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nexedi
MariaDB
Commits
62264b13
Commit
62264b13
authored
Apr 03, 2006
by
unknown
Browse files
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Merge mysql.com:/home/bkroot/mysql-5.1-new
into mysql.com:/home/bk/b18436-mysql-5.1-new
parents
4e857755
b81c6cdd
Changes
5
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5 changed files
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1144 additions
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13 deletions
+1144
-13
mysql-test/extra/rpl_tests/rpl_partition.test
mysql-test/extra/rpl_tests/rpl_partition.test
+262
-0
mysql-test/r/rpl_row_basic_8partition.result
mysql-test/r/rpl_row_basic_8partition.result
+652
-0
mysql-test/t/rpl_row_basic_8partition.test
mysql-test/t/rpl_row_basic_8partition.test
+204
-0
sql/handler.cc
sql/handler.cc
+7
-0
sql/log_event.cc
sql/log_event.cc
+19
-13
No files found.
mysql-test/extra/rpl_tests/rpl_partition.test
0 → 100644
View file @
62264b13
############################################################
# Author: MATZ #
# Date: 2006-03-22 #
# Purpose: See if replication of partition tables work #
############################################################
connection
master
;
--
disable_warnings
DROP
TABLE
IF
EXISTS
t1
;
--
enable_query_log
--
echo
---
Start
test
2
partition
RANGE
testing
--
# Create table that is partitioned by range on year i.e. year(t) and
# replicate basice operations such at insert, update delete between 2
# different storage engines Alter table and ensure table is handled
# Correctly on the slave
# Note that the storage engine should not be explicit: the default
# storage engine is used on master and slave.
CREATE
TABLE
t1
(
id
MEDIUMINT
NOT
NULL
,
b1
BIT
(
8
),
vc
VARCHAR
(
255
),
bc
CHAR
(
255
),
d
DECIMAL
(
10
,
4
)
DEFAULT
0
,
f
FLOAT
DEFAULT
0
,
total
BIGINT
UNSIGNED
,
y
YEAR
,
t
DATE
)
PARTITION
BY
RANGE
(
YEAR
(
t
))
(
PARTITION
p0
VALUES
LESS
THAN
(
1901
),
PARTITION
p1
VALUES
LESS
THAN
(
1946
),
PARTITION
p2
VALUES
LESS
THAN
(
1966
),
PARTITION
p3
VALUES
LESS
THAN
(
1986
),
PARTITION
p4
VALUES
LESS
THAN
(
2005
),
PARTITION
p5
VALUES
LESS
THAN
MAXVALUE
);
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
--
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
source
include
/
rpl_multi_engine3
.
inc
--
echo
---
Check
that
simple
Alter
statements
are
replicated
correctly
---
ALTER
TABLE
t1
MODIFY
vc
TEXT
;
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
echo
---
Perform
basic
operation
on
master
---
--
echo
---
and
ensure
replicated
correctly
---
--
enable_query_log
--
source
include
/
rpl_multi_engine3
.
inc
--
echo
---
End
test
2
partition
RANGE
testing
---
DROP
TABLE
IF
EXISTS
t1
;
########################################################
--
echo
---
Start
test
3
partition
LIST
testing
---
--
echo
---
Do
setup
---
#################################################
# Requirment: Create table that is partitioned #
# by list on id i.e. (2,4). Pretend that we #
# missed one and alter to add. Then replicate #
# basice operations such at insert, update #
# delete between 2 different storage engines #
# Alter table and ensure table is handled #
# Correctly on the slave #
#################################################
CREATE
TABLE
t1
(
id
MEDIUMINT
NOT
NULL
,
b1
BIT
(
8
),
vc
VARCHAR
(
255
),
bc
CHAR
(
255
),
d
DECIMAL
(
10
,
4
)
DEFAULT
0
,
f
FLOAT
DEFAULT
0
,
total
BIGINT
UNSIGNED
,
y
YEAR
,
t
DATE
)
PARTITION
BY
LIST
(
id
)
(
PARTITION
p0
VALUES
IN
(
2
,
4
),
PARTITION
p1
VALUES
IN
(
42
,
142
));
--
echo
---
Test
3
Alter
to
add
partition
---
ALTER
TABLE
t1
ADD
PARTITION
(
PARTITION
p2
VALUES
IN
(
412
));
--
echo
---
Show
table
on
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
Show
table
on
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
echo
---
Perform
basic
operation
on
master
---
--
echo
---
and
ensure
replicated
correctly
---
--
source
include
/
rpl_multi_engine3
.
inc
--
echo
---
Check
that
simple
Alter
statements
are
replicated
correctly
---
ALTER
TABLE
t1
MODIFY
vc
TEXT
;
--
echo
---
Show
the
new
improved
table
on
the
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
Make
sure
that
our
tables
on
slave
are
still
same
engine
---
--
echo
---
and
that
the
alter
statements
replicated
correctly
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
echo
---
Perform
basic
operation
on
master
---
--
echo
---
and
ensure
replicated
correctly
---
--
source
include
/
rpl_multi_engine3
.
inc
--
echo
---
End
test
3
partition
LIST
testing
---
--
echo
---
Do
Cleanup
--
DROP
TABLE
IF
EXISTS
t1
;
########################################################
--
echo
---
Start
test
4
partition
HASH
testing
---
--
echo
---
Do
setup
---
#################################################
# Requirment: Create table that is partitioned #
# by hash on year i.e. YEAR(t). Then replicate #
# basice operations such at insert, update #
# delete between 2 different storage engines #
# Alter table and ensure table is handled #
# Correctly on the slave #
#################################################
CREATE
TABLE
t1
(
id
MEDIUMINT
NOT
NULL
,
b1
BIT
(
8
),
vc
VARCHAR
(
255
),
bc
CHAR
(
255
),
d
DECIMAL
(
10
,
4
)
DEFAULT
0
,
f
FLOAT
DEFAULT
0
,
total
BIGINT
UNSIGNED
,
y
YEAR
,
t
DATE
)
PARTITION
BY
HASH
(
YEAR
(
t
)
)
PARTITIONS
4
;
--
echo
---
show
that
tables
have
been
created
correctly
---
SHOW
CREATE
TABLE
t1
;
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
echo
---
Perform
basic
operation
on
master
---
--
echo
---
and
ensure
replicated
correctly
---
--
source
include
/
rpl_multi_engine3
.
inc
--
echo
---
Check
that
simple
Alter
statements
are
replicated
correctly
---
ALTER
TABLE
t1
MODIFY
vc
TEXT
;
--
echo
---
Show
the
new
improved
table
on
the
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
Make
sure
that
our
tables
on
slave
are
still
same
engine
---
--
echo
---
and
that
the
alter
statements
replicated
correctly
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
echo
---
Perform
basic
operation
on
master
---
--
echo
---
and
ensure
replicated
correctly
---
--
source
include
/
rpl_multi_engine3
.
inc
--
echo
---
End
test
4
partition
HASH
testing
---
--
echo
---
Do
Cleanup
--
DROP
TABLE
IF
EXISTS
t1
;
########################################################
--
echo
---
Start
test
5
partition
by
key
testing
---
--
echo
---
Create
Table
Section
---
#################################################
# Requirment: Create table that is partitioned #
# by key on id with 4 parts. Then replicate #
# basice operations such at insert, update #
# delete between 2 different storage engines #
# Alter table and ensure table is handled #
# Correctly on the slave #
#################################################
CREATE
TABLE
t1
(
id
MEDIUMINT
NOT
NULL
,
b1
BIT
(
8
),
vc
VARCHAR
(
255
),
bc
CHAR
(
255
),
d
DECIMAL
(
10
,
4
)
DEFAULT
0
,
f
FLOAT
DEFAULT
0
,
total
BIGINT
UNSIGNED
,
y
YEAR
,
t
DATE
,
PRIMARY
KEY
(
id
))
PARTITION
BY
KEY
()
PARTITIONS
4
;
--
echo
---
Show
that
tables
on
master
are
ndbcluster
tables
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
Show
that
tables
on
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
echo
---
Perform
basic
operation
on
master
---
--
echo
---
and
ensure
replicated
correctly
---
--
source
include
/
rpl_multi_engine3
.
inc
# Okay lets see how it holds up to table changes
--
echo
---
Check
that
simple
Alter
statements
are
replicated
correctly
---
ALTER
TABLE
t1
DROP
PRIMARY
KEY
,
ADD
PRIMARY
KEY
(
id
,
total
);
--
echo
---
Show
the
new
improved
table
on
the
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
Make
sure
that
our
tables
on
slave
are
still
right
type
---
--
echo
---
and
that
the
alter
statements
replicated
correctly
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
echo
---
Perform
basic
operation
on
master
---
--
echo
---
and
ensure
replicated
correctly
---
--
source
include
/
rpl_multi_engine3
.
inc
--
echo
---
Check
that
simple
Alter
statements
are
replicated
correctly
---
ALTER
TABLE
t1
MODIFY
vc
TEXT
;
--
echo
---
Show
the
new
improved
table
on
the
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
Make
sure
that
our
tables
on
slave
are
still
same
engine
---
--
echo
---
and
that
the
alter
statements
replicated
correctly
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
echo
---
Perform
basic
operation
on
master
---
--
echo
---
and
ensure
replicated
correctly
---
--
source
include
/
rpl_multi_engine3
.
inc
--
echo
---
End
test
5
key
partition
testing
---
--
echo
---
Do
Cleanup
---
DROP
TABLE
IF
EXISTS
t1
;
# End of 5.1 test case
mysql-test/r/rpl_row_basic_8partition.result
0 → 100644
View file @
62264b13
This diff is collapsed.
Click to expand it.
mysql-test/t/rpl_row_basic_8partition.test
0 → 100644
View file @
62264b13
############################################################
# Author: MATZ #
# Date: 2006-03-22 #
# Purpose: See if replication of partition tables work #
# Most of this test is copied from the rpl_xxx2yyy tests, #
# but here we just test some simple basic replication of #
# partition tables with same engine (MyISAM) in both ends. #
############################################################
--
source
include
/
master
-
slave
.
inc
connection
master
;
--
disable_warnings
DROP
TABLE
IF
EXISTS
t1
;
SET
BINLOG_FORMAT
=
ROW
;
--
echo
****
Partition
RANGE
testing
****
# Create table that is partitioned by range on year i.e. year(t) and
# replicate basice operations such at insert, update delete between 2
# different storage engines Alter table and ensure table is handled
# Correctly on the slave
# Note that the storage engine should not be explicit: the default
# storage engine is used on master and slave.
CREATE
TABLE
t1
(
id
MEDIUMINT
NOT
NULL
,
b1
BIT
(
8
),
vc
VARCHAR
(
255
),
bc
CHAR
(
255
),
d
DECIMAL
(
10
,
4
)
DEFAULT
0
,
f
FLOAT
DEFAULT
0
,
total
BIGINT
UNSIGNED
,
y
YEAR
,
t
DATE
)
PARTITION
BY
RANGE
(
YEAR
(
t
))
(
PARTITION
p0
VALUES
LESS
THAN
(
1901
),
PARTITION
p1
VALUES
LESS
THAN
(
1946
),
PARTITION
p2
VALUES
LESS
THAN
(
1966
),
PARTITION
p3
VALUES
LESS
THAN
(
1986
),
PARTITION
p4
VALUES
LESS
THAN
(
2005
),
PARTITION
p5
VALUES
LESS
THAN
MAXVALUE
);
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
--
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
source
include
/
rpl_multi_engine3
.
inc
connection
master
;
# Check that simple Alter statements are replicated correctly
ALTER
TABLE
t1
MODIFY
vc
TEXT
;
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
# Perform basic operation on master and ensure replicated correctly
--
source
include
/
rpl_multi_engine3
.
inc
connection
master
;
DROP
TABLE
IF
EXISTS
t1
;
########################################################
--
echo
****
Partition
LIST
testing
****
# Create table that is partitioned by list on id i.e. (2,4). Pretend
# that we missed one and alter to add. Then replicate basice
# operations such at insert, update delete between 2 different storage
# engines Alter table and ensure table is handled Correctly on the
# slave.
CREATE
TABLE
t1
(
id
MEDIUMINT
NOT
NULL
,
b1
BIT
(
8
),
vc
VARCHAR
(
255
),
bc
CHAR
(
255
),
d
DECIMAL
(
10
,
4
)
DEFAULT
0
,
f
FLOAT
DEFAULT
0
,
total
BIGINT
UNSIGNED
,
y
YEAR
,
t
DATE
)
PARTITION
BY
LIST
(
id
)
(
PARTITION
p0
VALUES
IN
(
2
,
4
),
PARTITION
p1
VALUES
IN
(
42
,
142
),
PARTITION
p2
VALUES
IN
(
412
));
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
# Perform basic operation on master and ensure replicated correctly
--
source
include
/
rpl_multi_engine3
.
inc
connection
master
;
# Check that simple Alter statements are replicated correctly ---
ALTER
TABLE
t1
MODIFY
vc
TEXT
;
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
# Perform basic operation on master and ensure replicated correctly
--
source
include
/
rpl_multi_engine3
.
inc
connection
master
;
DROP
TABLE
IF
EXISTS
t1
;
########################################################
--
echo
****
Partition
HASH
testing
****
# Create table that is partitioned by hash on year i.e. YEAR(t). Then
# replicate basice operations such at insert, update delete between 2
# different storage engines Alter table and ensure table is handled
# Correctly on the slave
CREATE
TABLE
t1
(
id
MEDIUMINT
NOT
NULL
,
b1
BIT
(
8
),
vc
VARCHAR
(
255
),
bc
CHAR
(
255
),
d
DECIMAL
(
10
,
4
)
DEFAULT
0
,
f
FLOAT
DEFAULT
0
,
total
BIGINT
UNSIGNED
,
y
YEAR
,
t
DATE
)
PARTITION
BY
HASH
(
YEAR
(
t
)
)
PARTITIONS
4
;
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
source
include
/
rpl_multi_engine3
.
inc
# Check that simple Alter statements are replicated correctly
ALTER
TABLE
t1
MODIFY
vc
TEXT
;
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
source
include
/
rpl_multi_engine3
.
inc
connection
master
;
DROP
TABLE
IF
EXISTS
t1
;
########################################################
# This part does not work
--
echo
****
Partition
by
KEY
****
# Create table that is partitioned by key on id with 4 parts. Then
# replicate basice operations such at insert, update delete between 2
# different storage engines Alter table and ensure table is handled
# Correctly on the slave
CREATE
TABLE
t1
(
id
MEDIUMINT
NOT
NULL
,
b1
BIT
(
8
),
vc
VARCHAR
(
255
),
bc
CHAR
(
255
),
d
DECIMAL
(
10
,
4
)
DEFAULT
0
,
f
FLOAT
DEFAULT
0
,
total
BIGINT
UNSIGNED
,
y
YEAR
,
t
DATE
,
PRIMARY
KEY
(
id
))
PARTITION
BY
KEY
()
PARTITIONS
4
;
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
source
include
/
rpl_multi_engine3
.
inc
connection
master
;
# Check that simple Alter statements are replicated correctly
ALTER
TABLE
t1
DROP
PRIMARY
KEY
,
ADD
PRIMARY
KEY
(
id
,
total
);
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
source
include
/
rpl_multi_engine3
.
inc
connection
master
;
# Check that simple Alter statements are replicated correctly
ALTER
TABLE
t1
MODIFY
vc
TEXT
;
--
echo
---
On
master
---
SHOW
CREATE
TABLE
t1
;
--
echo
---
On
slave
---
sync_slave_with_master
;
SHOW
CREATE
TABLE
t1
;
--
source
include
/
rpl_multi_engine3
.
inc
DROP
TABLE
IF
EXISTS
t1
;
# End of 5.1 test case
sql/handler.cc
View file @
62264b13
...
@@ -3309,6 +3309,13 @@ int handler::ha_write_row(byte *buf)
...
@@ -3309,6 +3309,13 @@ int handler::ha_write_row(byte *buf)
int
handler
::
ha_update_row
(
const
byte
*
old_data
,
byte
*
new_data
)
int
handler
::
ha_update_row
(
const
byte
*
old_data
,
byte
*
new_data
)
{
{
int
error
;
int
error
;
/*
Some storage engines require that the new record is in record[0]
(and the old record is in record[1]).
*/
DBUG_ASSERT
(
new_data
==
table
->
record
[
0
]);
if
(
unlikely
(
error
=
update_row
(
old_data
,
new_data
)))
if
(
unlikely
(
error
=
update_row
(
old_data
,
new_data
)))
return
error
;
return
error
;
#ifdef HAVE_ROW_BASED_REPLICATION
#ifdef HAVE_ROW_BASED_REPLICATION
...
...
sql/log_event.cc
View file @
62264b13
...
@@ -6402,7 +6402,7 @@ static int find_and_fetch_row(TABLE *table, byte *key)
...
@@ -6402,7 +6402,7 @@ static int find_and_fetch_row(TABLE *table, byte *key)
table->record[0] if the engine allows it. We first compute a
table->record[0] if the engine allows it. We first compute a
row reference using the position() member function (it will be
row reference using the position() member function (it will be
stored in table->file->ref) and the use rnd_pos() to position
stored in table->file->ref) and the use rnd_pos() to position
the "cursor" at the correct row.
the "cursor"
(i.e., record[0] in this case)
at the correct row.
*/
*/
table
->
file
->
position
(
table
->
record
[
0
]);
table
->
file
->
position
(
table
->
record
[
0
]);
DBUG_RETURN
(
table
->
file
->
rnd_pos
(
table
->
record
[
0
],
table
->
file
->
ref
));
DBUG_RETURN
(
table
->
file
->
rnd_pos
(
table
->
record
[
0
],
table
->
file
->
ref
));
...
@@ -6425,9 +6425,9 @@ static int find_and_fetch_row(TABLE *table, byte *key)
...
@@ -6425,9 +6425,9 @@ static int find_and_fetch_row(TABLE *table, byte *key)
my_ptrdiff_t
const
pos
=
my_ptrdiff_t
const
pos
=
table
->
s
->
null_bytes
>
0
?
table
->
s
->
null_bytes
-
1
:
0
;
table
->
s
->
null_bytes
>
0
?
table
->
s
->
null_bytes
-
1
:
0
;
table
->
record
[
1
][
pos
]
=
0xFF
;
table
->
record
[
1
][
pos
]
=
0xFF
;
if
((
error
=
table
->
file
->
index_read
_idx
(
table
->
record
[
1
],
0
,
key
,
if
((
error
=
table
->
file
->
index_read
(
table
->
record
[
1
]
,
key
,
table
->
key_info
->
key_length
,
table
->
key_info
->
key_length
,
HA_READ_KEY_EXACT
)))
HA_READ_KEY_EXACT
)))
{
{
table
->
file
->
print_error
(
error
,
MYF
(
0
));
table
->
file
->
print_error
(
error
,
MYF
(
0
));
DBUG_RETURN
(
error
);
DBUG_RETURN
(
error
);
...
@@ -6797,19 +6797,25 @@ int Update_rows_log_event::do_exec_row(TABLE *table)
...
@@ -6797,19 +6797,25 @@ int Update_rows_log_event::do_exec_row(TABLE *table)
return
error
;
return
error
;
/*
/*
This is only a precaution to make sure that the call to
We have to ensure that the new record (i.e., the after image) is
ha_update_row is using record[1].
in record[0] and the old record (i.e., the before image) is in
record[1]. This since some storage engines require this (for
If this is not needed/required, then we could use m_after_image in
example, the partition engine).
that call instead.
Since find_and_fetch_row() puts the fetched record (i.e., the old
record) in record[0], we have to move it out of the way and into
record[1]. After that, we can put the new record (i.e., the after
image) into record[0].
*/
*/
bmove_align
(
table
->
record
[
1
],
m_after_image
,(
size_t
)
table
->
s
->
reclength
);
bmove_align
(
table
->
record
[
1
],
table
->
record
[
0
],
table
->
s
->
reclength
);
bmove_align
(
table
->
record
[
0
],
m_after_image
,
table
->
s
->
reclength
);
/*
/*
Now we should have the right row to update. The record that has
Now we should have the right row to update. The old row (the one
been fetched is guaranteed to be in record[0], so we use that.
we're looking for) has to be in record[1] and the new row has to
be in record[0] for all storage engines to work correctly.
*/
*/
error
=
table
->
file
->
ha_update_row
(
table
->
record
[
0
],
table
->
record
[
1
]);
error
=
table
->
file
->
ha_update_row
(
table
->
record
[
1
],
table
->
record
[
0
]);
return
error
;
return
error
;
}
}
...
...
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