llvm-project/clang/test/Analysis/new.cpp

372 lines
9.1 KiB
C++

// RUN: %clang_analyze_cc1 -analyzer-checker=core,unix.Malloc,debug.ExprInspection -analyzer-store region -std=c++11 -verify -analyzer-config eagerly-assume=false %s
// RUN: %clang_analyze_cc1 -analyzer-checker=core,unix.Malloc,debug.ExprInspection -analyzer-store region -std=c++11 -DTEST_INLINABLE_ALLOCATORS -verify -analyzer-config eagerly-assume=false %s
#include "Inputs/system-header-simulator-cxx.h"
void clang_analyzer_eval(bool);
typedef __typeof__(sizeof(int)) size_t;
extern "C" void *malloc(size_t);
extern "C" void free(void *);
int someGlobal;
class SomeClass {
public:
void f(int *p);
};
void testImplicitlyDeclaredGlobalNew() {
if (someGlobal != 0)
return;
// This used to crash because the global operator new is being implicitly
// declared and it does not have a valid source location. (PR13090)
void *x = ::operator new(0);
::operator delete(x);
// Check that the new/delete did not invalidate someGlobal;
clang_analyzer_eval(someGlobal == 0); // expected-warning{{TRUE}}
}
void *testPlacementNew() {
int *x = (int *)malloc(sizeof(int));
*x = 1;
clang_analyzer_eval(*x == 1); // expected-warning{{TRUE}};
void *y = new (x) int;
clang_analyzer_eval(x == y); // expected-warning{{TRUE}};
clang_analyzer_eval(*x == 1); // expected-warning{{TRUE}};
return y;
}
void *operator new(size_t, size_t, int *);
void *testCustomNew() {
int x[1] = {1};
clang_analyzer_eval(*x == 1); // expected-warning{{TRUE}};
void *y = new (0, x) int;
clang_analyzer_eval(*x == 1); // expected-warning{{UNKNOWN}};
return y; // no-warning
}
void *operator new(size_t, void *, void *);
void *testCustomNewMalloc() {
int *x = (int *)malloc(sizeof(int));
// Should be no-warning (the custom allocator could have freed x).
void *y = new (0, x) int; // no-warning
return y;
}
void testScalarInitialization() {
int *n = new int(3);
clang_analyzer_eval(*n == 3); // expected-warning{{TRUE}}
new (n) int();
clang_analyzer_eval(*n == 0); // expected-warning{{TRUE}}
new (n) int{3};
clang_analyzer_eval(*n == 3); // expected-warning{{TRUE}}
new (n) int{};
clang_analyzer_eval(*n == 0); // expected-warning{{TRUE}}
}
struct PtrWrapper {
int *x;
PtrWrapper(int *input) : x(input) {}
};
PtrWrapper *testNewInvalidation() {
// Ensure that we don't consider this a leak.
return new PtrWrapper(static_cast<int *>(malloc(4))); // no-warning
}
void testNewInvalidationPlacement(PtrWrapper *w) {
// Ensure that we don't consider this a leak.
new (w) PtrWrapper(static_cast<int *>(malloc(4))); // no-warning
}
int **testNewInvalidationScalar() {
// Ensure that we don't consider this a leak.
return new (int *)(static_cast<int *>(malloc(4))); // no-warning
}
void testNewInvalidationScalarPlacement(int **p) {
// Ensure that we don't consider this a leak.
new (p) (int *)(static_cast<int *>(malloc(4))); // no-warning
}
void testCacheOut(PtrWrapper w) {
extern bool coin();
if (coin())
w.x = 0;
new (&w.x) (int*)(0); // we cache out here; don't crash
}
void testUseAfter(int *p) {
SomeClass *c = new SomeClass;
free(p);
c->f(p); // expected-warning{{Use of memory after it is freed}}
delete c;
}
//--------------------------------------------------------------------
// Check for intersection with other checkers from MallocChecker.cpp
// bounded with unix.Malloc
//--------------------------------------------------------------------
// new/delete oparators are subjects of cplusplus.NewDelete.
void testNewDeleteNoWarn() {
int i;
delete &i; // no-warning
int *p1 = new int;
delete ++p1; // no-warning
int *p2 = new int;
delete p2;
delete p2; // no-warning
int *p3 = new int; // no-warning
}
// unix.Malloc does not know about operators new/delete.
void testDeleteMallocked() {
int *x = (int *)malloc(sizeof(int));
delete x; // FIXME: Should detect pointer escape and keep silent after 'delete' is modeled properly.
} // expected-warning{{Potential leak of memory pointed to by 'x'}}
void testDeleteOpAfterFree() {
int *p = (int *)malloc(sizeof(int));
free(p);
operator delete(p); // expected-warning{{Use of memory after it is freed}}
}
void testDeleteAfterFree() {
int *p = (int *)malloc(sizeof(int));
free(p);
delete p; // expected-warning{{Use of memory after it is freed}}
}
void testStandardPlacementNewAfterFree() {
int *p = (int *)malloc(sizeof(int));
free(p);
p = new(p) int; // expected-warning{{Use of memory after it is freed}}
}
void testCustomPlacementNewAfterFree() {
int *p = (int *)malloc(sizeof(int));
free(p);
p = new(0, p) int; // expected-warning{{Use of memory after it is freed}}
}
void testUsingThisAfterDelete() {
SomeClass *c = new SomeClass;
delete c;
c->f(0); // no-warning
}
void testAggregateNew() {
struct Point { int x, y; };
new Point{1, 2}; // no crash
Point p;
new (&p) Point{1, 2}; // no crash
clang_analyzer_eval(p.x == 1); // expected-warning{{TRUE}}
clang_analyzer_eval(p.y == 2); // expected-warning{{TRUE}}
}
//--------------------------------
// Incorrectly-modelled behavior
//--------------------------------
int testNoInitialization() {
int *n = new int;
// Should warn that *n is uninitialized.
if (*n) { // no-warning
delete n;
return 0;
}
delete n;
return 1;
}
int testNoInitializationPlacement() {
int n;
new (&n) int;
if (n) { // expected-warning{{Branch condition evaluates to a garbage value}}
return 0;
}
return 1;
}
// Test modelling destructor call on call to delete
class IntPair{
public:
int x;
int y;
IntPair() {};
~IntPair() {x = x/y;}; //expected-warning {{Division by zero}}
};
void testCallToDestructor() {
IntPair *b = new IntPair();
b->x = 1;
b->y = 0;
delete b; // This results in divide by zero in destructor
}
// Test Deleting a value that's passed as an argument.
class DerefClass{
public:
int *x;
DerefClass() {};
~DerefClass() {*x = 1;}; //expected-warning {{Dereference of null pointer (loaded from field 'x')}}
};
void testDestCall(DerefClass *arg) {
delete arg;
}
void test_delete_dtor_Arg() {
DerefClass *pair = new DerefClass();
pair->x = 0;
testDestCall(pair);
}
//Deleting the address of a local variable, null pointer
void abort(void) __attribute__((noreturn));
class NoReturnDtor {
public:
NoReturnDtor() {}
~NoReturnDtor() {abort();}
};
void test_delete_dtor_LocalVar() {
NoReturnDtor test;
delete &test; // no warn or crash
}
class DerivedNoReturn:public NoReturnDtor {
public:
DerivedNoReturn() {};
~DerivedNoReturn() {};
};
void testNullDtorDerived() {
DerivedNoReturn *p = new DerivedNoReturn();
delete p; // Calls the base destructor which aborts, checked below
clang_analyzer_eval(true); // no warn
}
//Deleting a non-class pointer should not crash/warn
void test_var_delete() {
int *v = new int;
delete v; // no crash/warn
clang_analyzer_eval(true); // expected-warning{{TRUE}}
}
void test_array_delete() {
class C {
public:
~C() {}
};
auto c1 = new C[2][3];
delete[] c1; // no-crash // no-warning
C c2[4];
// FIXME: Should warn.
delete[] &c2; // no-crash
C c3[7][6];
// FIXME: Should warn.
delete[] &c3; // no-crash
}
void testDeleteNull() {
NoReturnDtor *foo = 0;
delete foo; // should not call destructor, checked below
clang_analyzer_eval(true); // expected-warning{{TRUE}}
}
void testNullAssigneddtor() {
NoReturnDtor *p = 0;
NoReturnDtor *s = p;
delete s; // should not call destructor, checked below
clang_analyzer_eval(true); // expected-warning{{TRUE}}
}
void deleteArg(NoReturnDtor *test) {
delete test;
}
void testNulldtorArg() {
NoReturnDtor *p = 0;
deleteArg(p);
clang_analyzer_eval(true); // expected-warning{{TRUE}}
}
void testDeleteUnknown(NoReturnDtor *foo) {
delete foo; // should assume non-null and call noreturn destructor
clang_analyzer_eval(true); // no-warning
}
void testArrayNull() {
NoReturnDtor *fooArray = 0;
delete[] fooArray; // should not call destructor, checked below
clang_analyzer_eval(true); // expected-warning{{TRUE}}
}
void testArrayDestr() {
NoReturnDtor *p = new NoReturnDtor[2];
delete[] p; // Calls the base destructor which aborts, checked below
//TODO: clang_analyzer_eval should not be called
clang_analyzer_eval(true); // expected-warning{{TRUE}}
}
// Invalidate Region even in case of default destructor
class InvalidateDestTest {
public:
int x;
int *y;
~InvalidateDestTest();
};
int test_member_invalidation() {
//test invalidation of member variable
InvalidateDestTest *test = new InvalidateDestTest();
test->x = 5;
int *k = &(test->x);
clang_analyzer_eval(*k == 5); // expected-warning{{TRUE}}
delete test;
clang_analyzer_eval(*k == 5); // expected-warning{{UNKNOWN}}
//test invalidation of member pointer
int localVar = 5;
test = new InvalidateDestTest();
test->y = &localVar;
delete test;
clang_analyzer_eval(localVar == 5); // expected-warning{{UNKNOWN}}
// Test aray elements are invalidated.
int Var1 = 5;
int Var2 = 5;
InvalidateDestTest *a = new InvalidateDestTest[2];
a[0].y = &Var1;
a[1].y = &Var2;
delete[] a;
clang_analyzer_eval(Var1 == 5); // expected-warning{{UNKNOWN}}
clang_analyzer_eval(Var2 == 5); // expected-warning{{UNKNOWN}}
return 0;
}