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teak-llvm/clang/test/Analysis/casts.c
Artem Dergachev 02955afbb4 [analyzer] pr38668: Do not attempt to cast loaded integers to floats. 
This patch is a different approach to landing the reverted r349701.

It is expected to have the same object (memory region) treated as if it has
different types in different program points. The correct behavior for
RegionStore when an object is stored as an object of type T1 but loaded as
an object of type T2 is to store the object as if it has type T1 but cast it
to T2 during load.

Note that the cast here is some sort of a "reinterpret_cast" (even in C). For
instance, if you store an integer and load a float, you won't get your integer
represented as a float; instead, you will get garbage.

Admit that we cannot perform the cast and return an unknown value.

Differential Revision: https://reviews.llvm.org/D55875

rdar://problem/45062567

llvm-svn: 349984
2018-12-22 02:06:51 +00:00

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// 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;
}
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