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// Check that we properly kill states when we exceed our memory bounds, for both
// small and large allocations (large allocations commonly use mmap(), which can
// follow a separate path in the allocator and statistics reporting).
// RUN: %llvmgcc -emit-llvm -DLITTLE_ALLOC -g -c %s -o %t.little.bc
// RUN: rm -rf %t.klee-out
// RUN: %klee --output-dir=%t.klee-out --max-memory=20 %t.little.bc > %t.little.log
// RUN: not grep -q "MALLOC FAILED" %t.little.log
// RUN: not grep -q "DONE" %t.little.log
// RUN: grep "WARNING: killing 1 states (over memory cap)" %t.klee-out/warnings.txt
// RUN: %llvmgcc -emit-llvm -g -c %s -o %t.big.bc
// RUN: rm -rf %t.klee-out
// RUN: %klee --output-dir=%t.klee-out --max-memory=20 %t.big.bc > %t.big.log 2> %t.big.err
// RUN: not grep -q "MALLOC FAILED" %t.big.log
// RUN: not grep -q "DONE" %t.big.log
// RUN: grep "WARNING: killing 1 states (over memory cap)" %t.klee-out/warnings.txt
#include <stdlib.h>
#include <stdio.h>
int main() {
int i, j, x=0, malloc_failed = 0;
#ifdef LITTLE_ALLOC
printf("IN LITTLE ALLOC\n");
// 200 MBs total (in 1k chunks)
for (i=0; i<100 && !malloc_failed; i++) {
for (j=0; j<(1<<11); j++){
void * p = malloc(1<<10);
malloc_failed |= (p == 0);
}
}
#else
printf("IN BIG ALLOC\n");
// 200 MBs total
for (i=0; i<100 && !malloc_failed; i++) {
void *p = malloc(1<<21);
malloc_failed |= (p == 0);
// Ensure we hit the periodic check
// Use the pointer to be not optimized out by the compiler
for (j=0; j<10000; j++)
x+=(unsigned)p;
}
#endif
if (malloc_failed)
printf("MALLOC FAILED\n");
printf("DONE!\n");
return x;
}
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