// RUN: %clang %s -g -emit-llvm %O0opt -c -o %t.bc // RUN: rm -rf %t.klee-out // RUN: %klee --output-dir=%t.klee-out --single-object-resolution %t.bc > %t.log 2>&1 // RUN: FileCheck %s -input-file=%t.log // RUN: %klee-stats --print-columns 'Queries' --table-format=csv %t.klee-out | FileCheck %s --check-prefix CHECK-STATS // CHECK-STATS: 6218 #include "klee/klee.h" #include struct A { long long int y; long long int y2; int z; }; struct B { long long int x; struct A y[20]; struct A *y1; struct A *y2; int z; }; int bar(int *pointer, int selector) { int *ptr = 0; if (selector) ptr = pointer + 123; else ptr = pointer + 124; // CHECK: SingleObjectResolution.c:[[@LINE+1]]: memory error: out of bound pointer return *ptr; } int foo() { size_t x; int y; struct B b; // create a lot of memory objects int *ptrs[1024]; for (int i = 0; i < 1024; i++) { ptrs[i] = malloc(23); } klee_make_symbolic(&x, sizeof(x), "x"); klee_make_symbolic(&y, sizeof(y), "y"); b.y1 = malloc(20 * sizeof(struct A)); // dereference of a pointer within a struct int *tmp = &b.y1[x].z; int z = bar(tmp, y); // cleanup test for heap free(b.y1); tmp = &b.y[x].z; // this is to test the cleanup for stack vars z = bar(tmp, y); return z; } int main(int argc, char *argv[]) { // CHECK: KLEE: done: completed paths = 2 // CHECK: KLEE: done: partially completed paths = 2 // CHECK: KLEE: done: generated tests = 3 return foo(); }