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// non-MAD sources / sinks
int source();
int *sourcePtr();
int *sourceIndirect();
void sink(int val);
void sink(int *ptr);
// --- global MAD sources ---
int localMadSource(); // $ interpretElement
int remoteMadSource(); // $ interpretElement
int notASource();
int localMadSourceVoid(void); // $ interpretElement
int localMadSourceHasBody() { return 0; } // $ interpretElement
int *remoteMadSourceIndirect(); // $ interpretElement
int **remoteMadSourceDoubleIndirect(); // $ interpretElement
void remoteMadSourceIndirectArg0(int *x, int *y); // $ interpretElement
void remoteMadSourceIndirectArg1(int &x, int &y); // $ interpretElement
int remoteMadSourceVar; // $ interpretElement
int *remoteMadSourceVarIndirect; // $ interpretElement
namespace MyNamespace {
int namespaceLocalMadSource(); // $ interpretElement
int namespaceLocalMadSourceVar; // $ interpretElement
namespace MyNamespace2 {
int namespace2LocalMadSource(); // $ interpretElement
}
int localMadSource(); // (not a source)
}
int namespaceLocalMadSource(); // (not a source)
void test_sources() {
sink(0);
sink(source()); // $ ir
// test sources
sink(localMadSource()); // $ ir
sink(remoteMadSource()); // $ ir
sink(notASource());
sink(localMadSourceVoid()); // $ ir
sink(localMadSourceHasBody()); // $ ir
sink(sourceIndirect());
sink(*sourceIndirect()); // $ ir
int v = localMadSource();
int *v_indirect = &v;
int v_direct = *v_indirect;
sink(v); // $ ir
sink(v_indirect);
sink(*v_indirect); // $ ir
sink(v_direct); // $ ir
sink(remoteMadSourceIndirect());
sink(*remoteMadSourceIndirect()); // $ ir
sink(*remoteMadSourceDoubleIndirect());
sink(**remoteMadSourceDoubleIndirect()); // $ ir
int a, b, c, d;
remoteMadSourceIndirectArg0(&a, &b);
sink(a); // $ ir
sink(b);
remoteMadSourceIndirectArg1(c, d);
sink(c);
sink(d); // $ ir
sink(remoteMadSourceVar); // $ ir
sink(*remoteMadSourceVarIndirect); // $ MISSING: ir
int e = localMadSource();
sink(e); // $ ir
sink(MyNamespace::namespaceLocalMadSource()); // $ ir
sink(MyNamespace::namespaceLocalMadSourceVar); // $ ir
sink(MyNamespace::MyNamespace2::namespace2LocalMadSource()); // $ ir
sink(MyNamespace::localMadSource()); // $ (the MyNamespace version of this function is not a source)
sink(namespaceLocalMadSource()); // (the global namespace version of this function is not a source)
}
void remoteMadSourceParam0(int x) // $ interpretElement
{
sink(x); // $ ir
}
// --- global MAD sinks ---
void madSinkArg0(int x); // $ interpretElement
void notASink(int x);
void madSinkArg1(int x, int y); // $ interpretElement
void madSinkArg01(int x, int y, int z); // $ interpretElement
void madSinkArg02(int x, int y, int z); // $ interpretElement
void madSinkIndirectArg0(int *x); // $ interpretElement
void madSinkDoubleIndirectArg0(int **x); // $ interpretElement
int madSinkVar; // $ interpretElement
int *madSinkVarIndirect; // $ interpretElement
void test_sinks() {
// test sinks
madSinkArg0(source()); // $ ir
notASink(source());
madSinkArg1(source(), 0);
madSinkArg1(0, source()); // $ ir
madSinkArg01(source(), 0, 0); // $ ir
madSinkArg01(0, source(), 0); // $ ir
madSinkArg01(0, 0, source());
madSinkArg02(source(), 0, 0); // $ ir
madSinkArg02(0, source(), 0);
madSinkArg02(0, 0, source()); // $ ir
int a = source();
int *a_ptr = &a;
madSinkIndirectArg0(&a); // $ ir
madSinkIndirectArg0(a_ptr); // $ ir
madSinkDoubleIndirectArg0(&a_ptr); // $ ir
madSinkVar = source(); // $ ir
// test sources + sinks together
madSinkArg0(localMadSource()); // $ ir
madSinkIndirectArg0(remoteMadSourceIndirect()); // $ ir
madSinkVar = remoteMadSourceVar; // $ ir
*madSinkVarIndirect = remoteMadSourceVar; // $ MISSING: ir
}
void madSinkParam0(int x) { // $ interpretElement
x = source(); // $ MISSING: ir
}
// --- global MAD summaries ---
struct MyContainer {
int value;
int value2;
int *ptr;
};
int madArg0ToReturn(int x); // $ interpretElement
int *madArg0ToReturnIndirect(int x); // $ interpretElement
int notASummary(int x);
int madArg0ToReturnValueFlow(int x); // $ interpretElement
int madArg0IndirectToReturn(int *x); // $ interpretElement
int madArg0DoubleIndirectToReturn(int **x); // $ interpretElement
int madArg0NotIndirectToReturn(int *x); // $ interpretElement
void madArg0ToArg1Indirect(int x, int &y); // $ interpretElement
void madArg0IndirectToArg1Indirect(const int *x, int *y); // $ interpretElement
int madArgsComplex(int *a, int *b, int c, int d); // $ interpretElement
int madArgsAny(int a, int *b); // $ interpretElement
int madAndImplementedComplex(int a, int b, int c) { // $ interpretElement
// (`b` can be seen to flow to the return value in code, `c` via the MAD model)
return b;
}
int madArg0FieldToReturn(MyContainer mc); // $ interpretElement
int madArg0IndirectFieldToReturn(MyContainer *mc); // $ interpretElement
int madArg0FieldIndirectToReturn(MyContainer mc); // $ interpretElement
MyContainer madArg0ToReturnField(int x); // $ interpretElement
MyContainer *madArg0ToReturnIndirectField(int x); // $ interpretElement
MyContainer madArg0ToReturnFieldIndirect(int x); // $ interpretElement
MyContainer madFieldToFieldVar; // $ interpretElement
MyContainer madFieldToIndirectFieldVar; // $ interpretElement
MyContainer *madIndirectFieldToFieldVar; // $ interpretElement
void test_summaries() {
// test summaries
int a, b, c, d, e;
int *a_ptr;
sink(madArg0ToReturn(0));
sink(madArg0ToReturn(source())); // $ ir
sink(*madArg0ToReturnIndirect(0));
sink(*madArg0ToReturnIndirect(source())); // $ ir
sink(notASummary(source()));
sink(madArg0ToReturnValueFlow(0));
sink(madArg0ToReturnValueFlow(source())); // $ ir
a = source();
a_ptr = &a;
sink(madArg0IndirectToReturn(&a)); // $ ir
sink(madArg0IndirectToReturn(a_ptr)); // $ ir
sink(madArg0DoubleIndirectToReturn(&a_ptr)); // $ ir
sink(madArg0NotIndirectToReturn(a_ptr));
sink(madArg0NotIndirectToReturn(sourcePtr())); // $ ir
sink(madArg0NotIndirectToReturn(sourceIndirect()));
madArg0ToArg1Indirect(source(), b);
sink(b); // $ ir
madArg0IndirectToArg1Indirect(&a, &c);
sink(c); // $ ir
sink(madArgsComplex(0, 0, 0, 0));
sink(madArgsComplex(sourceIndirect(), 0, 0, 0)); // $ ir
sink(madArgsComplex(0, sourceIndirect(), 0, 0)); // $ ir
sink(madArgsComplex(0, 0, source(), 0)); // $ ir
sink(madArgsComplex(0, 0, 0, source()));
sink(madAndImplementedComplex(0, 0, 0));
sink(madAndImplementedComplex(source(), 0, 0));
sink(madAndImplementedComplex(0, source(), 0)); // Clean. We have a MaD model specifying different behavior.
sink(madAndImplementedComplex(0, 0, source())); // $ ir
sink(madArgsAny(0, 0));
sink(madArgsAny(source(), 0)); // (syntax not supported)
sink(madArgsAny(0, sourcePtr())); // (syntax not supported)
sink(madArgsAny(0, sourceIndirect())); // (syntax not supported)
// test summaries involving structs / fields
MyContainer mc1, mc2;
d = 0;
mc1.value = 0;
mc1.ptr = &d;
sink(madArg0FieldToReturn(mc1));
sink(madArg0IndirectFieldToReturn(&mc1));
sink(madArg0FieldIndirectToReturn(mc1));
e = source();
mc2.value = source();
mc2.ptr = &e;
sink(madArg0FieldToReturn(mc2)); // $ ir
sink(madArg0IndirectFieldToReturn(&mc2)); // $ ir
sink(madArg0FieldIndirectToReturn(mc2)); // $ ir
sink(madArg0ToReturnField(0).value);
sink(madArg0ToReturnField(source()).value); // $ ir
MyContainer *rtn1 = madArg0ToReturnIndirectField(source());
sink(rtn1->value); // $ ir
MyContainer rtn2 = madArg0ToReturnFieldIndirect(source());
int *rtn2_ptr = rtn2.ptr;
sink(*rtn2_ptr); // $ ir
// test global variable summaries
madFieldToFieldVar.value = source();
sink(madFieldToFieldVar.value2); // $ MISSING: ir
madFieldToIndirectFieldVar.value = source();
sink(madFieldToIndirectFieldVar.ptr);
sink(*(madFieldToIndirectFieldVar.ptr)); // $ MISSING: ir
madIndirectFieldToFieldVar->value = source();
sink((*madIndirectFieldToFieldVar).value2); // $ MISSING: ir
sink(madIndirectFieldToFieldVar->value2); // $ MISSING: ir
// test source + sinks + summaries together
madSinkArg0(madArg0ToReturn(remoteMadSource())); // $ ir
madSinkArg0(madArg0ToReturnValueFlow(remoteMadSource())); // $ ir
madSinkArg0(madArg0IndirectToReturn(sourcePtr()));
madSinkArg0(madArg0IndirectToReturn(sourceIndirect())); // $ ir
}
// --- MAD class members ---
class MyClass {
public:
// sources
int memberRemoteMadSource(); // $ interpretElement
void memberRemoteMadSourceIndirectArg0(int *x); // $ interpretElement
int memberRemoteMadSourceVar; // $ interpretElement
void qualifierSource(); // $ interpretElement
void qualifierFieldSource(); // $ interpretElement
// sinks
void memberMadSinkArg0(int x); // $ interpretElement
int memberMadSinkVar; // $ interpretElement
void qualifierSink(); // $ interpretElement
void qualifierArg0Sink(int x); // $ interpretElement
void qualifierFieldSink(); // $ interpretElement
// summaries
void madArg0ToSelf(int x); // $ interpretElement
int madSelfToReturn(); // $ interpretElement
int notASummary();
void madArg0ToField(int x); // $ interpretElement
int madFieldToReturn(); // $ interpretElement
int val;
};
class MyDerivedClass : public MyClass {
public:
int subtypeRemoteMadSource1(); // $ interpretElement
int subtypeNonSource();
int subtypeRemoteMadSource2(); // $ interpretElement
};
MyClass source2();
void sink(MyClass mc);
namespace MyNamespace {
class MyClass {
public:
// sinks
void namespaceMemberMadSinkArg0(int x); // $ interpretElement
static void namespaceStaticMemberMadSinkArg0(int x); // $ interpretElement
int namespaceMemberMadSinkVar; // $ interpretElement
static int namespaceStaticMemberMadSinkVar; // $ interpretElement
// summaries
int namespaceMadSelfToReturn(); // $ interpretElement
};
}
MyNamespace::MyClass source3();
void test_class_members() {
MyClass mc, mc2, mc3, mc4, mc5, mc6, mc7, mc8, mc9, mc10, mc11;
MyClass *ptr, *mc4_ptr;
MyDerivedClass mdc;
MyNamespace::MyClass mnc, mnc2;
MyNamespace::MyClass *mnc2_ptr;
// test class member sources
sink(mc.memberRemoteMadSource()); // $ ir
int a;
mc.memberRemoteMadSourceIndirectArg0(&a);
sink(a); // $ ir
sink(mc.memberRemoteMadSourceVar); // $ ir
// test subtype sources
sink(mdc.memberRemoteMadSource()); // $ ir
sink(mdc.subtypeRemoteMadSource1()); // $ ir
sink(mdc.subtypeNonSource());
sink(mdc.subtypeRemoteMadSource2()); // $ ir
// test class member sinks
mc.memberMadSinkArg0(source()); // $ ir
mc.memberMadSinkVar = source(); // $ ir
mnc.namespaceMemberMadSinkArg0(source()); // $ ir
MyNamespace::MyClass::namespaceStaticMemberMadSinkArg0(source()); // $ ir
mnc.namespaceMemberMadSinkVar = source(); // $ ir
MyNamespace::MyClass::namespaceStaticMemberMadSinkVar = source(); // $ ir
// test class member summaries
sink(mc2);
mc2.madArg0ToSelf(0);
sink(mc2);
mc2.madArg0ToSelf(source());
sink(mc2); // $ ir
ptr = new MyClass();
sink(*ptr);
ptr->madArg0ToSelf(0);
sink(*ptr);
ptr->madArg0ToSelf(source());
sink(*ptr); // $ ir
mc3.madArg0ToField(source());
sink(mc3.val); // $ ir
mc4 = source2();
mc4_ptr = &mc4;
sink(mc4); // $ ir
sink(mc4.madSelfToReturn()); // $ ir
sink(mc4.notASummary());
sink(mc4_ptr->madSelfToReturn()); // $ ir
sink(mc4_ptr->notASummary());
sink(source2().madSelfToReturn()); // $ ir
sink(source2().notASummary());
mc5.val = source();
sink(mc5.madFieldToReturn()); // $ ir
mnc2 = source3();
mnc2_ptr = &mnc2;
sink(mnc2.namespaceMadSelfToReturn()); // $ ir
sink(mnc2_ptr->namespaceMadSelfToReturn()); // $ ir
sink(source3().namespaceMadSelfToReturn()); // $ ir
// test class member sources + sinks + summaries together
mc.memberMadSinkArg0(mc.memberRemoteMadSource()); // $ ir
mc6.madArg0ToSelf(source());
sink(mc6.madSelfToReturn()); // $ ir
mc7.madArg0ToField(source());
sink(mc7.madFieldToReturn()); // $ ir
// test taint involving qualifier
sink(mc8);
mc8.qualifierArg0Sink(0);
mc8.qualifierArg0Sink(source()); // $ ir
mc9 = source2();
mc9.qualifierSink(); // $ ir
mc9.qualifierArg0Sink(0); // $ ir
mc8.qualifierSource();
sink(mc8); // $ ir
mc8.qualifierSink(); // $ ir
mc9.qualifierArg0Sink(0); // $ ir
// test taint involving qualifier field
sink(mc10.val);
mc10.qualifierFieldSource();
sink(mc10.val); // $ MISSING: ir
mc11.val = source();
sink(mc11.val); // $ ir
mc11.qualifierFieldSink(); // $ MISSING: ir
}
// --- MAD cases involving function pointers ---
struct intPair {
int first;
int second;
};
int madCallArg0ReturnToReturn(int (*fun_ptr)()); // $ interpretElement
intPair madCallArg0ReturnToReturnFirst(int (*fun_ptr)()); // $ interpretElement
void madCallArg0WithValue(void (*fun_ptr)(int), int value); // $ interpretElement
int madCallReturnValueIgnoreFunction(void (*fun_ptr)(int), int value); // $ interpretElement
int getTainted() { return source(); }
void useValue(int x) { sink(x); } // $ ir
void dontUseValue(int x) { }
void test_function_pointers() {
sink(madCallArg0ReturnToReturn(¬ASource));
sink(madCallArg0ReturnToReturn(&getTainted)); // $ ir
sink(madCallArg0ReturnToReturn(&source)); // $ MISSING: ir
sink(madCallArg0ReturnToReturnFirst(&getTainted).first); // $ ir
sink(madCallArg0ReturnToReturnFirst(&getTainted).second);
madCallArg0WithValue(&useValue, source());
madCallArg0WithValue(&sink, source()); // $ MISSING: ir
madCallReturnValueIgnoreFunction(&sink, source());
sink(madCallReturnValueIgnoreFunction(&dontUseValue, source())); // $ ir
}
template<typename X>
struct StructWithTypedefInParameter {
typedef X Type;
X& parameter_ref_to_return_ref(const Type& x); // $ interpretElement
};
void test_parameter_ref_to_return_ref() {
int x = source();
StructWithTypedefInParameter<int> s;
int y = s.parameter_ref_to_return_ref(x);
sink(y); // $ ir
}
using INT = int;
int receive_array(INT a[20]); // $ interpretElement
void test_receive_array() {
int x = source();
int array[10] = {x};
int y = receive_array(array);
sink(y); // $ ir
}