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nexedi
MariaDB
Commits
d67d4a04
Commit
d67d4a04
authored
Apr 20, 2011
by
Mattias Jonsson
Browse files
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merge
parents
d167b085
9ddfb809
Changes
12
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Showing
12 changed files
with
351 additions
and
154 deletions
+351
-154
.bzrignore
.bzrignore
+9
-0
sql/ha_partition.cc
sql/ha_partition.cc
+284
-122
sql/ha_partition.h
sql/ha_partition.h
+27
-8
sql/handler.cc
sql/handler.cc
+17
-10
sql/handler.h
sql/handler.h
+1
-1
sql/opt_range.cc
sql/opt_range.cc
+1
-1
storage/heap/ha_heap.cc
storage/heap/ha_heap.cc
+2
-2
storage/heap/ha_heap.h
storage/heap/ha_heap.h
+1
-1
storage/myisam/ha_myisam.cc
storage/myisam/ha_myisam.cc
+3
-2
storage/myisam/ha_myisam.h
storage/myisam/ha_myisam.h
+1
-1
storage/myisammrg/ha_myisammrg.cc
storage/myisammrg/ha_myisammrg.cc
+4
-5
storage/myisammrg/ha_myisammrg.h
storage/myisammrg/ha_myisammrg.h
+1
-1
No files found.
.bzrignore
View file @
d67d4a04
...
...
@@ -42,6 +42,10 @@
*.vcxproj
*.vcxproj.filters
*/*.dir/*
*.dir
Debug
MySql.sdf
Win32
*/*_pure_*warnings
*/.deps
*/.libs/*
...
...
@@ -611,6 +615,7 @@ include/mysql_h.ic
include/mysql_version.h
include/mysqld_ername.h
include/mysqld_error.h
include/mysqld_error.h.rule
include/openssl
include/readline
include/readline/*.h
...
...
@@ -1883,7 +1888,9 @@ scripts/mysql_find_rows
scripts/mysql_fix_extensions
scripts/mysql_fix_privilege_tables
scripts/mysql_fix_privilege_tables.sql
scripts/mysql_fix_privilege_tables.sql.rule
scripts/mysql_fix_privilege_tables_sql.c
scripts/mysql_fix_privilege_tables_sql.c.rule
scripts/mysql_install_db
scripts/mysql_secure_installation
scripts/mysql_setpermission
...
...
@@ -2120,6 +2127,7 @@ sql/handlerton.cc
sql/html
sql/latex
sql/lex_hash.h
sql/lex_hash.h.rule
sql/link_sources
sql/max/*
sql/message.h
...
...
@@ -2151,6 +2159,7 @@ sql/sql_builtin.cc
sql/sql_select.cc.orig
sql/sql_yacc.cc
sql/sql_yacc.h
sql/sql_yacc.h.rule
sql/sql_yacc.output
sql/sql_yacc.yy.orig
sql/test_time
...
...
sql/ha_partition.cc
View file @
d67d4a04
...
...
@@ -163,8 +163,7 @@ const uint ha_partition::NO_CURRENT_PART_ID= 0xFFFFFFFF;
*/
ha_partition
::
ha_partition
(
handlerton
*
hton
,
TABLE_SHARE
*
share
)
:
handler
(
hton
,
share
),
m_part_info
(
NULL
),
m_create_handler
(
FALSE
),
m_is_sub_partitioned
(
0
)
:
handler
(
hton
,
share
)
{
DBUG_ENTER
(
"ha_partition::ha_partition(table)"
);
init_handler_variables
();
...
...
@@ -184,15 +183,44 @@ ha_partition::ha_partition(handlerton *hton, TABLE_SHARE *share)
*/
ha_partition
::
ha_partition
(
handlerton
*
hton
,
partition_info
*
part_info
)
:
handler
(
hton
,
NULL
),
m_part_info
(
part_info
),
m_create_handler
(
TRUE
),
m_is_sub_partitioned
(
m_part_info
->
is_sub_partitioned
())
:
handler
(
hton
,
NULL
)
{
DBUG_ENTER
(
"ha_partition::ha_partition(part_info)"
);
DBUG_ASSERT
(
part_info
);
init_handler_variables
();
DBUG_ASSERT
(
m_part_info
);
m_part_info
=
part_info
;
m_create_handler
=
TRUE
;
m_is_sub_partitioned
=
m_part_info
->
is_sub_partitioned
();
DBUG_VOID_RETURN
;
}
/**
ha_partition constructor method used by ha_partition::clone()
@param hton Handlerton (partition_hton)
@param share Table share object
@param part_info_arg partition_info to use
@param clone_arg ha_partition to clone
@param clme_mem_root_arg MEM_ROOT to use
@return New partition handler
*/
ha_partition
::
ha_partition
(
handlerton
*
hton
,
TABLE_SHARE
*
share
,
partition_info
*
part_info_arg
,
ha_partition
*
clone_arg
,
MEM_ROOT
*
clone_mem_root_arg
)
:
handler
(
hton
,
share
)
{
DBUG_ENTER
(
"ha_partition::ha_partition(clone)"
);
init_handler_variables
();
m_part_info
=
part_info_arg
;
m_create_handler
=
TRUE
;
m_is_sub_partitioned
=
m_part_info
->
is_sub_partitioned
();
m_is_clone_of
=
clone_arg
;
m_clone_mem_root
=
clone_mem_root_arg
;
DBUG_VOID_RETURN
;
}
/*
Initialize handler object
...
...
@@ -244,7 +272,6 @@ void ha_partition::init_handler_variables()
m_rec0
=
0
;
m_curr_key_info
[
0
]
=
NULL
;
m_curr_key_info
[
1
]
=
NULL
;
is_clone
=
FALSE
,
m_part_func_monotonicity_info
=
NON_MONOTONIC
;
auto_increment_lock
=
FALSE
;
auto_increment_safe_stmt_log_lock
=
FALSE
;
...
...
@@ -252,6 +279,11 @@ void ha_partition::init_handler_variables()
this allows blackhole to work properly
*/
m_no_locks
=
0
;
m_part_info
=
NULL
;
m_create_handler
=
FALSE
;
m_is_sub_partitioned
=
0
;
m_is_clone_of
=
NULL
;
m_clone_mem_root
=
NULL
;
#ifdef DONT_HAVE_TO_BE_INITALIZED
m_start_key
.
flag
=
0
;
...
...
@@ -359,7 +391,8 @@ bool ha_partition::initialize_partition(MEM_ROOT *mem_root)
*/
DBUG_RETURN
(
0
);
}
else
if
(
get_from_handler_file
(
table_share
->
normalized_path
.
str
,
mem_root
))
else
if
(
get_from_handler_file
(
table_share
->
normalized_path
.
str
,
mem_root
,
false
))
{
my_message
(
ER_UNKNOWN_ERROR
,
"Failed to read from the .par file"
,
MYF
(
0
));
DBUG_RETURN
(
1
);
...
...
@@ -1848,7 +1881,7 @@ uint ha_partition::del_ren_cre_table(const char *from,
DBUG_RETURN
(
TRUE
);
}
if
(
get_from_handler_file
(
from
,
ha_thd
()
->
mem_root
))
if
(
get_from_handler_file
(
from
,
ha_thd
()
->
mem_root
,
false
))
DBUG_RETURN
(
TRUE
);
DBUG_ASSERT
(
m_file_buffer
);
DBUG_PRINT
(
"enter"
,
(
"from: (%s) to: (%s)"
,
from
,
to
));
...
...
@@ -2064,18 +2097,16 @@ static uint name_add(char *dest, const char *first_name, const char *sec_name)
}
/*
/*
*
Create the special .par file
SYNOPSIS
create_handler_file()
name Full path of table name
@param name Full path of table name
RETURN VALUE
>0
Error code
0
Success
@return Operation status
@retval FALSE
Error code
@retval TRUE
Success
DESCRIPTION
@note
Method used to create handler file with names of partitions, their
engine types and the number of partitions.
*/
...
...
@@ -2139,19 +2170,22 @@ bool ha_partition::create_handler_file(const char *name)
Array of engine types n * 4 bytes where
n = (m_tot_parts + 3)/4
Length of name part in bytes 4 bytes
(Names in filename format)
Name part m * 4 bytes where
m = ((length_name_part + 3)/4)*4
All padding bytes are zeroed
*/
tot_partition_words
=
(
tot_parts
+
3
)
/
4
;
tot_name_words
=
(
tot_name_len
+
3
)
/
4
;
tot_partition_words
=
(
tot_parts
+
PAR_WORD_SIZE
-
1
)
/
PAR_WORD_SIZE
;
tot_name_words
=
(
tot_name_len
+
PAR_WORD_SIZE
-
1
)
/
PAR_WORD_SIZE
;
/* 4 static words (tot words, checksum, tot partitions, name length) */
tot_len_words
=
4
+
tot_partition_words
+
tot_name_words
;
tot_len_byte
=
4
*
tot_len_words
;
tot_len_byte
=
PAR_WORD_SIZE
*
tot_len_words
;
if
(
!
(
file_buffer
=
(
uchar
*
)
my_malloc
(
tot_len_byte
,
MYF
(
MY_ZEROFILL
))))
DBUG_RETURN
(
TRUE
);
engine_array
=
(
file_buffer
+
12
);
name_buffer_ptr
=
(
char
*
)
(
file_buffer
+
((
4
+
tot_partition_words
)
*
4
));
engine_array
=
(
file_buffer
+
PAR_ENGINES_OFFSET
);
name_buffer_ptr
=
(
char
*
)
(
engine_array
+
tot_partition_words
*
PAR_WORD_SIZE
+
PAR_WORD_SIZE
);
part_it
.
rewind
();
for
(
i
=
0
;
i
<
no_parts
;
i
++
)
{
...
...
@@ -2189,13 +2223,15 @@ bool ha_partition::create_handler_file(const char *name)
}
chksum
=
0
;
int4store
(
file_buffer
,
tot_len_words
);
int4store
(
file_buffer
+
8
,
tot_parts
);
int4store
(
file_buffer
+
12
+
(
tot_partition_words
*
4
),
tot_name_len
);
int4store
(
file_buffer
+
PAR_NUM_PARTS_OFFSET
,
tot_parts
);
int4store
(
file_buffer
+
PAR_ENGINES_OFFSET
+
(
tot_partition_words
*
PAR_WORD_SIZE
),
tot_name_len
);
for
(
i
=
0
;
i
<
tot_len_words
;
i
++
)
chksum
^=
uint4korr
(
file_buffer
+
4
*
i
);
int4store
(
file_buffer
+
4
,
chksum
);
chksum
^=
uint4korr
(
file_buffer
+
PAR_WORD_SIZE
*
i
);
int4store
(
file_buffer
+
PAR_CHECKSUM_OFFSET
,
chksum
);
/*
Remove .frm extension and replace with .par
Add .par extension to the file name.
Create and write and close file
to be used at open, delete_table and rename_table
*/
...
...
@@ -2213,14 +2249,9 @@ bool ha_partition::create_handler_file(const char *name)
DBUG_RETURN
(
result
);
}
/*
Clear handler variables and free some memory
SYNOPSIS
clear_handler_file()
RETURN VALUE
NONE
/**
Clear handler variables and free some memory
*/
void
ha_partition
::
clear_handler_file
()
...
...
@@ -2233,16 +2264,15 @@ void ha_partition::clear_handler_file()
m_engine_array
=
NULL
;
}
/*
/**
Create underlying handler objects
SYNOPSIS
create_handlers()
mem_root Allocate memory through this
@param mem_root Allocate memory through this
RETURN VALUE
TRUE
Error
FALSE
Success
@return Operation status
@retval TRUE
Error
@retval FALSE
Success
*/
bool
ha_partition
::
create_handlers
(
MEM_ROOT
*
mem_root
)
...
...
@@ -2280,6 +2310,7 @@ bool ha_partition::create_handlers(MEM_ROOT *mem_root)
DBUG_RETURN
(
FALSE
);
}
/*
Create underlying handler objects from partition info
...
...
@@ -2351,100 +2382,164 @@ bool ha_partition::new_handlers_from_part_info(MEM_ROOT *mem_root)
}
/*
Get info about partition engines and their names from the .par file
/*
*
Read the .par file to get the partitions engines and names
SYNOPSIS
get_from_handler_file()
name Full path of table name
mem_root Allocate memory through this
@param name Name of table file (without extention)
RETURN VALUE
TRUE Error
FALSE
Success
@return Operation status
@retval true Failure
@retval false
Success
DESCRIPTION
Open handler file to get partition names, engine types and number of
partitions.
@note On success, m_file_buffer is allocated and must be
freed by the caller. m_name_buffer_ptr and m_tot_parts is also set.
*/
bool
ha_partition
::
get_from_handler_file
(
const
char
*
name
,
MEM_ROOT
*
mem_root
)
bool
ha_partition
::
read_par_file
(
const
char
*
name
)
{
char
buff
[
FN_REFLEN
],
*
address_tot_name_len
;
char
buff
[
FN_REFLEN
],
*
tot_name_len_offset
;
File
file
;
char
*
file_buffer
,
*
name_buffer_ptr
;
handlerton
**
engine_array
;
char
*
file_buffer
;
uint
i
,
len_bytes
,
len_words
,
tot_partition_words
,
tot_name_words
,
chksum
;
DBUG_ENTER
(
"ha_partition::
get_from_handle
r_file"
);
DBUG_ENTER
(
"ha_partition::
read_pa
r_file"
);
DBUG_PRINT
(
"enter"
,
(
"table name: '%s'"
,
name
));
if
(
m_file_buffer
)
DBUG_RETURN
(
FALSE
);
DBUG_RETURN
(
false
);
fn_format
(
buff
,
name
,
""
,
ha_par_ext
,
MY_APPEND_EXT
);
/* Following could be done with my_stat to read in whole file */
if
((
file
=
my_open
(
buff
,
O_RDONLY
|
O_SHARE
,
MYF
(
0
)))
<
0
)
DBUG_RETURN
(
TRUE
);
if
(
my_read
(
file
,
(
uchar
*
)
&
buff
[
0
],
8
,
MYF
(
MY_NABP
)))
DBUG_RETURN
(
true
);
if
(
my_read
(
file
,
(
uchar
*
)
&
buff
[
0
],
PAR_WORD_SIZE
,
MYF
(
MY_NABP
)))
goto
err1
;
len_words
=
uint4korr
(
buff
);
len_bytes
=
4
*
len_words
;
len_bytes
=
PAR_WORD_SIZE
*
len_words
;
if
(
my_seek
(
file
,
0
,
MY_SEEK_SET
,
MYF
(
0
))
==
MY_FILEPOS_ERROR
)
goto
err1
;
if
(
!
(
file_buffer
=
(
char
*
)
my_malloc
(
len_bytes
,
MYF
(
0
))))
goto
err1
;
VOID
(
my_seek
(
file
,
0
,
MY_SEEK_SET
,
MYF
(
0
)));
if
(
my_read
(
file
,
(
uchar
*
)
file_buffer
,
len_bytes
,
MYF
(
MY_NABP
)))
goto
err2
;
chksum
=
0
;
for
(
i
=
0
;
i
<
len_words
;
i
++
)
chksum
^=
uint4korr
((
file_buffer
)
+
4
*
i
);
chksum
^=
uint4korr
((
file_buffer
)
+
PAR_WORD_SIZE
*
i
);
if
(
chksum
)
goto
err2
;
m_tot_parts
=
uint4korr
((
file_buffer
)
+
8
);
m_tot_parts
=
uint4korr
((
file_buffer
)
+
PAR_NUM_PARTS_OFFSET
);
DBUG_PRINT
(
"info"
,
(
"No of parts = %u"
,
m_tot_parts
));
tot_partition_words
=
(
m_tot_parts
+
3
)
/
4
;
tot_partition_words
=
(
m_tot_parts
+
PAR_WORD_SIZE
-
1
)
/
PAR_WORD_SIZE
;
tot_name_len_offset
=
file_buffer
+
PAR_ENGINES_OFFSET
+
PAR_WORD_SIZE
*
tot_partition_words
;
tot_name_words
=
(
uint4korr
(
tot_name_len_offset
)
+
PAR_WORD_SIZE
-
1
)
/
PAR_WORD_SIZE
;
/*
Verify the total length = tot size word, checksum word, num parts word +
engines array + name length word + name array.
*/
if
(
len_words
!=
(
tot_partition_words
+
tot_name_words
+
4
))
goto
err2
;
VOID
(
my_close
(
file
,
MYF
(
0
)));
m_file_buffer
=
file_buffer
;
// Will be freed in clear_handler_file()
m_name_buffer_ptr
=
tot_name_len_offset
+
PAR_WORD_SIZE
;
DBUG_RETURN
(
false
);
err2:
my_free
(
file_buffer
,
MYF
(
0
));
err1:
VOID
(
my_close
(
file
,
MYF
(
0
)));
DBUG_RETURN
(
true
);
}
/**
Setup m_engine_array
@param mem_root MEM_ROOT to use for allocating new handlers
@return Operation status
@retval false Success
@retval true Failure
*/
bool
ha_partition
::
setup_engine_array
(
MEM_ROOT
*
mem_root
)
{
uint
i
;
uchar
*
buff
;
handlerton
**
engine_array
;
DBUG_ASSERT
(
!
m_file
);
DBUG_ENTER
(
"ha_partition::setup_engine_array"
);
engine_array
=
(
handlerton
**
)
my_alloca
(
m_tot_parts
*
sizeof
(
handlerton
*
));
if
(
!
engine_array
)
DBUG_RETURN
(
true
);
buff
=
(
uchar
*
)
(
m_file_buffer
+
PAR_ENGINES_OFFSET
);
for
(
i
=
0
;
i
<
m_tot_parts
;
i
++
)
{
engine_array
[
i
]
=
ha_resolve_by_legacy_type
(
ha_thd
(),
(
enum
legacy_db_type
)
*
(
uchar
*
)
((
file_buffer
)
+
12
+
i
));
*
(
buff
+
i
));
if
(
!
engine_array
[
i
])
goto
err
3
;
goto
err
;
}
address_tot_name_len
=
file_buffer
+
12
+
4
*
tot_partition_words
;
tot_name_words
=
(
uint4korr
(
address_tot_name_len
)
+
3
)
/
4
;
if
(
len_words
!=
(
tot_partition_words
+
tot_name_words
+
4
))
goto
err3
;
name_buffer_ptr
=
file_buffer
+
16
+
4
*
tot_partition_words
;
VOID
(
my_close
(
file
,
MYF
(
0
)));
m_file_buffer
=
file_buffer
;
// Will be freed in clear_handler_file()
m_name_buffer_ptr
=
name_buffer_ptr
;
if
(
!
(
m_engine_array
=
(
plugin_ref
*
)
my_malloc
(
m_tot_parts
*
sizeof
(
plugin_ref
),
MYF
(
MY_WME
))))
goto
err
3
;
goto
err
;
for
(
i
=
0
;
i
<
m_tot_parts
;
i
++
)
m_engine_array
[
i
]
=
ha_lock_engine
(
NULL
,
engine_array
[
i
]);
my_afree
((
gptr
)
engine_array
);
if
(
!
m_file
&&
create_handlers
(
mem_root
))
if
(
create_handlers
(
mem_root
))
{
clear_handler_file
();
DBUG_RETURN
(
TRUE
);
DBUG_RETURN
(
true
);
}
DBUG_RETURN
(
FALSE
);
err3:
DBUG_RETURN
(
false
);
err:
my_afree
((
gptr
)
engine_array
);
err2:
my_free
(
file_buffer
,
MYF
(
0
));
err1:
VOID
(
my_close
(
file
,
MYF
(
0
)));
DBUG_RETURN
(
TRUE
);
DBUG_RETURN
(
true
);
}
/**
Get info about partition engines and their names from the .par file
@param name Full path of table name
@param mem_root Allocate memory through this
@param is_clone If it is a clone, don't create new handlers
@return Operation status
@retval true Error
@retval false Success
@note Open handler file to get partition names, engine types and number of
partitions.
*/
bool
ha_partition
::
get_from_handler_file
(
const
char
*
name
,
MEM_ROOT
*
mem_root
,
bool
is_clone
)
{
DBUG_ENTER
(
"ha_partition::get_from_handler_file"
);
DBUG_PRINT
(
"enter"
,
(
"table name: '%s'"
,
name
));
if
(
m_file_buffer
)
DBUG_RETURN
(
false
);
if
(
read_par_file
(
name
))
DBUG_RETURN
(
true
);
if
(
!
is_clone
&&
setup_engine_array
(
mem_root
))
DBUG_RETURN
(
true
);
DBUG_RETURN
(
false
);
}
...
...
@@ -2491,13 +2586,13 @@ void ha_data_partition_destroy(void *ha_data)
int
ha_partition
::
open
(
const
char
*
name
,
int
mode
,
uint
test_if_locked
)
{
char
*
name_buffer_ptr
=
m_name_buffer_ptr
;
char
*
name_buffer_ptr
;
int
error
;
uint
alloc_len
;
handler
**
file
;
char
name_buff
[
FN_REFLEN
];
bool
is_not_tmp_table
=
(
table_share
->
tmp_table
==
NO_TMP_TABLE
);
ulonglong
check_table_flags
=
0
;
ulonglong
check_table_flags
;
DBUG_ENTER
(
"ha_partition::open"
);
DBUG_ASSERT
(
table
->
s
==
table_share
);
...
...
@@ -2505,8 +2600,9 @@ int ha_partition::open(const char *name, int mode, uint test_if_locked)
m_mode
=
mode
;
m_open_test_lock
=
test_if_locked
;
m_part_field_array
=
m_part_info
->
full_part_field_array
;
if
(
get_from_handler_file
(
name
,
&
table
->
mem_root
))
if
(
get_from_handler_file
(
name
,
&
table
->
mem_root
,
test
(
m_is_clone_of
)
))
DBUG_RETURN
(
1
);
name_buffer_ptr
=
m_name_buffer_ptr
;
m_start_key
.
length
=
0
;
m_rec0
=
table
->
record
[
0
];
m_rec_length
=
table_share
->
reclength
;
...
...
@@ -2542,8 +2638,9 @@ int ha_partition::open(const char *name, int mode, uint test_if_locked)
DBUG_RETURN
(
1
);
bitmap_clear_all
(
&
m_bulk_insert_started
);
/* Initialize the bitmap we use to determine what partitions are used */
if
(
!
is_clone
)
if
(
!
m_is_clone_of
)
{
DBUG_ASSERT
(
!
m_clone_mem_root
);
if
(
bitmap_init
(
&
(
m_part_info
->
used_partitions
),
NULL
,
m_tot_parts
,
TRUE
))
{
bitmap_free
(
&
m_bulk_insert_started
);
...
...
@@ -2552,35 +2649,70 @@ int ha_partition::open(const char *name, int mode, uint test_if_locked)
bitmap_set_all
(
&
(
m_part_info
->
used_partitions
));
}
if
(
m_is_clone_of
)
{
uint
i
;
DBUG_ASSERT
(
m_clone_mem_root
);
/* Allocate an array of handler pointers for the partitions handlers. */
alloc_len
=
(
m_tot_parts
+
1
)
*
sizeof
(
handler
*
);
if
(
!
(
m_file
=
(
handler
**
)
alloc_root
(
m_clone_mem_root
,
alloc_len
)))
goto
err_alloc
;
memset
(
m_file
,
0
,
alloc_len
);
/*
Populate them by cloning the original partitions. This also opens them.
Note that file->ref is allocated too.
*/
file
=
m_is_clone_of
->
m_file
;
for
(
i
=
0
;
i
<
m_tot_parts
;
i
++
)
{
create_partition_name
(
name_buff
,
name
,
name_buffer_ptr
,
NORMAL_PART_NAME
,
FALSE
);
if
(
!
(
m_file
[
i
]
=
file
[
i
]
->
clone
(
name_buff
,
m_clone_mem_root
)))
{
error
=
HA_ERR_INITIALIZATION
;
file
=
&
m_file
[
i
];
goto
err_handler
;
}
name_buffer_ptr
+=
strlen
(
name_buffer_ptr
)
+
1
;
}
}
else
{
file
=
m_file
;
do
{
create_partition_name
(
name_buff
,
name
,
name_buffer_ptr
,
NORMAL_PART_NAME
,
FALSE
);
if
((
error
=
(
*
file
)
->
ha_open
(
table
,
name_buff
,
mode
,
test_if_locked
)))
goto
err_handler
;
m_no_locks
+=
(
*
file
)
->
lock_count
();
name_buffer_ptr
+=
strlen
(
name_buffer_ptr
)
+
1
;
}
while
(
*
(
++
file
));
}
file
=
m_file
;
do
ref_length
=
(
*
file
)
->
ref_length
;
check_table_flags
=
(((
*
file
)
->
ha_table_flags
()
&
~
(
PARTITION_DISABLED_TABLE_FLAGS
))
|
(
PARTITION_ENABLED_TABLE_FLAGS
));
while
(
*
(
++
file
))
{
create_partition_name
(
name_buff
,
name
,
name_buffer_ptr
,
NORMAL_PART_NAME
,
FALSE
);
if
((
error
=
(
*
file
)
->
ha_open
(
table
,
(
const
char
*
)
name_buff
,
mode
,
test_if_locked
)))
goto
err_handler
;
m_no_locks
+=
(
*
file
)
->
lock_count
();
name_buffer_ptr
+=
strlen
(
name_buffer_ptr
)
+
1
;
DBUG_ASSERT
(
ref_length
>=
(
*
file
)
->
ref_length
);
set_if_bigger
(
ref_length
,
((
*
file
)
->
ref_length
));
/*
Verify that all partitions have the same set of table flags.
Mask all flags that partitioning enables/disables.
*/
if
(
!
check_table_flags
)
{
check_table_flags
=
(((
*
file
)
->
ha_table_flags
()
&
~
(
PARTITION_DISABLED_TABLE_FLAGS
))
|
(
PARTITION_ENABLED_TABLE_FLAGS
));
}
else
if
(
check_table_flags
!=
(((
*
file
)
->
ha_table_flags
()
&
~
(
PARTITION_DISABLED_TABLE_FLAGS
))
|
(
PARTITION_ENABLED_TABLE_FLAGS
)))
if
(
check_table_flags
!=
(((
*
file
)
->
ha_table_flags
()
&
~
(
PARTITION_DISABLED_TABLE_FLAGS
))
|
(
PARTITION_ENABLED_TABLE_FLAGS
)))
{
error
=
HA_ERR_INITIALIZATION
;
/* set file to last handler, so all of them is closed */
file
=
&
m_file
[
m_tot_parts
-
1
];
goto
err_handler
;
}
}
while
(
*
(
++
file
));
}
key_used_on_scan
=
m_file
[
0
]
->
key_used_on_scan
;
implicit_emptied
=
m_file
[
0
]
->
implicit_emptied
;
/*
...
...
@@ -2589,6 +2721,7 @@ int ha_partition::open(const char *name, int mode, uint test_if_locked)
*/
ref_length
+=
PARTITION_BYTES_IN_POS
;
m_ref_length
=
ref_length
;
/*
Release buffer read from .par file. It will not be reused again after
being opened once.
...
...
@@ -2646,25 +2779,54 @@ int ha_partition::open(const char *name, int mode, uint test_if_locked)
DEBUG_SYNC
(
ha_thd
(),
"partition_open_error"
);
while
(
file
--
!=
m_file
)
(
*
file
)
->
close
();
err_alloc:
bitmap_free
(
&
m_bulk_insert_started
);
if
(
!
is_clone
)
if
(
!
m_is_clone_of
)
bitmap_free
(
&
(
m_part_info
->
used_partitions
));
DBUG_RETURN
(
error
);
}
handler
*
ha_partition
::
clone
(
MEM_ROOT
*
mem_root
)
/**
Clone the open and locked partitioning handler.
@param mem_root MEM_ROOT to use.
@return Pointer to the successfully created clone or NULL
@details
This function creates a new ha_partition handler as a clone/copy. The
original (this) must already be opened and locked. The clone will use
the originals m_part_info.
It also allocates memory for ref + ref_dup.
In ha_partition::open() it will clone its original handlers partitions
which will allocate then on the correct MEM_ROOT and also open them.
*/
handler
*
ha_partition
::
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
)
{
handler
*
new_handler
=
get_new_handler
(
table
->
s
,
mem_root
,
table
->
s
->
db_type
());
((
ha_partition
*
)
new_handler
)
->
m_part_info
=
m_part_info
;
((
ha_partition
*
)
new_handler
)
->
is_clone
=
TRUE
;
if
(
new_handler
&&
!
new_handler
->
ha_open
(
table
,
table
->
s
->
normalized_path
.
str
,
table
->
db_stat
,
HA_OPEN_IGNORE_IF_LOCKED
))
return
new_handler
;
return
NULL
;
ha_partition
*
new_handler
;
DBUG_ENTER
(
"ha_partition::clone"
);
new_handler
=
new
(
mem_root
)
ha_partition
(
ht
,
table_share
,
m_part_info
,
this
,
mem_root
);
/*
Allocate new_handler->ref here because otherwise ha_open will allocate it
on this->table->mem_root and we will not be able to reclaim that memory
when the clone handler object is destroyed.
*/
if
(
new_handler
&&
!
(
new_handler
->
ref
=
(
uchar
*
)
alloc_root
(
mem_root
,
ALIGN_SIZE
(
m_ref_length
)
*
2
)))
new_handler
=
NULL
;
if
(
new_handler
&&
new_handler
->
ha_open
(
table
,
name
,
table
->
db_stat
,
HA_OPEN_IGNORE_IF_LOCKED
))
new_handler
=
NULL
;
DBUG_RETURN
((
handler
*
)
new_handler
);
}
...
...
@@ -2695,7 +2857,7 @@ int ha_partition::close(void)
DBUG_ASSERT
(
table
->
s
==
table_share
);
delete_queue
(
&
m_queue
);
bitmap_free
(
&
m_bulk_insert_started
);
if
(
!
is_clone
)
if
(
!
m_is_clone_of
)
bitmap_free
(
&
(
m_part_info
->
used_partitions
));
file
=
m_file
;
...
...
sql/ha_partition.h
View file @
d67d4a04
...
...
@@ -55,6 +55,16 @@ typedef struct st_ha_data_partition
HA_DUPLICATE_POS | \
HA_CAN_SQL_HANDLER | \
HA_CAN_INSERT_DELAYED)
/* First 4 bytes in the .par file is the number of 32-bit words in the file */
#define PAR_WORD_SIZE 4
/* offset to the .par file checksum */
#define PAR_CHECKSUM_OFFSET 4
/* offset to the total number of partitions */
#define PAR_NUM_PARTS_OFFSET 8
/* offset to the engines array */
#define PAR_ENGINES_OFFSET 12
class
ha_partition
:
public
handler
{
private:
...
...
@@ -71,7 +81,7 @@ class ha_partition :public handler
/* Data for the partition handler */
int
m_mode
;
// Open mode
uint
m_open_test_lock
;
// Open test_if_locked
char
*
m_file_buffer
;
//
Buffer with names
char
*
m_file_buffer
;
//
Content of the .par file
char
*
m_name_buffer_ptr
;
// Pointer to first partition name
plugin_ref
*
m_engine_array
;
// Array of types of the handlers
handler
**
m_file
;
// Array of references to handler inst.
...
...
@@ -133,6 +143,13 @@ class ha_partition :public handler
bool
m_is_sub_partitioned
;
// Is subpartitioned
bool
m_ordered_scan_ongoing
;
/*
If set, this object was created with ha_partition::clone and doesn't
"own" the m_part_info structure.
*/
ha_partition
*
m_is_clone_of
;
MEM_ROOT
*
m_clone_mem_root
;
/*
We keep track if all underlying handlers are MyISAM since MyISAM has a
great number of extra flags not needed by other handlers.
...
...
@@ -169,11 +186,6 @@ class ha_partition :public handler
PARTITION_SHARE
*
share
;
/* Shared lock info */
#endif
/*
TRUE <=> this object was created with ha_partition::clone and doesn't
"own" the m_part_info structure.
*/
bool
is_clone
;
bool
auto_increment_lock
;
/**< lock reading/updating auto_inc */
/**
Flag to keep the auto_increment lock through out the statement.
...
...
@@ -186,7 +198,7 @@ class ha_partition :public handler
/** used for prediction of start_bulk_insert rows */
enum_monotonicity_info
m_part_func_monotonicity_info
;
public:
handler
*
clone
(
MEM_ROOT
*
mem_root
);
handler
*
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
);
virtual
void
set_part_info
(
partition_info
*
part_info
)
{
m_part_info
=
part_info
;
...
...
@@ -205,6 +217,10 @@ class ha_partition :public handler
*/
ha_partition
(
handlerton
*
hton
,
TABLE_SHARE
*
table
);
ha_partition
(
handlerton
*
hton
,
partition_info
*
part_info
);
ha_partition
(
handlerton
*
hton
,
TABLE_SHARE
*
share
,
partition_info
*
part_info_arg
,
ha_partition
*
clone_arg
,
MEM_ROOT
*
clone_mem_root_arg
);
~
ha_partition
();
/*
A partition handler has no characteristics in itself. It only inherits
...
...
@@ -275,7 +291,10 @@ class ha_partition :public handler
And one method to read it in.
*/
bool
create_handler_file
(
const
char
*
name
);
bool
get_from_handler_file
(
const
char
*
name
,
MEM_ROOT
*
mem_root
);
bool
setup_engine_array
(
MEM_ROOT
*
mem_root
);
bool
read_par_file
(
const
char
*
name
);
bool
get_from_handler_file
(
const
char
*
name
,
MEM_ROOT
*
mem_root
,
bool
is_clone
);
bool
new_handlers_from_part_info
(
MEM_ROOT
*
mem_root
);
bool
create_handlers
(
MEM_ROOT
*
mem_root
);
void
clear_handler_file
();
...
...
sql/handler.cc
View file @
d67d4a04
...
...
@@ -2037,22 +2037,29 @@ int ha_delete_table(THD *thd, handlerton *table_type, const char *path,
/****************************************************************************
** General handler functions
****************************************************************************/
handler
*
handler
::
clone
(
MEM_ROOT
*
mem_root
)
handler
*
handler
::
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
)
{
handler
*
new_handler
=
get_new_handler
(
table
->
s
,
mem_root
,
table
->
s
->
db_type
()
);
handler
*
new_handler
=
get_new_handler
(
table
->
s
,
mem_root
,
ht
);
/*
Allocate handler->ref here because otherwise ha_open will allocate it
on this->table->mem_root and we will not be able to reclaim that memory
when the clone handler object is destroyed.
*/
if
(
!
(
new_handler
->
ref
=
(
uchar
*
)
alloc_root
(
mem_root
,
ALIGN_SIZE
(
ref_length
)
*
2
)))
return
NULL
;
if
(
new_handler
&&
!
new_handler
->
ha_open
(
table
,
table
->
s
->
normalized_path
.
str
,
table
->
db_stat
,
HA_OPEN_IGNORE_IF_LOCKED
))
return
new_handler
;
return
NULL
;
if
(
new_handler
&&
!
(
new_handler
->
ref
=
(
uchar
*
)
alloc_root
(
mem_root
,
ALIGN_SIZE
(
ref_length
)
*
2
)))
new_handler
=
NULL
;
/*
TODO: Implement a more efficient way to have more than one index open for
the same table instance. The ha_open call is not cachable for clone.
*/
if
(
new_handler
&&
new_handler
->
ha_open
(
table
,
name
,
table
->
db_stat
,
HA_OPEN_IGNORE_IF_LOCKED
))
new_handler
=
NULL
;
return
new_handler
;
}
...
...
sql/handler.h
View file @
d67d4a04
...
...
@@ -1165,7 +1165,7 @@ class handler :public Sql_alloc
DBUG_ASSERT
(
locked
==
FALSE
);
/* TODO: DBUG_ASSERT(inited == NONE); */
}
virtual
handler
*
clone
(
MEM_ROOT
*
mem_root
);
virtual
handler
*
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
);
/** This is called after create to allow us to set up cached variables */
void
init
()
{
...
...
sql/opt_range.cc
View file @
d67d4a04
...
...
@@ -1335,7 +1335,7 @@ int QUICK_RANGE_SELECT::init_ror_merged_scan(bool reuse_handler)
}
thd
=
head
->
in_use
;
if
(
!
(
file
=
head
->
file
->
clone
(
thd
->
mem_root
)))
if
(
!
(
file
=
head
->
file
->
clone
(
head
->
s
->
normalized_path
.
str
,
thd
->
mem_root
)))
{
/*
Manually set the error flag. Note: there seems to be quite a few
...
...
storage/heap/ha_heap.cc
View file @
d67d4a04
...
...
@@ -142,11 +142,11 @@ int ha_heap::close(void)
DESCRIPTION
Do same as default implementation but use file->s->name instead of
table->s->path. This is needed by Windows where the clone() call sees
'/'-delimited path in table->s->path, while ha_
p
eap::open() was called
'/'-delimited path in table->s->path, while ha_
h
eap::open() was called
with '\'-delimited path.
*/
handler
*
ha_heap
::
clone
(
MEM_ROOT
*
mem_root
)
handler
*
ha_heap
::
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
)
{
handler
*
new_handler
=
get_new_handler
(
table
->
s
,
mem_root
,
table
->
s
->
db_type
());
if
(
new_handler
&&
!
new_handler
->
ha_open
(
table
,
file
->
s
->
name
,
table
->
db_stat
,
...
...
storage/heap/ha_heap.h
View file @
d67d4a04
...
...
@@ -34,7 +34,7 @@ class ha_heap: public handler
public:
ha_heap
(
handlerton
*
hton
,
TABLE_SHARE
*
table
);
~
ha_heap
()
{}
handler
*
clone
(
MEM_ROOT
*
mem_root
);
handler
*
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
);
const
char
*
table_type
()
const
{
return
(
table
->
in_use
->
variables
.
sql_mode
&
MODE_MYSQL323
)
?
...
...
storage/myisam/ha_myisam.cc
View file @
d67d4a04
...
...
@@ -552,9 +552,10 @@ ha_myisam::ha_myisam(handlerton *hton, TABLE_SHARE *table_arg)
can_enable_indexes
(
1
)
{}
handler
*
ha_myisam
::
clone
(
MEM_ROOT
*
mem_root
)
handler
*
ha_myisam
::
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
)
{
ha_myisam
*
new_handler
=
static_cast
<
ha_myisam
*>
(
handler
::
clone
(
mem_root
));
ha_myisam
*
new_handler
=
static_cast
<
ha_myisam
*>
(
handler
::
clone
(
name
,
mem_root
));
if
(
new_handler
)
new_handler
->
file
->
state
=
file
->
state
;
return
new_handler
;
...
...
storage/myisam/ha_myisam.h
View file @
d67d4a04
...
...
@@ -44,7 +44,7 @@ class ha_myisam: public handler
public:
ha_myisam
(
handlerton
*
hton
,
TABLE_SHARE
*
table_arg
);
~
ha_myisam
()
{}
handler
*
clone
(
MEM_ROOT
*
mem_root
);
handler
*
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
);
const
char
*
table_type
()
const
{
return
"MyISAM"
;
}
const
char
*
index_type
(
uint
key_number
);
const
char
**
bas_ext
()
const
;
...
...
storage/myisammrg/ha_myisammrg.cc
View file @
d67d4a04
...
...
@@ -459,8 +459,7 @@ int ha_myisammrg::open(const char *name, int mode __attribute__((unused)),
problem because all locking is handled by the original MERGE table
from which this is cloned of.
*/
if
(
!
(
file
=
myrg_open
(
table
->
s
->
normalized_path
.
str
,
table
->
db_stat
,
HA_OPEN_IGNORE_IF_LOCKED
)))
if
(
!
(
file
=
myrg_open
(
name
,
table
->
db_stat
,
HA_OPEN_IGNORE_IF_LOCKED
)))
{
DBUG_PRINT
(
"error"
,
(
"my_errno %d"
,
my_errno
));
DBUG_RETURN
(
my_errno
?
my_errno
:
-
1
);
...
...
@@ -484,7 +483,7 @@ int ha_myisammrg::open(const char *name, int mode __attribute__((unused)),
@return A cloned handler instance.
*/
handler
*
ha_myisammrg
::
clone
(
MEM_ROOT
*
mem_root
)
handler
*
ha_myisammrg
::
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
)
{
MYRG_TABLE
*
u_table
,
*
newu_table
;
ha_myisammrg
*
new_handler
=
...
...
@@ -505,8 +504,8 @@ handler *ha_myisammrg::clone(MEM_ROOT *mem_root)
return
NULL
;
}
if
(
new_handler
->
ha_open
(
table
,
table
->
s
->
normalized_path
.
str
,
table
->
db_stat
,
HA_OPEN_IGNORE_IF_LOCKED
))
if
(
new_handler
->
ha_open
(
table
,
name
,
table
->
db_stat
,
HA_OPEN_IGNORE_IF_LOCKED
))
{
delete
new_handler
;
return
NULL
;
...
...
storage/myisammrg/ha_myisammrg.h
View file @
d67d4a04
...
...
@@ -62,7 +62,7 @@ class ha_myisammrg: public handler
int
open
(
const
char
*
name
,
int
mode
,
uint
test_if_locked
);
int
attach_children
(
void
);
int
detach_children
(
void
);
virtual
handler
*
clone
(
MEM_ROOT
*
mem_root
);
virtual
handler
*
clone
(
const
char
*
name
,
MEM_ROOT
*
mem_root
);
int
close
(
void
);
int
write_row
(
uchar
*
buf
);
int
update_row
(
const
uchar
*
old_data
,
uchar
*
new_data
);
...
...
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