// RUN: %clang_analyze_cc1 -w -analyzer-checker=core,alpha.deadcode.UnreachableCode,alpha.core.CastSize,unix.Malloc,cplusplus.NewDelete -analyzer-store=region -verify %s // RUN: %clang_analyze_cc1 -triple i386-unknown-linux-gnu -w -analyzer-checker=core,alpha.deadcode.UnreachableCode,alpha.core.CastSize,unix.Malloc,cplusplus.NewDelete -analyzer-store=region -verify %s // RUN: %clang_analyze_cc1 -w -analyzer-checker=core,alpha.deadcode.UnreachableCode,alpha.core.CastSize,unix.Malloc,cplusplus.NewDelete -analyzer-store=region -DTEST_INLINABLE_ALLOCATORS -verify %s // RUN: %clang_analyze_cc1 -triple i386-unknown-linux-gnu -w -analyzer-checker=core,alpha.deadcode.UnreachableCode,alpha.core.CastSize,unix.Malloc,cplusplus.NewDelete -analyzer-store=region -DTEST_INLINABLE_ALLOCATORS -verify %s #include "Inputs/system-header-simulator-cxx.h" typedef __typeof(sizeof(int)) size_t; void *malloc(size_t); void free(void *); void *realloc(void *ptr, size_t size); void *calloc(size_t nmemb, size_t size); char *strdup(const char *s); void checkThatMallocCheckerIsRunning() { malloc(4); } // expected-warning{{leak}} // Test for radar://11110132. struct Foo { mutable void* m_data; Foo(void* data) : m_data(data) {} }; Foo aFunction() { return malloc(10); } // Assume that functions which take a function pointer can free memory even if // they are defined in system headers and take the const pointer to the // allocated memory. (radar://11160612) // Test default parameter. int const_ptr_and_callback_def_param(int, const char*, int n, void(*)(void*) = free); void r11160612_3() { char *x = (char*)malloc(12); const_ptr_and_callback_def_param(0, x, 12); } int const_ptr_and_callback_def_param_null(int, const char*, int n, void(*)(void*) = 0); void r11160612_no_callback() { char *x = (char*)malloc(12); const_ptr_and_callback_def_param_null(0, x, 12); } // expected-warning{{leak}} // Test member function pointer. struct CanFreeMemory { static void myFree(void*); }; //This is handled because we look at the type of the parameter(not argument). void r11160612_3(CanFreeMemory* p) { char *x = (char*)malloc(12); const_ptr_and_callback_def_param(0, x, 12, p->myFree); } namespace PR13751 { class OwningVector { void **storage; size_t length; public: OwningVector(); ~OwningVector(); void push_back(void *Item) { storage[length++] = Item; } }; void testDestructors() { OwningVector v; v.push_back(malloc(4)); // no leak warning; freed in destructor } } struct X { void *a; }; struct X get() { struct X result; result.a = malloc(4); return result; // no-warning } // Ensure that regions accessible through a LazyCompoundVal trigger region escape. // Malloc checker used to report leaks for the following two test cases. struct Property { char* getterName; Property(char* n) : getterName(n) {} }; void append(Property x); void appendWrapper(char *getterName) { append(Property(getterName)); } void foo(const char* name) { char* getterName = strdup(name); appendWrapper(getterName); // no-warning } struct NestedProperty { Property prop; NestedProperty(Property p) : prop(p) {} }; void appendNested(NestedProperty x); void appendWrapperNested(char *getterName) { appendNested(NestedProperty(Property(getterName))); } void fooNested(const char* name) { char* getterName = strdup(name); appendWrapperNested(getterName); // no-warning } namespace PR31226 { struct b2 { int f; }; struct b1 : virtual b2 { void m(); }; struct d : b1, b2 { }; void f() { d *p = new d(); p->m(); // no-crash // no-warning } } // Allow __cxa_demangle to escape. char* test_cxa_demangle(const char* sym) { size_t funcnamesize = 256; char* funcname = (char*)malloc(funcnamesize); int status; char* ret = abi::__cxa_demangle(sym, funcname, &funcnamesize, &status); if (status == 0) { funcname = ret; } return funcname; // no-warning } namespace argument_leak { class A { char *name; public: char *getName() { if (!name) { name = static_cast(malloc(10)); } return name; } ~A() { if (name) { delete[] name; } } }; void test(A a) { (void)a.getName(); } } // namespace argument_leak #define ZERO_SIZE_PTR ((void *)16) void test_delete_ZERO_SIZE_PTR() { int *Ptr = (int *)ZERO_SIZE_PTR; // ZERO_SIZE_PTR is specially handled but only for malloc family delete Ptr; // expected-warning{{Argument to 'delete' is a constant address (16)}} } namespace pr46253_class { class a { void *realloc(int, bool = false) { realloc(1); } // no-crash }; } // namespace pr46253_class namespace pr46253_retty{ void realloc(void *ptr, size_t size) { realloc(ptr, size); } // no-crash } // namespace pr46253_retty namespace pr46253_paramty{ void *realloc(void **ptr, size_t size) { realloc(ptr, size); } // no-crash } // namespace pr46253_paramty namespace pr46253_paramty2{ void *realloc(void *ptr, int size) { realloc(ptr, size); } // no-crash } // namespace pr46253_paramty2