//! This pass adds validation calls (AcquireValid, ReleaseValid) where appropriate. //! It has to be run really early, before transformations like inlining, because //! introducing these calls *adds* UB -- so, conceptually, this pass is actually part //! of MIR building, and only after this pass we think of the program has having the //! normal MIR semantics. use crate::MirPass; use rustc_middle::mir::*; use rustc_middle::ty::{self, Ty, TyCtxt}; pub struct AddRetag; /// Determine whether this type may contain a reference (or box), and thus needs retagging. /// We will only recurse `depth` times into Tuples/ADTs to bound the cost of this. fn may_contain_reference<'tcx>(ty: Ty<'tcx>, depth: u32, tcx: TyCtxt<'tcx>) -> bool { match ty.kind() { // Primitive types that are not references ty::Bool | ty::Char | ty::Float(_) | ty::Int(_) | ty::Uint(_) | ty::RawPtr(..) | ty::FnPtr(..) | ty::Str | ty::FnDef(..) | ty::Never => false, // References ty::Ref(..) => true, ty::Adt(..) if ty.is_box() => true, // Compound types: recurse ty::Array(ty, _) | ty::Slice(ty) => { // This does not branch so we keep the depth the same. may_contain_reference(*ty, depth, tcx) } ty::Tuple(tys) => { depth == 0 || tys.iter().any(|ty| may_contain_reference(ty, depth - 1, tcx)) } ty::Adt(adt, subst) => { depth == 0 || adt.variants().iter().any(|v| { v.fields.iter().any(|f| may_contain_reference(f.ty(tcx, subst), depth - 1, tcx)) }) } // Conservative fallback _ => true, } } impl<'tcx> MirPass<'tcx> for AddRetag { fn is_enabled(&self, sess: &rustc_session::Session) -> bool { sess.opts.unstable_opts.mir_emit_retag } fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) { // We need an `AllCallEdges` pass before we can do any work. super::add_call_guards::AllCallEdges.run_pass(tcx, body); let basic_blocks = body.basic_blocks.as_mut(); let local_decls = &body.local_decls; let needs_retag = |place: &Place<'tcx>| { !place.has_deref() // we're not eally interested in stores to "outside" locations, they are hard to keep track of anyway && may_contain_reference(place.ty(&*local_decls, tcx).ty, /*depth*/ 3, tcx) && !local_decls[place.local].is_deref_temp() }; // PART 1 // Retag arguments at the beginning of the start block. { // Gather all arguments, skip return value. let places = local_decls.iter_enumerated().skip(1).take(body.arg_count).filter_map( |(local, decl)| { let place = Place::from(local); needs_retag(&place).then_some((place, decl.source_info)) }, ); // Emit their retags. basic_blocks[START_BLOCK].statements.splice( 0..0, places.map(|(place, source_info)| Statement { source_info, kind: StatementKind::Retag(RetagKind::FnEntry, Box::new(place)), }), ); } // PART 2 // Retag return values of functions. // We collect the return destinations because we cannot mutate while iterating. let returns = basic_blocks .iter_mut() .filter_map(|block_data| { match block_data.terminator().kind { TerminatorKind::Call { target: Some(target), destination, .. } if needs_retag(&destination) => { // Remember the return destination for later Some((block_data.terminator().source_info, destination, target)) } // `Drop` is also a call, but it doesn't return anything so we are good. TerminatorKind::Drop { .. } | TerminatorKind::DropAndReplace { .. } => None, // Not a block ending in a Call -> ignore. _ => None, } }) .collect::>(); // Now we go over the returns we collected to retag the return values. for (source_info, dest_place, dest_block) in returns { basic_blocks[dest_block].statements.insert( 0, Statement { source_info, kind: StatementKind::Retag(RetagKind::Default, Box::new(dest_place)), }, ); } // PART 3 // Add retag after assignments where data "enters" this function: the RHS is behind a deref and the LHS is not. for block_data in basic_blocks { // We want to insert statements as we iterate. To this end, we // iterate backwards using indices. for i in (0..block_data.statements.len()).rev() { let (retag_kind, place) = match block_data.statements[i].kind { // Retag after assignments of reference type. StatementKind::Assign(box (ref place, ref rvalue)) if needs_retag(place) => { let add_retag = match rvalue { // Ptr-creating operations already do their own internal retagging, no // need to also add a retag statement. Rvalue::Ref(..) | Rvalue::AddressOf(..) => false, _ => true, }; if add_retag { (RetagKind::Default, *place) } else { continue; } } // Do nothing for the rest _ => continue, }; // Insert a retag after the statement. let source_info = block_data.statements[i].source_info; block_data.statements.insert( i + 1, Statement { source_info, kind: StatementKind::Retag(retag_kind, Box::new(place)), }, ); } } } }