test/Analysis/casts.c - clang - Git at Google

 // RUN: %clang_analyze_cc1 -triple x86_64-apple-darwin9 -analyzer-checker=core,alpha.core,debug.ExprInspection -analyzer-store=region -verify -analyzer-config eagerly-assume=false %s
 // RUN: %clang_analyze_cc1 -triple i386-apple-darwin9 -analyzer-checker=core,alpha.core,debug.ExprInspection -analyzer-store=region -verify -analyzer-config eagerly-assume=false %s
 // RUN: %clang_analyze_cc1 -triple x86_64-apple-darwin9 -analyzer-checker=core,alpha.core,debug.ExprInspection -verify -DEAGERLY_ASSUME=1 -w %s
 // RUN: %clang_analyze_cc1 -triple i386-apple-darwin9 -analyzer-checker=core,alpha.core,debug.ExprInspection -verify -DEAGERLY_ASSUME=1 -DBIT32=1 -w %s

 extern void clang_analyzer_eval(_Bool);

 // Test if the 'storage' region gets properly initialized after it is cast to
 // 'struct sockaddr *'.

 typedef unsigned char __uint8_t;
 typedef unsigned int __uint32_t;
 typedef __uint32_t __darwin_socklen_t;
 typedef __uint8_t sa_family_t;
 typedef __darwin_socklen_t socklen_t;
 struct sockaddr { sa_family_t sa_family; };
 struct sockaddr_storage {};

 void getsockname();

 #ifndef EAGERLY_ASSUME

 void f(int sock) {
   struct sockaddr_storage storage;
   struct sockaddr* sockaddr = (struct sockaddr*)&storage; // expected-warning{{Casting data to a larger structure type and accessing a field can lead to memory access errors or data corruption}}
   socklen_t addrlen = sizeof(storage);
   getsockname(sock, sockaddr, &addrlen);
   switch (sockaddr->sa_family) { // no-warning
   default:
     ;
   }
 }

 struct s {
   struct s *value;
 };

 void f1(struct s **pval) {
   int *tbool = ((void*)0);
   struct s *t = *pval;
   pval = &(t->value);
   tbool = (int *)pval; // use the cast-to type 'int *' to create element region.
   char c = (unsigned char) *tbool; // Should use cast-to type to create symbol.
   if (*tbool == -1) // here load the element region with the correct type 'int'
     (void)3;
 }

 void f2(const char *str) {
  unsigned char ch, cl, *p;

  p = (unsigned char *)str;
  ch = *p++; // use cast-to type 'unsigned char' to create element region.
  cl = *p++;
  if(!cl)
     cl = 'a';
 }

 // Test cast VariableSizeArray to pointer does not crash.
 void *memcpy(void *, void const *, unsigned long);
 typedef unsigned char Byte;
 void doit(char *data, int len) {
     if (len) {
         Byte buf[len];
         memcpy(buf, data, len);
     }
 }

 // PR 6013 and 6035 - Test that a cast of a pointer to long and then to int does not crash SValuator.
 void pr6013_6035_test(void *p) {
   unsigned int foo;
   foo = ((long)(p));
   (void) foo;
 }

 // PR12511 and radar://11215362 - Test that we support SymCastExpr, which represents symbolic int to float cast.
 char ttt(int intSeconds) {
   double seconds = intSeconds;
   if (seconds)
     return 0;
   return 0;
 }

 int foo (int* p) {
   int y = 0;
   if (p == 0) {
     if ((*((void**)&p)) == (void*)0) // Test that the cast to void preserves the symbolic region.
       return 0;
     else
       return 5/y; // This code should be unreachable: no-warning.
   }
   return 0;
 }

 void castsToBool() {
   clang_analyzer_eval(0); // expected-warning{{FALSE}}
   clang_analyzer_eval(0U); // expected-warning{{FALSE}}
   clang_analyzer_eval((void *)0); // expected-warning{{FALSE}}

   clang_analyzer_eval(1); // expected-warning{{TRUE}}
   clang_analyzer_eval(1U); // expected-warning{{TRUE}}
   clang_analyzer_eval(-1); // expected-warning{{TRUE}}
   clang_analyzer_eval(0x100); // expected-warning{{TRUE}}
   clang_analyzer_eval(0x100U); // expected-warning{{TRUE}}
   clang_analyzer_eval((void *)0x100); // expected-warning{{TRUE}}

   extern int symbolicInt;
   clang_analyzer_eval(symbolicInt); // expected-warning{{UNKNOWN}}
   if (symbolicInt)
     clang_analyzer_eval(symbolicInt); // expected-warning{{TRUE}}

   extern void *symbolicPointer;
   clang_analyzer_eval(symbolicPointer); // expected-warning{{UNKNOWN}}
   if (symbolicPointer)
     clang_analyzer_eval(symbolicPointer); // expected-warning{{TRUE}}

   int localInt;
   int* ptr = &localInt;
   clang_analyzer_eval(ptr); // expected-warning{{TRUE}}
   clang_analyzer_eval(&castsToBool); // expected-warning{{TRUE}}
   clang_analyzer_eval("abc"); // expected-warning{{TRUE}}

   extern float globalFloat;
   clang_analyzer_eval(globalFloat); // expected-warning{{UNKNOWN}}
 }

 void locAsIntegerCasts(void *p) {
   int x = (int) p;
   clang_analyzer_eval(++x < 10); // no-crash // expected-warning{{UNKNOWN}}
 }

 void multiDimensionalArrayPointerCasts() {
   static int x[10][10];
   int *y1 = &(x[3][5]);
   char *z = ((char *) y1) + 2;
   int *y2 = (int *)(z - 2);
   int *y3 = ((int *)x) + 35; // This is offset for [3][5].

   clang_analyzer_eval(y1 == y2); // expected-warning{{TRUE}}

   // FIXME: should be FALSE (i.e. equal pointers).
   clang_analyzer_eval(y1 - y2); // expected-warning{{UNKNOWN}}
   // FIXME: should be TRUE (i.e. same symbol).
   clang_analyzer_eval(*y1 == *y2); // expected-warning{{UNKNOWN}}

   clang_analyzer_eval(*((char *)y1) == *((char *) y2)); // expected-warning{{TRUE}}

   clang_analyzer_eval(y1 == y3); // expected-warning{{TRUE}}

   // FIXME: should be FALSE (i.e. equal pointers).
   clang_analyzer_eval(y1 - y3); // expected-warning{{UNKNOWN}}
   // FIXME: should be TRUE (i.e. same symbol).
   clang_analyzer_eval(*y1 == *y3); // expected-warning{{UNKNOWN}}

   clang_analyzer_eval(*((char *)y1) == *((char *) y3)); // expected-warning{{TRUE}}
 }

 void *getVoidPtr();

 void testCastVoidPtrToIntPtrThroughIntTypedAssignment() {
   int *x;
   (*((int *)(&x))) = (int)getVoidPtr();
   *x = 1; // no-crash
 }

 void testCastUIntPtrToIntPtrThroughIntTypedAssignment() {
   unsigned u;
   int *x;
   (*((int *)(&x))) = (int)&u;
   *x = 1;
   clang_analyzer_eval(u == 1); // expected-warning{{TRUE}}
 }

 void testCastVoidPtrToIntPtrThroughUIntTypedAssignment() {
   int *x;
   (*((int *)(&x))) = (int)(unsigned *)getVoidPtr();
   *x = 1; // no-crash
 }

 void testLocNonLocSymbolAssume(int a, int *b) {
   if ((int)b < a) {} // no-crash
 }

 void testLocNonLocSymbolRemainder(int a, int *b) {
   int c = ((int)b) % a;
   if (a == 1) {
     c += 1;
   }
 }

 void testSwitchWithSizeofs() {
   switch (sizeof(char) == 1) { // expected-warning{{switch condition has boolean value}}
   case sizeof(char):; // no-crash
   }
 }

 #endif

 #ifdef EAGERLY_ASSUME

 int globalA;
 extern int globalFunc();
 void no_crash_on_symsym_cast_to_long() {
   char c = globalFunc() - 5;
   c == 0;
   globalA -= c;
   globalA == 3;
   (long)globalA << 48;
   #ifdef BIT32
   // expected-warning@-2{{The result of the left shift is undefined due to shifting by '48', which is greater or equal to the width of type 'long'}}
   #else
   // expected-no-diagnostics
   #endif
 }

 #endif

 char no_crash_SymbolCast_of_float_type_aux(int *p) {
   *p += 1;
   return *p;
 }

 void no_crash_SymbolCast_of_float_type() {
   extern float x;
   char (*f)() = no_crash_SymbolCast_of_float_type_aux;
   f(&x);
 }

 double no_crash_reinterpret_double_as_int(double a) {
   *(int *)&a = 1;
   return a * a;
 }

 double no_crash_reinterpret_double_as_ptr(double a) {
   *(void **)&a = 0;
   return a * a;
 }

 double no_crash_reinterpret_double_as_sym_int(double a, int b) {
   *(int *)&a = b;
   return a * a;
 }

 double no_crash_reinterpret_double_as_sym_ptr(double a, void * b) {
   *(void **)&a = b;
   return a * a;
 }
	// RUN: %clang_analyze_cc1 -triple x86_64-apple-darwin9 -analyzer-checker=core,alpha.core,debug.ExprInspection -analyzer-store=region -verify -analyzer-config eagerly-assume=false %s
	// RUN: %clang_analyze_cc1 -triple i386-apple-darwin9 -analyzer-checker=core,alpha.core,debug.ExprInspection -analyzer-store=region -verify -analyzer-config eagerly-assume=false %s
	// RUN: %clang_analyze_cc1 -triple x86_64-apple-darwin9 -analyzer-checker=core,alpha.core,debug.ExprInspection -verify -DEAGERLY_ASSUME=1 -w %s
	// RUN: %clang_analyze_cc1 -triple i386-apple-darwin9 -analyzer-checker=core,alpha.core,debug.ExprInspection -verify -DEAGERLY_ASSUME=1 -DBIT32=1 -w %s

	extern void clang_analyzer_eval(_Bool);

	// Test if the 'storage' region gets properly initialized after it is cast to
	// 'struct sockaddr *'.

	typedef unsigned char __uint8_t;
	typedef unsigned int __uint32_t;
	typedef __uint32_t __darwin_socklen_t;
	typedef __uint8_t sa_family_t;
	typedef __darwin_socklen_t socklen_t;
	struct sockaddr { sa_family_t sa_family; };
	struct sockaddr_storage {};

	void getsockname();

	#ifndef EAGERLY_ASSUME

	void f(int sock) {
	struct sockaddr_storage storage;
	struct sockaddr* sockaddr = (struct sockaddr*)&storage; // expected-warning{{Casting data to a larger structure type and accessing a field can lead to memory access errors or data corruption}}
	socklen_t addrlen = sizeof(storage);
	getsockname(sock, sockaddr, &addrlen);
	switch (sockaddr->sa_family) { // no-warning
	default:
	;
	}
	}

	struct s {
	struct s *value;
	};

	void f1(struct s **pval) {
	int tbool = ((void)0);
	struct s t = pval;
	pval = &(t->value);
	tbool = (int )pval; // use the cast-to type 'int ' to create element region.
	char c = (unsigned char) *tbool; // Should use cast-to type to create symbol.
	if (*tbool == -1) // here load the element region with the correct type 'int'
	(void)3;
	}

	void f2(const char *str) {
	unsigned char ch, cl, *p;

	p = (unsigned char *)str;
	ch = *p++; // use cast-to type 'unsigned char' to create element region.
	cl = *p++;
	if(!cl)
	cl = 'a';
	}

	// Test cast VariableSizeArray to pointer does not crash.
	void memcpy(void , void const *, unsigned long);
	typedef unsigned char Byte;
	void doit(char *data, int len) {
	if (len) {
	Byte buf[len];
	memcpy(buf, data, len);
	}
	}

	// PR 6013 and 6035 - Test that a cast of a pointer to long and then to int does not crash SValuator.
	void pr6013_6035_test(void *p) {
	unsigned int foo;
	foo = ((long)(p));
	(void) foo;
	}

	// PR12511 and radar://11215362 - Test that we support SymCastExpr, which represents symbolic int to float cast.
	char ttt(int intSeconds) {
	double seconds = intSeconds;
	if (seconds)
	return 0;
	return 0;
	}

	int foo (int* p) {
	int y = 0;
	if (p == 0) {
	if ((((void)&p)) == (void)0) // Test that the cast to void preserves the symbolic region.
	return 0;
	else
	return 5/y; // This code should be unreachable: no-warning.
	}
	return 0;
	}

	void castsToBool() {
	clang_analyzer_eval(0); // expected-warning{{FALSE}}
	clang_analyzer_eval(0U); // expected-warning{{FALSE}}
	clang_analyzer_eval((void *)0); // expected-warning{{FALSE}}

	clang_analyzer_eval(1); // expected-warning{{TRUE}}
	clang_analyzer_eval(1U); // expected-warning{{TRUE}}
	clang_analyzer_eval(-1); // expected-warning{{TRUE}}
	clang_analyzer_eval(0x100); // expected-warning{{TRUE}}
	clang_analyzer_eval(0x100U); // expected-warning{{TRUE}}
	clang_analyzer_eval((void *)0x100); // expected-warning{{TRUE}}

	extern int symbolicInt;
	clang_analyzer_eval(symbolicInt); // expected-warning{{UNKNOWN}}
	if (symbolicInt)
	clang_analyzer_eval(symbolicInt); // expected-warning{{TRUE}}

	extern void *symbolicPointer;
	clang_analyzer_eval(symbolicPointer); // expected-warning{{UNKNOWN}}
	if (symbolicPointer)
	clang_analyzer_eval(symbolicPointer); // expected-warning{{TRUE}}

	int localInt;
	int* ptr = &localInt;
	clang_analyzer_eval(ptr); // expected-warning{{TRUE}}
	clang_analyzer_eval(&castsToBool); // expected-warning{{TRUE}}
	clang_analyzer_eval("abc"); // expected-warning{{TRUE}}

	extern float globalFloat;
	clang_analyzer_eval(globalFloat); // expected-warning{{UNKNOWN}}
	}

	void locAsIntegerCasts(void *p) {
	int x = (int) p;
	clang_analyzer_eval(++x < 10); // no-crash // expected-warning{{UNKNOWN}}
	}

	void multiDimensionalArrayPointerCasts() {
	static int x[10][10];
	int *y1 = &(x[3][5]);
	char z = ((char ) y1) + 2;
	int y2 = (int )(z - 2);
	int y3 = ((int )x) + 35; // This is offset for [3][5].

	clang_analyzer_eval(y1 == y2); // expected-warning{{TRUE}}

	// FIXME: should be FALSE (i.e. equal pointers).
	clang_analyzer_eval(y1 - y2); // expected-warning{{UNKNOWN}}
	// FIXME: should be TRUE (i.e. same symbol).
	clang_analyzer_eval(y1 == y2); // expected-warning{{UNKNOWN}}

	clang_analyzer_eval(((char )y1) == ((char ) y2)); // expected-warning{{TRUE}}

	clang_analyzer_eval(y1 == y3); // expected-warning{{TRUE}}

	// FIXME: should be FALSE (i.e. equal pointers).
	clang_analyzer_eval(y1 - y3); // expected-warning{{UNKNOWN}}
	// FIXME: should be TRUE (i.e. same symbol).
	clang_analyzer_eval(y1 == y3); // expected-warning{{UNKNOWN}}

	clang_analyzer_eval(((char )y1) == ((char ) y3)); // expected-warning{{TRUE}}
	}

	void *getVoidPtr();

	void testCastVoidPtrToIntPtrThroughIntTypedAssignment() {
	int *x;
	(((int )(&x))) = (int)getVoidPtr();
	*x = 1; // no-crash
	}

	void testCastUIntPtrToIntPtrThroughIntTypedAssignment() {
	unsigned u;
	int *x;
	(((int )(&x))) = (int)&u;
	*x = 1;
	clang_analyzer_eval(u == 1); // expected-warning{{TRUE}}
	}

	void testCastVoidPtrToIntPtrThroughUIntTypedAssignment() {
	int *x;
	(((int )(&x))) = (int)(unsigned *)getVoidPtr();
	*x = 1; // no-crash
	}

	void testLocNonLocSymbolAssume(int a, int *b) {
	if ((int)b < a) {} // no-crash
	}

	void testLocNonLocSymbolRemainder(int a, int *b) {
	int c = ((int)b) % a;
	if (a == 1) {
	c += 1;
	}
	}

	void testSwitchWithSizeofs() {
	switch (sizeof(char) == 1) { // expected-warning{{switch condition has boolean value}}
	case sizeof(char):; // no-crash
	}
	}

	#endif

	#ifdef EAGERLY_ASSUME

	int globalA;
	extern int globalFunc();
	void no_crash_on_symsym_cast_to_long() {
	char c = globalFunc() - 5;
	c == 0;
	globalA -= c;
	globalA == 3;
	(long)globalA << 48;
	#ifdef BIT32
	// expected-warning@-2{{The result of the left shift is undefined due to shifting by '48', which is greater or equal to the width of type 'long'}}
	#else
	// expected-no-diagnostics
	#endif
	}

	#endif

	char no_crash_SymbolCast_of_float_type_aux(int *p) {
	*p += 1;
	return *p;
	}

	void no_crash_SymbolCast_of_float_type() {
	extern float x;
	char (*f)() = no_crash_SymbolCast_of_float_type_aux;
	f(&x);
	}

	double no_crash_reinterpret_double_as_int(double a) {
	(int )&a = 1;
	return a * a;
	}

	double no_crash_reinterpret_double_as_ptr(double a) {
	(void *)&a = 0;
	return a * a;
	}

	double no_crash_reinterpret_double_as_sym_int(double a, int b) {
	(int )&a = b;
	return a * a;
	}

	double no_crash_reinterpret_double_as_sym_ptr(double a, void * b) {
	(void *)&a = b;
	return a * a;
	}