minix/external/bsd/llvm/dist/clang/test/Analysis/out-of-bounds.c

// RUN: %clang_cc1 -Wno-array-bounds -analyze -analyzer-checker=core,alpha.security.ArrayBoundV2 -verify %s

// Tests doing an out-of-bounds access after the end of an array using:
// - constant integer index
// - constant integer size for buffer
void test1(int x) {
  int buf[100];
  buf[100] = 1; // expected-warning{{Out of bound memory access}}
}

void test1_ok(int x) {
  int buf[100];
  buf[99] = 1; // no-warning
}

const char test1_strings_underrun(int x) {
  const char *mystr = "mary had a little lamb";
  return mystr[-1]; // expected-warning{{Out of bound memory access}}
}

const char test1_strings_overrun(int x) {
  const char *mystr = "mary had a little lamb";
  return mystr[1000];  // expected-warning{{Out of bound memory access}}
}

const char test1_strings_ok(int x) {
  const char *mystr = "mary had a little lamb";
  return mystr[5]; // no-warning
}

// Tests doing an out-of-bounds access after the end of an array using:
// - indirect pointer to buffer
// - constant integer index
// - constant integer size for buffer
void test1_ptr(int x) {
  int buf[100];
  int *p = buf;
  p[101] = 1; // expected-warning{{Out of bound memory access}}
}

void test1_ptr_ok(int x) {
  int buf[100];
  int *p = buf;
  p[99] = 1; // no-warning
}

// Tests doing an out-of-bounds access before the start of an array using:
// - indirect pointer to buffer, manipulated using simple pointer arithmetic
// - constant integer index
// - constant integer size for buffer
void test1_ptr_arith(int x) {
  int buf[100];
  int *p = buf;
  p = p + 100;
  p[0] = 1; // expected-warning{{Out of bound memory access}}
}

void test1_ptr_arith_ok(int x) {
  int buf[100];
  int *p = buf;
  p = p + 99;
  p[0] = 1; // no-warning
}

void test1_ptr_arith_bad(int x) {
  int buf[100];
  int *p = buf;
  p = p + 99;
  p[1] = 1; // expected-warning{{Out of bound memory access}}
}

void test1_ptr_arith_ok2(int x) {
  int buf[100];
  int *p = buf;
  p = p + 99;
  p[-1] = 1; // no-warning
}

// Tests doing an out-of-bounds access before the start of an array using:
// - constant integer index
// - constant integer size for buffer
void test2(int x) {
  int buf[100];
  buf[-1] = 1; // expected-warning{{Out of bound memory access}}
}

// Tests doing an out-of-bounds access before the start of an array using:
// - indirect pointer to buffer
// - constant integer index
// - constant integer size for buffer
void test2_ptr(int x) {
  int buf[100];
  int *p = buf;
  p[-1] = 1; // expected-warning{{Out of bound memory access}}
}

// Tests doing an out-of-bounds access before the start of an array using:
// - indirect pointer to buffer, manipulated using simple pointer arithmetic
// - constant integer index
// - constant integer size for buffer
void test2_ptr_arith(int x) {
  int buf[100];
  int *p = buf;
  --p;
  p[0] = 1; // expected-warning {{Out of bound memory access (accessed memory precedes memory block)}}
}

// Tests doing an out-of-bounds access before the start of a multi-dimensional
// array using:
// - constant integer indices
// - constant integer sizes for the array
void test2_multi(int x) {
  int buf[100][100];
  buf[0][-1] = 1; // expected-warning{{Out of bound memory access}}
}

// Tests doing an out-of-bounds access before the start of a multi-dimensional
// array using:
// - constant integer indices
// - constant integer sizes for the array
void test2_multi_b(int x) {
  int buf[100][100];
  buf[-1][0] = 1; // expected-warning{{Out of bound memory access}}
}

void test2_multi_ok(int x) {
  int buf[100][100];
  buf[0][0] = 1; // no-warning
}

// *** FIXME ***
// We don't get a warning here yet because our symbolic constraint solving
// doesn't handle:  (symbol * constant) < constant
void test3(int x) {
  int buf[100];
  if (x < 0)
    buf[x] = 1;
}

// *** FIXME ***
// We don't get a warning here yet because our symbolic constraint solving
// doesn't handle:  (symbol * constant) < constant
void test4(int x) {
  int buf[100];
  if (x > 99)
    buf[x] = 1; 
}

// Don't warn when indexing below the start of a symbolic region's whose
// base extent we don't know.
int *get_symbolic();
void test_index_below_symboloc() {
  int *buf = get_symbolic();
  buf[-1] = 0; // no-warning;
}

void test_incomplete_struct() {
  extern struct incomplete incomplete;
  int *p = (int *)&incomplete;
  p[1] = 42; // no-warning
}

void test_extern_void() {
  extern void v;
  int *p = (int *)&v;
  p[1] = 42; // no-warning
}
Importing netbsd clang -- pristine Change-Id: Ia40e9ffdf29b5dab2f122f673ff6802a58bc690f 2013-11-15 13:00:54 +01:00			`// RUN: %clang_cc1 -Wno-array-bounds -analyze -analyzer-checker=core,alpha.security.ArrayBoundV2 -verify %s`

			`// Tests doing an out-of-bounds access after the end of an array using:`
			`// - constant integer index`
			`// - constant integer size for buffer`
			`void test1(int x) {`
			`int buf[100];`
			`buf[100] = 1; // expected-warning{{Out of bound memory access}}`
			`}`

			`void test1_ok(int x) {`
			`int buf[100];`
			`buf[99] = 1; // no-warning`
			`}`

			`const char test1_strings_underrun(int x) {`
			`const char *mystr = "mary had a little lamb";`
			`return mystr[-1]; // expected-warning{{Out of bound memory access}}`
			`}`

			`const char test1_strings_overrun(int x) {`
			`const char *mystr = "mary had a little lamb";`
			`return mystr[1000]; // expected-warning{{Out of bound memory access}}`
			`}`

			`const char test1_strings_ok(int x) {`
			`const char *mystr = "mary had a little lamb";`
			`return mystr[5]; // no-warning`
			`}`

			`// Tests doing an out-of-bounds access after the end of an array using:`
			`// - indirect pointer to buffer`
			`// - constant integer index`
			`// - constant integer size for buffer`
			`void test1_ptr(int x) {`
			`int buf[100];`
			`int *p = buf;`
			`p[101] = 1; // expected-warning{{Out of bound memory access}}`
			`}`

			`void test1_ptr_ok(int x) {`
			`int buf[100];`
			`int *p = buf;`
			`p[99] = 1; // no-warning`
			`}`

			`// Tests doing an out-of-bounds access before the start of an array using:`
			`// - indirect pointer to buffer, manipulated using simple pointer arithmetic`
			`// - constant integer index`
			`// - constant integer size for buffer`
			`void test1_ptr_arith(int x) {`
			`int buf[100];`
			`int *p = buf;`
			`p = p + 100;`
			`p[0] = 1; // expected-warning{{Out of bound memory access}}`
			`}`

			`void test1_ptr_arith_ok(int x) {`
			`int buf[100];`
			`int *p = buf;`
			`p = p + 99;`
			`p[0] = 1; // no-warning`
			`}`

			`void test1_ptr_arith_bad(int x) {`
			`int buf[100];`
			`int *p = buf;`
			`p = p + 99;`
			`p[1] = 1; // expected-warning{{Out of bound memory access}}`
			`}`

			`void test1_ptr_arith_ok2(int x) {`
			`int buf[100];`
			`int *p = buf;`
			`p = p + 99;`
			`p[-1] = 1; // no-warning`
			`}`

			`// Tests doing an out-of-bounds access before the start of an array using:`
			`// - constant integer index`
			`// - constant integer size for buffer`
			`void test2(int x) {`
			`int buf[100];`
			`buf[-1] = 1; // expected-warning{{Out of bound memory access}}`
			`}`

			`// Tests doing an out-of-bounds access before the start of an array using:`
			`// - indirect pointer to buffer`
			`// - constant integer index`
			`// - constant integer size for buffer`
			`void test2_ptr(int x) {`
			`int buf[100];`
			`int *p = buf;`
			`p[-1] = 1; // expected-warning{{Out of bound memory access}}`
			`}`

			`// Tests doing an out-of-bounds access before the start of an array using:`
			`// - indirect pointer to buffer, manipulated using simple pointer arithmetic`
			`// - constant integer index`
			`// - constant integer size for buffer`
			`void test2_ptr_arith(int x) {`
			`int buf[100];`
			`int *p = buf;`
			`--p;`
			`p[0] = 1; // expected-warning {{Out of bound memory access (accessed memory precedes memory block)}}`
			`}`

			`// Tests doing an out-of-bounds access before the start of a multi-dimensional`
			`// array using:`
			`// - constant integer indices`
			`// - constant integer sizes for the array`
			`void test2_multi(int x) {`
			`int buf[100][100];`
			`buf[0][-1] = 1; // expected-warning{{Out of bound memory access}}`
			`}`

			`// Tests doing an out-of-bounds access before the start of a multi-dimensional`
			`// array using:`
			`// - constant integer indices`
			`// - constant integer sizes for the array`
			`void test2_multi_b(int x) {`
			`int buf[100][100];`
			`buf[-1][0] = 1; // expected-warning{{Out of bound memory access}}`
			`}`

			`void test2_multi_ok(int x) {`
			`int buf[100][100];`
			`buf[0][0] = 1; // no-warning`
			`}`

			`// * FIXME *`
			`// We don't get a warning here yet because our symbolic constraint solving`
			`// doesn't handle: (symbol * constant) < constant`
			`void test3(int x) {`
			`int buf[100];`
			`if (x < 0)`
			`buf[x] = 1;`
			`}`

			`// * FIXME *`
			`// We don't get a warning here yet because our symbolic constraint solving`
			`// doesn't handle: (symbol * constant) < constant`
			`void test4(int x) {`
			`int buf[100];`
			`if (x > 99)`
			`buf[x] = 1;`
			`}`

			`// Don't warn when indexing below the start of a symbolic region's whose`
			`// base extent we don't know.`
			`int *get_symbolic();`
			`void test_index_below_symboloc() {`
			`int *buf = get_symbolic();`
			`buf[-1] = 0; // no-warning;`
			`}`

			`void test_incomplete_struct() {`
			`extern struct incomplete incomplete;`
			`int p = (int )&incomplete;`
			`p[1] = 42; // no-warning`
			`}`

			`void test_extern_void() {`
			`extern void v;`
			`int p = (int )&v;`
			`p[1] = 42; // no-warning`
			`}`