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|
// RUN: %clang_cc1 -analyze -analyzer-checker=core,experimental.deadcode.UnreachableCode,experimental.core.CastSize,unix.Malloc -analyzer-store=region -verify %s
#include "system-header-simulator.h"
typedef __typeof(sizeof(int)) size_t;
void *malloc(size_t);
void *valloc(size_t);
void free(void *);
void *realloc(void *ptr, size_t size);
void *reallocf(void *ptr, size_t size);
void *calloc(size_t nmemb, size_t size);
void myfoo(int *p);
void myfooint(int p);
char *fooRetPtr();
void f1() {
int *p = malloc(12);
return; // expected-warning{{Memory is never released; potential leak}}
}
void f2() {
int *p = malloc(12);
free(p);
free(p); // expected-warning{{Attempt to free released memory}}
}
void f2_realloc_0() {
int *p = malloc(12);
realloc(p,0);
realloc(p,0); // expected-warning{{Attempt to free released memory}}
}
void f2_realloc_1() {
int *p = malloc(12);
int *q = realloc(p,0); // no-warning
}
void reallocNotNullPtr(unsigned sizeIn) {
unsigned size = 12;
char *p = (char*)malloc(size);
if (p) {
char *q = (char*)realloc(p, sizeIn);
char x = *q; // expected-warning {{Memory is never released; potential leak}}
}
}
int *realloctest1() {
int *q = malloc(12);
q = realloc(q, 20);
return q; // no warning - returning the allocated value
}
// p should be freed if realloc fails.
void reallocFails() {
char *p = malloc(12);
char *r = realloc(p, 12+1);
if (!r) {
free(p);
} else {
free(r);
}
}
void reallocSizeZero1() {
char *p = malloc(12);
char *r = realloc(p, 0);
if (!r) {
free(p);
} else {
free(r);
}
}
void reallocSizeZero2() {
char *p = malloc(12);
char *r = realloc(p, 0);
if (!r) {
free(p);
} else {
free(r);
}
free(p); // expected-warning {{Attempt to free released memory}}
}
void reallocSizeZero3() {
char *p = malloc(12);
char *r = realloc(p, 0);
free(r);
}
void reallocSizeZero4() {
char *r = realloc(0, 0);
free(r);
}
void reallocSizeZero5() {
char *r = realloc(0, 0);
}
void reallocPtrZero1() {
char *r = realloc(0, 12); // expected-warning {{Memory is never released; potential leak}}
}
void reallocPtrZero2() {
char *r = realloc(0, 12);
if (r)
free(r);
}
void reallocPtrZero3() {
char *r = realloc(0, 12);
free(r);
}
void reallocRadar6337483_1() {
char *buf = malloc(100);
buf = (char*)realloc(buf, 0x1000000);
if (!buf) {
return;// expected-warning {{Memory is never released; potential leak}}
}
free(buf);
}
void reallocRadar6337483_2() {
char *buf = malloc(100);
char *buf2 = (char*)realloc(buf, 0x1000000);
if (!buf2) { // expected-warning {{Memory is never released; potential leak}}
;
} else {
free(buf2);
}
}
void reallocRadar6337483_3() {
char * buf = malloc(100);
char * tmp;
tmp = (char*)realloc(buf, 0x1000000);
if (!tmp) {
free(buf);
return;
}
buf = tmp;
free(buf);
}
void reallocRadar6337483_4() {
char *buf = malloc(100);
char *buf2 = (char*)realloc(buf, 0x1000000);
if (!buf2) {
return; // expected-warning {{Memory is never released; potential leak}}
} else {
free(buf2);
}
}
int *reallocfTest1() {
int *q = malloc(12);
q = reallocf(q, 20);
return q; // no warning - returning the allocated value
}
void reallocfRadar6337483_4() {
char *buf = malloc(100);
char *buf2 = (char*)reallocf(buf, 0x1000000);
if (!buf2) {
return; // no warning - reallocf frees even on failure
} else {
free(buf2);
}
}
void reallocfRadar6337483_3() {
char * buf = malloc(100);
char * tmp;
tmp = (char*)reallocf(buf, 0x1000000);
if (!tmp) {
free(buf); // expected-warning {{Attempt to free released memory}}
return;
}
buf = tmp;
free(buf);
}
void reallocfPtrZero1() {
char *r = reallocf(0, 12); // expected-warning {{Memory is never released; potential leak}}
}
// This case tests that storing malloc'ed memory to a static variable which is
// then returned is not leaked. In the absence of known contracts for functions
// or inter-procedural analysis, this is a conservative answer.
int *f3() {
static int *p = 0;
p = malloc(12);
return p; // no-warning
}
// This case tests that storing malloc'ed memory to a static global variable
// which is then returned is not leaked. In the absence of known contracts for
// functions or inter-procedural analysis, this is a conservative answer.
static int *p_f4 = 0;
int *f4() {
p_f4 = malloc(12);
return p_f4; // no-warning
}
int *f5() {
int *q = malloc(12);
q = realloc(q, 20);
return q; // no-warning
}
void f6() {
int *p = malloc(12);
if (!p)
return; // no-warning
else
free(p);
}
void f6_realloc() {
int *p = malloc(12);
if (!p)
return; // no-warning
else
realloc(p,0);
}
char *doit2();
void pr6069() {
char *buf = doit2();
free(buf);
}
void pr6293() {
free(0);
}
void f7() {
char *x = (char*) malloc(4);
free(x);
x[0] = 'a'; // expected-warning{{Use of memory after it is freed}}
}
void f7_realloc() {
char *x = (char*) malloc(4);
realloc(x,0);
x[0] = 'a'; // expected-warning{{Use of memory after it is freed}}
}
void PR6123() {
int *x = malloc(11); // expected-warning{{Cast a region whose size is not a multiple of the destination type size.}}
}
void PR7217() {
int *buf = malloc(2); // expected-warning{{Cast a region whose size is not a multiple of the destination type size.}}
buf[1] = 'c'; // not crash
}
void mallocCastToVoid() {
void *p = malloc(2);
const void *cp = p; // not crash
free(p);
}
void mallocCastToFP() {
void *p = malloc(2);
void (*fp)() = p; // not crash
free(p);
}
// This tests that malloc() buffers are undefined by default
char mallocGarbage () {
char *buf = malloc(2);
char result = buf[1]; // expected-warning{{undefined}}
free(buf);
return result;
}
// This tests that calloc() buffers need to be freed
void callocNoFree () {
char *buf = calloc(2,2);
return; // expected-warning{{never released}}
}
// These test that calloc() buffers are zeroed by default
char callocZeroesGood () {
char *buf = calloc(2,2);
char result = buf[3]; // no-warning
if (buf[1] == 0) {
free(buf);
}
return result; // no-warning
}
char callocZeroesBad () {
char *buf = calloc(2,2);
char result = buf[3]; // no-warning
if (buf[1] != 0) {
free(buf); // expected-warning{{never executed}}
}
return result; // expected-warning{{never released}}
}
void nullFree() {
int *p = 0;
free(p); // no warning - a nop
}
void paramFree(int *p) {
myfoo(p);
free(p); // no warning
myfoo(p); // TODO: This should be a warning.
}
int* mallocEscapeRet() {
int *p = malloc(12);
return p; // no warning
}
void mallocEscapeFoo() {
int *p = malloc(12);
myfoo(p);
return; // no warning
}
void mallocEscapeFree() {
int *p = malloc(12);
myfoo(p);
free(p);
}
void mallocEscapeFreeFree() {
int *p = malloc(12);
myfoo(p);
free(p);
free(p); // expected-warning{{Attempt to free released memory}}
}
void mallocEscapeFreeUse() {
int *p = malloc(12);
myfoo(p);
free(p);
myfoo(p); // expected-warning{{Use of memory after it is freed}}
}
int *myalloc();
void myalloc2(int **p);
void mallocEscapeFreeCustomAlloc() {
int *p = malloc(12);
myfoo(p);
free(p);
p = myalloc();
free(p); // no warning
}
void mallocEscapeFreeCustomAlloc2() {
int *p = malloc(12);
myfoo(p);
free(p);
myalloc2(&p);
free(p); // no warning
}
void mallocBindFreeUse() {
int *x = malloc(12);
int *y = x;
free(y);
myfoo(x); // expected-warning{{Use of memory after it is freed}}
}
void mallocEscapeMalloc() {
int *p = malloc(12);
myfoo(p);
p = malloc(12); // expected-warning{{Memory is never released; potential leak}}
}
void mallocMalloc() {
int *p = malloc(12);
p = malloc(12); // expected-warning 2 {{Memory is never released; potential leak}}
}
void mallocFreeMalloc() {
int *p = malloc(12);
free(p);
p = malloc(12);
free(p);
}
void mallocFreeUse_params() {
int *p = malloc(12);
free(p);
myfoo(p); //expected-warning{{Use of memory after it is freed}}
}
void mallocFreeUse_params2() {
int *p = malloc(12);
free(p);
myfooint(*p); //expected-warning{{Use of memory after it is freed}}
}
void mallocFailedOrNot() {
int *p = malloc(12);
if (!p)
free(p);
else
free(p);
}
struct StructWithInt {
int g;
};
int *mallocReturnFreed() {
int *p = malloc(12);
free(p);
return p; // expected-warning {{Use of memory after it is freed}}
}
int useAfterFreeStruct() {
struct StructWithInt *px= malloc(sizeof(struct StructWithInt));
px->g = 5;
free(px);
return px->g; // expected-warning {{Use of memory after it is freed}}
}
void nonSymbolAsFirstArg(int *pp, struct StructWithInt *p);
void mallocEscapeFooNonSymbolArg() {
struct StructWithInt *p = malloc(sizeof(struct StructWithInt));
nonSymbolAsFirstArg(&p->g, p);
return; // no warning
}
void mallocFailedOrNotLeak() {
int *p = malloc(12);
if (p == 0)
return; // no warning
else
return; // expected-warning {{Memory is never released; potential leak}}
}
void mallocAssignment() {
char *p = malloc(12);
p = fooRetPtr(); // expected-warning {{leak}}
}
int vallocTest() {
char *mem = valloc(12);
return 0; // expected-warning {{Memory is never released; potential leak}}
}
void vallocEscapeFreeUse() {
int *p = valloc(12);
myfoo(p);
free(p);
myfoo(p); // expected-warning{{Use of memory after it is freed}}
}
int *Gl;
struct GlStTy {
int *x;
};
struct GlStTy GlS = {0};
void GlobalFree() {
free(Gl);
}
void GlobalMalloc() {
Gl = malloc(12);
}
void GlobalStructMalloc() {
int *a = malloc(12);
GlS.x = a;
}
void GlobalStructMallocFree() {
int *a = malloc(12);
GlS.x = a;
free(GlS.x);
}
char *ArrayG[12];
void globalArrayTest() {
char *p = (char*)malloc(12);
ArrayG[0] = p;
}
// Make sure that we properly handle a pointer stored into a local struct/array.
typedef struct _StructWithPtr {
int *memP;
} StructWithPtr;
static StructWithPtr arrOfStructs[10];
void testMalloc() {
int *x = malloc(12);
StructWithPtr St;
St.memP = x;
arrOfStructs[0] = St;
}
StructWithPtr testMalloc2() {
int *x = malloc(12);
StructWithPtr St;
St.memP = x;
return St;
}
int *testMalloc3() {
int *x = malloc(12);
int *y = x;
return y;
}
void testElemRegion1() {
char *x = (void*)malloc(2);
int *ix = (int*)x;
free(&(x[0]));
}
void testElemRegion2(int **pp) {
int *p = malloc(12);
*pp = p;
free(pp[0]);
}
void testElemRegion3(int **pp) {
int *p = malloc(12);
*pp = p;
free(*pp);
}
// Region escape testing.
unsigned takePtrToPtr(int **p);
void PassTheAddrOfAllocatedData(int f) {
int *p = malloc(12);
// We don't know what happens after the call. Should stop tracking here.
if (takePtrToPtr(&p))
f++;
free(p); // no warning
}
struct X {
int *p;
};
unsigned takePtrToStruct(struct X *s);
int ** foo2(int *g, int f) {
int *p = malloc(12);
struct X *px= malloc(sizeof(struct X));
px->p = p;
// We don't know what happens after this call. Should not track px nor p.
if (takePtrToStruct(px))
f++;
free(p);
return 0;
}
struct X* RegInvalidationDetect1(struct X *s2) {
struct X *px= malloc(sizeof(struct X));
px->p = 0;
px = s2;
return px; // expected-warning {{Memory is never released; potential leak}}
}
struct X* RegInvalidationGiveUp1() {
int *p = malloc(12);
struct X *px= malloc(sizeof(struct X));
px->p = p;
return px;
}
int **RegInvalidationDetect2(int **pp) {
int *p = malloc(12);
pp = &p;
pp++;
return 0;// expected-warning {{Memory is never released; potential leak}}
}
extern void exit(int) __attribute__ ((__noreturn__));
void mallocExit(int *g) {
struct xx *p = malloc(12);
if (g != 0)
exit(1);
free(p);
return;
}
extern void __assert_fail (__const char *__assertion, __const char *__file,
unsigned int __line, __const char *__function)
__attribute__ ((__noreturn__));
#define assert(expr) \
((expr) ? (void)(0) : __assert_fail (#expr, __FILE__, __LINE__, __func__))
void mallocAssert(int *g) {
struct xx *p = malloc(12);
assert(g != 0);
free(p);
return;
}
void doNotInvalidateWhenPassedToSystemCalls(char *s) {
char *p = malloc(12);
strlen(p);
strcpy(p, s); // expected-warning {{leak}}
}
// Rely on the CString checker evaluation of the strcpy API to convey that the result of strcpy is equal to p.
void symbolLostWithStrcpy(char *s) {
char *p = malloc(12);
p = strcpy(p, s);
free(p);
}
// The same test as the one above, but with what is actually generated on a mac.
static __inline char *
__inline_strcpy_chk (char *restrict __dest, const char *restrict __src)
{
return __builtin___strcpy_chk (__dest, __src, __builtin_object_size (__dest, 2 > 1));
}
void symbolLostWithStrcpy_InlineStrcpyVersion(char *s) {
char *p = malloc(12);
p = ((__builtin_object_size (p, 0) != (size_t) -1) ? __builtin___strcpy_chk (p, s, __builtin_object_size (p, 2 > 1)) : __inline_strcpy_chk (p, s));
free(p);
}
// Here we are returning a pointer one past the allocated value. An idiom which
// can be used for implementing special malloc. The correct uses of this might
// be rare enough so that we could keep this as a warning.
static void *specialMalloc(int n){
int *p;
p = malloc( n+8 );
if( p ){
p[0] = n;
p++;
}
return p;
}
// Potentially, the user could free the struct by performing pointer arithmetic on the return value.
// This is a variation of the specialMalloc issue, though probably would be more rare in correct code.
int *specialMallocWithStruct() {
struct StructWithInt *px= malloc(sizeof(struct StructWithInt));
return &(px->g);
}
// Test various allocation/deallocation functions.
char *strdup(const char *s);
char *strndup(const char *s, size_t n);
void testStrdup(const char *s, unsigned validIndex) {
char *s2 = strdup(s);
s2[validIndex + 1] = 'b';// expected-warning {{Memory is never released; potential leak}}
}
int testStrndup(const char *s, unsigned validIndex, unsigned size) {
char *s2 = strndup(s, size);
s2 [validIndex + 1] = 'b';
if (s2[validIndex] != 'a')
return 0;
else
return 1;// expected-warning {{Memory is never released; potential leak}}
}
void testStrdupContentIsDefined(const char *s, unsigned validIndex) {
char *s2 = strdup(s);
char result = s2[1];// no warning
free(s2);
}
// ----------------------------------------------------------------------------
// Test the system library functions to which the pointer can escape.
// This tests false positive suppression.
// For now, we assume memory passed to pthread_specific escapes.
// TODO: We could check that if a new pthread binding is set, the existing
// binding must be freed; otherwise, a memory leak can occur.
void testPthereadSpecificEscape(pthread_key_t key) {
void *buf = malloc(12);
pthread_setspecific(key, buf); // no warning
}
// PR12101: Test funopen().
static int releasePtr(void *_ctx) {
free(_ctx);
return 0;
}
FILE *useFunOpen() {
void *ctx = malloc(sizeof(int));
FILE *f = funopen(ctx, 0, 0, 0, releasePtr); // no warning
if (f == 0) {
free(ctx);
}
return f;
}
FILE *useFunOpenNoReleaseFunction() {
void *ctx = malloc(sizeof(int));
FILE *f = funopen(ctx, 0, 0, 0, 0);
if (f == 0) {
free(ctx);
}
return f; // expected-warning{{leak}}
}
// Test setbuf, setvbuf.
int my_main_no_warning() {
char *p = malloc(100);
setvbuf(stdout, p, 0, 100);
return 0;
}
int my_main_no_warning2() {
char *p = malloc(100);
setbuf(__stdoutp, p);
return 0;
}
int my_main_warn(FILE *f) {
char *p = malloc(100);
setvbuf(f, p, 0, 100);
return 0;// expected-warning {{leak}}
}
// <rdar://problem/10978247>.
// some people use stack allocated memory as an optimization to avoid
// a heap allocation for small work sizes. This tests the analyzer's
// understanding that the malloc'ed memory is not the same as stackBuffer.
void radar10978247(int myValueSize) {
char stackBuffer[128];
char *buffer;
if (myValueSize <= sizeof(stackBuffer))
buffer = stackBuffer;
else
buffer = malloc(myValueSize);
// do stuff with the buffer
if (buffer != stackBuffer)
free(buffer);
}
void radar10978247_positive(int myValueSize) {
char stackBuffer[128];
char *buffer;
if (myValueSize <= sizeof(stackBuffer))
buffer = stackBuffer;
else
buffer = malloc(myValueSize);
// do stuff with the buffer
if (buffer == stackBuffer) // expected-warning {{leak}}
return;
}
// ----------------------------------------------------------------------------
// Below are the known false positives.
// TODO: There should be no warning here. This one might be difficult to get rid of.
void dependsOnValueOfPtr(int *g, unsigned f) {
int *p;
if (f) {
p = g;
} else {
p = malloc(12);
}
if (p != g)
free(p);
else
return; // expected-warning{{Memory is never released; potential leak}}
return;
}
// ----------------------------------------------------------------------------
// False negatives.
// TODO: This requires tracking symbols stored inside the structs/arrays.
void testMalloc5() {
StructWithPtr St;
StructWithPtr *pSt = &St;
pSt->memP = malloc(12);
}
// TODO: This is another false negative.
void testMallocWithParam(int **p) {
*p = (int*) malloc(sizeof(int));
*p = 0;
}
void testMallocWithParam_2(int **p) {
*p = (int*) malloc(sizeof(int));
}
// TODO: This should produce a warning, similar to the previous issue.
void localArrayTest() {
char *p = (char*)malloc(12);
char *ArrayL[12];
ArrayL[0] = p;
}
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