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Auto merge of #128703 - compiler-errors:normalizing-tails, r=lcnr

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Miscellaneous improvements to struct tail normalization

1. Make checks for foreign tails more accurate by normalizing the struct tail. I didn't write a test for this one.
2. Normalize when computing struct tail for `offset_of` for slice/str. This fixes the new solver only.
3. Normalizing when computing tails for disaligned reference check. This fixes both solvers.

r? lcnr
This commit is contained in:
bors 2024-08-09 11:36:01 +00:00
commit 899eb03926
22 changed files with 245 additions and 46 deletions
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2
compiler/rustc_codegen_cranelift/src/common.rs
View File

@ -107,7 +107,7 @@ pub(crate) fn has_ptr_meta<'tcx>(tcx: TyCtxt<'tcx>, ty: Ty<'tcx>) -> bool {
return false;
}
let tail = tcx.struct_tail_erasing_lifetimes(ty, ParamEnv::reveal_all());
let tail = tcx.struct_tail_for_codegen(ty, ParamEnv::reveal_all());
match tail.kind() {
ty::Foreign(..) => false,
ty::Str | ty::Slice(..) | ty::Dynamic(..) => true,

2
compiler/rustc_codegen_cranelift/src/unsize.rs
View File

@ -22,7 +22,7 @@ pub(crate) fn unsized_info<'tcx>(
old_info: Option<Value>,
) -> Value {
let (source, target) =
fx.tcx.struct_lockstep_tails_erasing_lifetimes(source, target, ParamEnv::reveal_all());
fx.tcx.struct_lockstep_tails_for_codegen(source, target, ParamEnv::reveal_all());
match (&source.kind(), &target.kind()) {
(&ty::Array(_, len), &ty::Slice(_)) => fx
.bcx

5
compiler/rustc_codegen_llvm/src/builder.rs
View File

@ -12,7 +12,8 @@ use rustc_data_structures::small_c_str::SmallCStr;
use rustc_hir::def_id::DefId;
use rustc_middle::middle::codegen_fn_attrs::CodegenFnAttrs;
use rustc_middle::ty::layout::{
FnAbiError, FnAbiOfHelpers, FnAbiRequest, LayoutError, LayoutOfHelpers, TyAndLayout,
FnAbiError, FnAbiOfHelpers, FnAbiRequest, HasParamEnv, LayoutError, LayoutOfHelpers,
TyAndLayout,
};
use rustc_middle::ty::{self, Instance, Ty, TyCtxt};
use rustc_sanitizers::{cfi, kcfi};
@ -531,7 +532,7 @@ impl<'a, 'll, 'tcx> BuilderMethods<'a, 'tcx> for Builder<'a, 'll, 'tcx> {
#[instrument(level = "trace", skip(self))]
fn load_operand(&mut self, place: PlaceRef<'tcx, &'ll Value>) -> OperandRef<'tcx, &'ll Value> {
if place.layout.is_unsized() {
let tail = self.tcx.struct_tail_with_normalize(place.layout.ty, |ty| ty, || {});
let tail = self.tcx.struct_tail_for_codegen(place.layout.ty, self.param_env());
if matches!(tail.kind(), ty::Foreign(..)) {
// Unsized locals and, at least conceptually, even unsized arguments must be copied
// around, which requires dynamically determining their size. Therefore, we cannot

2
compiler/rustc_codegen_llvm/src/debuginfo/utils.rs
View File

@ -62,7 +62,7 @@ pub(crate) fn fat_pointer_kind<'ll, 'tcx>(
cx: &CodegenCx<'ll, 'tcx>,
pointee_ty: Ty<'tcx>,
) -> Option<FatPtrKind> {
let pointee_tail_ty = cx.tcx.struct_tail_erasing_lifetimes(pointee_ty, cx.param_env());
let pointee_tail_ty = cx.tcx.struct_tail_for_codegen(pointee_ty, cx.param_env());
let layout = cx.layout_of(pointee_tail_ty);
trace!(
"fat_pointer_kind: {:?} has layout {:?} (is_unsized? {})",

2
compiler/rustc_codegen_ssa/src/base.rs
View File

@ -143,7 +143,7 @@ pub fn unsized_info<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
) -> Bx::Value {
let cx = bx.cx();
let (source, target) =
cx.tcx().struct_lockstep_tails_erasing_lifetimes(source, target, bx.param_env());
cx.tcx().struct_lockstep_tails_for_codegen(source, target, bx.param_env());
match (source.kind(), target.kind()) {
(&ty::Array(_, len), &ty::Slice(_)) => {
cx.const_usize(len.eval_target_usize(cx.tcx(), ty::ParamEnv::reveal_all()))

2
compiler/rustc_codegen_ssa/src/traits/type_.rs
View File

@ -91,7 +91,7 @@ pub trait DerivedTypeMethods<'tcx>: BaseTypeMethods<'tcx> + MiscMethods<'tcx> {
return false;
}
let tail = self.tcx().struct_tail_erasing_lifetimes(ty, param_env);
let tail = self.tcx().struct_tail_for_codegen(ty, param_env);
match tail.kind() {
ty::Foreign(..) => false,
ty::Str | ty::Slice(..) | ty::Dynamic(..) => true,

5
compiler/rustc_const_eval/src/interpret/call.rs
View File

@ -678,9 +678,8 @@ impl<'tcx, M: Machine<'tcx>> InterpCx<'tcx, M> {
} else {
// Doesn't have to be a `dyn Trait`, but the unsized tail must be `dyn Trait`.
// (For that reason we also cannot use `unpack_dyn_trait`.)
let receiver_tail = self
.tcx
.struct_tail_erasing_lifetimes(receiver_place.layout.ty, self.param_env);
let receiver_tail =
self.tcx.struct_tail_for_codegen(receiver_place.layout.ty, self.param_env);
let ty::Dynamic(receiver_trait, _, ty::Dyn) = receiver_tail.kind() else {
span_bug!(
self.cur_span(),

2
compiler/rustc_const_eval/src/interpret/cast.rs
View File

@ -386,7 +386,7 @@ impl<'tcx, M: Machine<'tcx>> InterpCx<'tcx, M> {
) -> InterpResult<'tcx> {
// A<Struct> -> A<Trait> conversion
let (src_pointee_ty, dest_pointee_ty) =
self.tcx.struct_lockstep_tails_erasing_lifetimes(source_ty, cast_ty, self.param_env);
self.tcx.struct_lockstep_tails_for_codegen(source_ty, cast_ty, self.param_env);
match (&src_pointee_ty.kind(), &dest_pointee_ty.kind()) {
(&ty::Array(_, length), &ty::Slice(_)) => {

2
compiler/rustc_const_eval/src/interpret/validity.rs
View File

@ -343,7 +343,7 @@ impl<'rt, 'tcx, M: Machine<'tcx>> ValidityVisitor<'rt, 'tcx, M> {
meta: MemPlaceMeta<M::Provenance>,
pointee: TyAndLayout<'tcx>,
) -> InterpResult<'tcx> {
let tail = self.ecx.tcx.struct_tail_erasing_lifetimes(pointee.ty, self.ecx.param_env);
let tail = self.ecx.tcx.struct_tail_for_codegen(pointee.ty, self.ecx.param_env);
match tail.kind() {
ty::Dynamic(data, _, ty::Dyn) => {
let vtable = meta.unwrap_meta().to_pointer(self.ecx)?;

2
compiler/rustc_const_eval/src/util/alignment.rs
View File

@ -22,7 +22,7 @@ where
};
let ty = place.ty(local_decls, tcx).ty;
let unsized_tail = || tcx.struct_tail_with_normalize(ty, |ty| ty, || {});
let unsized_tail = || tcx.struct_tail_for_codegen(ty, param_env);
match tcx.layout_of(param_env.and(ty)) {
Ok(layout)
if layout.align.abi <= pack

2
compiler/rustc_hir_analysis/src/check/wfcheck.rs
View File

@ -1276,7 +1276,7 @@ fn check_item_type(
UnsizedHandling::Forbid => true,
UnsizedHandling::Allow => false,
UnsizedHandling::AllowIfForeignTail => {
let tail = tcx.struct_tail_erasing_lifetimes(item_ty, wfcx.param_env);
let tail = tcx.struct_tail_for_codegen(item_ty, wfcx.param_env);
!matches!(tail.kind(), ty::Foreign(_))
}
};

13
compiler/rustc_hir_typeck/src/fn_ctxt/_impl.rs
View File

@ -404,8 +404,17 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
code: traits::ObligationCauseCode<'tcx>,
) {
if !ty.references_error() {
let tail =
self.tcx.struct_tail_with_normalize(ty, |ty| self.normalize(span, ty), || {});
let tail = self.tcx.struct_tail_with_normalize(
ty,
|ty| {
if self.next_trait_solver() {
self.try_structurally_resolve_type(span, ty)
} else {
self.normalize(span, ty)
}
},
|| {},
);
// Sized types have static alignment, and so do slices.
if tail.is_trivially_sized(self.tcx) || matches!(tail.kind(), ty::Slice(..)) {
// Nothing else is required here.

4
compiler/rustc_middle/src/ty/layout.rs
View File

@ -869,7 +869,7 @@ where
metadata
}
} else {
match tcx.struct_tail_erasing_lifetimes(pointee, cx.param_env()).kind() {
match tcx.struct_tail_for_codegen(pointee, cx.param_env()).kind() {
ty::Slice(_) | ty::Str => tcx.types.usize,
ty::Dynamic(data, _, ty::Dyn) => mk_dyn_vtable(data.principal()),
_ => bug!("TyAndLayout::field({:?}): not applicable", this),
@ -1348,7 +1348,7 @@ impl<'tcx> TyCtxt<'tcx> {
layout = layout.field(&cx, index);
if !layout.is_sized() {
// If it is not sized, then the tail must still have at least a known static alignment.
let tail = self.struct_tail_erasing_lifetimes(layout.ty, param_env);
let tail = self.struct_tail_for_codegen(layout.ty, param_env);
if !matches!(tail.kind(), ty::Slice(..)) {
bug!(
"offset of not-statically-aligned field (type {:?}) cannot be computed statically",

14
compiler/rustc_middle/src/ty/util.rs
View File

@ -186,11 +186,7 @@ impl<'tcx> TyCtxt<'tcx> {
/// Should only be called if `ty` has no inference variables and does not
/// need its lifetimes preserved (e.g. as part of codegen); otherwise
/// normalization attempt may cause compiler bugs.
pub fn struct_tail_erasing_lifetimes(
self,
ty: Ty<'tcx>,
param_env: ty::ParamEnv<'tcx>,
) -> Ty<'tcx> {
pub fn struct_tail_for_codegen(self, ty: Ty<'tcx>, param_env: ty::ParamEnv<'tcx>) -> Ty<'tcx> {
let tcx = self;
tcx.struct_tail_with_normalize(ty, |ty| tcx.normalize_erasing_regions(param_env, ty), || {})
}
@ -203,7 +199,7 @@ impl<'tcx> TyCtxt<'tcx> {
/// handle `<T as Trait>::Assoc` and `impl Trait`); pass the identity
/// function to indicate no normalization should take place.
///
/// See also `struct_tail_erasing_lifetimes`, which is suitable for use
/// See also `struct_tail_for_codegen`, which is suitable for use
/// during codegen.
pub fn struct_tail_with_normalize(
self,
@ -272,13 +268,13 @@ impl<'tcx> TyCtxt<'tcx> {
/// Same as applying `struct_tail` on `source` and `target`, but only
/// keeps going as long as the two types are instances of the same
/// structure definitions.
/// For `(Foo<Foo<T>>, Foo<dyn Trait>)`, the result will be `(Foo<T>, Trait)`,
/// For `(Foo<Foo<T>>, Foo<dyn Trait>)`, the result will be `(Foo<T>, dyn Trait)`,
/// whereas struct_tail produces `T`, and `Trait`, respectively.
///
/// Should only be called if the types have no inference variables and do
/// not need their lifetimes preserved (e.g., as part of codegen); otherwise,
/// normalization attempt may cause compiler bugs.
pub fn struct_lockstep_tails_erasing_lifetimes(
pub fn struct_lockstep_tails_for_codegen(
self,
source: Ty<'tcx>,
target: Ty<'tcx>,
@ -296,7 +292,7 @@ impl<'tcx> TyCtxt<'tcx> {
/// For `(Foo<Foo<T>>, Foo<dyn Trait>)`, the result will be `(Foo<T>, Trait)`,
/// whereas struct_tail produces `T`, and `Trait`, respectively.
///
/// See also `struct_lockstep_tails_erasing_lifetimes`, which is suitable for use
/// See also `struct_lockstep_tails_for_codegen`, which is suitable for use
/// during codegen.
pub fn struct_lockstep_tails_with_normalize(
self,

4
compiler/rustc_monomorphize/src/collector.rs
View File

@ -1019,7 +1019,7 @@ fn find_vtable_types_for_unsizing<'tcx>(
if ty.is_sized(tcx.tcx, param_env) {
return false;
}
let tail = tcx.struct_tail_erasing_lifetimes(ty, param_env);
let tail = tcx.struct_tail_for_codegen(ty, param_env);
match tail.kind() {
ty::Foreign(..) => false,
ty::Str | ty::Slice(..) | ty::Dynamic(..) => true,
@ -1029,7 +1029,7 @@ fn find_vtable_types_for_unsizing<'tcx>(
if type_has_metadata(inner_source) {
(inner_source, inner_target)
} else {
tcx.struct_lockstep_tails_erasing_lifetimes(inner_source, inner_target, param_env)
tcx.struct_lockstep_tails_for_codegen(inner_source, inner_target, param_env)
}
};

2
compiler/rustc_ty_utils/src/abi.rs
View File

@ -549,7 +549,7 @@ fn fn_abi_sanity_check<'tcx>(
// With metadata. Must be unsized and not on the stack.
assert!(arg.layout.is_unsized() && !on_stack);
// Also, must not be `extern` type.
let tail = cx.tcx.struct_tail_with_normalize(arg.layout.ty, |ty| ty, || {});
let tail = cx.tcx.struct_tail_for_codegen(arg.layout.ty, cx.param_env());
if matches!(tail.kind(), ty::Foreign(..)) {
// These types do not have metadata, so having `meta_attrs` is bogus.
// Conceptually, unsized arguments must be copied around, which requires dynamically

2
compiler/rustc_ty_utils/src/layout.rs
View File

@ -244,7 +244,7 @@ fn layout_of_uncached<'tcx>(
metadata
} else {
let unsized_part = tcx.struct_tail_erasing_lifetimes(pointee, param_env);
let unsized_part = tcx.struct_tail_for_codegen(pointee, param_env);
match unsized_part.kind() {
ty::Foreign(..) => {

2
src/tools/clippy/clippy_utils/src/qualify_min_const_fn.rs
View File

@ -142,7 +142,7 @@ fn check_rvalue<'tcx>(
// We cannot allow this for now.
return Err((span, "unsizing casts are only allowed for references right now".into()));
};
let unsized_ty = tcx.struct_tail_erasing_lifetimes(pointee_ty, tcx.param_env(def_id));
let unsized_ty = tcx.struct_tail_for_codegen(pointee_ty, tcx.param_env(def_id));
if let ty::Slice(_) | ty::Str = unsized_ty.kind() {
check_operand(tcx, op, span, body, msrv)?;
// Casting/coercing things to slices is fine.

26
tests/ui/lint/unaligned_references.stderr → tests/ui/lint/unaligned_references.current.stderr
View File

@ -1,5 +1,5 @@
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:28:13
--> $DIR/unaligned_references.rs:32:13
|
LL | &self.x;
| ^^^^^^^
@ -9,7 +9,7 @@ LL | &self.x;
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:40:24
--> $DIR/unaligned_references.rs:44:24
|
LL | println!("{:?}", &*foo.0);
| ^^^^^
@ -19,7 +19,7 @@ LL | println!("{:?}", &*foo.0);
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:42:24
--> $DIR/unaligned_references.rs:46:24
|
LL | println!("{:?}", &*foo.0);
| ^^^^^
@ -29,7 +29,7 @@ LL | println!("{:?}", &*foo.0);
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:47:24
--> $DIR/unaligned_references.rs:51:24
|
LL | println!("{:?}", &*foo.0);
| ^^^^^
@ -39,7 +39,7 @@ LL | println!("{:?}", &*foo.0);
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:57:17
--> $DIR/unaligned_references.rs:81:17
|
LL | let _ = &good.ptr;
| ^^^^^^^^^
@ -49,7 +49,7 @@ LL | let _ = &good.ptr;
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:58:17
--> $DIR/unaligned_references.rs:82:17
|
LL | let _ = &good.data;
| ^^^^^^^^^^
@ -59,7 +59,7 @@ LL | let _ = &good.data;
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:60:17
--> $DIR/unaligned_references.rs:84:17
|
LL | let _ = &good.data as *const _;
| ^^^^^^^^^^
@ -69,7 +69,7 @@ LL | let _ = &good.data as *const _;
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:61:27
--> $DIR/unaligned_references.rs:85:27
|
LL | let _: *const _ = &good.data;
| ^^^^^^^^^^
@ -79,7 +79,7 @@ LL | let _: *const _ = &good.data;
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:63:17
--> $DIR/unaligned_references.rs:87:17
|
LL | let _ = good.data.clone();
| ^^^^^^^^^
@ -89,7 +89,7 @@ LL | let _ = good.data.clone();
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:65:17
--> $DIR/unaligned_references.rs:89:17
|
LL | let _ = &good.data2[0];
| ^^^^^^^^^^^^^^
@ -99,7 +99,7 @@ LL | let _ = &good.data2[0];
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:74:17
--> $DIR/unaligned_references.rs:98:17
|
LL | let _ = &packed2.x;
| ^^^^^^^^^^
@ -109,7 +109,7 @@ LL | let _ = &packed2.x;
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:113:20
--> $DIR/unaligned_references.rs:137:20
|
LL | let _ref = &m1.1.a;
| ^^^^^^^
@ -119,7 +119,7 @@ LL | let _ref = &m1.1.a;
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:116:20
--> $DIR/unaligned_references.rs:140:20
|
LL | let _ref = &m2.1.a;
| ^^^^^^^

133
tests/ui/lint/unaligned_references.next.stderr Normal file
View File

@ -0,0 +1,133 @@
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:32:13
|
LL | &self.x;
| ^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:44:24
|
LL | println!("{:?}", &*foo.0);
| ^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:46:24
|
LL | println!("{:?}", &*foo.0);
| ^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:51:24
|
LL | println!("{:?}", &*foo.0);
| ^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:81:17
|
LL | let _ = &good.ptr;
| ^^^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:82:17
|
LL | let _ = &good.data;
| ^^^^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:84:17
|
LL | let _ = &good.data as *const _;
| ^^^^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:85:27
|
LL | let _: *const _ = &good.data;
| ^^^^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:87:17
|
LL | let _ = good.data.clone();
| ^^^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:89:17
|
LL | let _ = &good.data2[0];
| ^^^^^^^^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:98:17
|
LL | let _ = &packed2.x;
| ^^^^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:137:20
|
LL | let _ref = &m1.1.a;
| ^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error[E0793]: reference to packed field is unaligned
--> $DIR/unaligned_references.rs:140:20
|
LL | let _ref = &m2.1.a;
| ^^^^^^^
|
= note: packed structs are only aligned by one byte, and many modern architectures penalize unaligned field accesses
= note: creating a misaligned reference is undefined behavior (even if that reference is never dereferenced)
= help: copy the field contents to a local variable, or replace the reference with a raw pointer and use `read_unaligned`/`write_unaligned` (loads and stores via `*p` must be properly aligned even when using raw pointers)
error: aborting due to 13 previous errors
For more information about this error, try `rustc --explain E0793`.

26
tests/ui/lint/unaligned_references.rs
View File

@ -1,5 +1,9 @@
use std::mem::ManuallyDrop;
//@ 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 {
@ -50,6 +54,26 @@ fn packed_dyn() {
println!("{:?}", &*foo.0); // no error!
}
// Test for #115396
fn packed_slice_behind_alias() {
trait Mirror {
type Assoc: ?Sized;
}
impl<T: ?Sized> Mirror for T {
type Assoc = T;
}
struct W<T: ?Sized>(<T as Mirror>::Assoc);
#[repr(packed)]
struct Unaligned<T: ?Sized>(ManuallyDrop<W<T>>);
// 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] };

37
tests/ui/offset-of/offset-of-slice-normalized.rs Normal file
View File

@ -0,0 +1,37 @@
//@ revisions: current next
//@ ignore-compare-mode-next-solver (explicit revisions)
//@[next] compile-flags: -Znext-solver
//@ run-pass
#![feature(offset_of_slice)]
use std::mem::offset_of;
trait Mirror {
type Assoc: ?Sized;
}
impl<T: ?Sized> Mirror for T {
type Assoc = T;
}
#[repr(C)]
struct S {
a: u8,
b: (u8, u8),
c: <[i32] as Mirror>::Assoc,
}
#[repr(C)]
struct T {
x: i8,
y: S,
}
type Tup = (i16, <[i32] as Mirror>::Assoc);
fn main() {
assert_eq!(offset_of!(S, c), 4);
assert_eq!(offset_of!(T, y), 4);
assert_eq!(offset_of!(T, y.c), 8);
assert_eq!(offset_of!(Tup, 1), 4);
}