blob: bec5e3e1b13889d9a883754e08e26058bc087175 [file] [log] [blame]
/* This test case was originally written by Nicholas Nethercote. */
// [[This comment applies to the old piggybacking approach to
// origin-tracking. The newer approach handles the cases in this file
// correctly.]]
// This test demonstrates cases the piggybacking algorithm cannot handle,
// but which are handled ok by the instrumentation based algorithm.
#include <assert.h>
#include <stdlib.h>
#include <stdio.h>
#include "../memcheck.h"
int x = 0;
__attribute__((noinline)) int t1(void);
__attribute__((noinline)) int t2(void);
__attribute__((noinline)) int t3(void);
__attribute__((noinline)) int t4(void);
__attribute__((noinline)) int t5(void);
__attribute__((noinline)) int t6(void);
int main(void)
{
assert(4 == sizeof(int));
x += t1();
x += t2();
x += t3();
x += t4();
x += t5();
x += t6();
return x & 255;
}
__attribute__((noinline)) int t1(void)
{
// 8-bit undefined value. When compared it's loaded from memory, so will
// never work.
char* ptr_to_undef_char = malloc(sizeof(char));
char undef_char = *ptr_to_undef_char;
fprintf(stderr, "\nUndef 1 of 8 (8 bit undef)\n");
return (undef_char == 0x12 ? 11 : 22);
}
__attribute__((noinline)) int t2(void)
{
// Stack, 8-bit from (recently) 32-bit. But the load only loads 8-bits
// of the value, so it'll never work.
int undef_stack_int;
register char undef_stack_char = (char)undef_stack_int;
fprintf(stderr, "\nUndef 2 of 8 (8 bits of 32 undef)\n");
return (undef_stack_char == 0x12 ? 11 : 22);
}
__attribute__((noinline)) int t3(void)
{
// 32-bit undefined value. This one is identified, and is here for
// sanity-checking.
int* ptr_to_undef_int = malloc(sizeof(int));
int undef_int = *ptr_to_undef_int;
fprintf(stderr, "\nUndef 3 of 8 (32 bit undef)\n");
return (undef_int == 0x12345678 ? 13 : 24);
}
__attribute__((noinline)) int t4(void)
{
// Unaligned 32-bit value.
int* ptr_to_undef_int = malloc(sizeof(int) + 1);
int undef_unaligned_int = *(int*)((long)ptr_to_undef_int + 1);
fprintf(stderr, "\nUndef 4 of 8 (32 bit undef, unaligned)\n");
return (undef_unaligned_int == 0x12345678 ? 14 : 25);
}
__attribute__((noinline)) int t5(void)
{
// Modified 32-bit value.
int* ptr_to_undef_int3 = malloc(sizeof(int));
int modified_undef_int = *ptr_to_undef_int3;
fprintf(stderr, "\nUndef 5 of 8 (32 bit undef, modified)\n");
modified_undef_int++;
return (modified_undef_int == 0x12345678 ? 15 : 26);
}
__attribute__((noinline)) int t6(void)
{
int y = 0;
// Uninitialised 32-bit value (middle of 3) is made undefined in two
// unaligned pieces:
// |....|....|....| three 4-byte integers
// XXXX-YY first MAKE_MEM_UNDEFINED
// YY-XXXX second MAKE_MEM_UNDEFINED
// Because the YY parts don't get marked (they're not 32-bit and aligned)
// the middle byte keeps its original value, which is zero (from calloc).
// So even though it's been marked as undefined, it doesn't have an
// origin-tracking value and so cannot be identified. We also check the
// first and third ints (which are identified) for sanity-checking.
{
int* ptr_to_3_undef_ints = calloc(3, sizeof(int));
int* ptr_to_middle = (int*)((long)ptr_to_3_undef_ints + 6);
VALGRIND_MAKE_MEM_UNDEFINED(ptr_to_3_undef_ints, 6);
VALGRIND_MAKE_MEM_UNDEFINED(ptr_to_middle, 6);
fprintf(stderr, "\nUndef 6 of 8 (32 bit undef, unaligned, strange, #1)\n");
y += (*(ptr_to_3_undef_ints + 0) == 0x12345678 ? 16 : 27);
fprintf(stderr, "\nUndef 7 of 8 (32 bit undef, unaligned, strange, #2)\n");
y += (*(ptr_to_3_undef_ints + 1) == 0x12345678 ? 17 : 28);
fprintf(stderr, "\nUndef 8 of 8 (32 bit undef, unaligned, strange, #3)\n");
y += (*(ptr_to_3_undef_ints + 2) == 0x12345678 ? 18 : 29);
return y;
}
return x;
}