llvm-project/clang/test/Analysis/MismatchedDeallocator-check...

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// RUN: %clang_cc1 -analyze -analyzer-checker=core,unix.MismatchedDeallocator -fblocks -verify %s
#include "Inputs/system-header-simulator-objc.h"
#include "Inputs/system-header-simulator-cxx.h"
typedef __typeof__(sizeof(int)) size_t;
void *malloc(size_t);
void *realloc(void *ptr, size_t size);
void *calloc(size_t nmemb, size_t size);
char *strdup(const char *s);
void __attribute((ownership_returns(malloc))) *my_malloc(size_t);
void free(void *);
void __attribute((ownership_takes(malloc, 1))) my_free(void *);
//---------------------------------------------------------------
// Test if an allocation function matches deallocation function
//---------------------------------------------------------------
//--------------- test malloc family
void testMalloc1() {
int *p = (int *)malloc(sizeof(int));
delete p; // expected-warning{{Memory allocated by malloc() should be deallocated by free(), not 'delete'}}
}
void testMalloc2() {
int *p = (int *)malloc(8);
int *q = (int *)realloc(p, 16);
delete q; // expected-warning{{Memory allocated by realloc() should be deallocated by free(), not 'delete'}}
}
void testMalloc3() {
int *p = (int *)calloc(1, sizeof(int));
delete p; // expected-warning{{Memory allocated by calloc() should be deallocated by free(), not 'delete'}}
}
void testMalloc4(const char *s) {
char *p = strdup(s);
delete p; // expected-warning{{Memory allocated by strdup() should be deallocated by free(), not 'delete'}}
}
void testMalloc5() {
int *p = (int *)my_malloc(sizeof(int));
delete p; // expected-warning{{Memory allocated by my_malloc() should be deallocated by free(), not 'delete'}}
}
void testMalloc6() {
int *p = (int *)malloc(sizeof(int));
operator delete(p); // expected-warning{{Memory allocated by malloc() should be deallocated by free(), not operator delete}}
}
void testMalloc7() {
int *p = (int *)malloc(sizeof(int));
delete[] p; // expected-warning{{Memory allocated by malloc() should be deallocated by free(), not 'delete[]'}}
}
void testMalloc8() {
int *p = (int *)malloc(sizeof(int));
operator delete[](p); // expected-warning{{Memory allocated by malloc() should be deallocated by free(), not operator delete[]}}
}
//--------------- test new family
void testNew1() {
int *p = new int;
free(p); // expected-warning{{Memory allocated by 'new' should be deallocated by 'delete', not free()}}
}
void testNew2() {
int *p = (int *)operator new(0);
free(p); // expected-warning{{Memory allocated by operator new should be deallocated by 'delete', not free()}}
}
void testNew3() {
int *p = new int[1];
free(p); // expected-warning{{Memory allocated by 'new[]' should be deallocated by 'delete[]', not free()}}
}
void testNew4() {
int *p = new int;
realloc(p, sizeof(long)); // expected-warning{{Memory allocated by 'new' should be deallocated by 'delete', not realloc()}}
}
void testNew5() {
int *p = (int *)operator new(0);
realloc(p, sizeof(long)); // expected-warning{{Memory allocated by operator new should be deallocated by 'delete', not realloc()}}
}
void testNew6() {
int *p = new int[1];
realloc(p, sizeof(long)); // expected-warning{{Memory allocated by 'new[]' should be deallocated by 'delete[]', not realloc()}}
}
void testNew7() {
int *p = new int;
delete[] p; // expected-warning{{Memory allocated by 'new' should be deallocated by 'delete', not 'delete[]'}}
}
void testNew8() {
int *p = (int *)operator new(0);
delete[] p; // expected-warning{{Memory allocated by operator new should be deallocated by 'delete', not 'delete[]'}}
}
void testNew9() {
int *p = new int[1];
delete p; // expected-warning{{Memory allocated by 'new[]' should be deallocated by 'delete[]', not 'delete'}}
}
void testNew10() {
int *p = (int *)operator new[](0);
delete p; // expected-warning{{Memory allocated by operator new[] should be deallocated by 'delete[]', not 'delete'}}
}
void testNew11(NSUInteger dataLength) {
int *p = new int;
NSData *d = [NSData dataWithBytesNoCopy:p length:sizeof(int) freeWhenDone:1]; // expected-warning{{+dataWithBytesNoCopy:length:freeWhenDone: cannot take ownership of memory allocated by 'new'}}
}
//-------------------------------------------------------
// Check for intersection with unix.Malloc bounded with
// unix.MismatchedDeallocator
//-------------------------------------------------------
// 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
}
void testDeleteOpAfterFree() {
int *p = (int *)malloc(sizeof(int));
free(p);
operator delete(p); // no-warning
}
void testDeleteAfterFree() {
int *p = (int *)malloc(sizeof(int));
free(p);
delete p; // no-warning
}
void testStandardPlacementNewAfterFree() {
int *p = (int *)malloc(sizeof(int));
free(p);
p = new(p) int; // no-warning
}
//---------------------------------------------------------------
// Check for intersection with cplusplus.NewDelete bounded with
// unix.MismatchedDeallocator
//---------------------------------------------------------------
// malloc()/free() are subjects of unix.Malloc and unix.MallocWithAnnotations
void testMallocFreeNoWarn() {
int i;
free(&i); // no-warning
int *p1 = (int *)malloc(sizeof(int));
free(++p1); // no-warning
int *p2 = (int *)malloc(sizeof(int));
free(p2);
free(p2); // no-warning
int *p3 = (int *)malloc(sizeof(int)); // no-warning
}
void testFreeAfterDelete() {
int *p = new int;
delete p;
free(p); // no-warning
}
void testStandardPlacementNewAfterDelete() {
int *p = new int;
delete p;
p = new(p) int; // no-warning
}
// Smart pointer example
template <typename T>
struct SimpleSmartPointer {
T *ptr;
explicit SimpleSmartPointer(T *p = 0) : ptr(p) {}
~SimpleSmartPointer() {
delete ptr;
// expected-warning@-1 {{Memory allocated by 'new[]' should be deallocated by 'delete[]', not 'delete'}}
// expected-warning@-2 {{Memory allocated by malloc() should be deallocated by free(), not 'delete'}}
}
};
void testSimpleSmartPointerArrayNew() {
{
SimpleSmartPointer<int> a(new int);
} // no-warning
{
SimpleSmartPointer<int> a(new int[4]);
}
}
void testSimpleSmartPointerMalloc() {
{
SimpleSmartPointer<int> a(new int);
} // no-warning
{
SimpleSmartPointer<int> a((int *)malloc(4));
}
}