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################################################################################
# inc/partition_check.inc #
# #
# Purpose: #
# Do some basic usability checks on table t1. #
# This routine is only useful for the partition_<feature>_<engine> tests. #
# #
# Some Notes: #
# It is intended that in many testcases (statements) more than one partition #
# or subpartition is affected. #
# Without analysis of the partitioning function used during CREATE TABLE #
# we cannot be 100% sure that this goal is reached. #
# But statements affecting many rows give a good probability that this #
# appears. #
# #
# It is expected that the table to be checked contains at the beginning #
# of this script records following the scheme #
# f_int1 f_int2 f_char1 f_char2 f_charbig #
# 1 1 '1' '1' '###1###' #
# 2 2 '2' '1' '###2###' #
# ... ... ... ... ... #
# x x 'x' 'x' '###x###' #
# x = @max_row #
# #
# The table content must be equal to the content of the table t0_template. #
# Attention: Please be careful when modiying the data. #
# Records can be deleted or inserted, but the content of the #
# records after a test/testsequence should follow this scheme. #
# #
# All checks of preceding statements via Select are so written, #
# that they deliver a #
# # check <n> success: 1 #
# when everything is like expected. #
# - f_charbig is typically used for showing if something was changed. #
# This is useful for cleanups. #
# #
#------------------------------------------------------------------------------#
# Original Author: mleich #
# Original Date: 2006-03-05 #
# Change Author: mleich #
# Change Date: 2007-10-08 #
# Change: Around fix for #
# Bug#31243 Test "partition_basic_myisam" truncates path names#
# Adjustments of expected error codes: #
# ER_NO_PARTITION_FOR_GIVEN_VALUE is now 1525 #
# ER_SAME_NAME_PARTITION is now 1516 #
################################################################################
--echo # Start usability test (inc/partition_check.inc)
# Print the CREATE TABLE STATEMENT and store the current layout of the table
--source suite/parts/inc/partition_layout_check1.inc
#-------------------------------------------------------------------------------
## 1. Check the prerequisites for the following tests
# (sideeffect some SELECT functionality is also tested)
# Determine if we have PRIMARY KEYs or UNIQUE INDEXes
## 1.1 Check if the content of the records is like expected
# Sideeffect: mass SELECT, all records/partitions/subpartitions have to be
# read, because at least f_charbig is not part of any
# INDEX/PRIMARY KEY
if ($no_debug)
{
--disable_query_log
}
let $my_stmt= SELECT COUNT(*) <> 0 INTO @aux FROM t1
WHERE f_int1 <> f_int2 OR f_char1 <> CAST(f_int1 AS CHAR) OR f_char1 <> f_char2
OR f_charbig <> CONCAT('===',f_char1,'===')
OR f_int1 IS NULL OR f_int2 IS NULL OR f_char1 IS NULL OR f_char2 IS NULL
OR f_charbig IS NULL;
eval $my_stmt;
let $run= `SELECT @aux`;
--enable_query_log
if ($run)
{
--echo # Prerequisites for following tests not fullfilled.
--echo # The content of the table t1 is unexpected
eval $my_stmt;
SELECT @aux;
--echo # Sorry, have to abort.
exit;
}
# Give a success message like in the other following tests
--echo # check prerequisites-1 success: 1
#-------------------------------------------------------------------------------
## 1.2 Check if the number of records and the maximum and minimum values are
# like expected
# Sideeffect: Check
# - COUNT(*)
# - MIN/MAX on all columns possibly used in part. function
# The optimizer might decide to run on INDEX only, if available.
#
## 1.2.1 Check COUNT(*)
if ($no_debug)
{
--disable_query_log
}
let $my_stmt= SELECT COUNT(*) <> @max_row INTO @aux FROM t1;
let $run= `SELECT @aux`;
--enable_query_log
if ($run)
{
--echo # Prerequisites for following tests not fullfilled.
--echo # The content of the table t1 is unexpected
eval $my_stmt;
SELECT @aux;
--echo # Sorry, have to abort.
exit;
}
# Give a success message like in the other following tests
--echo # check COUNT(*) success: 1
## 1.2.2 Check MAX(f_int1),MIN(f_int1)
if ($no_debug)
{
--disable_query_log
}
let $my_stmt= SELECT MIN(f_int1) <> 1 AND MAX(f_int1) <> @max_row INTO @aux
FROM t1;
let $run= `SELECT @aux`;
--enable_query_log
if ($run)
{
--echo # Prerequisites for following tests not fullfilled.
--echo # The content of the table t1 is unexpected
eval $my_stmt;
SELECT @aux;
--echo # Sorry, have to abort.
exit;
}
# Give a success message like in the other following tests
--echo # check MIN/MAX(f_int1) success: 1
## 1.2.3 Check MAX(f_int2),MIN(f_int2)
if ($no_debug)
{
--disable_query_log
}
let $my_stmt= SELECT MIN(f_int2) <> 1 AND MAX(f_int2) <> @max_row INTO @aux
FROM t1;
let $run= `SELECT @aux`;
--enable_query_log
if ($run)
{
--echo # Prerequisites for following tests not fullfilled.
--echo # The content of the table t1 is unexpected
eval $my_stmt;
SELECT @aux;
--echo # Sorry, have to abort.
exit;
}
# Give a success message like in the other following tests
--echo # check MIN/MAX(f_int2) success: 1
#-------------------------------------------------------------------------------
## 1.3 Check, if f_int1 and/or f_char2 and/or (f_char1,f_char2) is UNIQUE
# by testing if any DUPLICATE KEY might appear
# Note: INFORMATION_SCHEMA SELECTs could be also used, but testing the
# table via INSERT and SELECT is better because is stresses the
# partitioning mechanism.
# Sideeffect: Attempt to INSERT one record
# DUPLICATE KEY will appear if we have UNIQUE columns
# ER_DUP_KEY, ER_DUP_ENTRY
--disable_abort_on_error
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, f_int1, CAST(f_int1 AS CHAR),
CAST(f_int1 AS CHAR), 'delete me' FROM t0_template
WHERE f_int1 IN (2,3);
--enable_abort_on_error
if ($no_debug)
{
--disable_query_log
}
eval SET @my_errno = $mysql_errno;
let $run_delete= `SELECT @my_errno = 0`;
let $any_unique= `SELECT @my_errno IN ($ER_DUP_KEY,$ER_DUP_ENTRY)`;
# DEBUG eval SELECT $run_delete AS run_delete, $any_unique AS any_unique,
# @my_errno AS sql_errno;
if (`SELECT @my_errno NOT IN (0,$ER_DUP_KEY,$ER_DUP_ENTRY)`)
{
--echo # The last command got an unexpected error response.
--echo # Expected/handled SQL codes are 0,$ER_DUP_KEY,$ER_DUP_ENTRY
SELECT '# SQL code we got was: ' AS "", @my_errno AS "";
--echo # Sorry, have to abort.
exit;
--echo
}
# Give a success message like in the other following tests
--echo # check prerequisites-3 success: 1
--enable_query_log
# DEBUG eval SELECT $run_delete AS run_delete, $any_unique AS any_unique;
if ($run_delete)
{
# INSERT was successful -> DELETE this new record
DELETE FROM t1 WHERE f_charbig = 'delete me';
--echo # INFO: Neither f_int1 nor f_int2 nor (f_int1,f_int2) is UNIQUE
}
if ($any_unique)
{
--echo # INFO: f_int1 AND/OR f_int2 AND/OR (f_int1,f_int2) is UNIQUE
## 1.3.1 Check, if f_int1 is UNIQUE
# Sideeffect: Attempt to INSERT one record
# DUPLICATE KEY will appear if we have UNIQUE columns
# ER_DUP_KEY, ER_DUP_ENTRY
--disable_abort_on_error
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, 2 * @max_row + f_int1, CAST((2 * @max_row + f_int1) AS CHAR),
CAST((2 * @max_row + f_int1) AS CHAR), 'delete me' FROM t0_template
WHERE f_int1 IN (2,3);
--enable_abort_on_error
if ($no_debug)
{
--disable_query_log
}
eval SET @my_errno = $mysql_errno;
let $run_delete= `SELECT @my_errno = 0`;
let $f_int1_is_unique= `SELECT @my_errno IN ($ER_DUP_KEY,$ER_DUP_ENTRY)`;
# DEBUG eval SELECT $run_delete AS run_delete, $f_int1_is_unique AS any_unique,
# @my_errno AS sql_errno;
if (`SELECT @my_errno NOT IN (0,$ER_DUP_KEY,$ER_DUP_ENTRY)`)
{
--echo # The last command got an unexpected error response.
--echo # Expected/handled SQL codes are 0,$ER_DUP_KEY,$ER_DUP_ENTRY
SELECT '# SQL code we got was: ' AS "", @my_errno AS "";
--echo # Sorry, have to abort.
exit;
--echo
}
--enable_query_log
if ($f_int1_is_unique)
{
--echo # INFO: f_int1 is UNIQUE
}
if ($run_delete)
{
# INSERT was successful -> DELETE this new record
DELETE FROM t1 WHERE f_charbig = 'delete me';
}
## 1.3.2 Check, if f_int2 is UNIQUE (get ER_DUP_KEY or ER_DUP_ENTRY
--disable_abort_on_error
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT 2 * @max_row + f_int1, f_int1, CAST((2 * @max_row + f_int1) AS CHAR),
CAST((2 * @max_row + f_int1) AS CHAR), 'delete me' FROM t0_template
WHERE f_int1 IN (2,3);
--enable_abort_on_error
if ($no_debug)
{
--disable_query_log
}
eval SET @my_errno = $mysql_errno;
let $run_delete= `SELECT @my_errno = 0`;
let $f_int1_is_unique= `SELECT @my_errno IN ($ER_DUP_KEY,$ER_DUP_ENTRY)`;
# DEBUG eval SELECT $run_delete AS run_delete, $f_int1_is_unique AS any_unique,
# @my_errno AS sql_errno;
if (`SELECT @my_errno NOT IN (0,$ER_DUP_KEY,$ER_DUP_ENTRY)`)
{
--echo # The last command got an unexpected error response.
--echo # Expected/handled SQL codes are 0,$ER_DUP_KEY,$ER_DUP_ENTRY
SELECT '# SQL code we got was: ' AS "", @my_errno AS "";
--echo # Sorry, have to abort.
exit;
--echo
}
if ($f_int2_is_unique)
{
--echo # INFO: f_int2 is UNIQUE
}
--enable_query_log
if ($run_delete)
{
# INSERT was successful -> DELETE this new record
DELETE FROM t1 WHERE f_charbig = 'delete me';
}
}
#-------------------------------------------------------------------------------
## 2. Read the table row by row
# Note: There were crashes in history when reading a partitioned table
# PRIMARY KEY AND/OR UNIQUE INDEXes
## 2.1 Read all existing and some not existing records of table
# per f_int1 used in partitioning function
let $col_to_check= f_int1;
--source suite/parts/inc/partition_check_read.inc
## 2.2 Read all existing and some not existing records of table
# per f_int2 used in partitioning function
let $col_to_check= f_int2;
--source suite/parts/inc/partition_check_read.inc
#-------------------------------------------------------------------------------
# 3 Some operations with multiple records
# 3.1 Select on "full" table
if ($no_debug)
{
--disable_query_log
}
SELECT '# check multiple-1 success: ' AS "",COUNT(*) = @max_row AS "" FROM t1;
--enable_query_log
#
# 3.2 (mass) DELETE of @max_row_div3 records
DELETE FROM t1 WHERE MOD(f_int1,3) = 0;
if ($no_debug)
{
--disable_query_log
}
SELECT '# check multiple-2 success: ' AS "",COUNT(*) = @max_row - @max_row_div3 AS "" FROM t1;
--enable_query_log
#
# 3.3 (mass) Insert of @max_row_div3 records
# (Insert the records deleted in 3.2)
INSERT INTO t1 SELECT * FROM t0_template
WHERE MOD(f_int1,3) = 0;
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check multiple-3 success: ' AS "",
(COUNT(*) = @max_row) AND (MIN(f_int1) = 1) AND (MAX(f_int1) = @max_row) AS ""
FROM t1;
--enable_query_log
# DEBUG SELECT COUNT(*),MIN(f_int1),MAX(f_int1) FROM t1;
#
# 3.4 (mass) Update @max_row_div4 * 2 + 1 records
# Bug#18735: Partitions: NDB, UNIQUE INDEX, UPDATE, strange server response
UPDATE t1 SET f_int1 = f_int1 + @max_row
WHERE f_int1 BETWEEN @max_row_div2 - @max_row_div4
AND @max_row_div2 + @max_row_div4;
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check multiple-4 success: ' AS "",(COUNT(*) = @max_row) AND (MIN(f_int1) = 1) AND
(MAX(f_int1) = @max_row_div2 + @max_row_div4 + @max_row ) AS "" FROM t1;
--enable_query_log
# DEBUG SELECT COUNT(*),MIN(f_int1),MAX(f_int1) FROM t1;
#
# 3.5 (mass) Delete @max_row_div4 * 2 + 1 records
# (Delete the records updated in 3.4)
DELETE FROM t1
WHERE f_int1 BETWEEN @max_row_div2 - @max_row_div4 + @max_row
AND @max_row_div2 + @max_row_div4 + @max_row;
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check multiple-5 success: ' AS "",
(COUNT(*) = @max_row - @max_row_div4 - @max_row_div4 - 1)
AND (MIN(f_int1) = 1) AND (MAX(f_int1) = @max_row) AS "" FROM t1;
--enable_query_log
# DEBUG SELECT COUNT(*),MIN(f_int1),MAX(f_int1) FROM t1;
#-------------------------------------------------------------------------------
# Attention: After this section all modification on the table have to be reverted !
# Current content of t1 follows the rule:
# <value>,<value>,'<value>','<value>',===<value>===
# <value> contains all INTEGER values
# between 1 and @max_row_div2 - @max_row_div4 - 1
# and
# between @max_row_div2 + @max_row_div4 + 1 and @max_row
# With other words the values between @max_row_div2 - @max_row_div4
# and @max_row_div2 + @max_row_div4 are "missing".
#-------------------------------------------------------------------------------
# The following is only needed for tests of UNIQUE CONSTRAINTs.
if ($any_unique)
{
# Calculate the number of records, where we will try INSERT ..... or REPLACE
SELECT COUNT(*) INTO @try_count FROM t0_template
WHERE MOD(f_int1,3) = 0
AND f_int1 BETWEEN @max_row_div2 AND @max_row;
#
# Calculate the number of records, where we will get DUPLICATE KEY
# f_int1 is sufficient for calculating this, because 1.1
# checks, that f_int1 = f_int2 is valid for all rows.
SELECT COUNT(*) INTO @clash_count
FROM t1 INNER JOIN t0_template USING(f_int1)
WHERE MOD(f_int1,3) = 0
AND f_int1 BETWEEN @max_row_div2 AND @max_row;
if ($debug)
{
SELECT @try_count, @clash_count;
}
}
#-------------------------------------------------------------------------------
# 4 Some operations with single records
# 4.1 Insert one record with a value for f_int1 which is lower than in all
# existing records.
SELECT MIN(f_int1) - 1 INTO @cur_value FROM t1;
INSERT INTO t1
SET f_int1 = @cur_value , f_int2 = @cur_value,
f_char1 = CAST(@cur_value AS CHAR), f_char2 = CAST(@cur_value AS CHAR),
f_charbig = '#SINGLE#';
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check single-1 success: ' AS "",COUNT(*) = 1 AS "" FROM t1
WHERE f_int1 = @cur_value AND f_int2 = @cur_value
AND f_char1 = CAST(@cur_value AS CHAR)
AND f_char2 = CAST(@cur_value AS CHAR) AND f_charbig = '#SINGLE#';
--enable_query_log
#
# 4.2 Insert one record with a value for f_int1 which is higher than in all
# existing records.
SELECT MAX(f_int1) + 1 INTO @cur_value FROM t1;
INSERT INTO t1
SET f_int1 = @cur_value , f_int2 = @cur_value,
f_char1 = CAST(@cur_value AS CHAR), f_char2 = CAST(@cur_value AS CHAR),
f_charbig = '#SINGLE#';
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check single-2 success: ' AS "",COUNT(*) = 1 AS "" FROM t1
WHERE f_int1 = @cur_value AND f_int2 = @cur_value
AND f_char1 = CAST(@cur_value AS CHAR)
AND f_char2 = CAST(@cur_value AS CHAR) AND f_charbig = '#SINGLE#';
--enable_query_log
#
# 4.3 Update one record. The value of f_int1 is altered from the lowest to
# the highest value of all existing records.
# If f_int1 is used for the partitioning expression a movement of the
# record to another partition/subpartition might appear.
SELECT MIN(f_int1) INTO @cur_value1 FROM t1;
SELECT MAX(f_int1) + 1 INTO @cur_value2 FROM t1;
# Bug#18735: Partitions: NDB, UNIQUE INDEX, UPDATE, strange server response
UPDATE t1 SET f_int1 = @cur_value2
WHERE f_int1 = @cur_value1 AND f_charbig = '#SINGLE#';
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check single-3 success: ' AS "",COUNT(*) = 1 AS "" FROM t1
WHERE f_int1 = @cur_value2 AND f_charbig = '#SINGLE#';
--enable_query_log
#
# 4.4 Update one record. The value of f_int1 is altered from the highest value
# to a value lower than in all existing records.
# If f_int1 is used for the partitioning expression a movement of the
# record to another partition/subpartition might appear.
# f_int1 gets the delicate value '-1'.
SET @cur_value1= -1;
SELECT MAX(f_int1) INTO @cur_value2 FROM t1;
# Bug#15968: Partitions: crash when INSERT with f_int1 = -1 into PARTITION BY HASH(f_int1)
# Bug#16385: Partitions: crash when updating a range partitioned NDB table
# Bug#18735: Partitions: NDB, UNIQUE INDEX, UPDATE, strange server response
UPDATE t1 SET f_int1 = @cur_value1
WHERE f_int1 = @cur_value2 AND f_charbig = '#SINGLE#';
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check single-4 success: ' AS "",COUNT(*) AS "" FROM t1
WHERE f_int1 = @cur_value1 AND f_charbig = '#SINGLE#';
--enable_query_log
#
# 4.5 Delete the record with the highest value of f_int1.
SELECT MAX(f_int1) INTO @cur_value FROM t1;
DELETE FROM t1 WHERE f_int1 = @cur_value AND f_charbig = '#SINGLE#';
# Check of preceding statements via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check single-5 success: ' AS "",COUNT(*) = 0 AS "" FROM t1
WHERE f_charbig = '#SINGLE#' AND f_int1 = f_int1 = @cur_value;
--enable_query_log
#
# 4.6 Delete the record with f_int1 = -1
DELETE FROM t1 WHERE f_int1 = -1 AND f_charbig = '#SINGLE#';
# Check of preceding statements via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check single-6 success: ' AS "",COUNT(*) = 0 AS "" FROM t1
WHERE f_charbig = '#SINGLE#' AND f_int1 IN (-1,@cur_value);
--enable_query_log
#
# 4.7 Insert one record with such a big value for f_int1, so that in case
# - f_int1 is used within the partitioning algorithm
# - we use range partitioning
# we get error ER_NO_PARTITION_FOR_GIVEN_VALUE
# "Table has no partition for value ...."
# or ER_SAME_NAME_PARTITION
--disable_abort_on_error
eval INSERT INTO t1 SET f_int1 = @max_int_4 , f_int2 = @max_int_4, f_charbig = '#$max_int_4##';
--enable_abort_on_error
if ($no_debug)
{
--disable_query_log
}
eval SET @my_errno = $mysql_errno;
if (`SELECT @my_errno NOT IN (0,$ER_SAME_NAME_PARTITION,$ER_NO_PARTITION_FOR_GIVEN_VALUE)`)
{
--echo # The last command got an unexpected error response.
--echo # Expected/handled SQL codes are 0,$ER_SAME_NAME_PARTITION,$ER_NO_PARTITION_FOR_GIVEN_VALUE
SELECT '# SQL code we got was: ' AS "", @my_errno AS "";
--echo # Sorry, have to abort.
exit;
--echo
}
# Check of preceding statement via Select, if the INSERT was successful
let $run= `SELECT @my_errno = 0`;
if ($run)
{
# Attention: There are some tests where the column type is changed from
# INTEGER to MEDIUMINT. MEDIUMINT has a smaller range and the
# inserted value is automatically adjusted to the maximum value
# of the data type.
# that's the reason why we cannot use WHERE <column> = @max_int_4 here.
#
eval SELECT '# check single-7 success: ' AS "",
COUNT(*) = 1 AS "" FROM t1 WHERE f_charbig = '#$max_int_4##';
# Revert this modification
--enable_query_log
eval DELETE FROM t1 WHERE f_charbig = '#$max_int_4##';
}
--enable_query_log
#-------------------------------------------------------------------------------
# 5 Experiments with NULL
# If the result of the partitioning function IS NULL partitioning treats
# this record as if the the result of the partitioning function is
# MySQL 5.1 < March 2006 : zero
# MySQL 5.1 >= March 2006 : LONGLONG_MIN
# Let's INSERT a record where the result of the partitioning function is
# probably (depends on function currently used) zero and look if there are
# any strange effects during the execution of the next statements.
# Bug#17891: Partitions: NDB, crash on select .. where col is null or col = value
# Bug#18659: Partitions: wrong result on WHERE <col. used in part. function> IS NULL
DELETE FROM t1 WHERE f_int1 IS NULL OR f_int1 = 0;
# Attention: Zero should be tested
INSERT t1 SET f_int1 = 0 , f_int2 = 0,
f_char1 = CAST(0 AS CHAR), f_char2 = CAST(0 AS CHAR),
f_charbig = '#NULL#';
# 5.1 Insert one record with f_int1 IS NULL.
# f1 "=" NULL is a delicate value which might stress the partitioning
# mechanism if the result of the expression in the partitioning algorithm
# becomes NULL.
# This INSERT will fail, if f_int1 is PRIMARY KEY or UNIQUE INDEX
# with ER_BAD_NULL_ERROR.
--disable_abort_on_error
INSERT INTO t1
SET f_int1 = NULL , f_int2 = -@max_row,
f_char1 = CAST(-@max_row AS CHAR), f_char2 = CAST(-@max_row AS CHAR),
f_charbig = '#NULL#';
# Some other NULL experiments if preceding INSERT was successfull
--enable_abort_on_error
if ($no_debug)
{
--disable_query_log
}
eval SET @my_errno = $mysql_errno;
let $run= `SELECT @my_errno = 0`;
if (`SELECT @my_errno NOT IN (0,$ER_BAD_NULL_ERROR)`)
{
--echo # The last command got an unexpected error response.
--echo # Expected/handled SQL codes are 0,$ER_BAD_NULL_ERROR
SELECT '# SQL code we got was: ' AS "", @my_errno AS "";
--echo # Sorry, have to abort.
--echo # Please check the error name to number mapping in inc/partition.pre.
exit;
--echo
}
--enable_query_log
# Give a success message like in the other following tests
--echo # check null success: 1
# The following checks do not make sense if f_int1 cannot be NULL
if ($run)
{
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
# Bug#17432: Partitions: wrong result, SELECT ... where <column> is null
SELECT '# check null-1 success: ' AS "",COUNT(*) = 1 AS "" FROM t1
WHERE f_int1 IS NULL AND f_charbig = '#NULL#';
--enable_query_log
#
# 5.2 Update of f_int1 from NULL to negative value
# Bug#17432: Partitions: wrong result, SELECT ... where <column> is null
UPDATE t1 SET f_int1 = -@max_row
WHERE f_int1 IS NULL AND f_int2 = -@max_row AND f_char1 = CAST(-@max_row AS CHAR)
AND f_char2 = CAST(-@max_row AS CHAR) AND f_charbig = '#NULL#';
if ($no_debug)
{
--disable_query_log
}
# Check of preceding statement via Select
SELECT '# check null-2 success: ' AS "",COUNT(*) = 1 AS "" FROM t1
WHERE f_int1 = -@max_row AND f_charbig = '#NULL#';
--enable_query_log
# 5.3 Update of f_int1 from negative value to NULL
UPDATE t1 SET f_int1 = NULL
WHERE f_int1 = -@max_row AND f_int2 = -@max_row AND f_char1 = CAST(-@max_row AS CHAR)
AND f_char2 = CAST(-@max_row AS CHAR) AND f_charbig = '#NULL#';
if ($no_debug)
{
--disable_query_log
}
# Check of preceding statement via Select
SELECT '# check null-3 success: ' AS "",COUNT(*) = 1 AS "" FROM t1
WHERE f_int1 IS NULL AND f_charbig = '#NULL#';
--enable_query_log
# 5.4 DELETE of the record with f_int1 IS NULL
DELETE FROM t1
WHERE f_int1 IS NULL AND f_int2 = -@max_row AND f_char1 = CAST(-@max_row AS CHAR)
AND f_char2 = CAST(-@max_row AS CHAR) AND f_charbig = '#NULL#';
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check null-4 success: ' AS "",COUNT(*) = 0 AS "" FROM t1
WHERE f_int1 IS NULL;
--enable_query_log
}
# Remove the "0" record
DELETE FROM t1
WHERE f_int1 = 0 AND f_int2 = 0
AND f_char1 = CAST(0 AS CHAR) AND f_char2 = CAST(0 AS CHAR)
AND f_charbig = '#NULL#';
#-------------------------------------------------------------------------------
## 6. UPDATEs of columns used in the partitioning function and the PRIMARY KEY
# the UNIQUE INDEX without using straight forward UPDATE.
# INSERT .... ON DUPLICATE KEY UPDATE .... --> update existing record
# REPLACE --> delete existing record + insert new record
# Note:
# - This test is skipped for tables without any PRIMARY KEY or
# UNIQUE INDEX.
# - MOD(<column>,n) with n = prime number, n <> 2 is used to cause
# that many records and most probably more than one PARTITION/
# SUBPARTITION are affected.
# - Under certain circumstanditions a movement of one or more records
# to other PARTITIONs/SUBPARTITIONs might appear.
# - There are some storage engines, which are unable to revert changes
# of a failing statement. This has to be taken into account when
# checking if a DUPLICATE KEY might occur.
#
# What to test ?
# UNIQUE columns
# f_int1 IU f_int1 IU f_int1,f_int2 R
# f_int2 IU f_int2 IU f_int1,f_int2 R
# f_int1,f_int2 IU f_int1,f_int2 R
#
# IU column = INSERT .. ON DUPLICATE KEY UPDATE column
# R = REPLACE ..
#
# Current state of the data
# 1. f_int1 = f_int2, f_char1 = CAST(f_int1 AS CHAR), f_char2 = f_char1,
# f_charbig = CONCAT('===',f_char1,'===);
# 2. f_int1 FROM 1 TO @max_row_div4
# AND @max_row_div2 + @max_row_div4 TO @max_row
#
# Do not apply the following tests to tables without UNIQUE columns.
if ($any_unique)
{
let $num= 1;
if ($f_int1_is_unique)
{
## 6.1 f_int1 is UNIQUE, UPDATE f_int1 when DUPLICATE KEY
# Bug#15236 Partitions: crash, if Insert .. on duplicate key causes update of existing row
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, f_int1, '', '', 'was inserted'
FROM t0_template source_tab
WHERE MOD(f_int1,3) = 0
AND f_int1 BETWEEN @max_row_div2 AND @max_row
ON DUPLICATE KEY
UPDATE f_int1 = 2 * @max_row + source_tab.f_int1,
f_charbig = 'was updated';
--source suite/parts/inc/partition_20.inc
}
if ($f_int2_is_unique)
{
## 6.2 f_int2 is UNIQUE, UPDATE f_int2 when DUPLICATE KEY
# Bug#15236 Partitions: crash, if Insert .. on duplicate key causes update of existing row
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, f_int1, '', '', 'was inserted'
FROM t0_template source_tab
WHERE MOD(f_int1,3) = 0
AND f_int1 BETWEEN @max_row_div2 AND @max_row
ON DUPLICATE KEY
UPDATE f_int2 = 2 * @max_row + source_tab.f_int1,
f_charbig = 'was updated';
--source suite/parts/inc/partition_20.inc
}
## 6.3 f_int1, f_int2 is UNIQUE, UPDATE f_int1, f_int2 when DUPLICATE KEY
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, f_int1, '', '', 'was inserted'
FROM t0_template source_tab
WHERE MOD(f_int1,3) = 0
AND f_int1 BETWEEN @max_row_div2 AND @max_row
ON DUPLICATE KEY
UPDATE f_int1 = 2 * @max_row + source_tab.f_int1,
f_int2 = 2 * @max_row + source_tab.f_int1,
f_charbig = 'was updated';
--source suite/parts/inc/partition_20.inc
## 6.4 REPLACE
# Bug#16782: Partitions: crash, REPLACE .. on table with PK, DUPLICATE KEY
REPLACE INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, - f_int1, '', '', 'was inserted or replaced'
FROM t0_template source_tab
WHERE MOD(f_int1,3) = 0 AND f_int1 BETWEEN @max_row_div2 AND @max_row;
# DEBUG SELECT * FROM t1 ORDER BY f_int1, f_int2;
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check replace success: ' AS "", COUNT(*) = @try_count AS ""
FROM t1 WHERE f_charbig = 'was inserted or replaced';
--enable_query_log
# Revert the modification
DELETE FROM t1
WHERE f_int1 BETWEEN @max_row_div2 AND @max_row_div2 + @max_row_div4;
# If there is only UNIQUE (f1,f2) we will have pairs f_int1,f_int2
# <n>, <n> and <n>, <-n>
# where MOD(f_int1,3) = 0
# and f_int1 between @max_row_div2 + @max_row_div4 and @max_row.
# Delete the <n>, <n> records.
DELETE FROM t1
WHERE f_int1 = f_int2 AND MOD(f_int1,3) = 0 AND
f_int1 BETWEEN @max_row_div2 + @max_row_div4 AND @max_row;
UPDATE t1 SET f_int2 = f_int1,
f_char1 = CAST(f_int1 AS CHAR),
f_char2 = CAST(f_int1 AS CHAR),
f_charbig = CONCAT('===',CAST(f_int1 AS CHAR),'===')
WHERE f_charbig = 'was inserted or replaced' AND f_int1 = - f_int2;
# DEBUG SELECT * FROM t1 ORDER BY f_int1, f_int2;
}
#-------------------------------------------------------------------------------
# 7 Transactions
SET AUTOCOMMIT= 0;
# DEBUG SELECT @max_row_div4 , @max_row_div2 + @max_row_div4;
if ($no_debug)
{
--disable_query_log
}
SELECT COUNT(f_int1) INTO @start_count FROM t1
WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--enable_query_log
let $run= `SELECT @start_count <> 0`;
if ($run)
{
--echo # Prerequisites for following tests not fullfilled.
--echo # The content of the table t1 is unexpected
--echo # There must be no rows BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
SELECT COUNT(f_int1) FROM t1
WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--echo # Sorry, have to abort.
exit;
}
# Number of records to be inserted
if ($no_debug)
{
--disable_query_log
}
SELECT @max_row_div2 + @max_row_div4 - @max_row_div4 + 1 INTO @exp_inserted_rows;
--enable_query_log
# 7.1 Successful INSERT + COMMIT
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, f_int1, '', '', 'was inserted'
FROM t0_template source_tab
WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
# The inserted records must be visible (at least for our current session)
if ($no_debug)
{
--disable_query_log
}
SELECT '# check transactions-1 success: ' AS "",
COUNT(*) = @exp_inserted_rows AS ""
FROM t1 WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--enable_query_log
# Make the changes persistent for all storage engines
COMMIT WORK;
# The inserted records must be visible (for all open and future sessions)
if ($no_debug)
{
--disable_query_log
}
SELECT '# check transactions-2 success: ' AS "",
COUNT(*) = @exp_inserted_rows AS ""
FROM t1 WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--enable_query_log
# Let's assume we have a transactional engine + COMMIT is ill.
# A correct working ROLLBACK might revert the INSERT.
ROLLBACK WORK;
if ($no_debug)
{
--disable_query_log
}
SELECT '# check transactions-3 success: ' AS "",
COUNT(*) = @exp_inserted_rows AS ""
FROM t1 WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--enable_query_log
# Revert the changes
DELETE FROM t1 WHERE f_charbig = 'was inserted';
COMMIT WORK;
ROLLBACK WORK;
if ($no_debug)
{
--disable_query_log
}
SELECT '# check transactions-4 success: ' AS "",
COUNT(*) = 0 AS ""
FROM t1 WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--enable_query_log
#
# 7.2 Successful INSERT + ROLLBACK
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, f_int1, '', '', 'was inserted'
FROM t0_template source_tab
WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
if ($no_debug)
{
--disable_query_log
}
SELECT '# check transactions-5 success: ' AS "",
COUNT(*) = @exp_inserted_rows AS ""
FROM t1 WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--enable_query_log
ROLLBACK WORK;
if ($no_debug)
{
--disable_query_log
}
SELECT COUNT(*) INTO @my_count
FROM t1 WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
SELECT '# check transactions-6 success: ' AS "",
@my_count IN (0,@exp_inserted_rows) AS "";
let $run= `SELECT @my_count = 0`;
if ($run)
{
--echo # INFO: Storage engine used for t1 seems to be transactional.
}
let $run= `SELECT @my_count = @exp_inserted_rows`;
if ($run)
{
--echo # INFO: Storage engine used for t1 seems to be not transactional.
}
--enable_query_log
# Let's assume we have a transactional engine + ROLLBACK is ill.
# A correct working COMMIT might make the inserted records again visible.
COMMIT;
if ($no_debug)
{
--disable_query_log
}
SELECT '# check transactions-7 success: ' AS "",
COUNT(*) IN (0,@exp_inserted_rows) AS ""
FROM t1 WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--enable_query_log
# Revert the changes
DELETE FROM t1 WHERE f_charbig = 'was inserted';
COMMIT WORK;
#
# 7.3 Failing INSERT (in mid of statement processing) + COMMIT
SET @@session.sql_mode = 'traditional';
# Number of records where a INSERT has to be tried
SELECT @max_row_div2 + @max_row_div4 - @max_row_div4 + 1 INTO @exp_inserted_rows;
#
--disable_abort_on_error
INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT IF(f_int1 = @max_row_div2,f_int1 / 0,f_int1),f_int1,
'', '', 'was inserted' FROM t0_template
WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
--enable_abort_on_error
COMMIT;
# How many new records should be now visible ?
# 1. storage engine unable to revert changes made by the failing statement
# @max_row_div2 - 1 - @max_row_div4 + 1
# 2. storage engine able to revert changes made by the failing statement
# 0
if ($no_debug)
{
--disable_query_log
}
SELECT COUNT(*) INTO @my_count
FROM t1 WHERE f_int1 BETWEEN @max_row_div4 AND @max_row_div2 + @max_row_div4;
SELECT '# check transactions-8 success: ' AS "",
@my_count IN (@max_row_div2 - 1 - @max_row_div4 + 1,0) AS "";
let $run= `SELECT @my_count = @max_row_div2 - 1 - @max_row_div4 + 1`;
if ($run)
{
--echo # INFO: Storage engine used for t1 seems to be unable to revert
--echo # changes made by the failing statement.
}
let $run= `SELECT @my_count = 0`;
if ($run)
{
--echo # INFO: Storage engine used for t1 seems to be able to revert
--echo # changes made by the failing statement.
}
--enable_query_log
SET @@session.sql_mode = '';
SET AUTOCOMMIT= 1;
# Revert the changes
DELETE FROM t1 WHERE f_charbig = 'was inserted';
COMMIT WORK;
if ($debug)
{
SELECT * FROM t1 ORDER BY f_int1;
}
#-------------------------------------------------------------------------------
# 8 Some special cases
# 8.1 Dramatic increase of the record/partition/subpartition/table sizes
UPDATE t1 SET f_charbig = REPEAT('b', 1000);
# partial check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
eval SELECT '# check special-1 success: ' AS "",1 AS "" FROM t1
WHERE f_int1 = 1 AND f_charbig = REPEAT('b', 1000);
--enable_query_log
#
# 8.2 Dramatic decrease of the record/partition/subpartition/table sizes
UPDATE t1 SET f_charbig = '';
# partial check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
eval SELECT '# check special-2 success: ' AS "",1 AS "" FROM t1
WHERE f_int1 = 1 AND f_charbig = '';
--enable_query_log
# Revert the changes
UPDATE t1 SET f_charbig = CONCAT('===',CAST(f_int1 AS CHAR),'===');
if ($debug)
{
SELECT * FROM t1 ORDER BY f_int1;
}
#-------------------------------------------------------------------------------
# 9 TRIGGERs
let $num= 1;
# 9.1 BEFORE/AFTER INSERT/UPDATE/DELETE TRIGGER on table t0_aux causes that
# column values used in partitioning function of t1 are changed.
let $tab_has_trigg= t0_aux;
let $tab_in_trigg= t1;
# Insert three records, which will be updated by the trigger
# Bug#18735: Partitions: NDB, UNIQUE INDEX, UPDATE, strange server response
eval INSERT INTO $tab_in_trigg(f_int1,f_int2,f_char1,f_char2,f_charbig)
SELECT f_int1,f_int2,f_char1,f_char2,'just inserted' FROM t0_template
WHERE f_int1 BETWEEN @max_row_div2 - 1 AND @max_row_div2 + 1;
let $statement= INSERT INTO t0_aux(f_int1,f_int2,f_char1,f_char2,f_charbig)
SELECT f_int1,f_int2,f_char1,f_char2,NULL FROM t0_template
WHERE f_int1 BETWEEN @max_row_div2 - 1 AND @max_row_div2 + 1;
let $event= BEFORE INSERT;
--source suite/parts/inc/partition_trigg1.inc
let $event= AFTER INSERT;
--source suite/parts/inc/partition_trigg1.inc
let $statement= UPDATE t0_aux SET f_int1 = - f_int1, f_int2 = - f_int2
WHERE f_int1 IN (- (@max_row_div2 - 1),- @max_row_div2,- (@max_row_div2 + 1));
let $event= BEFORE UPDATE;
--source suite/parts/inc/partition_trigg1.inc
let $event= AFTER UPDATE;
--source suite/parts/inc/partition_trigg1.inc
let $statement= DELETE FROM t0_aux
WHERE f_int1 IN (- (@max_row_div2 - 1),- @max_row_div2,- (@max_row_div2 + 1));
let $event= BEFORE DELETE;
--source suite/parts/inc/partition_trigg1.inc
let $event= AFTER DELETE;
--source suite/parts/inc/partition_trigg1.inc
# Cleanup
eval DELETE FROM $tab_in_trigg
WHERE f_int1 BETWEEN @max_row_div2 - 1 AND @max_row_div2 + 1;
# Two currently (February 2006) impossible operations.
# 1442: 'Can't update table 't1' in stored function/trigger because it is
# already used by statement which invoked this stored function/trigger.'
# 1362: 'Updating of OLD row is not allowed in trigger'
if ($debug)
{
SELECT * FROM t1 ORDER BY f_int1;
}
if ($more_trigger_tests)
{
# 9.2 BEFORE/AFTER INSERT/UPDATE/DELETE TRIGGER on partitioned table t1 causes
# that column values in not partitioned table t0_aux are changed.
let $tab_has_trigg= t1;
let $tab_in_trigg= t0_aux;
# Insert three records, which will be updated by the trigger
eval INSERT INTO $tab_in_trigg(f_int1,f_int2,f_char1,f_char2,f_charbig)
SELECT f_int1,f_int2,f_char1,f_char2,'just inserted' FROM t0_template
WHERE f_int1 BETWEEN @max_row_div2 - 1 AND @max_row_div2 + 1;
let $statement= INSERT INTO t1(f_int1,f_int2,f_char1,f_char2,f_charbig)
SELECT f_int1,f_int2,f_char1,f_char2,NULL FROM t0_template
WHERE f_int1 BETWEEN @max_row_div2 - 1 AND @max_row_div2 + 1;
let $event= BEFORE INSERT;
--source suite/parts/inc/partition_trigg1.inc
let $event= AFTER INSERT;
--source suite/parts/inc/partition_trigg1.inc
let $statement= UPDATE t1 SET f_int1 = - f_int1, f_int2 = - f_int2
WHERE f_int1 IN (- (@max_row_div2 - 1),- @max_row_div2,- (@max_row_div2 + 1));
let $event= BEFORE UPDATE;
--source suite/parts/inc/partition_trigg1.inc
let $event= AFTER UPDATE;
--source suite/parts/inc/partition_trigg1.inc
let $statement= DELETE FROM t1
WHERE f_int1 IN (- (@max_row_div2 - 1),- @max_row_div2,- (@max_row_div2 + 1));
let $event= BEFORE DELETE;
--source suite/parts/inc/partition_trigg1.inc
let $event= AFTER DELETE;
--source suite/parts/inc/partition_trigg1.inc
eval DELETE FROM $tab_in_trigg
WHERE f_int1 BETWEEN @max_row_div2 - 1 AND @max_row_div2 + 1;
}
if ($debug)
{
SELECT * FROM t1 ORDER BY f_int1;
}
# 9.3 BEFORE/AFTER UPDATE TRIGGER on partitioned table causes that the value
# of columns in partitioning function is recalculated
if ($more_trigger_tests)
{
# 9.3.1 The UPDATE itself changes a column which is not used in the partitioning
# function.
# "old" values are used as source within the trigger.
let $statement= UPDATE t1
SET f_charbig = '####updated per update statement itself####';
let $source= old;
let $event= BEFORE UPDATE;
--source suite/parts/inc/partition_trigg2.inc
# FIXME when AFTER TRIGGER can be used
# Currently (2006-02-23) a AFTER TRIGGER is not allowed to modify a row, which
# was just modified: 1362: Updating of NEW row is not allowed in after trigger
}
# 9.3.2 The UPDATE itself changes a column which is used in the partitioning
# function.
let $statement= UPDATE t1
SET f_int1 = f_int1 + @max_row, f_int2 = f_int2 - @max_row,
f_charbig = '####updated per update statement itself####';
# 9.3.2.1 "old" values are used as source within the trigger.
let $source= old;
let $event= BEFORE UPDATE;
--source suite/parts/inc/partition_trigg2.inc
# FIXME when AFTER TRIGGER can be used
# Currently (2006-02-23) a AFTER TRIGGER is not allowed to modify a row, which
# was just modified: 1362: Updating of NEW row is not allowed in after trigger
# 9.3.2.2 "new" values are used as source within the trigger.
let $source= new;
let $event= BEFORE UPDATE;
--source suite/parts/inc/partition_trigg2.inc
# FIXME when AFTER TRIGGER can be used
if ($debug)
{
SELECT * FROM t1 ORDER BY f_int1;
}
# 9.4 BEFORE/AFTER INSERT TRIGGER on partitioned table causes that the value of
# columns in partitioning function is recalculated.
# 9.4.1 INSERT assigns values to the recalculate columns
let $statement= INSERT INTO t1 (f_int1, f_int2, f_char1, f_char2, f_charbig)
SELECT f_int1, f_int1, CAST(f_int1 AS CHAR),
CAST(f_int1 AS CHAR), 'just inserted' FROM t0_template
WHERE f_int1 BETWEEN @max_row_div2 - 1 AND @max_row_div2 + 1
ORDER BY f_int1;
let $event= BEFORE INSERT;
let $source= new;
--source suite/parts/inc/partition_trigg3.inc
# FIXME when AFTER TRIGGER can be used
# 9.4.2 INSERT assigns no values to the recalculate columns
let $statement= INSERT INTO t1 (f_char1, f_char2, f_charbig)
SELECT CAST(f_int1 AS CHAR),
CAST(f_int1 AS CHAR), 'just inserted' FROM t0_template
WHERE f_int1 BETWEEN @max_row_div2 - 1 AND @max_row_div2 + 1
ORDER BY f_int1;
let $event= BEFORE INSERT;
let $source= new;
--source suite/parts/inc/partition_trigg3.inc
# FIXME when AFTER TRIGGER can be used
if ($debug)
{
SELECT * FROM t1 ORDER BY f_int1;
}
#-------------------------------------------------------------------------------
# 10 ANALYZE/CHECK/CHECKSUM
ANALYZE TABLE t1;
CHECK TABLE t1 EXTENDED;
# Checksum depends on @max_row so we have to unify the value
--replace_column 2 <some_value>
CHECKSUM TABLE t1 EXTENDED;
#-------------------------------------------------------------------------------
# 11 Some special statements, which may lead to a rebuild of the trees
# depending on the storage engine and some particular conditions
# 11.1 OPTIMIZE TABLE
# Manual about OPTIMIZE <InnoDB table>:
# ... , it is mapped to ALTER TABLE, which rebuilds the table.
# Rebuilding updates index statistics and frees unused space in the
# clustered index.
# FIXME What will happen with NDB ?
OPTIMIZE TABLE t1;
--source suite/parts/inc/partition_layout_check2.inc
# 10.2 REPAIR TABLE
REPAIR TABLE t1 EXTENDED;
--source suite/parts/inc/partition_layout_check2.inc
#
# 11.3 Truncate
# Manual about TRUNCATE on tables ( != InnoDB table with FOREIGN KEY ):
# Truncate operations drop and re-create the table ....
TRUNCATE t1;
# Check of preceding statement via Select
if ($no_debug)
{
--disable_query_log
}
SELECT '# check TRUNCATE success: ' AS "",COUNT(*) = 0 AS "" FROM t1;
--enable_query_log
--source suite/parts/inc/partition_layout_check2.inc
--echo # End usability test (inc/partition_check.inc)