sp-code.test

视频监控网络部分的协议ddns,的模块的实现代码,请大家大胆指正.

#
# Test the debugging feature "show procedure/function code <name>" 
#

-- source include/have_debug.inc

--disable_warnings
drop procedure if exists empty;
drop procedure if exists code_sample;
--enable_warnings

create procedure empty()
begin
end;
show procedure code empty;
drop procedure empty;

create function almost_empty()
    returns int
  return 0;
show function code almost_empty;
drop function almost_empty;

delimiter //;
create procedure code_sample(x int, out err int, out nulls int)
begin
  declare count int default 0;

  set nulls = 0;
  begin
    declare c cursor for select name from t1;
    declare exit handler for not found close c;

    open c;
    loop
      begin
        declare n varchar(20);
        declare continue handler for sqlexception set err=1;

        fetch c into n;
        if isnull(n) then
          set nulls = nulls + 1;
	else
          set count = count + 1;
          update t2 set idx = count where name=n;
        end if;
      end;
    end loop;
  end;
  select t.name, t.idx from t2 t order by idx asc;
end//
delimiter ;//
show procedure code code_sample;
drop procedure code_sample;


#
# BUG#15737: Stored procedure optimizer bug with LEAVE
#
# This is a much more extensive test case than is strictly needed,
# but it was kept as is for two reasons:
# - The bug occurs under some quite special circumstances, so it
#   wasn't trivial to create a smaller test,
# - There's some value in having another more complex code sample
#   in this test file. This might catch future code generation bugs
#   that doesn't show in behaviour in any obvious way.

--disable_warnings
drop procedure if exists sudoku_solve;
--enable_warnings

delimiter //;
create procedure sudoku_solve(p_naive boolean, p_all boolean)
  deterministic
  modifies sql data
begin
  drop temporary table if exists sudoku_work, sudoku_schedule;

  create temporary table sudoku_work
  (
    row smallint not null,
    col smallint not null,
    dig smallint not null,
    cnt smallint,
    key using btree (cnt),
    key using btree (row),
    key using btree (col),
    unique key using hash (row,col)
  );

  create temporary table sudoku_schedule
  (
    idx int not null auto_increment primary key,
    row smallint not null,
    col smallint not null
  );

  call sudoku_init();

  if p_naive then
    update sudoku_work set cnt = 0 where dig = 0;
  else
    call sudoku_count();
  end if;
  insert into sudoku_schedule (row,col)
    select row,col from sudoku_work where cnt is not null order by cnt desc;

  begin
    declare v_scounter bigint default 0;
    declare v_i smallint default 1;
    declare v_dig smallint;
    declare v_schedmax smallint;

    select count(*) into v_schedmax from sudoku_schedule;

   more: 
    loop
    begin
      declare v_tcounter bigint default 0;

     sched:
      while v_i <= v_schedmax do
      begin
        declare v_row, v_col smallint;

        select row,col into v_row,v_col from sudoku_schedule where v_i = idx;

        select dig into v_dig from sudoku_work
          where v_row = row and v_col = col;

        case v_dig
        when 0 then
          set v_dig = 1;
          update sudoku_work set dig = 1
            where v_row = row and v_col = col;
        when 9 then
          if v_i > 0 then
            update sudoku_work set dig = 0
              where v_row = row and v_col = col;
            set v_i = v_i - 1;
            iterate sched;
          else
            select v_scounter as 'Solutions';
            leave more;
          end if;
        else
          set v_dig = v_dig + 1;
          update sudoku_work set dig = v_dig
            where v_row = row and v_col = col;
        end case;

        set v_tcounter = v_tcounter + 1;
        if not sudoku_digit_ok(v_row, v_col, v_dig) then
          iterate sched;
        end if;
        set v_i = v_i + 1;
      end;
      end while sched;

      select dig from sudoku_work;
      select v_tcounter as 'Tests';
      set v_scounter = v_scounter + 1;

      if p_all and v_i > 0 then
        set v_i = v_i - 1;
      else
        leave more;
      end if;
    end;
    end loop more;
  end;

  drop temporary table sudoku_work, sudoku_schedule;
end//
delimiter ;//

# The interestings parts are where the code for the two "leave" are:
# ...
#|  26 | jump_if_not 30 (v_i@3 > 0)                                            |
# ...
#|  30 | stmt 0 "select v_scounter as 'Solutions'"                             |
#|  31 | jump 45                                                               |
# ...
#|  42 | jump_if_not 45 (p_all@1 and (v_i@3 > 0))                              |
#|  43 | set v_i@3 (v_i@3 - 1)                                                 |
#|  44 | jump 14                                                               |
#|  45 | stmt 9 "drop temporary table sudoku_work, sud..."                     |
#+-----+-----------------------------------------------------------------------+
# The bug appeared at position 42 (with the wrong destination).
show procedure code sudoku_solve;

drop procedure sudoku_solve;

#
# Bug#19194 (Right recursion in parser for CASE causes excessive stack
#   usage, limitation)
# This bug also exposed a flaw in the generated code with nested case
# statements
#

--disable_warnings
DROP PROCEDURE IF EXISTS proc_19194_simple;
DROP PROCEDURE IF EXISTS proc_19194_searched;
DROP PROCEDURE IF EXISTS proc_19194_nested_1;
DROP PROCEDURE IF EXISTS proc_19194_nested_2;
DROP PROCEDURE IF EXISTS proc_19194_nested_3;
DROP PROCEDURE IF EXISTS proc_19194_nested_4;
--enable_warnings

delimiter |;

CREATE PROCEDURE proc_19194_simple(i int)
BEGIN
  DECLARE str CHAR(10);

  CASE i
    WHEN 1 THEN SET str="1";
    WHEN 2 THEN SET str="2";
    WHEN 3 THEN SET str="3";
    ELSE SET str="unknown";
  END CASE;

  SELECT str;
END|

CREATE PROCEDURE proc_19194_searched(i int)
BEGIN
  DECLARE str CHAR(10);

  CASE
    WHEN i=1 THEN SET str="1";
    WHEN i=2 THEN SET str="2";
    WHEN i=3 THEN SET str="3";
    ELSE SET str="unknown";
  END CASE;

  SELECT str;
END|

# Outer SIMPLE case, inner SEARCHED case
CREATE PROCEDURE proc_19194_nested_1(i int, j int)
BEGIN
  DECLARE str_i CHAR(10);
  DECLARE str_j CHAR(10);

  CASE i
    WHEN 10 THEN SET str_i="10";
    WHEN 20 THEN
    BEGIN
      set str_i="20";
      CASE
        WHEN j=1 THEN SET str_j="1";
        WHEN j=2 THEN SET str_j="2";
        WHEN j=3 THEN SET str_j="3";
      ELSE SET str_j="unknown";
      END CASE;
      select "i was 20";
    END;
    WHEN 30 THEN SET str_i="30";
    WHEN 40 THEN SET str_i="40";
    ELSE SET str_i="unknown";
  END CASE;

  SELECT str_i, str_j;
END|

# Outer SEARCHED case, inner SIMPLE case
CREATE PROCEDURE proc_19194_nested_2(i int, j int)
BEGIN
  DECLARE str_i CHAR(10);
  DECLARE str_j CHAR(10);

  CASE
    WHEN i=10 THEN SET str_i="10";
    WHEN i=20 THEN
    BEGIN
      set str_i="20";
      CASE j
        WHEN 1 THEN SET str_j="1";
        WHEN 2 THEN SET str_j="2";
        WHEN 3 THEN SET str_j="3";
      ELSE SET str_j="unknown";
      END CASE;
      select "i was 20";
    END;
    WHEN i=30 THEN SET str_i="30";
    WHEN i=40 THEN SET str_i="40";
    ELSE SET str_i="unknown";
  END CASE;

  SELECT str_i, str_j;
END|

# Outer SIMPLE case, inner SIMPLE case
CREATE PROCEDURE proc_19194_nested_3(i int, j int)
BEGIN
  DECLARE str_i CHAR(10);
  DECLARE str_j CHAR(10);

  CASE i
    WHEN 10 THEN SET str_i="10";
    WHEN 20 THEN
    BEGIN
      set str_i="20";
      CASE j
        WHEN 1 THEN SET str_j="1";
        WHEN 2 THEN SET str_j="2";
        WHEN 3 THEN SET str_j="3";
      ELSE SET str_j="unknown";
      END CASE;
      select "i was 20";
    END;
    WHEN 30 THEN SET str_i="30";
    WHEN 40 THEN SET str_i="40";
    ELSE SET str_i="unknown";
  END CASE;

  SELECT str_i, str_j;
END|

# Outer SEARCHED case, inner SEARCHED case
CREATE PROCEDURE proc_19194_nested_4(i int, j int)
BEGIN
  DECLARE str_i CHAR(10);
  DECLARE str_j CHAR(10);

  CASE
    WHEN i=10 THEN SET str_i="10";
    WHEN i=20 THEN
    BEGIN
      set str_i="20";
      CASE
        WHEN j=1 THEN SET str_j="1";
        WHEN j=2 THEN SET str_j="2";
        WHEN j=3 THEN SET str_j="3";
      ELSE SET str_j="unknown";
      END CASE;
      select "i was 20";
    END;
    WHEN i=30 THEN SET str_i="30";
    WHEN i=40 THEN SET str_i="40";
    ELSE SET str_i="unknown";
  END CASE;

  SELECT str_i, str_j;
END|

delimiter ;|

SHOW PROCEDURE CODE proc_19194_simple;
SHOW PROCEDURE CODE proc_19194_searched;
SHOW PROCEDURE CODE proc_19194_nested_1;
SHOW PROCEDURE CODE proc_19194_nested_2;
SHOW PROCEDURE CODE proc_19194_nested_3;
SHOW PROCEDURE CODE proc_19194_nested_4;

CALL proc_19194_nested_1(10, 1);

#
# Before 19194, the generated code was:
#   20      jump_if_not 23(27) 30
#   21      set str_i@2 _latin1'30'
# As opposed to the expected:
#   20      jump_if_not 23(27) (case_expr@0 = 30)
#   21      set str_i@2 _latin1'30'
#
# and as a result, this call returned "30",
# because the expression 30 is always true,
# masking the case 40, case 0 and the else.
#
CALL proc_19194_nested_1(25, 1);

CALL proc_19194_nested_1(20, 1);
CALL proc_19194_nested_1(20, 2);
CALL proc_19194_nested_1(20, 3);
CALL proc_19194_nested_1(20, 4);
CALL proc_19194_nested_1(30, 1);
CALL proc_19194_nested_1(40, 1);
CALL proc_19194_nested_1(0, 0);

CALL proc_19194_nested_2(10, 1);

#
# Before 19194, the generated code was:
#   20      jump_if_not 23(27) (case_expr@0 = (i@0 = 30))
#   21      set str_i@2 _latin1'30'
# As opposed to the expected:
#   20      jump_if_not 23(27) (i@0 = 30)
#   21      set str_i@2 _latin1'30'
# and as a result, this call crashed the server, because there is no
# such variable as "case_expr@0".
#
CALL proc_19194_nested_2(25, 1);

CALL proc_19194_nested_2(20, 1);
CALL proc_19194_nested_2(20, 2);
CALL proc_19194_nested_2(20, 3);
CALL proc_19194_nested_2(20, 4);
CALL proc_19194_nested_2(30, 1);
CALL proc_19194_nested_2(40, 1);
CALL proc_19194_nested_2(0, 0);

CALL proc_19194_nested_3(10, 1);
CALL proc_19194_nested_3(25, 1);
CALL proc_19194_nested_3(20, 1);
CALL proc_19194_nested_3(20, 2);
CALL proc_19194_nested_3(20, 3);
CALL proc_19194_nested_3(20, 4);
CALL proc_19194_nested_3(30, 1);
CALL proc_19194_nested_3(40, 1);
CALL proc_19194_nested_3(0, 0);

CALL proc_19194_nested_4(10, 1);
CALL proc_19194_nested_4(25, 1);
CALL proc_19194_nested_4(20, 1);
CALL proc_19194_nested_4(20, 2);
CALL proc_19194_nested_4(20, 3);
CALL proc_19194_nested_4(20, 4);
CALL proc_19194_nested_4(30, 1);
CALL proc_19194_nested_4(40, 1);
CALL proc_19194_nested_4(0, 0);

DROP PROCEDURE proc_19194_simple;
DROP PROCEDURE proc_19194_searched;
DROP PROCEDURE proc_19194_nested_1;
DROP PROCEDURE proc_19194_nested_2;
DROP PROCEDURE proc_19194_nested_3;
DROP PROCEDURE proc_19194_nested_4;

#
# Bug#19207: Final parenthesis omitted for CREATE INDEX in Stored
# Procedure
#
# Wrong criteria was used to distinguish the case when there was no
# lookahead performed in the parser.  Bug affected only statements
# ending in one-character token without any optional tail, like CREATE
# INDEX and CALL.
#
--disable_warnings
DROP PROCEDURE IF EXISTS p1;
--enable_warnings

CREATE PROCEDURE p1() CREATE INDEX idx ON t1 (c1);
SHOW PROCEDURE CODE p1;

DROP PROCEDURE p1;


#
# Bug#26977 exception handlers never hreturn
#
--disable_warnings
drop table if exists t1;
drop procedure if exists proc_26977_broken;
drop procedure if exists proc_26977_works;
--enable_warnings

create table t1(a int unique);

delimiter //;

create procedure proc_26977_broken(v int)
begin
  declare i int default 5;

  declare continue handler for sqlexception
  begin
    select 'caught something';
    retry:
    while i > 0 do
      begin
        set i = i - 1;
        select 'looping', i;
      end;
    end while retry;
  end;

  select 'do something';
  insert into t1 values (v);
  select 'do something again';
  insert into t1 values (v);
end//

create procedure proc_26977_works(v int)
begin
  declare i int default 5;

  declare continue handler for sqlexception
  begin
    select 'caught something';
    retry:
    while i > 0 do
      begin
        set i = i - 1;
        select 'looping', i;
      end;
    end while retry;
    select 'optimizer: keep hreturn';
  end;

  select 'do something';
  insert into t1 values (v);
  select 'do something again';
  insert into t1 values (v);
end//
delimiter ;//

show procedure code proc_26977_broken;

show procedure code proc_26977_works;

## This caust an error because of jump short cut
## optimization.
call proc_26977_broken(1);

## This works
call proc_26977_works(2);

drop table t1;
drop procedure proc_26977_broken;
drop procedure proc_26977_works;


--echo End of 5.0 tests.