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Rollup merge of rust-lang#127295 - maurer:default-impl-cfi, r=estebank
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CFI: Support provided methods on traits

Provided methods currently don't get type erasure performed on them because they are not in an `impl` block. If we are instantiating a method that is an associated item, but *not* in an impl block, treat it as a provided method instead.
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matthiaskrgr authored Jul 12, 2024
2 parents 1d7d63c + 81b1f92 commit d401c47
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Showing 2 changed files with 62 additions and 37 deletions.
Original file line number Diff line number Diff line change
Expand Up @@ -9,10 +9,10 @@ use rustc_hir::LangItem;
use rustc_middle::bug;
use rustc_middle::ty::fold::{TypeFolder, TypeSuperFoldable};
use rustc_middle::ty::{
self, ExistentialPredicateStableCmpExt as _, Instance, IntTy, List, Ty, TyCtxt, TypeFoldable,
TypeVisitableExt, UintTy,
self, ExistentialPredicateStableCmpExt as _, Instance, IntTy, List, TraitRef, Ty, TyCtxt,
TypeFoldable, TypeVisitableExt, UintTy,
};
use rustc_span::sym;
use rustc_span::{def_id::DefId, sym};
use rustc_trait_selection::traits;
use std::iter;
use tracing::{debug, instrument};
Expand Down Expand Up @@ -360,41 +360,29 @@ pub fn transform_instance<'tcx>(
if !options.contains(TransformTyOptions::USE_CONCRETE_SELF) {
// Perform type erasure for calls on trait objects by transforming self into a trait object
// of the trait that defines the method.
if let Some(impl_id) = tcx.impl_of_method(instance.def_id())
&& let Some(trait_ref) = tcx.impl_trait_ref(impl_id)
{
let impl_method = tcx.associated_item(instance.def_id());
let method_id = impl_method
.trait_item_def_id
.expect("Part of a trait implementation, but not linked to the def_id?");
let trait_method = tcx.associated_item(method_id);
let trait_id = trait_ref.skip_binder().def_id;
if traits::is_vtable_safe_method(tcx, trait_id, trait_method)
&& tcx.is_object_safe(trait_id)
{
// Trait methods will have a Self polymorphic parameter, where the concreteized
// implementatation will not. We need to walk back to the more general trait method
let trait_ref = tcx.instantiate_and_normalize_erasing_regions(
instance.args,
ty::ParamEnv::reveal_all(),
trait_ref,
);
let invoke_ty = trait_object_ty(tcx, ty::Binder::dummy(trait_ref));
if let Some((trait_ref, method_id, ancestor)) = implemented_method(tcx, instance) {
// Trait methods will have a Self polymorphic parameter, where the concreteized
// implementatation will not. We need to walk back to the more general trait method
let trait_ref = tcx.instantiate_and_normalize_erasing_regions(
instance.args,
ty::ParamEnv::reveal_all(),
trait_ref,
);
let invoke_ty = trait_object_ty(tcx, ty::Binder::dummy(trait_ref));

// At the call site, any call to this concrete function through a vtable will be
// `Virtual(method_id, idx)` with appropriate arguments for the method. Since we have the
// original method id, and we've recovered the trait arguments, we can make the callee
// instance we're computing the alias set for match the caller instance.
//
// Right now, our code ignores the vtable index everywhere, so we use 0 as a placeholder.
// If we ever *do* start encoding the vtable index, we will need to generate an alias set
// based on which vtables we are putting this method into, as there will be more than one
// index value when supertraits are involved.
instance.def = ty::InstanceKind::Virtual(method_id, 0);
let abstract_trait_args =
tcx.mk_args_trait(invoke_ty, trait_ref.args.into_iter().skip(1));
instance.args = instance.args.rebase_onto(tcx, impl_id, abstract_trait_args);
}
// At the call site, any call to this concrete function through a vtable will be
// `Virtual(method_id, idx)` with appropriate arguments for the method. Since we have the
// original method id, and we've recovered the trait arguments, we can make the callee
// instance we're computing the alias set for match the caller instance.
//
// Right now, our code ignores the vtable index everywhere, so we use 0 as a placeholder.
// If we ever *do* start encoding the vtable index, we will need to generate an alias set
// based on which vtables we are putting this method into, as there will be more than one
// index value when supertraits are involved.
instance.def = ty::InstanceKind::Virtual(method_id, 0);
let abstract_trait_args =
tcx.mk_args_trait(invoke_ty, trait_ref.args.into_iter().skip(1));
instance.args = instance.args.rebase_onto(tcx, ancestor, abstract_trait_args);
} else if tcx.is_closure_like(instance.def_id()) {
// We're either a closure or a coroutine. Our goal is to find the trait we're defined on,
// instantiate it, and take the type of its only method as our own.
Expand Down Expand Up @@ -452,3 +440,34 @@ pub fn transform_instance<'tcx>(

instance
}

fn implemented_method<'tcx>(
tcx: TyCtxt<'tcx>,
instance: Instance<'tcx>,
) -> Option<(ty::EarlyBinder<'tcx, TraitRef<'tcx>>, DefId, DefId)> {
let trait_ref;
let method_id;
let trait_id;
let trait_method;
let ancestor = if let Some(impl_id) = tcx.impl_of_method(instance.def_id()) {
// Implementation in an `impl` block
trait_ref = tcx.impl_trait_ref(impl_id)?;
let impl_method = tcx.associated_item(instance.def_id());
method_id = impl_method.trait_item_def_id?;
trait_method = tcx.associated_item(method_id);
trait_id = trait_ref.skip_binder().def_id;
impl_id
} else if let Some(trait_method_bound) = tcx.opt_associated_item(instance.def_id()) {
// Provided method in a `trait` block
trait_method = trait_method_bound;
method_id = instance.def_id();
trait_id = tcx.trait_of_item(method_id)?;
trait_ref = ty::EarlyBinder::bind(TraitRef::from_method(tcx, trait_id, instance.args));
trait_id
} else {
return None;
};
let vtable_possible =
traits::is_vtable_safe_method(tcx, trait_id, trait_method) && tcx.is_object_safe(trait_id);
vtable_possible.then_some((trait_ref, method_id, ancestor))
}
6 changes: 6 additions & 0 deletions tests/ui/sanitizer/cfi-supertraits.rs
Original file line number Diff line number Diff line change
Expand Up @@ -16,6 +16,9 @@
trait Parent1 {
type P1;
fn p1(&self) -> Self::P1;
fn d(&self) -> i32 {
42
}
}

trait Parent2 {
Expand Down Expand Up @@ -60,14 +63,17 @@ fn main() {
x.c();
x.p1();
x.p2();
x.d();
// Parents can be created and access their methods.
let y = &Foo as &dyn Parent1<P1=u16>;
y.p1();
y.d();
let z = &Foo as &dyn Parent2<P2=u32>;
z.p2();
// Trait upcasting works
let x1 = x as &dyn Parent1<P1=u16>;
x1.p1();
x1.d();
let x2 = x as &dyn Parent2<P2=u32>;
x2.p2();
}

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