//@ revisions: current next //@ ignore-compare-mode-next-solver (explicit revisions) //@[next] compile-flags: -Znext-solver use std::fmt::Debug; use std::mem::ManuallyDrop; #[repr(packed)] pub struct Good { data: u64, ptr: &'static u64, data2: [u64; 2], aligned: [u8; 32], } #[repr(packed(2))] pub struct Packed2 { x: u32, y: u16, z: u8, } trait Foo { fn evil(&self); } // Test for #108122 #[automatically_derived] impl Foo for Packed2 { fn evil(&self) { unsafe { &self.x; //~ ERROR reference to packed field } } } // Test for #115396 fn packed_dyn() { #[repr(packed)] struct Unaligned(ManuallyDrop); let ref local = Unaligned(ManuallyDrop::new([3, 5, 8u64])); let foo: &Unaligned = &*local; println!("{:?}", &*foo.0); //~ ERROR reference to packed field let foo: &Unaligned<[u64]> = &*local; println!("{:?}", &*foo.0); //~ ERROR reference to packed field // Even if the actual alignment is 1, we cannot know that when looking at `dyn Debug.` let ref local = Unaligned(ManuallyDrop::new([3, 5, 8u8])); let foo: &Unaligned = &*local; println!("{:?}", &*foo.0); //~ ERROR reference to packed field // However, we *can* know the alignment when looking at a slice. let foo: &Unaligned<[u8]> = &*local; println!("{:?}", &*foo.0); // no error! } // Test for #115396 fn packed_slice_behind_alias() { trait Mirror { type Assoc: ?Sized; } impl Mirror for T { type Assoc = T; } struct W(::Assoc); #[repr(packed)] struct Unaligned(ManuallyDrop>); // Even if the actual alignment is 1, we cannot know that when looking at `dyn Debug.` let ref local: Unaligned<[_; 3]> = Unaligned(ManuallyDrop::new(W([3, 5, 8u8]))); let foo: &Unaligned<[u8]> = local; let x = &foo.0; // Fine, since the tail of `foo` is `[_]` } fn main() { unsafe { let good = Good { data: 0, ptr: &0, data2: [0, 0], aligned: [0; 32] }; let _ = &good.ptr; //~ ERROR reference to packed field let _ = &good.data; //~ ERROR reference to packed field // Error even when turned into raw pointer immediately. let _ = &good.data as *const _; //~ ERROR reference to packed field let _: *const _ = &good.data; //~ ERROR reference to packed field // Error on method call. let _ = good.data.clone(); //~ ERROR reference to packed field // Error for nested fields. let _ = &good.data2[0]; //~ ERROR reference to packed field let _ = &*good.ptr; // ok, behind a pointer let _ = &good.aligned; // ok, has align 1 let _ = &good.aligned[2]; // ok, has align 1 } unsafe { let packed2 = Packed2 { x: 0, y: 0, z: 0 }; let _ = &packed2.x; //~ ERROR reference to packed field let _ = &packed2.y; // ok, has align 2 in packed(2) struct let _ = &packed2.z; // ok, has align 1 packed2.evil(); } unsafe { struct U16(u16); impl Drop for U16 { fn drop(&mut self) { println!("{:p}", self); } } struct HasDrop; impl Drop for HasDrop { fn drop(&mut self) {} } #[allow(unused)] struct Wrapper { a: U16, b: HasDrop, } #[allow(unused)] #[repr(packed(2))] struct Wrapper2 { a: U16, b: HasDrop, } // An outer struct with more restrictive packing than the inner struct -- make sure we // notice that! #[repr(packed)] struct Misalign(u8, T); let m1 = Misalign(0, Wrapper { a: U16(10), b: HasDrop }); let _ref = &m1.1.a; //~ ERROR reference to packed field let m2 = Misalign(0, Wrapper2 { a: U16(10), b: HasDrop }); let _ref = &m2.1.a; //~ ERROR reference to packed field } }