rust-clippy/clippy_lints/src/transmute/transmute_undefined_repr.rs

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use super::TRANSMUTE_UNDEFINED_REPR;
use clippy_utils::diagnostics::span_lint_and_then;
use clippy_utils::ty::is_c_void;
use rustc_hir::Expr;
use rustc_lint::LateContext;
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use rustc_middle::ty::subst::Subst;
use rustc_middle::ty::{self, IntTy, Ty, TypeAndMut, UintTy};
use rustc_span::Span;
#[allow(clippy::too_many_lines)]
pub(super) fn check<'tcx>(
cx: &LateContext<'tcx>,
e: &'tcx Expr<'_>,
from_ty_orig: Ty<'tcx>,
to_ty_orig: Ty<'tcx>,
) -> bool {
let mut from_ty = cx.tcx.erase_regions(from_ty_orig);
let mut to_ty = cx.tcx.erase_regions(to_ty_orig);
while from_ty != to_ty {
match reduce_refs(cx, e.span, from_ty, to_ty) {
ReducedTys::FromFatPtr {
unsized_ty,
to_ty: to_sub_ty,
} => match reduce_ty(cx, to_sub_ty) {
ReducedTy::TypeErasure => break,
ReducedTy::UnorderedFields(ty) if is_size_pair(ty) => break,
ReducedTy::Ref(to_sub_ty) => {
from_ty = unsized_ty;
to_ty = to_sub_ty;
continue;
},
_ => {
span_lint_and_then(
cx,
TRANSMUTE_UNDEFINED_REPR,
e.span,
&format!("transmute from `{}` which has an undefined layout", from_ty_orig),
|diag| {
if from_ty_orig.peel_refs() != unsized_ty {
diag.note(&format!("the contained type `&{}` has an undefined layout", unsized_ty));
}
},
);
return true;
},
},
ReducedTys::ToFatPtr {
unsized_ty,
from_ty: from_sub_ty,
} => match reduce_ty(cx, from_sub_ty) {
ReducedTy::TypeErasure => break,
ReducedTy::UnorderedFields(ty) if is_size_pair(ty) => break,
ReducedTy::Ref(from_sub_ty) => {
from_ty = from_sub_ty;
to_ty = unsized_ty;
continue;
},
_ => {
span_lint_and_then(
cx,
TRANSMUTE_UNDEFINED_REPR,
e.span,
&format!("transmute to `{}` which has an undefined layout", to_ty_orig),
|diag| {
if to_ty_orig.peel_refs() != unsized_ty {
diag.note(&format!("the contained type `&{}` has an undefined layout", unsized_ty));
}
},
);
return true;
},
},
ReducedTys::ToPtr {
from_ty: from_sub_ty,
to_ty: to_sub_ty,
} => match reduce_ty(cx, from_sub_ty) {
ReducedTy::UnorderedFields(from_ty) => {
span_lint_and_then(
cx,
TRANSMUTE_UNDEFINED_REPR,
e.span,
&format!("transmute from `{}` which has an undefined layout", from_ty_orig),
|diag| {
if from_ty_orig.peel_refs() != from_ty {
diag.note(&format!("the contained type `{}` has an undefined layout", from_ty));
}
},
);
return true;
},
ReducedTy::Ref(from_sub_ty) => {
from_ty = from_sub_ty;
to_ty = to_sub_ty;
continue;
},
_ => break,
},
ReducedTys::FromPtr {
from_ty: from_sub_ty,
to_ty: to_sub_ty,
} => match reduce_ty(cx, to_sub_ty) {
ReducedTy::UnorderedFields(to_ty) => {
span_lint_and_then(
cx,
TRANSMUTE_UNDEFINED_REPR,
e.span,
&format!("transmute to `{}` which has an undefined layout", to_ty_orig),
|diag| {
if to_ty_orig.peel_refs() != to_ty {
diag.note(&format!("the contained type `{}` has an undefined layout", to_ty));
}
},
);
return true;
},
ReducedTy::Ref(to_sub_ty) => {
from_ty = from_sub_ty;
to_ty = to_sub_ty;
continue;
},
_ => break,
},
ReducedTys::Other {
from_ty: from_sub_ty,
to_ty: to_sub_ty,
} => match (reduce_ty(cx, from_sub_ty), reduce_ty(cx, to_sub_ty)) {
(ReducedTy::TypeErasure, _) | (_, ReducedTy::TypeErasure) => return false,
(ReducedTy::UnorderedFields(from_ty), ReducedTy::UnorderedFields(to_ty)) if from_ty != to_ty => {
span_lint_and_then(
cx,
TRANSMUTE_UNDEFINED_REPR,
e.span,
&format!(
"transmute from `{}` to `{}`, both of which have an undefined layout",
from_ty_orig, to_ty_orig
),
|diag| {
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if_chain! {
if let (Some(from_def), Some(to_def)) = (from_ty.ty_adt_def(), to_ty.ty_adt_def());
if from_def == to_def;
then {
diag.note(&format!(
"two instances of the same generic type (`{}`) may have different layouts",
cx.tcx.item_name(from_def.did())
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));
} else {
if from_ty_orig.peel_refs() != from_ty {
diag.note(&format!("the contained type `{}` has an undefined layout", from_ty));
}
if to_ty_orig.peel_refs() != to_ty {
diag.note(&format!("the contained type `{}` has an undefined layout", to_ty));
}
}
}
},
);
return true;
},
(
ReducedTy::UnorderedFields(from_ty),
ReducedTy::Other(_) | ReducedTy::OrderedFields(_) | ReducedTy::Ref(_),
) => {
span_lint_and_then(
cx,
TRANSMUTE_UNDEFINED_REPR,
e.span,
&format!("transmute from `{}` which has an undefined layout", from_ty_orig),
|diag| {
if from_ty_orig.peel_refs() != from_ty {
diag.note(&format!("the contained type `{}` has an undefined layout", from_ty));
}
},
);
return true;
},
(
ReducedTy::Other(_) | ReducedTy::OrderedFields(_) | ReducedTy::Ref(_),
ReducedTy::UnorderedFields(to_ty),
) => {
span_lint_and_then(
cx,
TRANSMUTE_UNDEFINED_REPR,
e.span,
&format!("transmute into `{}` which has an undefined layout", to_ty_orig),
|diag| {
if to_ty_orig.peel_refs() != to_ty {
diag.note(&format!("the contained type `{}` has an undefined layout", to_ty));
}
},
);
return true;
},
(ReducedTy::Ref(from_sub_ty), ReducedTy::Ref(to_sub_ty)) => {
from_ty = from_sub_ty;
to_ty = to_sub_ty;
continue;
},
(
ReducedTy::OrderedFields(_) | ReducedTy::Ref(_) | ReducedTy::Other(_),
ReducedTy::OrderedFields(_) | ReducedTy::Ref(_) | ReducedTy::Other(_),
)
| (ReducedTy::UnorderedFields(_), ReducedTy::UnorderedFields(_)) => break,
},
}
}
false
}
enum ReducedTys<'tcx> {
FromFatPtr { unsized_ty: Ty<'tcx>, to_ty: Ty<'tcx> },
ToFatPtr { unsized_ty: Ty<'tcx>, from_ty: Ty<'tcx> },
ToPtr { from_ty: Ty<'tcx>, to_ty: Ty<'tcx> },
FromPtr { from_ty: Ty<'tcx>, to_ty: Ty<'tcx> },
Other { from_ty: Ty<'tcx>, to_ty: Ty<'tcx> },
}
/// Remove references so long as both types are references.
fn reduce_refs<'tcx>(
cx: &LateContext<'tcx>,
span: Span,
mut from_ty: Ty<'tcx>,
mut to_ty: Ty<'tcx>,
) -> ReducedTys<'tcx> {
loop {
return match (from_ty.kind(), to_ty.kind()) {
(
&(ty::Ref(_, from_sub_ty, _) | ty::RawPtr(TypeAndMut { ty: from_sub_ty, .. })),
&(ty::Ref(_, to_sub_ty, _) | ty::RawPtr(TypeAndMut { ty: to_sub_ty, .. })),
) => {
from_ty = from_sub_ty;
to_ty = to_sub_ty;
continue;
},
(&(ty::Ref(_, unsized_ty, _) | ty::RawPtr(TypeAndMut { ty: unsized_ty, .. })), _)
if !unsized_ty.is_sized(cx.tcx.at(span), cx.param_env) =>
{
ReducedTys::FromFatPtr { unsized_ty, to_ty }
},
(_, &(ty::Ref(_, unsized_ty, _) | ty::RawPtr(TypeAndMut { ty: unsized_ty, .. })))
if !unsized_ty.is_sized(cx.tcx.at(span), cx.param_env) =>
{
ReducedTys::ToFatPtr { unsized_ty, from_ty }
},
(&(ty::Ref(_, from_ty, _) | ty::RawPtr(TypeAndMut { ty: from_ty, .. })), _) => {
ReducedTys::FromPtr { from_ty, to_ty }
},
(_, &(ty::Ref(_, to_ty, _) | ty::RawPtr(TypeAndMut { ty: to_ty, .. }))) => {
ReducedTys::ToPtr { from_ty, to_ty }
},
_ => ReducedTys::Other { from_ty, to_ty },
};
}
}
enum ReducedTy<'tcx> {
/// The type can be used for type erasure.
TypeErasure,
/// The type is a struct containing either zero non-zero sized fields, or multiple non-zero
/// sized fields with a defined order.
OrderedFields(Ty<'tcx>),
/// The type is a struct containing multiple non-zero sized fields with no defined order.
UnorderedFields(Ty<'tcx>),
/// The type is a reference to the contained type.
Ref(Ty<'tcx>),
/// Any other type.
Other(Ty<'tcx>),
}
/// Reduce structs containing a single non-zero sized field to it's contained type.
fn reduce_ty<'tcx>(cx: &LateContext<'tcx>, mut ty: Ty<'tcx>) -> ReducedTy<'tcx> {
loop {
ty = cx.tcx.try_normalize_erasing_regions(cx.param_env, ty).unwrap_or(ty);
return match *ty.kind() {
ty::Array(sub_ty, _) if matches!(sub_ty.kind(), ty::Int(_) | ty::Uint(_)) => ReducedTy::TypeErasure,
ty::Array(sub_ty, _) | ty::Slice(sub_ty) => {
ty = sub_ty;
continue;
},
ty::Tuple(args) if args.is_empty() => ReducedTy::TypeErasure,
ty::Tuple(args) => {
let mut iter = args.iter();
let Some(sized_ty) = iter.find(|&ty| !is_zero_sized_ty(cx, ty)) else {
return ReducedTy::OrderedFields(ty);
};
if iter.all(|ty| is_zero_sized_ty(cx, ty)) {
ty = sized_ty;
continue;
}
ReducedTy::UnorderedFields(ty)
},
ty::Adt(def, substs) if def.is_struct() => {
let mut iter = def
.non_enum_variant()
.fields
.iter()
.map(|f| cx.tcx.type_of(f.did).subst(cx.tcx, substs));
let Some(sized_ty) = iter.find(|&ty| !is_zero_sized_ty(cx, ty)) else {
return ReducedTy::TypeErasure;
};
if iter.all(|ty| is_zero_sized_ty(cx, ty)) {
ty = sized_ty;
continue;
}
if def.repr().inhibit_struct_field_reordering_opt() {
ReducedTy::OrderedFields(ty)
} else {
ReducedTy::UnorderedFields(ty)
}
},
ty::Adt(def, _) if def.is_enum() && (def.variants().is_empty() || is_c_void(cx, ty)) => {
ReducedTy::TypeErasure
},
// TODO: Check if the conversion to or from at least one of a union's fields is valid.
ty::Adt(def, _) if def.is_union() => ReducedTy::TypeErasure,
ty::Foreign(_) => ReducedTy::TypeErasure,
ty::Ref(_, ty, _) => ReducedTy::Ref(ty),
ty::RawPtr(ty) => ReducedTy::Ref(ty.ty),
_ => ReducedTy::Other(ty),
};
}
}
fn is_zero_sized_ty<'tcx>(cx: &LateContext<'tcx>, ty: Ty<'tcx>) -> bool {
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if_chain! {
if let Ok(ty) = cx.tcx.try_normalize_erasing_regions(cx.param_env, ty);
if let Ok(layout) = cx.tcx.layout_of(cx.param_env.and(ty));
then {
layout.layout.size().bytes() == 0
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} else {
false
}
}
}
fn is_size_pair(ty: Ty<'_>) -> bool {
if let ty::Tuple(tys) = *ty.kind()
&& let [ty1, ty2] = &**tys
{
matches!(ty1.kind(), ty::Int(IntTy::Isize) | ty::Uint(UintTy::Usize))
&& matches!(ty2.kind(), ty::Int(IntTy::Isize) | ty::Uint(UintTy::Usize))
} else {
false
}
}