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

 // RUN: %clang_cc1 -analyze -analyzer-experimental-internal-checks -analyzer-check-objc-mem -analyzer-store=region -analyzer-experimental-checks -verify %s
 // RUN: %clang_cc1 -analyze -DUSE_BUILTINS -analyzer-experimental-internal-checks -analyzer-check-objc-mem -analyzer-store=region -analyzer-experimental-checks -verify %s
 // RUN: %clang_cc1 -analyze -DVARIANT -analyzer-experimental-internal-checks -analyzer-check-objc-mem -analyzer-store=region -analyzer-experimental-checks -verify %s
 // RUN: %clang_cc1 -analyze -DUSE_BUILTINS -DVARIANT -analyzer-experimental-internal-checks -analyzer-check-objc-mem -analyzer-store=region -analyzer-experimental-checks -verify %s

 //===----------------------------------------------------------------------===
 // Declarations
 //===----------------------------------------------------------------------===

 // Some functions are so similar to each other that they follow the same code
 // path, such as memcpy and __memcpy_chk, or memcmp and bcmp. If VARIANT is
 // defined, make sure to use the variants instead to make sure they are still
 // checked by the analyzer.

 // Some functions are implemented as builtins. These should be #defined as
 // BUILTIN(f), which will prepend "__builtin_" if USE_BUILTINS is defined.

 // Functions that have variants and are also availabe as builtins should be
 // declared carefully! See memcpy() for an example.

 #ifdef USE_BUILTINS
 # define BUILTIN(f) __builtin_ ## f
 #else /* USE_BUILTINS */
 # define BUILTIN(f) f
 #endif /* USE_BUILTINS */

 #define NULL 0
 typedef typeof(sizeof(int)) size_t;

 //===----------------------------------------------------------------------===
 // strlen()
 //===----------------------------------------------------------------------===

 #define strlen BUILTIN(strlen)
 size_t strlen(const char *s);

 void strlen_constant0() {
   if (strlen("123") != 3)
     (void)*(char*)0; // no-warning
 }

 void strlen_constant1() {
   const char *a = "123";
   if (strlen(a) != 3)
     (void)*(char*)0; // no-warning
 }

 void strlen_constant2(char x) {
   char a[] = "123";
   if (strlen(a) != 3)
     (void)*(char*)0; // no-warning
   a[0] = x;
   if (strlen(a) != 3)
     (void)*(char*)0; // expected-warning{{null}}
 }

 size_t strlen_null() {
   return strlen(0); // expected-warning{{Null pointer argument in call to byte string function}}
 }

 size_t strlen_fn() {
   return strlen((char*)&strlen_fn); // expected-warning{{Argument to byte string function is the address of the function 'strlen_fn', which is not a null-terminated string}}
 }

 size_t strlen_nonloc() {
 label:
   return strlen((char*)&&label); // expected-warning{{Argument to byte string function is the address of the label 'label', which is not a null-terminated string}}
 }

 void strlen_subregion() {
   struct two_strings { char a[2], b[2] };
   extern void use_two_strings(struct two_strings *);

   struct two_strings z;
   use_two_strings(&z);

   size_t a = strlen(z.a);
   z.b[0] = 5;
   size_t b = strlen(z.a);
   if (a == 0 && b != 0)
     (void)*(char*)0; // expected-warning{{never executed}}

   use_two_strings(&z);

   size_t c = strlen(z.a);
   if (a == 0 && c != 0)
     (void)*(char*)0; // expected-warning{{null}}
 }

 extern void use_string(char *);
 void strlen_argument(char *x) {
   size_t a = strlen(x);
   size_t b = strlen(x);
   if (a == 0 && b != 0)
     (void)*(char*)0; // expected-warning{{never executed}}

   use_string(x);

   size_t c = strlen(x);
   if (a == 0 && c != 0)
     (void)*(char*)0; // expected-warning{{null}}
 }

 extern char global_str[];
 void strlen_global() {
   size_t a = strlen(global_str);
   size_t b = strlen(global_str);
   if (a == 0 && b != 0)
     (void)*(char*)0; // expected-warning{{never executed}}

   // Call a function with unknown effects, which should invalidate globals.
   use_string(0);

   size_t c = strlen(global_str);
   if (a == 0 && c != 0)
     (void)*(char*)0; // expected-warning{{null}}
 }

 void strlen_indirect(char *x) {
   size_t a = strlen(x);
   char *p = x;
   char **p2 = &p;
   size_t b = strlen(x);
   if (a == 0 && b != 0)
     (void)*(char*)0; // expected-warning{{never executed}}

   extern void use_string_ptr(char*const*);
   use_string_ptr(p2);

   size_t c = strlen(x);
   if (a == 0 && c != 0)
     (void)*(char*)0; // expected-warning{{null}}
 }

 void strlen_liveness(const char *x) {
   if (strlen(x) < 5)
     return;
   if (strlen(x) < 5)
     (void)*(char*)0; // no-warning
 }

 //===----------------------------------------------------------------------===
 // strcpy()
 //===----------------------------------------------------------------------===

 #ifdef VARIANT

 #define __strcpy_chk BUILTIN(__strcpy_chk)
 char *__strcpy_chk(char *restrict s1, const char *restrict s2, size_t destlen);

 #define strcpy(a,b) __strcpy_chk(a,b,(size_t)-1)

 #else /* VARIANT */

 #define strcpy BUILTIN(strcpy)
 char *strcpy(char *restrict s1, const char *restrict s2);

 #endif /* VARIANT */


 void strcpy_null_dst(char *x) {
   strcpy(NULL, x); // expected-warning{{Null pointer argument in call to byte string function}}
 }

 void strcpy_null_src(char *x) {
   strcpy(x, NULL); // expected-warning{{Null pointer argument in call to byte string function}}
 }

 void strcpy_fn(char *x) {
   strcpy(x, (char*)&strcpy_fn); // expected-warning{{Argument to byte string function is the address of the function 'strcpy_fn', which is not a null-terminated string}}
 }

 void strcpy_effects(char *x, char *y) {
   char a = x[0];

   if (strcpy(x, y) != x)
     (void)*(char*)0; // no-warning

   if (strlen(x) != strlen(y))
     (void)*(char*)0; // no-warning

   if (a != x[0])
     (void)*(char*)0; // expected-warning{{null}}
 }

 void strcpy_overflow(char *y) {
   char x[4];
   if (strlen(y) == 4)
     strcpy(x, y); // expected-warning{{Byte string function overflows destination buffer}}
 }

 void strcpy_no_overflow(char *y) {
   char x[4];
   if (strlen(y) == 3)
     strcpy(x, y); // no-warning
 }

 //===----------------------------------------------------------------------===
 // stpcpy()
 //===----------------------------------------------------------------------===

 #ifdef VARIANT

 #define __stpcpy_chk BUILTIN(__stpcpy_chk)
 char *__stpcpy_chk(char *restrict s1, const char *restrict s2, size_t destlen);

 #define stpcpy(a,b) __stpcpy_chk(a,b,(size_t)-1)

 #else /* VARIANT */

 #define stpcpy BUILTIN(stpcpy)
 char *stpcpy(char *restrict s1, const char *restrict s2);

 #endif /* VARIANT */


 void stpcpy_effect(char *x, char *y) {
   char a = x[0];

   if (stpcpy(x, y) != &x[strlen(y)])
     (void)*(char*)0; // no-warning

   if (strlen(x) != strlen(y))
     (void)*(char*)0; // no-warning

   if (a != x[0])
     (void)*(char*)0; // expected-warning{{null}}
 }

 void stpcpy_overflow(char *y) {
   char x[4];
   if (strlen(y) == 4)
     stpcpy(x, y); // expected-warning{{Byte string function overflows destination buffer}}
 }

 void stpcpy_no_overflow(char *y) {
   char x[4];
   if (strlen(y) == 3)
     stpcpy(x, y); // no-warning
 }
	// RUN: %clang_cc1 -analyze -analyzer-experimental-internal-checks -analyzer-check-objc-mem -analyzer-store=region -analyzer-experimental-checks -verify %s
	// RUN: %clang_cc1 -analyze -DUSE_BUILTINS -analyzer-experimental-internal-checks -analyzer-check-objc-mem -analyzer-store=region -analyzer-experimental-checks -verify %s
	// RUN: %clang_cc1 -analyze -DVARIANT -analyzer-experimental-internal-checks -analyzer-check-objc-mem -analyzer-store=region -analyzer-experimental-checks -verify %s
	// RUN: %clang_cc1 -analyze -DUSE_BUILTINS -DVARIANT -analyzer-experimental-internal-checks -analyzer-check-objc-mem -analyzer-store=region -analyzer-experimental-checks -verify %s

	//===----------------------------------------------------------------------===
	// Declarations
	//===----------------------------------------------------------------------===

	// Some functions are so similar to each other that they follow the same code
	// path, such as memcpy and __memcpy_chk, or memcmp and bcmp. If VARIANT is
	// defined, make sure to use the variants instead to make sure they are still
	// checked by the analyzer.

	// Some functions are implemented as builtins. These should be #defined as
	// BUILTIN(f), which will prepend "__builtin_" if USE_BUILTINS is defined.

	// Functions that have variants and are also availabe as builtins should be
	// declared carefully! See memcpy() for an example.

	#ifdef USE_BUILTINS
	# define BUILTIN(f) __builtin_ ## f
	#else /* USE_BUILTINS */
	# define BUILTIN(f) f
	#endif /* USE_BUILTINS */

	#define NULL 0
	typedef typeof(sizeof(int)) size_t;

	//===----------------------------------------------------------------------===
	// strlen()
	//===----------------------------------------------------------------------===

	#define strlen BUILTIN(strlen)
	size_t strlen(const char *s);

	void strlen_constant0() {
	if (strlen("123") != 3)
	(void)(char)0; // no-warning
	}

	void strlen_constant1() {
	const char *a = "123";
	if (strlen(a) != 3)
	(void)(char)0; // no-warning
	}

	void strlen_constant2(char x) {
	char a[] = "123";
	if (strlen(a) != 3)
	(void)(char)0; // no-warning
	a[0] = x;
	if (strlen(a) != 3)
	(void)(char)0; // expected-warning{{null}}
	}

	size_t strlen_null() {
	return strlen(0); // expected-warning{{Null pointer argument in call to byte string function}}
	}

	size_t strlen_fn() {
	return strlen((char*)&strlen_fn); // expected-warning{{Argument to byte string function is the address of the function 'strlen_fn', which is not a null-terminated string}}
	}

	size_t strlen_nonloc() {
	label:
	return strlen((char*)&&label); // expected-warning{{Argument to byte string function is the address of the label 'label', which is not a null-terminated string}}
	}

	void strlen_subregion() {
	struct two_strings { char a[2], b[2] };
	extern void use_two_strings(struct two_strings *);

	struct two_strings z;
	use_two_strings(&z);

	size_t a = strlen(z.a);
	z.b[0] = 5;
	size_t b = strlen(z.a);
	if (a == 0 && b != 0)
	(void)(char)0; // expected-warning{{never executed}}

	use_two_strings(&z);

	size_t c = strlen(z.a);
	if (a == 0 && c != 0)
	(void)(char)0; // expected-warning{{null}}
	}

	extern void use_string(char *);
	void strlen_argument(char *x) {
	size_t a = strlen(x);
	size_t b = strlen(x);
	if (a == 0 && b != 0)
	(void)(char)0; // expected-warning{{never executed}}

	use_string(x);

	size_t c = strlen(x);
	if (a == 0 && c != 0)
	(void)(char)0; // expected-warning{{null}}
	}

	extern char global_str[];
	void strlen_global() {
	size_t a = strlen(global_str);
	size_t b = strlen(global_str);
	if (a == 0 && b != 0)
	(void)(char)0; // expected-warning{{never executed}}

	// Call a function with unknown effects, which should invalidate globals.
	use_string(0);

	size_t c = strlen(global_str);
	if (a == 0 && c != 0)
	(void)(char)0; // expected-warning{{null}}
	}

	void strlen_indirect(char *x) {
	size_t a = strlen(x);
	char *p = x;
	char **p2 = &p;
	size_t b = strlen(x);
	if (a == 0 && b != 0)
	(void)(char)0; // expected-warning{{never executed}}

	extern void use_string_ptr(charconst);
	use_string_ptr(p2);

	size_t c = strlen(x);
	if (a == 0 && c != 0)
	(void)(char)0; // expected-warning{{null}}
	}

	void strlen_liveness(const char *x) {
	if (strlen(x) < 5)
	return;
	if (strlen(x) < 5)
	(void)(char)0; // no-warning
	}

	//===----------------------------------------------------------------------===
	// strcpy()
	//===----------------------------------------------------------------------===

	#ifdef VARIANT

	#define __strcpy_chk BUILTIN(__strcpy_chk)
	char __strcpy_chk(char restrict s1, const char *restrict s2, size_t destlen);

	#define strcpy(a,b) __strcpy_chk(a,b,(size_t)-1)

	#else /* VARIANT */

	#define strcpy BUILTIN(strcpy)
	char strcpy(char restrict s1, const char *restrict s2);

	#endif /* VARIANT */


	void strcpy_null_dst(char *x) {
	strcpy(NULL, x); // expected-warning{{Null pointer argument in call to byte string function}}
	}

	void strcpy_null_src(char *x) {
	strcpy(x, NULL); // expected-warning{{Null pointer argument in call to byte string function}}
	}

	void strcpy_fn(char *x) {
	strcpy(x, (char*)&strcpy_fn); // expected-warning{{Argument to byte string function is the address of the function 'strcpy_fn', which is not a null-terminated string}}
	}

	void strcpy_effects(char x, char y) {
	char a = x[0];

	if (strcpy(x, y) != x)
	(void)(char)0; // no-warning

	if (strlen(x) != strlen(y))
	(void)(char)0; // no-warning

	if (a != x[0])
	(void)(char)0; // expected-warning{{null}}
	}

	void strcpy_overflow(char *y) {
	char x[4];
	if (strlen(y) == 4)
	strcpy(x, y); // expected-warning{{Byte string function overflows destination buffer}}
	}

	void strcpy_no_overflow(char *y) {
	char x[4];
	if (strlen(y) == 3)
	strcpy(x, y); // no-warning
	}

	//===----------------------------------------------------------------------===
	// stpcpy()
	//===----------------------------------------------------------------------===

	#ifdef VARIANT

	#define __stpcpy_chk BUILTIN(__stpcpy_chk)
	char __stpcpy_chk(char restrict s1, const char *restrict s2, size_t destlen);

	#define stpcpy(a,b) __stpcpy_chk(a,b,(size_t)-1)

	#else /* VARIANT */

	#define stpcpy BUILTIN(stpcpy)
	char stpcpy(char restrict s1, const char *restrict s2);

	#endif /* VARIANT */


	void stpcpy_effect(char x, char y) {
	char a = x[0];

	if (stpcpy(x, y) != &x[strlen(y)])
	(void)(char)0; // no-warning

	if (strlen(x) != strlen(y))
	(void)(char)0; // no-warning

	if (a != x[0])
	(void)(char)0; // expected-warning{{null}}
	}

	void stpcpy_overflow(char *y) {
	char x[4];
	if (strlen(y) == 4)
	stpcpy(x, y); // expected-warning{{Byte string function overflows destination buffer}}
	}

	void stpcpy_no_overflow(char *y) {
	char x[4];
	if (strlen(y) == 3)
	stpcpy(x, y); // no-warning
	}