Commit 6ad0c9b1 authored by Jon Olav Hauglid's avatar Jon Olav Hauglid

Bug #11752069 (former bug 43152)

Assertion `bitmap_is_set_all(&table->s->all_set)' failed in
handler::ha_reset

This assertion could be triggered if two connections simultaneously
executed two bitmap test functions on the same bitmap. For example,
the assertion could be triggered if one connection executed UPDATE
while a second connection executed SELECT on the same table.

Even if bitmap test functions have read-only semantics and have
const bitmaps as parameter, several of them modified the internal
state of the bitmap. With interleaved execution of two such functions
it was possible for one function to modify the state of the same
bitmap that the other function had just modified. This lead to an
inconsistent state and could trigger the assert.

Internally the bitmap uses 32 bit words for storage. Since bitmaps
can contain any number of bits, the last word in the bitmap may
not be fully used. A 32 bit mask is maintained where a bit is set
if the corresponding bit in the last bitmap word is unused.
The problem was that several test functions applied this mask to
the last word. Sometimes the mask was negated and used to zero out
the remainder of the last word and sometimes the mask was used as-is
to fill the remainder of the last word with 1's. This meant that if
a function first used the negated mask and another function then
used the mask as-is (or vice-versa), the first function would then
get the wrong result.

This patch fixes the problem by changing the implementation of
9 bitmap functions that modified the bitmap state even if the 
bitmap was declared const. These functions now preserve the
internal state of the bitmap. This makes it possible for
two connections to concurrently execute two of these functions
on the same bitmap without issues.

The patch also removes dead testing code from my_bitmap.c.
These tests have already been moved to unittest/mysys/bitmap-t.c.
Existing test coverage of my_bitmap has been extended.

No MTR test case added as this would require adding several sync
points to the bitmap functions. The patch has been tested with
a non-deterministic test case posted on the bug report.


include/my_bit.h:
  Removed my_count_bits_ushort() which is not needed anymore.
  Added my_count_bits_uint32().
unittest/mysys/bitmap-t.c:
  Extended test coverage of my_bitmap.
parent 9c89cca5
/* Copyright (c) 2007, 2011, Oracle and/or its affiliates. All rights reserved.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */
/* /*
Some useful bit functions Some useful bit functions
*/ */
...@@ -42,9 +57,12 @@ STATIC_INLINE uint my_count_bits(ulonglong v) ...@@ -42,9 +57,12 @@ STATIC_INLINE uint my_count_bits(ulonglong v)
#endif #endif
} }
STATIC_INLINE uint my_count_bits_ushort(ushort v) STATIC_INLINE uint my_count_bits_uint32(uint32 v)
{ {
return _my_bits_nbits[v]; return (uint) (uchar) (_my_bits_nbits[(uchar) v] +
_my_bits_nbits[(uchar) (v >> 8)] +
_my_bits_nbits[(uchar) (v >> 16)] +
_my_bits_nbits[(uchar) (v >> 24)]);
} }
...@@ -104,6 +122,6 @@ extern uint32 my_round_up_to_next_power(uint32 v); ...@@ -104,6 +122,6 @@ extern uint32 my_round_up_to_next_power(uint32 v);
uint32 my_clear_highest_bit(uint32 v); uint32 my_clear_highest_bit(uint32 v);
uint32 my_reverse_bits(uint32 key); uint32 my_reverse_bits(uint32 key);
extern uint my_count_bits(ulonglong v); extern uint my_count_bits(ulonglong v);
extern uint my_count_bits_ushort(ushort v); extern uint my_count_bits_uint32(uint32 v);
#endif /* HAVE_INLINE */ #endif /* HAVE_INLINE */
C_MODE_END C_MODE_END
/* Copyright (C) 2000 MySQL AB /* Copyright (c) 2000, 2011, Oracle and/or its affiliates. All rights reserved.
This program is free software; you can redistribute it and/or modify This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by it under the terms of the GNU General Public License as published by
...@@ -149,9 +149,10 @@ bitmap_is_set(const MY_BITMAP *map,uint bit) ...@@ -149,9 +149,10 @@ bitmap_is_set(const MY_BITMAP *map,uint bit)
static inline my_bool bitmap_cmp(const MY_BITMAP *map1, const MY_BITMAP *map2) static inline my_bool bitmap_cmp(const MY_BITMAP *map1, const MY_BITMAP *map2)
{ {
*(map1)->last_word_ptr|= (map1)->last_word_mask; if (memcmp(map1->bitmap, map2->bitmap, 4*(no_words_in_map(map1)-1)) != 0)
*(map2)->last_word_ptr|= (map2)->last_word_mask; return FALSE;
return memcmp((map1)->bitmap, (map2)->bitmap, 4*no_words_in_map((map1)))==0; return ((*map1->last_word_ptr | map1->last_word_mask) ==
(*map2->last_word_ptr | map2->last_word_mask));
} }
#define bitmap_clear_all(MAP) \ #define bitmap_clear_all(MAP) \
......
This diff is collapsed.
/* Copyright (C) 2006 MySQL AB /* Copyright (c) 2000, 2011, Oracle and/or its affiliates. All rights reserved.
This program is free software; you can redistribute it and/or modify This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by it under the terms of the GNU General Public License as published by
...@@ -24,6 +24,8 @@ ...@@ -24,6 +24,8 @@
#include <tap.h> #include <tap.h>
#include <m_string.h> #include <m_string.h>
#define MAX_TESTED_BITMAP_SIZE 1024
uint get_rand_bit(uint bitsize) uint get_rand_bit(uint bitsize)
{ {
return (rand() % bitsize); return (rand() % bitsize);
...@@ -75,12 +77,6 @@ my_bool test_flip_bit(MY_BITMAP *map, uint bitsize) ...@@ -75,12 +77,6 @@ my_bool test_flip_bit(MY_BITMAP *map, uint bitsize)
return TRUE; return TRUE;
} }
my_bool test_operators(MY_BITMAP *map __attribute__((unused)),
uint bitsize __attribute__((unused)))
{
return FALSE;
}
my_bool test_get_all_bits(MY_BITMAP *map, uint bitsize) my_bool test_get_all_bits(MY_BITMAP *map, uint bitsize)
{ {
uint i; uint i;
...@@ -129,8 +125,8 @@ my_bool test_compare_operators(MY_BITMAP *map, uint bitsize) ...@@ -129,8 +125,8 @@ my_bool test_compare_operators(MY_BITMAP *map, uint bitsize)
uint no_loops= bitsize > 128 ? 128 : bitsize; uint no_loops= bitsize > 128 ? 128 : bitsize;
MY_BITMAP map2_obj, map3_obj; MY_BITMAP map2_obj, map3_obj;
MY_BITMAP *map2= &map2_obj, *map3= &map3_obj; MY_BITMAP *map2= &map2_obj, *map3= &map3_obj;
uint32 map2buf[1024]; uint32 map2buf[MAX_TESTED_BITMAP_SIZE];
uint32 map3buf[1024]; uint32 map3buf[MAX_TESTED_BITMAP_SIZE];
bitmap_init(&map2_obj, map2buf, bitsize, FALSE); bitmap_init(&map2_obj, map2buf, bitsize, FALSE);
bitmap_init(&map3_obj, map3buf, bitsize, FALSE); bitmap_init(&map3_obj, map3buf, bitsize, FALSE);
bitmap_clear_all(map2); bitmap_clear_all(map2);
...@@ -259,6 +255,19 @@ my_bool test_get_first_bit(MY_BITMAP *map, uint bitsize) ...@@ -259,6 +255,19 @@ my_bool test_get_first_bit(MY_BITMAP *map, uint bitsize)
{ {
uint i, test_bit; uint i, test_bit;
uint no_loops= bitsize > 128 ? 128 : bitsize; uint no_loops= bitsize > 128 ? 128 : bitsize;
bitmap_set_all(map);
for (i=0; i < bitsize; i++)
bitmap_clear_bit(map, i);
if (bitmap_get_first_set(map) != MY_BIT_NONE)
goto error1;
bitmap_clear_all(map);
for (i=0; i < bitsize; i++)
bitmap_set_bit(map, i);
if (bitmap_get_first(map) != MY_BIT_NONE)
goto error2;
bitmap_clear_all(map);
for (i=0; i < no_loops; i++) for (i=0; i < no_loops; i++)
{ {
test_bit=get_rand_bit(bitsize); test_bit=get_rand_bit(bitsize);
...@@ -321,6 +330,24 @@ my_bool test_prefix(MY_BITMAP *map, uint bitsize) ...@@ -321,6 +330,24 @@ my_bool test_prefix(MY_BITMAP *map, uint bitsize)
goto error3; goto error3;
bitmap_clear_all(map); bitmap_clear_all(map);
} }
for (i=0; i < bitsize; i++)
{
if (bitmap_is_prefix(map, i + 1))
goto error4;
bitmap_set_bit(map, i);
if (!bitmap_is_prefix(map, i + 1))
goto error5;
test_bit=get_rand_bit(bitsize);
bitmap_set_bit(map, test_bit);
if (test_bit <= i && !bitmap_is_prefix(map, i + 1))
goto error5;
else if (test_bit > i)
{
if (bitmap_is_prefix(map, i + 1))
goto error4;
bitmap_clear_bit(map, test_bit);
}
}
return FALSE; return FALSE;
error1: error1:
diag("prefix1 error bitsize = %u, prefix_size = %u", bitsize,test_bit); diag("prefix1 error bitsize = %u, prefix_size = %u", bitsize,test_bit);
...@@ -331,13 +358,127 @@ my_bool test_prefix(MY_BITMAP *map, uint bitsize) ...@@ -331,13 +358,127 @@ my_bool test_prefix(MY_BITMAP *map, uint bitsize)
error3: error3:
diag("prefix3 error bitsize = %u, prefix_size = %u", bitsize,test_bit); diag("prefix3 error bitsize = %u, prefix_size = %u", bitsize,test_bit);
return TRUE; return TRUE;
error4:
diag("prefix4 error bitsize = %u, i = %u", bitsize,i);
return TRUE;
error5:
diag("prefix5 error bitsize = %u, i = %u", bitsize,i);
return TRUE;
}
my_bool test_compare(MY_BITMAP *map, uint bitsize)
{
MY_BITMAP map2;
uint32 map2buf[MAX_TESTED_BITMAP_SIZE];
uint i, test_bit;
uint no_loops= bitsize > 128 ? 128 : bitsize;
if (bitmap_init(&map2, map2buf, bitsize, FALSE))
{
diag("init error for bitsize %d", bitsize);
return TRUE;
}
/* Test all 4 possible combinations of set/unset bits. */
for (i=0; i < no_loops; i++)
{
test_bit=get_rand_bit(bitsize);
bitmap_clear_bit(map, test_bit);
bitmap_clear_bit(&map2, test_bit);
if (!bitmap_is_subset(map, &map2))
goto error_is_subset;
bitmap_set_bit(map, test_bit);
if (bitmap_is_subset(map, &map2))
goto error_is_subset;
bitmap_set_bit(&map2, test_bit);
if (!bitmap_is_subset(map, &map2))
goto error_is_subset;
bitmap_clear_bit(map, test_bit);
if (!bitmap_is_subset(map, &map2))
goto error_is_subset;
/* Note that test_bit is not cleared i map2. */
}
bitmap_clear_all(map);
bitmap_clear_all(&map2);
/* Test all 4 possible combinations of set/unset bits. */
for (i=0; i < no_loops; i++)
{
test_bit=get_rand_bit(bitsize);
if (bitmap_is_overlapping(map, &map2))
goto error_is_overlapping;
bitmap_set_bit(map, test_bit);
if (bitmap_is_overlapping(map, &map2))
goto error_is_overlapping;
bitmap_set_bit(&map2, test_bit);
if (!bitmap_is_overlapping(map, &map2))
goto error_is_overlapping;
bitmap_clear_bit(map, test_bit);
if (bitmap_is_overlapping(map, &map2))
goto error_is_overlapping;
bitmap_clear_bit(&map2, test_bit);
/* Note that test_bit is not cleared i map2. */
}
return FALSE;
error_is_subset:
diag("is_subset error bitsize = %u", bitsize);
return TRUE;
error_is_overlapping:
diag("is_overlapping error bitsize = %u", bitsize);
return TRUE;
} }
my_bool test_intersect(MY_BITMAP *map, uint bitsize)
{
uint bitsize2 = 1 + get_rand_bit(MAX_TESTED_BITMAP_SIZE - 1);
MY_BITMAP map2;
uint32 map2buf[bitsize2];
uint i, test_bit1, test_bit2, test_bit3;
if (bitmap_init(&map2, map2buf, bitsize2, FALSE))
{
diag("init error for bitsize %d", bitsize2);
return TRUE;
}
test_bit1= get_rand_bit(bitsize);
test_bit2= get_rand_bit(bitsize);
bitmap_set_bit(map, test_bit1);
bitmap_set_bit(map, test_bit2);
test_bit3= get_rand_bit(bitsize2);
bitmap_set_bit(&map2, test_bit3);
if (test_bit2 < bitsize2)
bitmap_set_bit(&map2, test_bit2);
bitmap_intersect(map, &map2);
if (test_bit2 < bitsize2)
{
if (!bitmap_is_set(map, test_bit2))
goto error;
bitmap_clear_bit(map, test_bit2);
}
if (test_bit1 == test_bit3)
{
if (!bitmap_is_set(map, test_bit1))
goto error;
bitmap_clear_bit(map, test_bit1);
}
if (!bitmap_is_clear_all(map))
goto error;
bitmap_set_all(map);
bitmap_set_all(&map2);
for (i=0; i < bitsize2; i++)
bitmap_clear_bit(&map2, i);
bitmap_intersect(map, &map2);
if (!bitmap_is_clear_all(map))
goto error;
return FALSE;
error:
diag("intersect error bitsize = %u, bit1 = %u, bit2 = %u, bit3 = %u",
bitsize, test_bit1, test_bit2, test_bit3);
return TRUE;
}
my_bool do_test(uint bitsize) my_bool do_test(uint bitsize)
{ {
MY_BITMAP map; MY_BITMAP map;
uint32 buf[1024]; uint32 buf[MAX_TESTED_BITMAP_SIZE];
if (bitmap_init(&map, buf, bitsize, FALSE)) if (bitmap_init(&map, buf, bitsize, FALSE))
{ {
diag("init error for bitsize %d", bitsize); diag("init error for bitsize %d", bitsize);
...@@ -349,9 +490,6 @@ my_bool do_test(uint bitsize) ...@@ -349,9 +490,6 @@ my_bool do_test(uint bitsize)
if (test_flip_bit(&map,bitsize)) if (test_flip_bit(&map,bitsize))
goto error; goto error;
bitmap_clear_all(&map); bitmap_clear_all(&map);
if (test_operators(&map,bitsize))
goto error;
bitmap_clear_all(&map);
if (test_get_all_bits(&map, bitsize)) if (test_get_all_bits(&map, bitsize))
goto error; goto error;
bitmap_clear_all(&map); bitmap_clear_all(&map);
...@@ -366,8 +504,15 @@ my_bool do_test(uint bitsize) ...@@ -366,8 +504,15 @@ my_bool do_test(uint bitsize)
bitmap_clear_all(&map); bitmap_clear_all(&map);
if (test_get_next_bit(&map,bitsize)) if (test_get_next_bit(&map,bitsize))
goto error; goto error;
bitmap_clear_all(&map);
if (test_prefix(&map,bitsize)) if (test_prefix(&map,bitsize))
goto error; goto error;
bitmap_clear_all(&map);
if (test_compare(&map,bitsize))
goto error;
bitmap_clear_all(&map);
if (test_intersect(&map,bitsize))
goto error;
return FALSE; return FALSE;
error: error:
return TRUE; return TRUE;
...@@ -377,7 +522,7 @@ int main() ...@@ -377,7 +522,7 @@ int main()
{ {
int i; int i;
int const min_size = 1; int const min_size = 1;
int const max_size = 1024; int const max_size = MAX_TESTED_BITMAP_SIZE;
MY_INIT("bitmap-t"); MY_INIT("bitmap-t");
plan(max_size - min_size); plan(max_size - min_size);
......
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