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772 lines
26 KiB
772 lines
26 KiB
5 months ago
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#
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# Test how we handle locking in various cases when
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# we read data from MyISAM tables.
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#
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# In this test we mostly check that the SQL-layer correctly
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# determines the type of thr_lock.c lock for a table being
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# read.
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# I.e. that it disallows concurrent inserts when the statement
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# is going to be written to the binary log and therefore
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# should be serialized, and allows concurrent inserts when
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# such serialization is not necessary (e.g. when
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# the statement is not written to binary log).
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#
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# Force concurrent inserts to be performed even if the table
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# has gaps. This allows to simplify clean up in scripts
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# used below (instead of backing up table being inserted
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# into and then restoring it from backup at the end of the
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# script we can simply delete rows which were inserted).
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set @old_concurrent_insert= @@global.concurrent_insert;
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set @@global.concurrent_insert= 2;
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select @@global.concurrent_insert;
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@@global.concurrent_insert
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ALWAYS
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# Prepare playground by creating tables, views,
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# routines and triggers used in tests.
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drop table if exists t0, t1, t2, t3, t4, t5;
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drop view if exists v1, v2;
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drop procedure if exists p1;
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drop procedure if exists p2;
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drop procedure if exists p3;
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drop function if exists f1;
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drop function if exists f2;
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drop function if exists f3;
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drop function if exists f4;
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drop function if exists f5;
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drop function if exists f6;
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drop function if exists f7;
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drop function if exists f8;
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drop function if exists f9;
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drop function if exists f10;
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drop function if exists f11;
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drop function if exists f12;
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drop function if exists f13;
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drop function if exists f14;
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drop function if exists f15;
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drop function if exists f16;
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drop function if exists f17;
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create table t1 (i int primary key);
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insert into t1 values (1), (2), (3), (4), (5);
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create table t2 (j int primary key);
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insert into t2 values (1), (2), (3), (4), (5);
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create table t3 (k int primary key);
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insert into t3 values (1), (2), (3);
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create table t4 (l int primary key);
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insert into t4 values (1);
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create table t5 (l int primary key);
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insert into t5 values (1);
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create view v1 as select i from t1;
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create view v2 as select j from t2 where j in (select i from t1);
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create procedure p1(k int) insert into t2 values (k);
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create function f1() returns int
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begin
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declare j int;
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select i from t1 where i = 1 into j;
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return j;
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end|
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create function f2() returns int
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begin
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declare k int;
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select i from t1 where i = 1 into k;
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insert into t2 values (k + 5);
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return 0;
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end|
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create function f3() returns int
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begin
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return (select i from t1 where i = 3);
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end|
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create function f4() returns int
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begin
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if (select i from t1 where i = 3) then
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return 1;
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else
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return 0;
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end if;
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end|
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create function f5() returns int
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begin
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insert into t2 values ((select i from t1 where i = 1) + 5);
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return 0;
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end|
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create function f6() returns int
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begin
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declare k int;
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select i from v1 where i = 1 into k;
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return k;
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end|
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create function f7() returns int
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begin
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declare k int;
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select j from v2 where j = 1 into k;
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return k;
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end|
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create function f8() returns int
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begin
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declare k int;
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select i from v1 where i = 1 into k;
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insert into t2 values (k+5);
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return k;
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end|
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create function f9() returns int
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begin
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update v2 set j=j+10 where j=1;
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return 1;
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end|
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create function f10() returns int
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begin
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return f1();
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end|
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create function f11() returns int
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begin
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declare k int;
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set k= f1();
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insert into t2 values (k+5);
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return k;
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end|
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create function f12(p int) returns int
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begin
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insert into t2 values (p);
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return p;
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end|
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create function f13(p int) returns int
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begin
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return p;
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end|
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create procedure p2(inout p int)
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begin
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select i from t1 where i = 1 into p;
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end|
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create function f14() returns int
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begin
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declare k int;
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call p2(k);
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insert into t2 values (k+5);
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return k;
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end|
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create function f15() returns int
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begin
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declare k int;
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call p2(k);
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return k;
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end|
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create function f16() returns int
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begin
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create temporary table if not exists temp1 (a int);
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insert into temp1 select * from t1;
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drop temporary table temp1;
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return 1;
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end|
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create function f17() returns int
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begin
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declare j int;
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select i from t1 where i = 1 into j;
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call p3;
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return 1;
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end|
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create procedure p3()
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begin
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create temporary table if not exists temp1 (a int);
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insert into temp1 select * from t1;
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drop temporary table temp1;
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end|
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create trigger t4_bi before insert on t4 for each row
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begin
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declare k int;
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select i from t1 where i=1 into k;
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set new.l= k+1;
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end|
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create trigger t4_bu before update on t4 for each row
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begin
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if (select i from t1 where i=1) then
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set new.l= 2;
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end if;
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end|
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create trigger t4_bd before delete on t4 for each row
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begin
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if !(select i from v1 where i=1) then
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signal sqlstate '45000';
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end if;
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end|
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Warnings:
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Warning 1287 '!' is deprecated and will be removed in a future release. Please use NOT instead
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create trigger t5_bi before insert on t5 for each row
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begin
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set new.l= f1()+1;
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end|
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create trigger t5_bu before update on t5 for each row
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begin
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declare j int;
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call p2(j);
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set new.l= j + 1;
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end|
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#
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# Set common variables to be used by the scripts
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# called below.
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#
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# Switch to connection 'con1'.
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# Cache all functions used in the tests below so statements
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# calling them won't need to open and lock data dictionary table
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# and we can assume that each statement locks its tables
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# once during its execution.
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show create procedure p1;
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show create procedure p2;
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show create procedure p3;
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show create function f1;
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show create function f2;
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show create function f3;
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show create function f4;
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show create function f5;
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show create function f6;
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show create function f7;
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show create function f8;
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show create function f9;
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show create function f10;
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show create function f11;
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show create function f12;
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show create function f13;
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show create function f14;
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show create function f15;
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show create function f16;
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show create function f17;
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# Switch back to connection 'default'.
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#
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# 1. Statements that read tables and do not use subqueries.
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#
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#
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# 1.1 Simple SELECT statement.
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#
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# No locks are necessary as this statement won't be written
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# to the binary log and thanks to how MyISAM works SELECT
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# will see version of the table prior to concurrent insert.
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Success: 'select * from t1' allows concurrent inserts into 't1'.
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#
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# 1.2 Multi-UPDATE statement.
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#
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# Has to take shared locks on rows in the table being read as this
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# statement will be written to the binary log and therefore should
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# be serialized with concurrent statements.
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Success: 'update t2, t1 set j= j - 1 where i = j' doesn't allow concurrent inserts into 't1'.
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#
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# 1.3 Multi-DELETE statement.
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#
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# The above is true for this statement as well.
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Success: 'delete t2 from t1, t2 where i = j' doesn't allow concurrent inserts into 't1'.
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#
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# 1.4 DESCRIBE statement.
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#
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# This statement does not really read data from the
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# target table and thus does not take any lock on it.
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# We check this for completeness of coverage.
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lock table t1 write;
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# Switching to connection 'con1'.
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# This statement should not be blocked.
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describe t1;
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# Switching to connection 'default'.
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unlock tables;
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#
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# 1.5 SHOW statements.
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#
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# The above is true for SHOW statements as well.
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lock table t1 write;
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# Switching to connection 'con1'.
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# These statements should not be blocked.
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show keys from t1;
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# Switching to connection 'default'.
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unlock tables;
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#
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# 2. Statements which read tables through subqueries.
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#
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#
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# 2.1 CALL with a subquery.
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#
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# A strong lock is not necessary as this statement is not
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# written to the binary log as a whole (it is written
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# statement-by-statement).
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Success: 'call p1((select i + 5 from t1 where i = 1))' allows concurrent inserts into 't1'.
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#
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# 2.3 DELETE with a subquery.
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#
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# The above is true for this statement as well.
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Success: 'delete from t2 where j in (select i from t1)' doesn't allow concurrent inserts into 't1'.
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#
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# 2.4 MULTI-DELETE with a subquery.
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#
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# Same is true for this statement as well.
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Success: 'delete t2 from t3, t2 where k = j and j in (select i from t1)' doesn't allow concurrent inserts into 't1'.
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#
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# 2.5 DO with a subquery.
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#
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# A strong lock is not necessary as it is not logged.
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Success: 'do (select i from t1 where i = 1)' allows concurrent inserts into 't1'.
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#
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# 2.6 INSERT with a subquery.
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#
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# Has to take a strong lock on the table being read as
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# this statement is written to the binary log and therefore
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# should be serialized with concurrent inserts.
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Success: 'insert into t2 select i+5 from t1' doesn't allow concurrent inserts into 't1'.
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Success: 'insert into t2 values ((select i+5 from t1 where i = 4))' doesn't allow concurrent inserts into 't1'.
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#
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# 2.7 LOAD DATA with a subquery.
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#
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# The above is true for this statement as well.
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Success: 'load data infile '../../std_data/rpl_loaddata.dat' into table t2 (@a, @b) set j= @b + (select i from t1 where i = 1)' doesn't allow concurrent inserts into 't1'.
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#
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# 2.8 REPLACE with a subquery.
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#
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# Same is true for this statement as well.
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# Suppress warnings for REPLACE ... SELECT
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Success: 'replace into t2 select i+5 from t1' doesn't allow concurrent inserts into 't1'.
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Success: 'replace into t2 values ((select i+5 from t1 where i = 4))' doesn't allow concurrent inserts into 't1'.
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#
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# 2.9 SELECT with a subquery.
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#
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# Strong locks are not necessary as this statement is not written
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# to the binary log and thanks to how MyISAM works this statement
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# sees a version of the table prior to the concurrent insert.
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Success: 'select * from t2 where j in (select i from t1)' allows concurrent inserts into 't1'.
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#
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# 2.10 SET with a subquery.
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#
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# The same is true for this statement as well.
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Success: 'set @a:= (select i from t1 where i = 1)' allows concurrent inserts into 't1'.
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#
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# 2.11 SHOW with a subquery.
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#
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# And for this statement too.
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Success: 'show tables from test where Tables_in_test = 't2' and (select i from t1 where i = 1)' allows concurrent inserts into 't1'.
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Success: 'show columns from t2 where (select i from t1 where i = 1)' allows concurrent inserts into 't1'.
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#
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# 2.12 UPDATE with a subquery.
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#
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# Has to take a strong lock on the table being read as
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# this statement is written to the binary log and therefore
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# should be serialized with concurrent inserts.
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Success: 'update t2 set j= j-10 where j in (select i from t1)' doesn't allow concurrent inserts into 't1'.
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#
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# 2.13 MULTI-UPDATE with a subquery.
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#
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# Same is true for this statement as well.
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Success: 'update t2, t3 set j= j -10 where j=k and j in (select i from t1)' doesn't allow concurrent inserts into 't1'.
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#
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# 3. Statements which read tables through a view.
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#
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#
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# 3.1 SELECT statement which uses some table through a view.
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#
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# Since this statement is not written to the binary log and
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# an old version of the table is accessible thanks to how MyISAM
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# handles concurrent insert, no locking is necessary.
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Success: 'select * from v1' allows concurrent inserts into 't1'.
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Success: 'select * from v2' allows concurrent inserts into 't1'.
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Success: 'select * from t2 where j in (select i from v1)' allows concurrent inserts into 't1'.
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Success: 'select * from t3 where k in (select j from v2)' allows concurrent inserts into 't1'.
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#
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# 3.2 Statements which modify a table and use views.
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#
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# Since such statements are going to be written to the binary
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# log they need to be serialized against concurrent statements
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# and therefore should take strong locks on the data read.
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Success: 'update t2 set j= j-10 where j in (select i from v1)' doesn't allow concurrent inserts into 't1'.
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Success: 'update t3 set k= k-10 where k in (select j from v2)' doesn't allow concurrent inserts into 't1'.
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Success: 'update t2, v1 set j= j-10 where j = i' doesn't allow concurrent inserts into 't1'.
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Success: 'update v2 set j= j-10 where j = 3' doesn't allow concurrent inserts into 't1'.
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#
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# 4. Statements which read tables through stored functions.
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#
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#
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# 4.1 SELECT/SET with a stored function which does not
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# modify data and uses SELECT in its turn.
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#
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# There is no need to take strong locks on the table
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# being selected from in SF as the call to such function
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# won't get into the binary log.
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Success: 'select f1()' allows concurrent inserts into 't1'.
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Success: 'set @a:= f1()' allows concurrent inserts into 't1'.
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#
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# 4.2 INSERT (or other statement which modifies data) with
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# a stored function which does not modify data and uses
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# SELECT.
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#
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# Since such statement is written to the binary log it should
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# be serialized with concurrent statements affecting the data
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# it uses. Therefore it should take strong lock on the data
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# it reads.
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Success: 'insert into t2 values (f1() + 5)' doesn't allow concurrent inserts into 't1'.
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#
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# 4.3 SELECT/SET with a stored function which
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# reads and modifies data.
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#
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# Since a call to such function is written to the binary log,
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# it should be serialized with concurrent statements affecting
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# the data it uses. Hence, a strong lock on the data read
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# should be taken.
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Success: 'select f2()' doesn't allow concurrent inserts into 't1'.
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Success: 'set @a:= f2()' doesn't allow concurrent inserts into 't1'.
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#
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# 4.4. SELECT/SET with a stored function which does not
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# modify data and reads a table through subselect
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# in a control construct.
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#
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# Call to this function won't get to the
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# binary log and thus no strong lock is needed.
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Success: 'select f3()' allows concurrent inserts into 't1'.
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Success: 'set @a:= f3()' allows concurrent inserts into 't1'.
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Success: 'select f4()' allows concurrent inserts into 't1'.
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Success: 'set @a:= f4()' allows concurrent inserts into 't1'.
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#
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# 4.5. INSERT (or other statement which modifies data) with
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||
|
# a stored function which does not modify data and reads
|
||
|
# the table through a subselect in one of its control
|
||
|
# constructs.
|
||
|
#
|
||
|
# Since such statement is written to the binary log it should
|
||
|
# be serialized with concurrent statements affecting data it
|
||
|
# uses. Therefore it should take a strong lock on the data
|
||
|
# it reads.
|
||
|
Success: 'insert into t2 values (f3() + 5)' doesn't allow concurrent inserts into 't1'.
|
||
|
Success: 'insert into t2 values (f4() + 6)' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.6 SELECT/SET which uses a stored function with
|
||
|
# DML which reads a table via a subquery.
|
||
|
#
|
||
|
# Since call to such function is written to the binary log
|
||
|
# it should be serialized with concurrent statements.
|
||
|
# Hence reads should take a strong lock.
|
||
|
Success: 'select f5()' doesn't allow concurrent inserts into 't1'.
|
||
|
Success: 'set @a:= f5()' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.7 SELECT/SET which uses a stored function which
|
||
|
# doesn't modify data and reads tables through
|
||
|
# a view.
|
||
|
#
|
||
|
# Calls to such functions won't get into
|
||
|
# the binary log and thus don't need strong
|
||
|
# locks.
|
||
|
Success: 'select f6()' allows concurrent inserts into 't1'.
|
||
|
Success: 'set @a:= f6()' allows concurrent inserts into 't1'.
|
||
|
Success: 'select f7()' allows concurrent inserts into 't1'.
|
||
|
Success: 'set @a:= f7()' allows concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.8 INSERT which uses stored function which
|
||
|
# doesn't modify data and reads a table
|
||
|
# through a view.
|
||
|
#
|
||
|
# Since such statement is written to the binary log and
|
||
|
# should be serialized with concurrent statements affecting
|
||
|
# the data it uses. Therefore it should take a strong lock on
|
||
|
# the table it reads.
|
||
|
Success: 'insert into t3 values (f6() + 5)' doesn't allow concurrent inserts into 't1'.
|
||
|
Success: 'insert into t3 values (f7() + 5)' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.9 SELECT which uses a stored function which
|
||
|
# modifies data and reads tables through a view.
|
||
|
#
|
||
|
# Since a call to such function is written to the binary log
|
||
|
# it should be serialized with concurrent statements.
|
||
|
# Hence, reads should take strong locks.
|
||
|
Success: 'select f8()' doesn't allow concurrent inserts into 't1'.
|
||
|
Success: 'select f9()' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.10 SELECT which uses a stored function which doesn't modify
|
||
|
# data and reads a table indirectly, by calling another
|
||
|
# function.
|
||
|
#
|
||
|
# Calls to such functions won't get into the binary
|
||
|
# log and thus don't need to acquire strong locks.
|
||
|
Success: 'select f10()' allows concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.11 INSERT which uses a stored function which doesn't modify
|
||
|
# data and reads a table indirectly, by calling another
|
||
|
# function.
|
||
|
#
|
||
|
# Since such statement is written to the binary log, it should
|
||
|
# be serialized with concurrent statements affecting the data it
|
||
|
# uses. Therefore it should take strong locks on data it reads.
|
||
|
Success: 'insert into t2 values (f10() + 5)' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.12 SELECT which uses a stored function which modifies
|
||
|
# data and reads a table indirectly, by calling another
|
||
|
# function.
|
||
|
#
|
||
|
# Since a call to such function is written to the binary log
|
||
|
# it should be serialized from concurrent statements.
|
||
|
# Hence, read should take a strong lock.
|
||
|
Success: 'select f11()' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.13 SELECT that reads a table through a subquery passed
|
||
|
# as a parameter to a stored function which modifies
|
||
|
# data.
|
||
|
#
|
||
|
# Even though a call to this function is written to the
|
||
|
# binary log, values of its parameters are written as literals.
|
||
|
# So there is no need to acquire strong locks for tables used in
|
||
|
# the subquery.
|
||
|
Success: 'select f12((select i+10 from t1 where i=1))' allows concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.14 INSERT that reads a table via a subquery passed
|
||
|
# as a parameter to a stored function which doesn't
|
||
|
# modify data.
|
||
|
#
|
||
|
# Since this statement is written to the binary log it should
|
||
|
# be serialized with concurrent statements affecting the data it
|
||
|
# uses. Therefore it should take strong locks on the data it reads.
|
||
|
Success: 'insert into t2 values (f13((select i+10 from t1 where i=1)))' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.15 SELECT/SET with a stored function which
|
||
|
# inserts data into a temporary table using
|
||
|
# SELECT on t1.
|
||
|
#
|
||
|
# Since this statement is written to the binary log it should
|
||
|
# be serialized with concurrent statements affecting the data it
|
||
|
# uses. Therefore it should take strong locks on the data it reads.
|
||
|
Success: 'select f16()' doesn't allow concurrent inserts into 't1'.
|
||
|
Success: 'set @a:= f16()' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 4.16 SELECT/SET with a stored function which call procedure
|
||
|
# which inserts data into a temporary table using
|
||
|
# SELECT on t1.
|
||
|
#
|
||
|
# Since this statement is written to the binary log it should
|
||
|
# be serialized with concurrent statements affecting the data it
|
||
|
# uses. Therefore it should take strong locks on the data it reads.
|
||
|
Success: 'select f17()' doesn't allow concurrent inserts into 't1'.
|
||
|
Success: 'set @a:= f17()' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 5. Statements that read tables through stored procedures.
|
||
|
#
|
||
|
#
|
||
|
# 5.1 CALL statement which reads a table via SELECT.
|
||
|
#
|
||
|
# Since neither this statement nor its components are
|
||
|
# written to the binary log, there is no need to take
|
||
|
# strong locks on the data it reads.
|
||
|
Success: 'call p2(@a)' allows concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 5.2 Function that modifies data and uses CALL,
|
||
|
# which reads a table through SELECT.
|
||
|
#
|
||
|
# Since a call to such function is written to the binary
|
||
|
# log, it should be serialized with concurrent statements.
|
||
|
# Hence, in this case reads should take strong locks on data.
|
||
|
Success: 'select f14()' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 5.3 SELECT that calls a function that doesn't modify data and
|
||
|
# uses a CALL statement that reads a table via SELECT.
|
||
|
#
|
||
|
# Calls to such functions won't get into the binary
|
||
|
# log and thus don't need to acquire strong locks.
|
||
|
Success: 'select f15()' allows concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 5.4 INSERT which calls function which doesn't modify data and
|
||
|
# uses CALL statement which reads table through SELECT.
|
||
|
#
|
||
|
# Since such statement is written to the binary log it should
|
||
|
# be serialized with concurrent statements affecting data it
|
||
|
# uses. Therefore it should take strong locks on data it reads.
|
||
|
Success: 'insert into t2 values (f15()+5)' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 6. Statements that use triggers.
|
||
|
#
|
||
|
#
|
||
|
# 6.1 Statement invoking a trigger that reads table via SELECT.
|
||
|
#
|
||
|
# Since this statement is written to the binary log it should
|
||
|
# be serialized with concurrent statements affecting the data
|
||
|
# it uses. Therefore, it should take strong locks on the data
|
||
|
# it reads.
|
||
|
Success: 'insert into t4 values (2)' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 6.2 Statement invoking a trigger that reads table through
|
||
|
# a subquery in a control construct.
|
||
|
#
|
||
|
# The above is true for this statement as well.
|
||
|
Success: 'update t4 set l= 2 where l = 1' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 6.3 Statement invoking a trigger that reads a table through
|
||
|
# a view.
|
||
|
#
|
||
|
# And for this statement.
|
||
|
Success: 'delete from t4 where l = 1' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 6.4 Statement invoking a trigger that reads a table through
|
||
|
# a stored function.
|
||
|
#
|
||
|
# And for this statement.
|
||
|
Success: 'insert into t5 values (2)' doesn't allow concurrent inserts into 't1'.
|
||
|
#
|
||
|
# 6.5 Statement invoking a trigger that reads a table through
|
||
|
# stored procedure.
|
||
|
#
|
||
|
# And for this statement.
|
||
|
Success: 'update t5 set l= 2 where l = 1' doesn't allow concurrent inserts into 't1'.
|
||
|
# Clean-up.
|
||
|
drop function f1;
|
||
|
drop function f2;
|
||
|
drop function f3;
|
||
|
drop function f4;
|
||
|
drop function f5;
|
||
|
drop function f6;
|
||
|
drop function f7;
|
||
|
drop function f8;
|
||
|
drop function f9;
|
||
|
drop function f10;
|
||
|
drop function f11;
|
||
|
drop function f12;
|
||
|
drop function f13;
|
||
|
drop function f14;
|
||
|
drop function f15;
|
||
|
drop function f16;
|
||
|
drop function f17;
|
||
|
drop view v1, v2;
|
||
|
drop procedure p1;
|
||
|
drop procedure p2;
|
||
|
drop procedure p3;
|
||
|
drop table t1, t2, t3, t4, t5;
|
||
|
set @@global.concurrent_insert= @old_concurrent_insert;
|
||
|
#
|
||
|
# Bug#50821 Deadlock between LOCK TABLES and ALTER TABLE
|
||
|
#
|
||
|
DROP TABLE IF EXISTS t1, t2;
|
||
|
CREATE TABLE t1(id INT);
|
||
|
CREATE TABLE t2(id INT);
|
||
|
# Connection con2
|
||
|
START TRANSACTION;
|
||
|
SELECT * FROM t1;
|
||
|
id
|
||
|
# Connection default
|
||
|
# Sending:
|
||
|
ALTER TABLE t1 ADD COLUMN j INT;
|
||
|
# Connection con2
|
||
|
# This used to cause a deadlock.
|
||
|
INSERT INTO t2 SELECT * FROM t1;
|
||
|
COMMIT;
|
||
|
# Connection default
|
||
|
# Reaping ALTER TABLE t1 ADD COLUMN j INT
|
||
|
DROP TABLE t1, t2;
|
||
|
#
|
||
|
# Bug#51391 Deadlock involving events during rqg_info_schema test
|
||
|
#
|
||
|
CREATE EVENT e1 ON SCHEDULE EVERY 5 HOUR DO SELECT 1;
|
||
|
CREATE EVENT e2 ON SCHEDULE EVERY 5 HOUR DO SELECT 2;
|
||
|
# Connection con1
|
||
|
SET DEBUG_SYNC="before_lock_tables_takes_lock SIGNAL drop WAIT_FOR query";
|
||
|
# Sending:
|
||
|
DROP EVENT e1;;
|
||
|
# Connection default
|
||
|
SET DEBUG_SYNC="now WAIT_FOR drop";
|
||
|
SELECT event_name FROM information_schema.events, performance_schema.global_variables
|
||
|
WHERE definer = VARIABLE_VALUE;
|
||
|
EVENT_NAME
|
||
|
SET DEBUG_SYNC="now SIGNAL query";
|
||
|
# Connection con1
|
||
|
# Reaping: DROP EVENT t1
|
||
|
# Connection default
|
||
|
DROP EVENT e2;
|
||
|
SET DEBUG_SYNC="RESET";
|
||
|
#
|
||
|
# Bug#57130 crash in Item_field::print during SHOW CREATE TABLE or VIEW
|
||
|
#
|
||
|
DROP TABLE IF EXISTS t1;
|
||
|
DROP VIEW IF EXISTS v1;
|
||
|
DROP FUNCTION IF EXISTS f1;
|
||
|
CREATE TABLE t1(a INT);
|
||
|
CREATE FUNCTION f1() RETURNS INTEGER RETURN 1;
|
||
|
CREATE VIEW v1 AS SELECT * FROM t1 WHERE f1() = 1;
|
||
|
DROP FUNCTION f1;
|
||
|
# Connection con1
|
||
|
SET DEBUG_SYNC= 'open_tables_after_open_and_process_table SIGNAL opened WAIT_FOR dropped EXECUTE 2';
|
||
|
# Sending:
|
||
|
SHOW CREATE VIEW v1;
|
||
|
# Connection con2
|
||
|
SET DEBUG_SYNC= 'now WAIT_FOR opened';
|
||
|
SET DEBUG_SYNC= 'now SIGNAL dropped';
|
||
|
SET DEBUG_SYNC= 'now WAIT_FOR opened';
|
||
|
# Sending:
|
||
|
FLUSH TABLES;
|
||
|
# Connection default
|
||
|
# Waiting for FLUSH TABLES to be blocked.
|
||
|
SET DEBUG_SYNC= 'now SIGNAL dropped';
|
||
|
# Connection con1
|
||
|
# Reaping: SHOW CREATE VIEW v1
|
||
|
View Create View character_set_client collation_connection
|
||
|
v1 CREATE ALGORITHM=UNDEFINED DEFINER=`root`@`localhost` SQL SECURITY DEFINER VIEW `v1` AS select `t1`.`a` AS `a` from `t1` where (`f1`() = 1) utf8mb4 utf8mb4_0900_ai_ci
|
||
|
Warnings:
|
||
|
Warning 1356 View 'test.v1' references invalid table(s) or column(s) or function(s) or definer/invoker of view lack rights to use them
|
||
|
# Connection con2
|
||
|
# Reaping: FLUSH TABLES
|
||
|
# Connection default
|
||
|
SET DEBUG_SYNC= 'RESET';
|
||
|
DROP VIEW v1;
|
||
|
DROP TABLE t1;
|
||
|
#
|
||
|
# Bug#28587 SELECT is blocked by INSERT waiting on read lock, even with low_priority_updates
|
||
|
#
|
||
|
connection: default
|
||
|
set low_priority_updates=1;
|
||
|
drop table if exists t1;
|
||
|
drop table if exists t2;
|
||
|
set debug_sync='RESET';
|
||
|
create table t1 (a int, b int, unique key t1$a (a));
|
||
|
create table t2 (j int, k int);
|
||
|
# Warm-up data-dictionary and table definition caches
|
||
|
set debug_sync='after_lock_tables_takes_lock SIGNAL parked WAIT_FOR go';
|
||
|
# Sending:
|
||
|
insert into t2 select * from t1;;
|
||
|
connection: update
|
||
|
set debug_sync='now WAIT_FOR parked';
|
||
|
set low_priority_updates=1;
|
||
|
show variables like 'low_priority_updates';
|
||
|
Variable_name Value
|
||
|
low_priority_updates ON
|
||
|
insert into t1 values (1, 2) ON DUPLICATE KEY UPDATE b = 2;;
|
||
|
connection: select
|
||
|
select * from t1;
|
||
|
a b
|
||
|
set debug_sync='now SIGNAL go';
|
||
|
connection: default
|
||
|
# Reaping INSERT SELECT
|
||
|
drop tables t1, t2;
|
||
|
set low_priority_updates=default;
|
||
|
set debug_sync='RESET';
|
||
|
#
|
||
|
# Additional test coverage for LOCK TABLES ... READ LOCAL
|
||
|
# for InnoDB tables.
|
||
|
#
|
||
|
# Check that we correctly handle deadlocks which can occur
|
||
|
# during metadata lock upgrade which happens when one tries
|
||
|
# to use LOCK TABLES ... READ LOCAL for InnoDB tables.
|
||
|
CREATE TABLE t1 (i INT) ENGINE=InnoDB;
|
||
|
CREATE TABLE t2 (j INT) ENGINE=InnoDB;
|
||
|
# Execute LOCK TABLE READ LOCK which will pause after acquiring
|
||
|
# SR metadata lock and before upgrading it to SRO lock.
|
||
|
SET DEBUG_SYNC="after_open_table_mdl_shared SIGNAL locked WAIT_FOR go";
|
||
|
# Sending:
|
||
|
LOCK TABLE t1 READ LOCAL;
|
||
|
connect con1, localhost, root;
|
||
|
SET DEBUG_SYNC="now WAIT_FOR locked";
|
||
|
# Execute RENAME TABLE which will try to acquire X lock.
|
||
|
# Sending:
|
||
|
RENAME TABLE t1 TO t3, t2 TO t1, t3 TO t2;
|
||
|
connect con2, localhost, root;
|
||
|
# Wait until RENAME TABLE is blocked.
|
||
|
# Resume LOCK TABLE statement. It should try to
|
||
|
# upgrade SR lock to SRO lock which will create
|
||
|
# deadlock due to presence of pending X lock.
|
||
|
# Deadlock should be detected and LOCK TABLES should
|
||
|
# release its MDL and retry opening of tables.
|
||
|
SET DEBUG_SYNC="now SIGNAL go";
|
||
|
connection con1;
|
||
|
# RENAME TABLE should be able to complete. Reap it.
|
||
|
connection default;
|
||
|
# Reap LOCK TABLES.
|
||
|
# Check that we see new version of table.
|
||
|
SELECT * FROM t1;
|
||
|
j
|
||
|
UNLOCK TABLES;
|
||
|
# Clean-up.
|
||
|
SET DEBUG_SYNC="RESET";
|
||
|
disconnect con1;
|
||
|
disconnect con2;
|
||
|
DROP TABLES t1, t2;
|