Commit a206d672 authored by Alexey Botchkov's avatar Alexey Botchkov

Bug#38083 Error-causing row inserted into partitioned table despite error

      
    problems are located in the sql_partition.cc where functions calculation
    partition_id don't expect error returned from item->val_int().
    Fixed by adding checks to these functions.
    Note  - it tries to fix more problems than just the reported bug.
      
per-file comments:
modified:
  mysql-test/r/partition.result
    Bug#38083 Error-causing row inserted into partitioned table despite error
        test result
  mysql-test/t/partition.test
    Bug#38083 Error-causing row inserted into partitioned table despite error
        test case
  sql/opt_range.cc
    Bug#38083 Error-causing row inserted into partitioned table despite error
        get_part_id() call fixed
  sql/partition_info.h
    Bug#38083 Error-causing row inserted into partitioned table despite error
        get_subpart_id_func interface changed. 
  sql/sql_partition.cc
    Bug#38083 Error-causing row inserted into partitioned table despite error
        various functions calculationg partition_id and subpart_id didn't expect
            an error returned from item->val_int().  Error checks added.
parent 85d5121a
......@@ -1637,4 +1637,23 @@ select count(*) from t1, t2 where t1.createdDate = t2.createdDate;
count(*)
1
drop table t1, t2;
SET @orig_sql_mode = @@SQL_MODE;
SET SQL_MODE='STRICT_ALL_TABLES,ERROR_FOR_DIVISION_BY_ZERO';
CREATE TABLE t1 (c1 INT)
PARTITION BY LIST(1 DIV c1) (
PARTITION p0 VALUES IN (NULL),
PARTITION p1 VALUES IN (1)
);
INSERT INTO t1 VALUES (0);
ERROR 22012: Division by 0
SELECT * FROM t1;
c1
TRUNCATE t1;
INSERT INTO t1 VALUES (NULL), (0), (1), (2);
ERROR 22012: Division by 0
SELECT * FROM t1;
c1
NULL
DROP TABLE t1;
SET SQL_MODE= @orig_sql_mode;
End of 5.1 tests
......@@ -1791,4 +1791,27 @@ select count(*) from t1, t2 where t1.createdDate = t2.createdDate;
drop table t1, t2;
#
# Bug #38083 Error-causing row inserted into partitioned table despite error
#
SET @orig_sql_mode = @@SQL_MODE;
SET SQL_MODE='STRICT_ALL_TABLES,ERROR_FOR_DIVISION_BY_ZERO';
CREATE TABLE t1 (c1 INT)
PARTITION BY LIST(1 DIV c1) (
PARTITION p0 VALUES IN (NULL),
PARTITION p1 VALUES IN (1)
);
-- error ER_DIVISION_BY_ZERO
INSERT INTO t1 VALUES (0);
SELECT * FROM t1;
TRUNCATE t1;
-- error ER_DIVISION_BY_ZERO
INSERT INTO t1 VALUES (NULL), (0), (1), (2);
SELECT * FROM t1;
DROP TABLE t1;
SET SQL_MODE= @orig_sql_mode;
--echo End of 5.1 tests
......@@ -3215,10 +3215,12 @@ int find_used_partitions(PART_PRUNE_PARAM *ppar, SEL_ARG *key_tree)
ppar->subpart_fields););
/* Find the subpartition (it's HASH/KEY so we always have one) */
partition_info *part_info= ppar->part_info;
uint32 subpart_id= part_info->get_subpartition_id(part_info);
uint32 part_id, subpart_id;
if (part_info->get_subpartition_id(part_info, &subpart_id))
return 0;
/* Mark this partition as used in each subpartition. */
uint32 part_id;
while ((part_id= ppar->part_iter.get_next(&ppar->part_iter)) !=
NOT_A_PARTITION_ID)
{
......
......@@ -25,7 +25,8 @@ class partition_info;
typedef int (*get_part_id_func)(partition_info *part_info,
uint32 *part_id,
longlong *func_value);
typedef uint32 (*get_subpart_id_func)(partition_info *part_info);
typedef int (*get_subpart_id_func)(partition_info *part_info,
uint32 *part_id);
struct st_ddl_log_memory_entry;
......
......@@ -73,10 +73,8 @@ static int get_part_id_charset_func_subpart(partition_info *part_info,
static int get_part_part_id_charset_func(partition_info *part_info,
uint32 *part_id,
longlong *func_value);
static uint32 get_subpart_id_charset_func(partition_info *part_info);
int get_partition_id_list(partition_info *part_info,
uint32 *part_id,
longlong *func_value);
static int get_subpart_id_charset_func(partition_info *part_info,
uint32 *part_id);
int get_partition_id_list(partition_info *part_info,
uint32 *part_id,
longlong *func_value);
......@@ -119,10 +117,14 @@ int get_partition_id_list_sub_linear_hash(partition_info *part_info,
int get_partition_id_list_sub_linear_key(partition_info *part_info,
uint32 *part_id,
longlong *func_value);
uint32 get_partition_id_hash_sub(partition_info *part_info);
uint32 get_partition_id_key_sub(partition_info *part_info);
uint32 get_partition_id_linear_hash_sub(partition_info *part_info);
uint32 get_partition_id_linear_key_sub(partition_info *part_info);
int get_partition_id_hash_sub(partition_info *part_info,
uint32 *part_id);
int get_partition_id_key_sub(partition_info *part_info,
uint32 *part_id);
int get_partition_id_linear_hash_sub(partition_info *part_info,
uint32 *part_id);
int get_partition_id_linear_key_sub(partition_info *part_info,
uint32 *part_id);
static uint32 get_next_partition_via_walking(PARTITION_ITERATOR*);
static void set_up_range_analysis_info(partition_info *part_info);
static uint32 get_next_subpartition_via_walking(PARTITION_ITERATOR*);
......@@ -2232,17 +2234,24 @@ bool partition_key_modified(TABLE *table, const MY_BITMAP *fields)
SYNOPSIS
part_val_int()
item_expr The item expression to evaluate
out:result The value of the partition function,
LONGLONG_MIN if any null value in function
RETURN VALUES
The value of the partition function, LONGLONG_MIN if any null value
in function
TRUE Error in val_int()
FALSE ok
*/
static inline longlong part_val_int(Item *item_expr)
static inline int part_val_int(Item *item_expr, longlong *result)
{
longlong value= item_expr->val_int();
*result= item_expr->val_int();
if (item_expr->null_value)
value= LONGLONG_MIN;
return value;
{
if (current_thd->is_error())
return TRUE;
else
*result= LONGLONG_MIN;
}
return FALSE;
}
......@@ -2319,24 +2328,29 @@ static uint32 get_part_id_for_sub(uint32 loc_part_id, uint32 sub_part_id,
get_part_id_hash()
no_parts Number of hash partitions
part_expr Item tree of hash function
out:part_id The returned partition id
out:func_value Value of hash function
RETURN VALUE
Calculated partition id
!= 0 Error code
FALSE Success
*/
inline
static uint32 get_part_id_hash(uint no_parts,
static int get_part_id_hash(uint no_parts,
Item *part_expr,
uint32 *part_id,
longlong *func_value)
{
longlong int_hash_id;
DBUG_ENTER("get_part_id_hash");
*func_value= part_val_int(part_expr);
if (part_val_int(part_expr, func_value))
DBUG_RETURN(HA_ERR_NO_PARTITION_FOUND);
int_hash_id= *func_value % no_parts;
DBUG_RETURN(int_hash_id < 0 ? (uint32) -int_hash_id : (uint32) int_hash_id);
*part_id= int_hash_id < 0 ? (uint32) -int_hash_id : (uint32) int_hash_id;
DBUG_RETURN(FALSE);
}
......@@ -2349,24 +2363,29 @@ static uint32 get_part_id_hash(uint no_parts,
desired information is given
no_parts Number of hash partitions
part_expr Item tree of hash function
out:part_id The returned partition id
out:func_value Value of hash function
RETURN VALUE
Calculated partition id
!= 0 Error code
0 OK
*/
inline
static uint32 get_part_id_linear_hash(partition_info *part_info,
static int get_part_id_linear_hash(partition_info *part_info,
uint no_parts,
Item *part_expr,
uint32 *part_id,
longlong *func_value)
{
DBUG_ENTER("get_part_id_linear_hash");
*func_value= part_val_int(part_expr);
DBUG_RETURN(get_part_id_from_linear_hash(*func_value,
if (part_val_int(part_expr, func_value))
DBUG_RETURN(HA_ERR_NO_PARTITION_FOUND);
*part_id= get_part_id_from_linear_hash(*func_value,
part_info->linear_hash_mask,
no_parts));
no_parts);
DBUG_RETURN(FALSE);
}
......@@ -2503,49 +2522,7 @@ static void restore_part_field_pointers(Field **ptr, uchar **restore_ptr)
}
return;
}
/*
This function is used to calculate the partition id where all partition
fields have been prepared to point to a record where the partition field
values are bound.
SYNOPSIS
get_partition_id()
part_info A reference to the partition_info struct where all the
desired information is given
out:part_id The partition id is returned through this pointer
out: func_value Value of partition function (longlong)
RETURN VALUE
part_id Partition id of partition that would contain
row with given values of PF-fields
HA_ERR_NO_PARTITION_FOUND The fields of the partition function didn't
fit into any partition and thus the values of
the PF-fields are not allowed.
DESCRIPTION
A routine used from write_row, update_row and delete_row from any
handler supporting partitioning. It is also a support routine for
get_partition_set used to find the set of partitions needed to scan
for a certain index scan or full table scan.
It is actually 14 different variants of this function which are called
through a function pointer.
get_partition_id_list
get_partition_id_range
get_partition_id_hash_nosub
get_partition_id_key_nosub
get_partition_id_linear_hash_nosub
get_partition_id_linear_key_nosub
get_partition_id_range_sub_hash
get_partition_id_range_sub_key
get_partition_id_range_sub_linear_hash
get_partition_id_range_sub_linear_key
get_partition_id_list_sub_hash
get_partition_id_list_sub_key
get_partition_id_list_sub_linear_hash
get_partition_id_list_sub_linear_key
*/
/*
This function is used to calculate the main partition to use in the case of
......@@ -2557,14 +2534,13 @@ static void restore_part_field_pointers(Field **ptr, uchar **restore_ptr)
part_info A reference to the partition_info struct where all the
desired information is given
out:part_id The partition id is returned through this pointer
out: func_value The value calculated by partition function
out:func_value The value calculated by partition function
RETURN VALUE
part_id Partition id of partition that would contain
row with given values of PF-fields
HA_ERR_NO_PARTITION_FOUND The fields of the partition function didn't
fit into any partition and thus the values of
the PF-fields are not allowed.
0 OK
DESCRIPTION
......@@ -2640,13 +2616,14 @@ static int get_part_part_id_charset_func(partition_info *part_info,
}
static uint32 get_subpart_id_charset_func(partition_info *part_info)
static int get_subpart_id_charset_func(partition_info *part_info,
uint32 *part_id)
{
int res;
copy_to_part_field_buffers(part_info->subpart_charset_field_array,
part_info->subpart_field_buffers,
part_info->restore_subpart_field_ptrs);
res= part_info->get_subpartition_id_charset(part_info);
res= part_info->get_subpartition_id_charset(part_info, part_id);
restore_part_field_pointers(part_info->subpart_charset_field_array,
part_info->restore_subpart_field_ptrs);
return res;
......@@ -2661,11 +2638,15 @@ int get_partition_id_list(partition_info *part_info,
int list_index;
int min_list_index= 0;
int max_list_index= part_info->no_list_values - 1;
longlong part_func_value= part_val_int(part_info->part_expr);
longlong part_func_value;
int error= part_val_int(part_info->part_expr, &part_func_value);
longlong list_value;
bool unsigned_flag= part_info->part_expr->unsigned_flag;
DBUG_ENTER("get_partition_id_list");
if (error)
goto notfound;
if (part_info->part_expr->null_value)
{
if (part_info->has_null_value)
......@@ -2809,10 +2790,14 @@ int get_partition_id_range(partition_info *part_info,
uint min_part_id= 0;
uint max_part_id= max_partition;
uint loc_part_id;
longlong part_func_value= part_val_int(part_info->part_expr);
longlong part_func_value;
int error= part_val_int(part_info->part_expr, &part_func_value);
bool unsigned_flag= part_info->part_expr->unsigned_flag;
DBUG_ENTER("get_partition_id_range");
if (error)
DBUG_RETURN(HA_ERR_NO_PARTITION_FOUND);
if (part_info->part_expr->null_value)
{
*part_id= 0;
......@@ -2970,9 +2955,8 @@ int get_partition_id_hash_nosub(partition_info *part_info,
uint32 *part_id,
longlong *func_value)
{
*part_id= get_part_id_hash(part_info->no_parts, part_info->part_expr,
func_value);
return 0;
return get_part_id_hash(part_info->no_parts, part_info->part_expr,
part_id, func_value);
}
......@@ -2980,9 +2964,8 @@ int get_partition_id_linear_hash_nosub(partition_info *part_info,
uint32 *part_id,
longlong *func_value)
{
*part_id= get_part_id_linear_hash(part_info, part_info->no_parts,
part_info->part_expr, func_value);
return 0;
return get_part_id_linear_hash(part_info, part_info->no_parts,
part_info->part_expr, part_id, func_value);
}
......@@ -3023,8 +3006,12 @@ int get_partition_id_range_sub_hash(partition_info *part_info,
DBUG_RETURN(error);
}
no_subparts= part_info->no_subparts;
sub_part_id= get_part_id_hash(no_subparts, part_info->subpart_expr,
&local_func_value);
if (unlikely((error= get_part_id_hash(no_subparts, part_info->subpart_expr,
&sub_part_id, &local_func_value))))
{
DBUG_RETURN(error);
}
*part_id= get_part_id_for_sub(loc_part_id, sub_part_id, no_subparts);
DBUG_RETURN(0);
}
......@@ -3046,9 +3033,14 @@ int get_partition_id_range_sub_linear_hash(partition_info *part_info,
DBUG_RETURN(error);
}
no_subparts= part_info->no_subparts;
sub_part_id= get_part_id_linear_hash(part_info, no_subparts,
if (unlikely((error= get_part_id_linear_hash(part_info, no_subparts,
part_info->subpart_expr,
&local_func_value);
&sub_part_id,
&local_func_value))))
{
DBUG_RETURN(error);
}
*part_id= get_part_id_for_sub(loc_part_id, sub_part_id, no_subparts);
DBUG_RETURN(0);
}
......@@ -3117,8 +3109,12 @@ int get_partition_id_list_sub_hash(partition_info *part_info,
DBUG_RETURN(error);
}
no_subparts= part_info->no_subparts;
sub_part_id= get_part_id_hash(no_subparts, part_info->subpart_expr,
&local_func_value);
if (unlikely((error= get_part_id_hash(no_subparts, part_info->subpart_expr,
&sub_part_id, &local_func_value))))
{
DBUG_RETURN(error);
}
*part_id= get_part_id_for_sub(loc_part_id, sub_part_id, no_subparts);
DBUG_RETURN(0);
}
......@@ -3140,9 +3136,14 @@ int get_partition_id_list_sub_linear_hash(partition_info *part_info,
DBUG_RETURN(error);
}
no_subparts= part_info->no_subparts;
sub_part_id= get_part_id_linear_hash(part_info, no_subparts,
if (unlikely((error= get_part_id_linear_hash(part_info, no_subparts,
part_info->subpart_expr,
&local_func_value);
&sub_part_id,
&local_func_value))))
{
DBUG_RETURN(error);
}
*part_id= get_part_id_for_sub(loc_part_id, sub_part_id, no_subparts);
DBUG_RETURN(0);
}
......@@ -3219,36 +3220,43 @@ int get_partition_id_list_sub_linear_key(partition_info *part_info,
get_partition_id_linear_key_sub
*/
uint32 get_partition_id_hash_sub(partition_info *part_info)
int get_partition_id_hash_sub(partition_info *part_info,
uint32 *part_id)
{
longlong func_value;
return get_part_id_hash(part_info->no_subparts, part_info->subpart_expr,
&func_value);
part_id, &func_value);
}
uint32 get_partition_id_linear_hash_sub(partition_info *part_info)
int get_partition_id_linear_hash_sub(partition_info *part_info,
uint32 *part_id)
{
longlong func_value;
return get_part_id_linear_hash(part_info, part_info->no_subparts,
part_info->subpart_expr, &func_value);
part_info->subpart_expr, part_id,
&func_value);
}
uint32 get_partition_id_key_sub(partition_info *part_info)
int get_partition_id_key_sub(partition_info *part_info,
uint32 *part_id)
{
longlong func_value;
return get_part_id_key(part_info->subpart_field_array,
*part_id= get_part_id_key(part_info->subpart_field_array,
part_info->no_subparts, &func_value);
return FALSE;
}
uint32 get_partition_id_linear_key_sub(partition_info *part_info)
int get_partition_id_linear_key_sub(partition_info *part_info,
uint32 *part_id)
{
longlong func_value;
return get_part_id_linear_key(part_info,
*part_id= get_part_id_linear_key(part_info,
part_info->subpart_field_array,
part_info->no_subparts, &func_value);
return FALSE;
}
......@@ -3337,37 +3345,40 @@ static bool check_part_func_bound(Field **ptr)
buf A buffer that can be used to evaluate the partition function
key_info The index object
key_spec A key_range containing key and key length
out:part_id The returned partition id
RETURN VALUES
part_id Subpartition id to use
TRUE All fields in partition function are set
FALSE Not all fields in partition function are set
DESCRIPTION
Use key buffer to set-up record in buf, move field pointers and
get the partition identity and restore field pointers afterwards.
*/
static uint32 get_sub_part_id_from_key(const TABLE *table,uchar *buf,
static int get_sub_part_id_from_key(const TABLE *table,uchar *buf,
KEY *key_info,
const key_range *key_spec)
const key_range *key_spec,
uint32 *part_id)
{
uchar *rec0= table->record[0];
partition_info *part_info= table->part_info;
uint32 part_id;
int res;
DBUG_ENTER("get_sub_part_id_from_key");
key_restore(buf, (uchar*)key_spec->key, key_info, key_spec->length);
if (likely(rec0 == buf))
{
part_id= part_info->get_subpartition_id(part_info);
res= part_info->get_subpartition_id(part_info, part_id);
}
else
{
Field **part_field_array= part_info->subpart_field_array;
set_field_ptr(part_field_array, buf, rec0);
part_id= part_info->get_subpartition_id(part_info);
res= part_info->get_subpartition_id(part_info, part_id);
set_field_ptr(part_field_array, rec0, buf);
}
DBUG_RETURN(part_id);
DBUG_RETURN(res);
}
/*
......@@ -3586,7 +3597,13 @@ void get_partition_set(const TABLE *table, uchar *buf, const uint index,
else if (part_info->is_sub_partitioned())
{
if (part_info->all_fields_in_SPF.is_set(index))
sub_part= get_sub_part_id_from_key(table, buf, key_info, key_spec);
{
if (get_sub_part_id_from_key(table, buf, key_info, key_spec, &sub_part))
{
part_spec->start_part= no_parts;
DBUG_VOID_RETURN;
}
}
else if (part_info->all_fields_in_PPF.is_set(index))
{
if (get_part_id_from_key(table,buf,key_info,
......@@ -3632,7 +3649,14 @@ void get_partition_set(const TABLE *table, uchar *buf, const uint index,
else if (part_info->is_sub_partitioned())
{
if (check_part_func_bound(part_info->subpart_field_array))
sub_part= get_sub_part_id_from_key(table, buf, key_info, key_spec);
{
if (get_sub_part_id_from_key(table, buf, key_info, key_spec, &sub_part))
{
part_spec->start_part= no_parts;
clear_indicator_in_key_fields(key_info);
DBUG_VOID_RETURN;
}
}
else if (check_part_func_bound(part_info->part_field_array))
{
if (get_part_id_from_key(table,buf,key_info,key_spec,&part_part))
......@@ -6836,10 +6860,12 @@ int get_part_iter_for_interval_via_walking(partition_info *part_info,
field->set_null();
if (is_subpart)
{
part_id= part_info->get_subpartition_id(part_info);
if (!part_info->get_subpartition_id(part_info, &part_id))
{
init_single_partition_iterator(part_id, part_iter);
return 1; /* Ok, iterator initialized */
}
}
else
{
longlong dummy;
......@@ -7007,13 +7033,18 @@ static uint32 get_next_partition_via_walking(PARTITION_ITERATOR *part_iter)
static uint32 get_next_subpartition_via_walking(PARTITION_ITERATOR *part_iter)
{
Field *field= part_iter->part_info->subpart_field_array[0];
uint32 res;
if (part_iter->field_vals.cur == part_iter->field_vals.end)
{
part_iter->field_vals.cur= part_iter->field_vals.start;
return NOT_A_PARTITION_ID;
}
field->store(part_iter->field_vals.cur++, FALSE);
return part_iter->part_info->get_subpartition_id(part_iter->part_info);
if (part_iter->part_info->get_subpartition_id(part_iter->part_info,
&res))
return NOT_A_PARTITION_ID;
return res;
}
......
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