Commit 2860a772 authored by unknown's avatar unknown

Fixes for bug#8115 "Server Crash with prepared statement"

 and bug#8849 "problem with insert statement with table alias's": 
make equality propagation work in stored procedures and prepared 
statements.
Equality propagation can change AND/OR structure of ON expressions,
so the fix is to provide each execution of PS/SP with it's own
copy of AND/OR tree. We have been doing that already for WHERE clauses,
now ON clauses are also copied.


mysql-test/r/ps.result:
  Bug#8115: test results fixed.
mysql-test/r/sp.result:
  Bug#8849: test results fixed.
mysql-test/t/ps.test:
  A test case for Bug#8115 "Server Crash with prepared statement".
mysql-test/t/sp.test:
  A test case for Bug#8849 "problem with insert statement with table 
  alias's".
sql/item_cmpfunc.cc:
  Comment a parse tree transformation.
sql/item_cmpfunc.h:
  Comment how Item_equal works with PS/SP.
sql/mysql_priv.h:
  Add declaration for init_stmt_after_parse.
sql/sp_head.cc:
  Call init_stmt_after_parse in restore_lex(), which is used to
  grab TABLE_LIST and SELECT_LEX list of a parsed substatement of
  stored procedure. This is a necessary post-init step which 
  must be done for any statement which can be executed many times.
sql/sql_prepare.cc:
  Implement init_stmt_after_parse() which prepares AND/OR
  structure of all ON expressions and WHERE clauses of a statement
  for copying.
sql/sql_select.cc:
  Implementation of equality propagation inspected with regard to 
  prepared statements and stored procedures. We now restore
  AND/OR structure of every ON expression in addition to AND/OR
  structure of WHERE clauses when reexecuting a PS/SP.
sql/table.h:
  Add declaration for TABLE::prep_on_expr.
parent 66d2d13a
...@@ -499,3 +499,28 @@ SELECT FOUND_ROWS(); ...@@ -499,3 +499,28 @@ SELECT FOUND_ROWS();
FOUND_ROWS() FOUND_ROWS()
2 2
deallocate prepare stmt; deallocate prepare stmt;
create table t1 (a char(3) not null, b char(3) not null,
c char(3) not null, primary key (a, b, c));
create table t2 like t1;
prepare stmt from
"select t1.a from (t1 left outer join t2 on t2.a=1 and t1.b=t2.b)
where t1.a=1";
execute stmt;
a
execute stmt;
a
execute stmt;
a
prepare stmt from
"select t1.a, t1.b, t1.c, t2.a, t2.b, t2.c from
(t1 left outer join t2 on t2.a=? and t1.b=t2.b)
left outer join t2 t3 on t3.a=? where t1.a=?";
set @a:=1, @b:=1, @c:=1;
execute stmt using @a, @b, @c;
a b c a b c
execute stmt using @a, @b, @c;
a b c a b c
execute stmt using @a, @b, @c;
a b c a b c
deallocate prepare stmt;
drop table t1,t2;
...@@ -2542,3 +2542,41 @@ drop procedure bug7992| ...@@ -2542,3 +2542,41 @@ drop procedure bug7992|
drop table t3| drop table t3|
drop table t1; drop table t1;
drop table t2; drop table t2;
CREATE TABLE t1 (
lpitnumber int(11) default NULL,
lrecordtype int(11) default NULL
);
CREATE TABLE t2 (
lbsiid int(11) NOT NULL default '0',
ltradingmodeid int(11) NOT NULL default '0',
ltradingareaid int(11) NOT NULL default '0',
csellingprice decimal(19,4) default NULL,
PRIMARY KEY (lbsiid,ltradingmodeid,ltradingareaid)
);
CREATE TABLE t3 (
lbsiid int(11) NOT NULL default '0',
ltradingareaid int(11) NOT NULL default '0',
PRIMARY KEY (lbsiid,ltradingareaid)
);
CREATE PROCEDURE bug8849()
begin
insert into t3
(
t3.lbsiid,
t3.ltradingareaid
)
select distinct t1.lpitnumber, t2.ltradingareaid
from
t2 join t1 on
t1.lpitnumber = t2.lbsiid
and t1.lrecordtype = 1
left join t2 as price01 on
price01.lbsiid = t2.lbsiid and
price01.ltradingmodeid = 1 and
t2.ltradingareaid = price01.ltradingareaid;
end|
call bug8849();
call bug8849();
call bug8849();
drop procedure bug8849;
drop tables t1,t2,t3;
...@@ -507,3 +507,36 @@ SELECT FOUND_ROWS(); ...@@ -507,3 +507,36 @@ SELECT FOUND_ROWS();
execute stmt; execute stmt;
SELECT FOUND_ROWS(); SELECT FOUND_ROWS();
deallocate prepare stmt; deallocate prepare stmt;
#
# Bug#8115: equality propagation and prepared statements
#
create table t1 (a char(3) not null, b char(3) not null,
c char(3) not null, primary key (a, b, c));
create table t2 like t1;
# reduced query
prepare stmt from
"select t1.a from (t1 left outer join t2 on t2.a=1 and t1.b=t2.b)
where t1.a=1";
execute stmt;
execute stmt;
execute stmt;
# original query
prepare stmt from
"select t1.a, t1.b, t1.c, t2.a, t2.b, t2.c from
(t1 left outer join t2 on t2.a=? and t1.b=t2.b)
left outer join t2 t3 on t3.a=? where t1.a=?";
set @a:=1, @b:=1, @c:=1;
execute stmt using @a, @b, @c;
execute stmt using @a, @b, @c;
execute stmt using @a, @b, @c;
deallocate prepare stmt;
drop table t1,t2;
...@@ -3086,3 +3086,52 @@ delimiter ;| ...@@ -3086,3 +3086,52 @@ delimiter ;|
drop table t1; drop table t1;
drop table t2; drop table t2;
#
# Bug#8849: rolling back changes to AND/OR structure of ON and WHERE clauses
# in SP
#
CREATE TABLE t1 (
lpitnumber int(11) default NULL,
lrecordtype int(11) default NULL
);
CREATE TABLE t2 (
lbsiid int(11) NOT NULL default '0',
ltradingmodeid int(11) NOT NULL default '0',
ltradingareaid int(11) NOT NULL default '0',
csellingprice decimal(19,4) default NULL,
PRIMARY KEY (lbsiid,ltradingmodeid,ltradingareaid)
);
CREATE TABLE t3 (
lbsiid int(11) NOT NULL default '0',
ltradingareaid int(11) NOT NULL default '0',
PRIMARY KEY (lbsiid,ltradingareaid)
);
delimiter |;
CREATE PROCEDURE bug8849()
begin
insert into t3
(
t3.lbsiid,
t3.ltradingareaid
)
select distinct t1.lpitnumber, t2.ltradingareaid
from
t2 join t1 on
t1.lpitnumber = t2.lbsiid
and t1.lrecordtype = 1
left join t2 as price01 on
price01.lbsiid = t2.lbsiid and
price01.ltradingmodeid = 1 and
t2.ltradingareaid = price01.ltradingareaid;
end|
delimiter ;|
call bug8849();
call bug8849();
call bug8849();
drop procedure bug8849;
drop tables t1,t2,t3;
...@@ -2289,6 +2289,21 @@ Item_cond::fix_fields(THD *thd, TABLE_LIST *tables, Item **ref) ...@@ -2289,6 +2289,21 @@ Item_cond::fix_fields(THD *thd, TABLE_LIST *tables, Item **ref)
if (check_stack_overrun(thd, buff)) if (check_stack_overrun(thd, buff))
return TRUE; // Fatal error flag is set! return TRUE; // Fatal error flag is set!
/*
The following optimization reduces the depth of an AND-OR tree.
E.g. a WHERE clause like
F1 AND (F2 AND (F2 AND F4))
is parsed into a tree with the same nested structure as defined
by braces. This optimization will transform such tree into
AND (F1, F2, F3, F4).
Trees of OR items are flattened as well:
((F1 OR F2) OR (F3 OR F4)) => OR (F1, F2, F3, F4)
Items for removed AND/OR levels will dangle until the death of the
entire statement.
The optimization is currently prepared statements and stored procedures
friendly as it doesn't allocate any memory and its effects are durable
(i.e. do not depend on PS/SP arguments).
*/
while ((item=li++)) while ((item=li++))
{ {
table_map tmp_table_map; table_map tmp_table_map;
...@@ -3265,6 +3280,7 @@ Item_equal::Item_equal(Item *c, Item_field *f) ...@@ -3265,6 +3280,7 @@ Item_equal::Item_equal(Item *c, Item_field *f)
const_item= c; const_item= c;
} }
Item_equal::Item_equal(Item_equal *item_equal) Item_equal::Item_equal(Item_equal *item_equal)
: Item_bool_func(), eval_item(0), cond_false(0) : Item_bool_func(), eval_item(0), cond_false(0)
{ {
...@@ -3301,12 +3317,7 @@ void Item_equal::add(Item_field *f) ...@@ -3301,12 +3317,7 @@ void Item_equal::add(Item_field *f)
uint Item_equal::members() uint Item_equal::members()
{ {
uint count= 0; return fields.elements;
List_iterator_fast<Item_field> li(fields);
Item_field *item;
while ((item= li++))
count++;
return count;
} }
......
...@@ -1095,6 +1095,12 @@ class Item_cond :public Item_bool_func ...@@ -1095,6 +1095,12 @@ class Item_cond :public Item_bool_func
predicates that can not be used to access tables in the investigated predicates that can not be used to access tables in the investigated
plan for those, obtained by substitution of some fields for equal fields, plan for those, obtained by substitution of some fields for equal fields,
that can be used. that can be used.
Prepared Statements/Stored Procedures note: instances of class
Item_equal are created only at the time a PS/SP is executed and
are deleted in the end of execution. All changes made to these
objects need not be registered in the list of changes of the parse
tree and do not harm PS/SP re-execution.
*/ */
class Item_equal: public Item_bool_func class Item_equal: public Item_bool_func
......
...@@ -805,6 +805,7 @@ void mysql_stmt_free(THD *thd, char *packet); ...@@ -805,6 +805,7 @@ void mysql_stmt_free(THD *thd, char *packet);
void mysql_stmt_reset(THD *thd, char *packet); void mysql_stmt_reset(THD *thd, char *packet);
void mysql_stmt_get_longdata(THD *thd, char *pos, ulong packet_length); void mysql_stmt_get_longdata(THD *thd, char *pos, ulong packet_length);
void reset_stmt_for_execute(THD *thd, LEX *lex); void reset_stmt_for_execute(THD *thd, LEX *lex);
void init_stmt_after_parse(THD*, LEX*);
/* sql_error.cc */ /* sql_error.cc */
MYSQL_ERROR *push_warning(THD *thd, MYSQL_ERROR::enum_warning_level level, uint code, MYSQL_ERROR *push_warning(THD *thd, MYSQL_ERROR::enum_warning_level level, uint code,
......
...@@ -819,6 +819,7 @@ sp_head::restore_lex(THD *thd) ...@@ -819,6 +819,7 @@ sp_head::restore_lex(THD *thd)
LEX *sublex= thd->lex; LEX *sublex= thd->lex;
LEX *oldlex= (LEX *)m_lex.pop(); LEX *oldlex= (LEX *)m_lex.pop();
init_stmt_after_parse(thd, sublex);
if (! oldlex) if (! oldlex)
return; // Nothing to restore return; // Nothing to restore
......
...@@ -1809,20 +1809,33 @@ bool mysql_stmt_prepare(THD *thd, char *packet, uint packet_length, ...@@ -1809,20 +1809,33 @@ bool mysql_stmt_prepare(THD *thd, char *packet, uint packet_length,
else else
{ {
stmt->setup_set_params(); stmt->setup_set_params();
SELECT_LEX *sl= stmt->lex->all_selects_list; init_stmt_after_parse(thd, stmt->lex);
stmt->state= Item_arena::PREPARED;
}
DBUG_RETURN(!stmt);
}
/*
Init PS/SP specific parse tree members.
*/
void init_stmt_after_parse(THD *thd, LEX *lex)
{
SELECT_LEX *sl= lex->all_selects_list;
/* /*
Save WHERE clause pointers, because they may be changed during query Save WHERE clause pointers, because they may be changed during query
optimisation. optimisation.
*/ */
for (; sl; sl= sl->next_select_in_list()) for (; sl; sl= sl->next_select_in_list())
sl->prep_where= sl->where; sl->prep_where= sl->where;
stmt->state= Item_arena::PREPARED;
} for (TABLE_LIST *table= lex->query_tables; table; table= table->next_global)
DBUG_RETURN(!stmt); table->prep_on_expr= table->on_expr;
} }
/* Reinit statement before execution */ /* Reinit prepared statement/stored procedure before execution */
void reset_stmt_for_execute(THD *thd, LEX *lex) void reset_stmt_for_execute(THD *thd, LEX *lex)
{ {
...@@ -1883,6 +1896,12 @@ void reset_stmt_for_execute(THD *thd, LEX *lex) ...@@ -1883,6 +1896,12 @@ void reset_stmt_for_execute(THD *thd, LEX *lex)
tables->table= 0; tables->table= 0;
if (tables->nested_join) if (tables->nested_join)
tables->nested_join->counter= 0; tables->nested_join->counter= 0;
if (tables->prep_on_expr)
{
tables->on_expr= tables->prep_on_expr->copy_andor_structure(thd);
tables->on_expr->cleanup();
}
} }
lex->current_select= &lex->select_lex; lex->current_select= &lex->select_lex;
......
...@@ -6192,9 +6192,9 @@ Item_equal *find_item_equal(COND_EQUAL *cond_equal, Field *field, ...@@ -6192,9 +6192,9 @@ Item_equal *find_item_equal(COND_EQUAL *cond_equal, Field *field,
For b=c it will be called with *cond_equal=(0,[Item_equal(a,b)]) For b=c it will be called with *cond_equal=(0,[Item_equal(a,b)])
and will transform *cond_equal into CE=(0,[Item_equal(a,b,c)]). and will transform *cond_equal into CE=(0,[Item_equal(a,b,c)]).
For b=2 it will be called with *cond_equal=(ptr(CE),[]) For b=2 it will be called with *cond_equal=(ptr(CE),[])
and will transform *cond_equal into (ptr(CE,[Item_equal(2,a,b,c)]). and will transform *cond_equal into (ptr(CE),[Item_equal(2,a,b,c)]).
For f=e it will be called with *cond_equal=(ptr(CE), []) For f=e it will be called with *cond_equal=(ptr(CE), [])
and will transform *cond_equal into (ptr(CE,[Item_equal(f,e)]). and will transform *cond_equal into (ptr(CE),[Item_equal(f,e)]).
NOTES NOTES
Now only fields that have the same type defintions (verified by Now only fields that have the same type defintions (verified by
...@@ -6463,6 +6463,11 @@ static COND *build_equal_items_for_cond(COND *cond, ...@@ -6463,6 +6463,11 @@ static COND *build_equal_items_for_cond(COND *cond,
*/ */
while ((item= li++)) while ((item= li++))
{ {
/*
PS/SP note: we can safely remove a node from AND-OR
structure here because it's restored before each
re-execution of any prepared statement/stored procedure.
*/
if (check_equality(item, &cond_equal)) if (check_equality(item, &cond_equal))
li.remove(); li.remove();
} }
...@@ -6501,6 +6506,11 @@ static COND *build_equal_items_for_cond(COND *cond, ...@@ -6501,6 +6506,11 @@ static COND *build_equal_items_for_cond(COND *cond,
if ((new_item = build_equal_items_for_cond(item, inherited))!= item) if ((new_item = build_equal_items_for_cond(item, inherited))!= item)
{ {
/* This replacement happens only for standalone equalities */ /* This replacement happens only for standalone equalities */
/*
This is ok with PS/SP as the replacement is done for
arguments of an AND/OR item, which are restored for each
execution of PS/SP.
*/
li.replace(new_item); li.replace(new_item);
} }
} }
...@@ -6636,10 +6646,12 @@ static COND *build_equal_items(THD *thd, COND *cond, ...@@ -6636,10 +6646,12 @@ static COND *build_equal_items(THD *thd, COND *cond,
Item *expr; Item *expr;
List<TABLE_LIST> *join_list= table->nested_join ? List<TABLE_LIST> *join_list= table->nested_join ?
&table->nested_join->join_list : NULL; &table->nested_join->join_list : NULL;
expr= build_equal_items(thd, table->on_expr, inherited, join_list, /*
&table->cond_equal); We can modify table->on_expr because its old value will
if (expr != table->on_expr) be restored before re-execution of PS/SP.
thd->change_item_tree(&table->on_expr, expr); */
table->on_expr= build_equal_items(thd, table->on_expr, inherited,
join_list, &table->cond_equal);
} }
} }
} }
...@@ -6867,6 +6879,10 @@ static COND* substitute_for_best_equal_field(COND *cond, ...@@ -6867,6 +6879,10 @@ static COND* substitute_for_best_equal_field(COND *cond,
{ {
Item *new_item =substitute_for_best_equal_field(item, cond_equal, Item *new_item =substitute_for_best_equal_field(item, cond_equal,
table_join_idx); table_join_idx);
/*
This works OK with PS/SP re-execution as changes are made to
the arguments of AND/OR items only
*/
if (new_item != item) if (new_item != item)
li.replace(new_item); li.replace(new_item);
} }
...@@ -7198,7 +7214,7 @@ simplify_joins(JOIN *join, List<TABLE_LIST> *join_list, COND *conds, bool top) ...@@ -7198,7 +7214,7 @@ simplify_joins(JOIN *join, List<TABLE_LIST> *join_list, COND *conds, bool top)
*/ */
expr= simplify_joins(join, &nested_join->join_list, expr= simplify_joins(join, &nested_join->join_list,
table->on_expr, FALSE); table->on_expr, FALSE);
table->on_expr= expr; table->prep_on_expr= table->on_expr= expr;
} }
nested_join->used_tables= (table_map) 0; nested_join->used_tables= (table_map) 0;
nested_join->not_null_tables=(table_map) 0; nested_join->not_null_tables=(table_map) 0;
...@@ -7238,7 +7254,7 @@ simplify_joins(JOIN *join, List<TABLE_LIST> *join_list, COND *conds, bool top) ...@@ -7238,7 +7254,7 @@ simplify_joins(JOIN *join, List<TABLE_LIST> *join_list, COND *conds, bool top)
} }
else else
conds= table->on_expr; conds= table->on_expr;
table->on_expr= 0; table->prep_on_expr= table->on_expr= 0;
} }
} }
...@@ -7319,10 +7335,7 @@ optimize_cond(JOIN *join, COND *conds, List<TABLE_LIST> *join_list, ...@@ -7319,10 +7335,7 @@ optimize_cond(JOIN *join, COND *conds, List<TABLE_LIST> *join_list,
DBUG_ENTER("optimize_cond"); DBUG_ENTER("optimize_cond");
if (!conds) if (!conds)
{
*cond_value= Item::COND_TRUE; *cond_value= Item::COND_TRUE;
select->prep_where= 0;
}
else else
{ {
/* /*
......
...@@ -339,6 +339,15 @@ typedef struct st_table_list ...@@ -339,6 +339,15 @@ typedef struct st_table_list
char *db, *alias, *table_name, *schema_table_name; char *db, *alias, *table_name, *schema_table_name;
char *option; /* Used by cache index */ char *option; /* Used by cache index */
Item *on_expr; /* Used with outer join */ Item *on_expr; /* Used with outer join */
/*
The scturcture of ON expression presented in the member above
can be changed during certain optimizations. This member
contains a snapshot of AND-OR structure of the ON expression
made after permanent transformations of the parse tree, and is
used to restore ON clause before every reexecution of a prepared
statement or stored procedure.
*/
Item *prep_on_expr;
COND_EQUAL *cond_equal; /* Used with outer join */ COND_EQUAL *cond_equal; /* Used with outer join */
struct st_table_list *natural_join; /* natural join on this table*/ struct st_table_list *natural_join; /* natural join on this table*/
/* ... join ... USE INDEX ... IGNORE INDEX */ /* ... join ... USE INDEX ... IGNORE INDEX */
......
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