rust/tests/pass/intptrcast.rs

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// compile-flags: -Zmiri-permissive-provenance
use std::mem;
// This strips provenance
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fn transmute_ptr_to_int<T>(x: *const T) -> usize {
unsafe { std::mem::transmute(x) }
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}
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fn cast() {
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// Some casting-to-int with arithmetic.
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let x = &42 as *const i32 as usize;
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let y = x * 2;
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assert_eq!(y, x + x);
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let z = y as u8 as usize;
assert_eq!(z, y % 256);
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}
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/// Test usize->ptr cast for dangling and OOB address.
/// That is safe, and thus has to work.
fn cast_dangling() {
let b = Box::new(0);
let x = &*b as *const i32 as usize;
drop(b);
let _val = x as *const i32;
let b = Box::new(0);
let mut x = &*b as *const i32 as usize;
x += 0x100;
let _val = x as *const i32;
}
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fn format() {
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// Pointer string formatting! We can't check the output as it changes when libstd changes,
// but we can make sure Miri does not error.
format!("{:?}", &mut 13 as *mut _);
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}
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fn transmute() {
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// Check that intptrcast is triggered for explicit casts and that it is consistent with
// transmuting.
let a: *const i32 = &42;
let b = transmute_ptr_to_int(a) as u8;
let c = a as u8;
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assert_eq!(b, c);
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}
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fn ptr_bitops1() {
let bytes = [0i8, 1, 2, 3, 4, 5, 6, 7, 8, 9];
let one = bytes.as_ptr().wrapping_offset(1);
let three = bytes.as_ptr().wrapping_offset(3);
let res = (one as usize) | (three as usize);
format!("{}", res);
}
fn ptr_bitops2() {
let val = 13usize;
let addr = &val as *const _ as usize;
let _val = addr & 13;
}
fn ptr_eq_dangling() {
let b = Box::new(0);
let x = &*b as *const i32; // soon-to-be dangling
drop(b);
let b = Box::new(0);
let y = &*b as *const i32; // different allocation
// They *could* be equal if memory was reused, but probably are not.
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assert!(x != y);
}
fn ptr_eq_out_of_bounds() {
let b = Box::new(0);
let x = (&*b as *const i32).wrapping_sub(0x800); // out-of-bounds
let b = Box::new(0);
let y = &*b as *const i32; // different allocation
// They *could* be equal (with the right base addresses), but probably are not.
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assert!(x != y);
}
fn ptr_eq_out_of_bounds_null() {
let b = Box::new(0);
let x = (&*b as *const i32).wrapping_sub(0x800); // out-of-bounds
// This *could* be NULL (with the right base address), but probably is not.
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assert!(x != std::ptr::null());
}
fn ptr_eq_integer() {
let b = Box::new(0);
let x = &*b as *const i32;
// These *could* be equal (with the right base address), but probably are not.
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assert!(x != 64 as *const i32);
}
fn zst_deref_of_dangling() {
let b = Box::new(0);
let addr = &*b as *const _ as usize;
drop(b);
// Now if we cast `addr` to a ptr it might pick up the dangling provenance.
// But if we only do a ZST deref there is no UB here!
let zst = addr as *const ();
let _val = unsafe { *zst };
}
fn functions() {
// Roundtrip a few functions through integers. Do this multiple times to make sure this does not
// work by chance. If we did not give unique addresses to ZST allocations -- which fn
// allocations are -- then we might be unable to cast back, or we might call the wrong function!
// Every function gets at most one address so doing a loop would not help...
fn fn0() -> i32 {
0
}
fn fn1() -> i32 {
1
}
fn fn2() -> i32 {
2
}
fn fn3() -> i32 {
3
}
fn fn4() -> i32 {
4
}
fn fn5() -> i32 {
5
}
fn fn6() -> i32 {
6
}
fn fn7() -> i32 {
7
}
let fns = [
fn0 as fn() -> i32 as *const () as usize,
fn1 as fn() -> i32 as *const () as usize,
fn2 as fn() -> i32 as *const () as usize,
fn3 as fn() -> i32 as *const () as usize,
fn4 as fn() -> i32 as *const () as usize,
fn5 as fn() -> i32 as *const () as usize,
fn6 as fn() -> i32 as *const () as usize,
fn7 as fn() -> i32 as *const () as usize,
];
for (idx, &addr) in fns.iter().enumerate() {
let fun: fn() -> i32 = unsafe { mem::transmute(addr as *const ()) };
assert_eq!(fun(), idx as i32);
}
}
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fn main() {
cast();
cast_dangling();
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format();
transmute();
ptr_bitops1();
ptr_bitops2();
ptr_eq_dangling();
ptr_eq_out_of_bounds();
ptr_eq_out_of_bounds_null();
ptr_eq_integer();
zst_deref_of_dangling();
functions();
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}