
@@ -306,11 +386,15 @@ static uint read_huff_table(MI_BIT_BUFF *bit_buff, MI_DECODE_TREE *decode_tree,
decode_tree
->
intervalls
=
*
intervall_buff
;
decode_tree
->
intervalls
=
*
intervall_buff
;
if
(
!
intervall_length
)
if
(
!
intervall_length
)
{
{
table_bits
=
find_longest_bitstream
(
tmp_buff
,
tmp_buff
+
OFFSET_TABLE_SIZE
);
/* Byte value compression. ptr started from tmp_buff. */
if
(
table_bits
==
(
uint
)
~
0
)
/* Find longest Huffman code from begin to end of tree in bits. */
return
1
;
table_bits
=
find_longest_bitstream
(
tmp_buff
,
ptr
);
if
(
table_bits
>=
OFFSET_TABLE_SIZE
)
DBUG_RETURN
(
1
);
if
(
table_bits
>
myisam_quick_table_bits
)
if
(
table_bits
>
myisam_quick_table_bits
)
table_bits
=
myisam_quick_table_bits
;
table_bits
=
myisam_quick_table_bits
;
DBUG_PRINT
(
"info"
,
(
"table bits: %u"
,
table_bits
));
next_free_offset
=
(
1
<<
table_bits
);
next_free_offset
=
(
1
<<
table_bits
);
make_quick_table
(
*
decode_table
,
tmp_buff
,
&
next_free_offset
,
0
,
table_bits
,
make_quick_table
(
*
decode_table
,
tmp_buff
,
&
next_free_offset
,
0
,
table_bits
,
table_bits
);
table_bits
);
...
@@ -319,105 +403,279 @@ static uint read_huff_table(MI_BIT_BUFF *bit_buff, MI_DECODE_TREE *decode_tree,
...
@@ -319,105 +403,279 @@ static uint read_huff_table(MI_BIT_BUFF *bit_buff, MI_DECODE_TREE *decode_tree,
}
}
else
else
{
{
/* Distinct column value compression. ptr started from *decode_table */
(
*
decode_table
)
=
end
;
(
*
decode_table
)
=
end
;
/*
get_bits() moves some bytes to a cache buffer in advance. May need
to step back.
*/
bit_buff
->
pos
-=
bit_buff
->
bits
/
8
;
bit_buff
->
pos
-=
bit_buff
->
bits
/
8
;
/* Copy the distinct column values from the buffer. */
memcpy
(
*
intervall_buff
,
bit_buff
->
pos
,(
size_t
)
intervall_length
);
memcpy
(
*
intervall_buff
,
bit_buff
->
pos
,(
size_t
)
intervall_length
);
(
*
intervall_buff
)
+=
intervall_length
;
(
*
intervall_buff
)
+=
intervall_length
;
bit_buff
->
pos
+=
intervall_length
;
bit_buff
->
pos
+=
intervall_length
;
bit_buff
->
bits
=
0
;
bit_buff
->
bits
=
0
;
}
}
return
0
;
DBUG_RETURN
(
0
)
;
}
}
/*
Make a quick_table for faster decoding.
SYNOPSIS
make_quick_table()
to_table Target quick_table and remaining decode table.
decode_table Source Huffman (sub-)tree within tmp_buff.
next_free_offset IN/OUT Next free offset from to_table.
Starts behind quick_table on the top-level.
value Huffman bits found so far.
bits Remaining bits to be collected.
max_bits Total number of bits to collect (table_bits).
DESCRIPTION
The quick table is an array of 16-bit values. There exists one value
for each possible code representable by max_bits (table_bits) bits.
In most cases table_bits is 9. So there are 512 16-bit values.
If the high-order bit (16) is set (IS_CHAR) then the array slot for
this value is a valid Huffman code for a resulting byte value.
The low-order 8 bits (1..8) are the resulting byte value.
Bits 9..14 are the length of the Huffman code for this byte value.
This means so many bits from the input stream were needed to
represent this byte value. The remaining bits belong to later
Huffman codes. This also means that for every Huffman code shorter
than table_bits there are multiple entires in the array, which
differ just in the unused bits.
If the high-order bit (16) is clear (0) then the remaining bits are
the position of the remaining Huffman decode tree segment behind the
quick table.
RETURN
void
*/
static
void
make_quick_table
(
uint16
*
to_table
,
uint16
*
decode_table
,
static
void
make_quick_table
(
uint16
*
to_table
,
uint16
*
decode_table
,
uint
*
next_free_offset
,
uint
value
,
uint
bits
,
uint
*
next_free_offset
,
uint
value
,
uint
bits
,
uint
max_bits
)
uint
max_bits
)
{
{
DBUG_ENTER
(
"make_quick_table"
);
/*
When down the table to the requested maximum, copy the rest of the
Huffman table.
*/
if
(
!
bits
--
)
if
(
!
bits
--
)
{
{
/*
Remaining left Huffman tree segment starts behind quick table.
Remaining right Huffman tree segment starts behind left segment.
*/
to_table
[
value
]
=
(
uint16
)
*
next_free_offset
;
to_table
[
value
]
=
(
uint16
)
*
next_free_offset
;
*
next_free_offset
=
copy_decode_table
(
to_table
,
*
next_free_offset
,
/*
decode_table
);
Re-construct the remaining Huffman tree segment at
return
;
next_free_offset in to_table.
*/
*
next_free_offset
=
copy_decode_table
(
to_table
,
*
next_free_offset
,
decode_table
);
DBUG_VOID_RETURN
;
}
}
/* Descent on the left side. Left side bits are clear (0). */
if
(
!
(
*
decode_table
&
IS_CHAR
))
if
(
!
(
*
decode_table
&
IS_CHAR
))
{
{
make_quick_table
(
to_table
,
decode_table
+
*
decode_table
,
/* Not a leaf. Follow the pointer. */
next_free_offset
,
value
,
bits
,
max_bits
);
make_quick_table
(
to_table
,
decode_table
+
*
decode_table
,
next_free_offset
,
value
,
bits
,
max_bits
);
}
}
else
else
fill_quick_table
(
to_table
+
value
,
bits
,
max_bits
,(
uint
)
*
decode_table
);
{
/*
A leaf. A Huffman code is complete. Fill the quick_table
array for all possible bit strings starting with this Huffman
code.
*/
fill_quick_table
(
to_table
+
value
,
bits
,
max_bits
,
(
uint
)
*
decode_table
);
}
/* Descent on the right side. Right side bits are set (1). */
decode_table
++
;
decode_table
++
;
value
|=
(
1
<<
bits
);
value
|=
(
1
<<
bits
);
if
(
!
(
*
decode_table
&
IS_CHAR
))
if
(
!
(
*
decode_table
&
IS_CHAR
))
{
{
make_quick_table
(
to_table
,
decode_table
+
*
decode_table
,
/* Not a leaf. Follow the pointer. */
next_free_offset
,
value
,
bits
,
max_bits
);
make_quick_table
(
to_table
,
decode_table
+
*
decode_table
,
next_free_offset
,
value
,
bits
,
max_bits
);
}
}
else
else
fill_quick_table
(
to_table
+
value
,
bits
,
max_bits
,(
uint
)
*
decode_table
);
{
return
;
/*
A leaf. A Huffman code is complete. Fill the quick_table
array for all possible bit strings starting with this Huffman
code.
*/
fill_quick_table
(
to_table
+
value
,
bits
,
max_bits
,
(
uint
)
*
decode_table
);
}
DBUG_VOID_RETURN
;
}
}
/*
Fill quick_table for all possible values starting with this Huffman code.
SYNOPSIS
fill_quick_table()
table Target quick_table position.
bits Unused bits from max_bits.
max_bits Total number of bits to collect (table_bits).
value The byte encoded by the found Huffman code.
DESCRIPTION
Fill the segment (all slots) of the quick_table array with the
resulting value for the found Huffman code. There are as many slots
as there are combinations representable by the unused bits.
In most cases we use 9 table bits. Assume a 3-bit Huffman code. Then
there are 6 unused bits. Hence we fill 2**6 = 64 slots with the
value.
RETURN
void
*/
static
void
fill_quick_table
(
uint16
*
table
,
uint
bits
,
uint
max_bits
,
static
void
fill_quick_table
(
uint16
*
table
,
uint
bits
,
uint
max_bits
,
uint
value
)
uint
value
)
{
{
uint16
*
end
;
uint16
*
end
;
value
|=
(
max_bits
-
bits
)
<<
8
;
DBUG_ENTER
(
"fill_quick_table"
);
for
(
end
=
table
+
(
1
<<
bits
)
;
table
<
end
;
/*
*
table
++
=
(
uint16
)
value
|
IS_CHAR
)
;
Bits 1..8 of value represent the decoded byte value.
Bits 9..14 become the length of the Huffman code for this byte value.
Bit 16 flags a valid code (IS_CHAR).
*/
value
|=
(
max_bits
-
bits
)
<<
8
|
IS_CHAR
;
for
(
end
=
table
+
(
1
<<
bits
);
table
<
end
;
table
++
)
{
*
table
=
(
uint16
)
value
;
}
DBUG_VOID_RETURN
;
}
}
/*
Reconstruct a decode subtree at the target position.
SYNOPSIS
copy_decode_table()
to_pos Target quick_table and remaining decode table.
offset Next free offset from to_pos.
decode_table Source Huffman subtree within tmp_buff.
NOTE
Pointers in the decode tree are relative to the pointers position.
RETURN
next free offset from to_pos.
*/
static
uint
copy_decode_table
(
uint16
*
to_pos
,
uint
offset
,
static
uint
copy_decode_table
(
uint16
*
to_pos
,
uint
offset
,
uint16
*
decode_table
)
uint16
*
decode_table
)
{
{
uint
prev_offset
;
uint
prev_offset
;
prev_offset
=
offset
;
prev_offset
=
offset
;
DBUG_ENTER
(
"copy_decode_table"
);
/* Descent on the left side. */
if
(
!
(
*
decode_table
&
IS_CHAR
))
if
(
!
(
*
decode_table
&
IS_CHAR
))
{
{
/* Set a pointer to the next target node. */
to_pos
[
offset
]
=
2
;
to_pos
[
offset
]
=
2
;
/* Copy the left hand subtree there. */
offset
=
copy_decode_table
(
to_pos
,
offset
+
2
,
decode_table
+
*
decode_table
);
offset
=
copy_decode_table
(
to_pos
,
offset
+
2
,
decode_table
+
*
decode_table
);
}
}
else
else
{
{
/* Copy the byte value. */
to_pos
[
offset
]
=
*
decode_table
;
to_pos
[
offset
]
=
*
decode_table
;
/* Step behind this node. */
offset
+=
2
;
offset
+=
2
;
}
}
decode_table
++
;
/* Descent on the right side. */
decode_table
++
;
if
(
!
(
*
decode_table
&
IS_CHAR
))
if
(
!
(
*
decode_table
&
IS_CHAR
))
{
{
/* Set a pointer to the next free target node. */
to_pos
[
prev_offset
+
1
]
=
(
uint16
)
(
offset
-
prev_offset
-
1
);
to_pos
[
prev_offset
+
1
]
=
(
uint16
)
(
offset
-
prev_offset
-
1
);
/* Copy the right hand subtree to the entry of that node. */
offset
=
copy_decode_table
(
to_pos
,
offset
,
decode_table
+
*
decode_table
);
offset
=
copy_decode_table
(
to_pos
,
offset
,
decode_table
+
*
decode_table
);
}
}
else
else
{
/* Copy the byte value. */
to_pos
[
prev_offset
+
1
]
=
*
decode_table
;
to_pos
[
prev_offset
+
1
]
=
*
decode_table
;
return
offset
;
}
DBUG_RETURN
(
offset
);
}
}
/*
Find the length of the longest Huffman code in this table in bits.
SYNOPSIS
find_longest_bitstream()
table Code (sub-)table start.
end End of code table.
IMPLEMENTATION
Recursively follow the branch(es) of the code pair on every level of
the tree until two byte values (and no branch) are found. Add one to
each level when returning back from each recursion stage.
'end' is used for error checking only. A clean tree terminates
before reaching 'end'. Hence the exact value of 'end' is not too
important. However having it higher than necessary could lead to
misbehaviour should 'next' jump into the dirty area.
RETURN
length Length of longest Huffman code in bits.
>= OFFSET_TABLE_SIZE Error, broken tree. It does not end before 'end'.
*/
static
uint
find_longest_bitstream
(
uint16
*
table
,
uint16
*
end
)
static
uint
find_longest_bitstream
(
uint16
*
table
,
uint16
*
end
)
{
{
uint
length
=
1
,
length2
;
uint
length
=
1
;
uint
length2
;
if
(
!
(
*
table
&
IS_CHAR
))
if
(
!
(
*
table
&
IS_CHAR
))
{
{
uint16
*
next
=
table
+
*
table
;
uint16
*
next
=
table
+
*
table
;
if
(
next
>
end
||
next
==
table
)
if
(
next
>
end
||
next
==
table
)
return
~
0
;
{
length
=
find_longest_bitstream
(
next
,
end
)
+
1
;
DBUG_PRINT
(
"error"
,
(
"ERROR: illegal pointer in decode tree"
));
return
OFFSET_TABLE_SIZE
;
}
length
=
find_longest_bitstream
(
next
,
end
)
+
1
;
}
}
table
++
;
table
++
;
if
(
!
(
*
table
&
IS_CHAR
))
if
(
!
(
*
table
&
IS_CHAR
))
{
{
uint16
*
next
=
table
+
*
table
;
uint16
*
next
=
table
+
*
table
;
if
(
next
>
end
||
next
==
table
)
if
(
next
>
end
||
next
==
table
)
return
~
0
;
{
length2
=
find_longest_bitstream
(
table
+
*
table
,
end
)
+
1
;
DBUG_PRINT
(
"error"
,
(
"ERROR: illegal pointer in decode tree"
));
return
OFFSET_TABLE_SIZE
;
}
length2
=
find_longest_bitstream
(
next
,
end
)
+
1
;
length
=
max
(
length
,
length2
);
length
=
max
(
length
,
length2
);
}
}
return
length
;
return
length
;
...
@@ -825,18 +1083,46 @@ static void decode_bytes(MI_COLUMNDEF *rec,MI_BIT_BUFF *bit_buff,uchar *to,
...
@@ -825,18 +1083,46 @@ static void decode_bytes(MI_COLUMNDEF *rec,MI_BIT_BUFF *bit_buff,uchar *to,
bit_buff
->
pos
+=
4
;
bit_buff
->
pos
+=
4
;
bits
+=
32
;
bits
+=
32
;
}
}
/* First use info in quick_table */
/*
First use info in quick_table.
The quick table is an array of 16-bit values. There exists one
value for each possible code representable by table_bits bits.
In most cases table_bits is 9. So there are 512 16-bit values.
If the high-order bit (16) is set (IS_CHAR) then the array slot
for this value is a valid Huffman code for a resulting byte value.
The low-order 8 bits (1..8) are the resulting byte value.
Bits 9..14 are the length of the Huffman code for this byte value.
This means so many bits from the input stream were needed to
represent this byte value. The remaining bits belong to later
Huffman codes. This also means that for every Huffman code shorter
than table_bits there are multiple entires in the array, which
differ just in the unused bits.
If the high-order bit (16) is clear (0) then the remaining bits are
the position of the remaining Huffman decode tree segment behind the
quick table.
*/
low_byte
=
(
uint
)
(
bit_buff
->
current_byte
>>
(
bits
-
table_bits
))
&
table_and
;
low_byte
=
(
uint
)
(
bit_buff
->
current_byte
>>
(
bits
-
table_bits
))
&
table_and
;
low_byte
=
decode_tree
->
table
[
low_byte
];
low_byte
=
decode_tree
->
table
[
low_byte
];
if
(
low_byte
&
IS_CHAR
)
if
(
low_byte
&
IS_CHAR
)
{
{
/*
All Huffman codes of less or equal table_bits length are in the
quick table. This is one of them.
*/
*
to
++
=
(
low_byte
&
255
);
/* Found char in quick table */
*
to
++
=
(
low_byte
&
255
);
/* Found char in quick table */
bits
-=
((
low_byte
>>
8
)
&
31
);
/* Remove bits used */
bits
-=
((
low_byte
>>
8
)
&
31
);
/* Remove bits used */
}
}
else
else
{
/* Map through rest of decode-table */
{
/* Map through rest of decode-table */
/* This means that the Huffman code must be longer than table_bits. */
pos
=
decode_tree
->
table
+
low_byte
;
pos
=
decode_tree
->
table
+
low_byte
;
bits
-=
table_bits
;
bits
-=
table_bits
;
/* NOTE: decode_bytes_test_bit() is a macro wich contains a break !!! */
for
(;;)
for
(;;)
{
{
low_byte
=
(
uint
)
(
bit_buff
->
current_byte
>>
(
bits
-
8
));
low_byte
=
(
uint
)
(
bit_buff
->
current_byte
>>
(
bits
-
8
));
...
@@ -1062,6 +1348,11 @@ uint _mi_pack_get_block_info(MI_INFO *myisam, MI_BIT_BUFF *bit_buff,
...
@@ -1062,6 +1348,11 @@ uint _mi_pack_get_block_info(MI_INFO *myisam, MI_BIT_BUFF *bit_buff,
{
{
head_length
+=
read_pack_length
((
uint
)
myisam
->
s
->
pack
.
version
,
head_length
+=
read_pack_length
((
uint
)
myisam
->
s
->
pack
.
version
,
header
+
head_length
,
&
info
->
blob_len
);
header
+
head_length
,
&
info
->
blob_len
);
/*
Ensure that the record buffer is big enough for the compressed
record plus all expanded blobs. [We do not have an extra buffer
for the resulting blobs. Sigh.]
*/
if
(
!
(
mi_alloc_rec_buff
(
myisam
,
info
->
rec_len
+
info
->
blob_len
,
if
(
!
(
mi_alloc_rec_buff
(
myisam
,
info
->
rec_len
+
info
->
blob_len
,
rec_buff_p
)))
rec_buff_p
)))
return
BLOCK_FATAL_ERROR
;
/* not enough memory */
return
BLOCK_FATAL_ERROR
;
/* not enough memory */
...
...
sql/sql_insert.cc
View file @
ab70ed5e
...
@@ -1179,8 +1179,6 @@ void kill_delayed_threads(void)
...
@@ -1179,8 +1179,6 @@ void kill_delayed_threads(void)
delayed_insert
*
tmp
;
delayed_insert
*
tmp
;
while
((
tmp
=
it
++
))
while
((
tmp
=
it
++
))
{
{
/* Ensure that the thread doesn't kill itself while we are looking at it */
pthread_mutex_lock
(
&
tmp
->
mutex
);
tmp
->
thd
.
killed
=
1
;
tmp
->
thd
.
killed
=
1
;
if
(
tmp
->
thd
.
mysys_var
)
if
(
tmp
->
thd
.
mysys_var
)
{
{
...
@@ -1199,7 +1197,6 @@ void kill_delayed_threads(void)
...
@@ -1199,7 +1197,6 @@ void kill_delayed_threads(void)
}
}
pthread_mutex_unlock
(
&
tmp
->
thd
.
mysys_var
->
mutex
);
pthread_mutex_unlock
(
&
tmp
->
thd
.
mysys_var
->
mutex
);
}
}
pthread_mutex_unlock
(
&
tmp
->
mutex
);
}
}
VOID
(
pthread_mutex_unlock
(
&
LOCK_delayed_insert
));
// For unlink from list
VOID
(
pthread_mutex_unlock
(
&
LOCK_delayed_insert
));
// For unlink from list
}
}
...
...
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