dtor-multiple-inheritance.cpp
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// Defines diamond multiple inheritance structure
// A
// / \
// B C
// \ /
// Derived
// RUN: %clangxx_msan %s -O0 -fsanitize=memory -fsanitize-memory-use-after-dtor -o %t && MSAN_OPTIONS=poison_in_dtor=1 %run %t >%t.out 2>&1
// RUN: %clangxx_msan %s -O1 -fsanitize=memory -fsanitize-memory-use-after-dtor -o %t && MSAN_OPTIONS=poison_in_dtor=1 %run %t >%t.out 2>&1
// RUN: %clangxx_msan %s -O2 -fsanitize=memory -fsanitize-memory-use-after-dtor -o %t && MSAN_OPTIONS=poison_in_dtor=1 %run %t >%t.out 2>&1
#include <sanitizer/msan_interface.h>
#include <assert.h>
int *temp_x;
int *temp_y;
int *temp_z;
int *temp_w;
class A {
public:
int x;
A() { x = 5; }
virtual ~A() {
assert(__msan_test_shadow(&this->x, sizeof(this->x) == -1));
// Memory owned by subclasses is poisoned.
assert(__msan_test_shadow(temp_y, sizeof(*temp_y)) != -1);
assert(__msan_test_shadow(temp_z, sizeof(*temp_z)) != -1);
assert(__msan_test_shadow(temp_w, sizeof(*temp_w)) != -1);
}
};
struct B : virtual public A {
public:
int y;
B() { y = 10; }
virtual ~B() {
assert(__msan_test_shadow(&this->y, sizeof(this->y)) == -1);
// Memory accessible via vtable still reachable.
assert(__msan_test_shadow(&this->x, sizeof(this->x)) == -1);
// Memory in sibling and subclass is poisoned.
assert(__msan_test_shadow(temp_z, sizeof(*temp_z)) != -1);
assert(__msan_test_shadow(temp_w, sizeof(*temp_w)) != -1);
}
};
struct C : virtual public A {
public:
int z;
C() { z = 15; }
virtual ~C() {
assert(__msan_test_shadow(&this->z, sizeof(this->z)) == -1);
// Memory accessible via vtable still reachable.
assert(__msan_test_shadow(&this->x, sizeof(this->x)) == -1);
// Sibling class is unpoisoned.
assert(__msan_test_shadow(temp_y, sizeof(*temp_y)) == -1);
// Memory in subclasses is poisoned.
assert(__msan_test_shadow(temp_w, sizeof(*temp_w)) != -1);
}
};
class Derived : public B, public C {
public:
int w;
Derived() { w = 10; }
~Derived() {
assert(__msan_test_shadow(&this->x, sizeof(this->x)) == -1);
// Members accessed through the vtable are still accessible.
assert(__msan_test_shadow(&this->y, sizeof(this->y)) == -1);
assert(__msan_test_shadow(&this->z, sizeof(this->z)) == -1);
assert(__msan_test_shadow(&this->w, sizeof(this->w)) == -1);
}
};
int main() {
Derived *d = new Derived();
// Keep track of members inherited from virtual bases,
// since the virtual base table is inaccessible after destruction.
temp_x = &d->x;
temp_y = &d->y;
temp_z = &d->z;
temp_w = &d->w;
// Order of destruction: Derived, C, B, A
d->~Derived();
// Verify that local pointer is unpoisoned, and that the object's
// members are.
assert(__msan_test_shadow(&d, sizeof(d)) == -1);
assert(__msan_test_shadow(temp_x, sizeof(*temp_x)) != -1);
assert(__msan_test_shadow(temp_y, sizeof(*temp_y)) != -1);
assert(__msan_test_shadow(temp_z, sizeof(*temp_z)) != -1);
assert(__msan_test_shadow(temp_w, sizeof(*temp_w)) != -1);
return 0;
}