compiler/rustc_mir_transform/src/lint.rs - toolchain/rustc - Git at Google

 //! This pass statically detects code which has undefined behaviour or is likely to be erroneous.
 //! It can be used to locate problems in MIR building or optimizations. It assumes that all code
 //! can be executed, so it has false positives.
 use rustc_data_structures::fx::FxHashSet;
 use rustc_index::bit_set::BitSet;
 use rustc_middle::mir::visit::{PlaceContext, Visitor};
 use rustc_middle::mir::*;
 use rustc_middle::ty::TyCtxt;
 use rustc_mir_dataflow::impls::{MaybeStorageDead, MaybeStorageLive};
 use rustc_mir_dataflow::storage::always_storage_live_locals;
 use rustc_mir_dataflow::{Analysis, ResultsCursor};
 use std::borrow::Cow;

 pub fn lint_body<'tcx>(tcx: TyCtxt<'tcx>, body: &Body<'tcx>, when: String) {
     let always_live_locals = &always_storage_live_locals(body);

     let maybe_storage_live = MaybeStorageLive::new(Cow::Borrowed(always_live_locals))
         .into_engine(tcx, body)
         .iterate_to_fixpoint()
         .into_results_cursor(body);

     let maybe_storage_dead = MaybeStorageDead::new(Cow::Borrowed(always_live_locals))
         .into_engine(tcx, body)
         .iterate_to_fixpoint()
         .into_results_cursor(body);

     let mut lint = Lint {
         tcx,
         when,
         body,
         is_fn_like: tcx.def_kind(body.source.def_id()).is_fn_like(),
         always_live_locals,
         maybe_storage_live,
         maybe_storage_dead,
         places: Default::default(),
     };
     for (bb, data) in traversal::reachable(body) {
         lint.visit_basic_block_data(bb, data);
     }
 }

 struct Lint<'a, 'tcx> {
     tcx: TyCtxt<'tcx>,
     when: String,
     body: &'a Body<'tcx>,
     is_fn_like: bool,
     always_live_locals: &'a BitSet<Local>,
     maybe_storage_live: ResultsCursor<'a, 'tcx, MaybeStorageLive<'a>>,
     maybe_storage_dead: ResultsCursor<'a, 'tcx, MaybeStorageDead<'a>>,
     places: FxHashSet<PlaceRef<'tcx>>,
 }

 impl<'a, 'tcx> Lint<'a, 'tcx> {
     #[track_caller]
     fn fail(&self, location: Location, msg: impl AsRef<str>) {
         let span = self.body.source_info(location).span;
         self.tcx.sess.dcx().span_delayed_bug(
             span,
             format!(
                 "broken MIR in {:?} ({}) at {:?}:\n{}",
                 self.body.source.instance,
                 self.when,
                 location,
                 msg.as_ref()
             ),
         );
     }
 }

 impl<'a, 'tcx> Visitor<'tcx> for Lint<'a, 'tcx> {
     fn visit_local(&mut self, local: Local, context: PlaceContext, location: Location) {
         if context.is_use() {
             self.maybe_storage_dead.seek_after_primary_effect(location);
             if self.maybe_storage_dead.get().contains(local) {
                 self.fail(location, format!("use of local {local:?}, which has no storage here"));
             }
         }
     }

     fn visit_statement(&mut self, statement: &Statement<'tcx>, location: Location) {
         match &statement.kind {
             StatementKind::Assign(box (dest, rvalue)) => {
                 if let Rvalue::Use(Operand::Copy(src) | Operand::Move(src)) = rvalue {
                     // The sides of an assignment must not alias. Currently this just checks whether
                     // the places are identical.
                     if dest == src {
                         self.fail(
                             location,
                             "encountered `Assign` statement with overlapping memory",
                         );
                     }
                 }
             }
             StatementKind::StorageLive(local) => {
                 self.maybe_storage_live.seek_before_primary_effect(location);
                 if self.maybe_storage_live.get().contains(*local) {
                     self.fail(
                         location,
                         format!("StorageLive({local:?}) which already has storage here"),
                     );
                 }
             }
             _ => {}
         }

         self.super_statement(statement, location);
     }

     fn visit_terminator(&mut self, terminator: &Terminator<'tcx>, location: Location) {
         match &terminator.kind {
             TerminatorKind::Return => {
                 if self.is_fn_like {
                     self.maybe_storage_live.seek_after_primary_effect(location);
                     for local in self.maybe_storage_live.get().iter() {
                         if !self.always_live_locals.contains(local) {
                             self.fail(
                                 location,
                                 format!(
                                     "local {local:?} still has storage when returning from function"
                                 ),
                             );
                         }
                     }
                 }
             }
             TerminatorKind::Call { args, destination, .. } => {
                 // The call destination place and Operand::Move place used as an argument might be
                 // passed by a reference to the callee. Consequently they must be non-overlapping.
                 // Currently this simply checks for duplicate places.
                 self.places.clear();
                 self.places.insert(destination.as_ref());
                 let mut has_duplicates = false;
                 for arg in args {
                     if let Operand::Move(place) = &arg.node {
                         has_duplicates |= !self.places.insert(place.as_ref());
                     }
                 }
                 if has_duplicates {
                     self.fail(
                         location,
                         format!(
                             "encountered overlapping memory in `Move` arguments to `Call` terminator: {:?}",
                             terminator.kind,
                         ),
                     );
                 }
             }
             _ => {}
         }

         self.super_terminator(terminator, location);
     }
 }
	//! This pass statically detects code which has undefined behaviour or is likely to be erroneous.
	//! It can be used to locate problems in MIR building or optimizations. It assumes that all code
	//! can be executed, so it has false positives.
	use rustc_data_structures::fx::FxHashSet;
	use rustc_index::bit_set::BitSet;
	use rustc_middle::mir::visit::{PlaceContext, Visitor};
	use rustc_middle::mir::*;
	use rustc_middle::ty::TyCtxt;
	use rustc_mir_dataflow::impls::{MaybeStorageDead, MaybeStorageLive};
	use rustc_mir_dataflow::storage::always_storage_live_locals;
	use rustc_mir_dataflow::{Analysis, ResultsCursor};
	use std::borrow::Cow;

	pub fn lint_body<'tcx>(tcx: TyCtxt<'tcx>, body: &Body<'tcx>, when: String) {
	let always_live_locals = &always_storage_live_locals(body);

	let maybe_storage_live = MaybeStorageLive::new(Cow::Borrowed(always_live_locals))
	.into_engine(tcx, body)
	.iterate_to_fixpoint()
	.into_results_cursor(body);

	let maybe_storage_dead = MaybeStorageDead::new(Cow::Borrowed(always_live_locals))
	.into_engine(tcx, body)
	.iterate_to_fixpoint()
	.into_results_cursor(body);

	let mut lint = Lint {
	tcx,
	when,
	body,
	is_fn_like: tcx.def_kind(body.source.def_id()).is_fn_like(),
	always_live_locals,
	maybe_storage_live,
	maybe_storage_dead,
	places: Default::default(),
	};
	for (bb, data) in traversal::reachable(body) {
	lint.visit_basic_block_data(bb, data);
	}
	}

	struct Lint<'a, 'tcx> {
	tcx: TyCtxt<'tcx>,
	when: String,
	body: &'a Body<'tcx>,
	is_fn_like: bool,
	always_live_locals: &'a BitSet<Local>,
	maybe_storage_live: ResultsCursor<'a, 'tcx, MaybeStorageLive<'a>>,
	maybe_storage_dead: ResultsCursor<'a, 'tcx, MaybeStorageDead<'a>>,
	places: FxHashSet<PlaceRef<'tcx>>,
	}

	impl<'a, 'tcx> Lint<'a, 'tcx> {
	#[track_caller]
	fn fail(&self, location: Location, msg: impl AsRef<str>) {
	let span = self.body.source_info(location).span;
	self.tcx.sess.dcx().span_delayed_bug(
	span,
	format!(
	"broken MIR in {:?} ({}) at {:?}:\n{}",
	self.body.source.instance,
	self.when,
	location,
	msg.as_ref()
	),
	);
	}
	}

	impl<'a, 'tcx> Visitor<'tcx> for Lint<'a, 'tcx> {
	fn visit_local(&mut self, local: Local, context: PlaceContext, location: Location) {
	if context.is_use() {
	self.maybe_storage_dead.seek_after_primary_effect(location);
	if self.maybe_storage_dead.get().contains(local) {
	self.fail(location, format!("use of local {local:?}, which has no storage here"));
	}
	}
	}

	fn visit_statement(&mut self, statement: &Statement<'tcx>, location: Location) {
	match &statement.kind {
	StatementKind::Assign(box (dest, rvalue)) => {
	if let Rvalue::Use(Operand::Copy(src) \| Operand::Move(src)) = rvalue {
	// The sides of an assignment must not alias. Currently this just checks whether
	// the places are identical.
	if dest == src {
	self.fail(
	location,
	"encountered `Assign` statement with overlapping memory",
	);
	}
	}
	}
	StatementKind::StorageLive(local) => {
	self.maybe_storage_live.seek_before_primary_effect(location);
	if self.maybe_storage_live.get().contains(*local) {
	self.fail(
	location,
	format!("StorageLive({local:?}) which already has storage here"),
	);
	}
	}
	_ => {}
	}

	self.super_statement(statement, location);
	}

	fn visit_terminator(&mut self, terminator: &Terminator<'tcx>, location: Location) {
	match &terminator.kind {
	TerminatorKind::Return => {
	if self.is_fn_like {
	self.maybe_storage_live.seek_after_primary_effect(location);
	for local in self.maybe_storage_live.get().iter() {
	if !self.always_live_locals.contains(local) {
	self.fail(
	location,
	format!(
	"local {local:?} still has storage when returning from function"
	),
	);
	}
	}
	}
	}
	TerminatorKind::Call { args, destination, .. } => {
	// The call destination place and Operand::Move place used as an argument might be
	// passed by a reference to the callee. Consequently they must be non-overlapping.
	// Currently this simply checks for duplicate places.
	self.places.clear();
	self.places.insert(destination.as_ref());
	let mut has_duplicates = false;
	for arg in args {
	if let Operand::Move(place) = &arg.node {
	has_duplicates \|= !self.places.insert(place.as_ref());
	}
	}
	if has_duplicates {
	self.fail(
	location,
	format!(
	"encountered overlapping memory in `Move` arguments to `Call` terminator: {:?}",
	terminator.kind,
	),
	);
	}
	}
	_ => {}
	}

	self.super_terminator(terminator, location);
	}
	}