src/librustc_mir/transform/rustc_peek.rs - third_party/rust - Git at Google

 use rustc_target::spec::abi::{Abi};
 use syntax::ast;
 use syntax::symbol::sym;
 use syntax_pos::Span;

 use rustc::ty::{self, TyCtxt, Ty};
 use rustc::hir::def_id::DefId;
 use rustc::mir::{self, Body, BodyAndCache, Location, Local};
 use rustc_index::bit_set::BitSet;
 use crate::transform::{MirPass, MirSource};

 use crate::dataflow::{do_dataflow, DebugFormatted};
 use crate::dataflow::MoveDataParamEnv;
 use crate::dataflow::BitDenotation;
 use crate::dataflow::DataflowResults;
 use crate::dataflow::DataflowResultsCursor;
 use crate::dataflow::{
     DefinitelyInitializedPlaces, MaybeInitializedPlaces, MaybeUninitializedPlaces
 };
 use crate::dataflow::IndirectlyMutableLocals;
 use crate::dataflow::move_paths::{MovePathIndex, LookupResult};
 use crate::dataflow::move_paths::{HasMoveData, MoveData};

 use crate::dataflow::has_rustc_mir_with;

 pub struct SanityCheck;

 impl<'tcx> MirPass<'tcx> for SanityCheck {
     fn run_pass(&self, tcx: TyCtxt<'tcx>, src: MirSource<'tcx>, body: &mut BodyAndCache<'tcx>) {
         let def_id = src.def_id();
         if !tcx.has_attr(def_id, sym::rustc_mir) {
             debug!("skipping rustc_peek::SanityCheck on {}", tcx.def_path_str(def_id));
             return;
         } else {
             debug!("running rustc_peek::SanityCheck on {}", tcx.def_path_str(def_id));
         }

         let attributes = tcx.get_attrs(def_id);
         let param_env = tcx.param_env(def_id);
         let move_data = MoveData::gather_moves(body, tcx).unwrap();
         let mdpe = MoveDataParamEnv { move_data: move_data, param_env: param_env };
         let dead_unwinds = BitSet::new_empty(body.basic_blocks().len());
         let flow_inits =
             do_dataflow(tcx, body, def_id, &attributes, &dead_unwinds,
                         MaybeInitializedPlaces::new(tcx, body, &mdpe),
                         |bd, i| DebugFormatted::new(&bd.move_data().move_paths[i]));
         let flow_uninits =
             do_dataflow(tcx, body, def_id, &attributes, &dead_unwinds,
                         MaybeUninitializedPlaces::new(tcx, body, &mdpe),
                         |bd, i| DebugFormatted::new(&bd.move_data().move_paths[i]));
         let flow_def_inits =
             do_dataflow(tcx, body, def_id, &attributes, &dead_unwinds,
                         DefinitelyInitializedPlaces::new(tcx, body, &mdpe),
                         |bd, i| DebugFormatted::new(&bd.move_data().move_paths[i]));
         let flow_indirectly_mut =
             do_dataflow(tcx, body, def_id, &attributes, &dead_unwinds,
                         IndirectlyMutableLocals::new(tcx, body, param_env),
                         |_, i| DebugFormatted::new(&i));

         if has_rustc_mir_with(&attributes, sym::rustc_peek_maybe_init).is_some() {
             sanity_check_via_rustc_peek(tcx, body, def_id, &attributes, &flow_inits);
         }
         if has_rustc_mir_with(&attributes, sym::rustc_peek_maybe_uninit).is_some() {
             sanity_check_via_rustc_peek(tcx, body, def_id, &attributes, &flow_uninits);
         }
         if has_rustc_mir_with(&attributes, sym::rustc_peek_definite_init).is_some() {
             sanity_check_via_rustc_peek(
                 tcx,
                 body,
                 def_id,
                 &attributes,
                 &flow_def_inits);
         }
         if has_rustc_mir_with(&attributes, sym::rustc_peek_indirectly_mutable).is_some() {
             sanity_check_via_rustc_peek(
                 tcx,
                 body,
                 def_id,
                 &attributes,
                 &flow_indirectly_mut);
         }
         if has_rustc_mir_with(&attributes, sym::stop_after_dataflow).is_some() {
             tcx.sess.fatal("stop_after_dataflow ended compilation");
         }
     }
 }

 /// This function scans `mir` for all calls to the intrinsic
 /// `rustc_peek` that have the expression form `rustc_peek(&expr)`.
 ///
 /// For each such call, determines what the dataflow bit-state is for
 /// the L-value corresponding to `expr`; if the bit-state is a 1, then
 /// that call to `rustc_peek` is ignored by the sanity check. If the
 /// bit-state is a 0, then this pass emits a error message saying
 /// "rustc_peek: bit not set".
 ///
 /// The intention is that one can write unit tests for dataflow by
 /// putting code into a compile-fail test and using `rustc_peek` to
 /// make observations about the results of dataflow static analyses.
 ///
 /// (If there are any calls to `rustc_peek` that do not match the
 /// expression form above, then that emits an error as well, but those
 /// errors are not intended to be used for unit tests.)
 pub fn sanity_check_via_rustc_peek<'tcx, O>(
     tcx: TyCtxt<'tcx>,
     body: &Body<'tcx>,
     def_id: DefId,
     _attributes: &[ast::Attribute],
     results: &DataflowResults<'tcx, O>,
 ) where O: RustcPeekAt<'tcx> {
     debug!("sanity_check_via_rustc_peek def_id: {:?}", def_id);

     let mut cursor = DataflowResultsCursor::new(results, body);

     let peek_calls = body
             .basic_blocks()
             .iter_enumerated()
             .filter_map(|(bb, block_data)| {
                 PeekCall::from_terminator(tcx, block_data.terminator())
                     .map(|call| (bb, block_data, call))
             });

     for (bb, block_data, call) in peek_calls {
         // Look for a sequence like the following to indicate that we should be peeking at `_1`:
         //    _2 = &_1;
         //    rustc_peek(_2);
         //
         //    /* or */
         //
         //    _2 = _1;
         //    rustc_peek(_2);
         let (statement_index, peek_rval) = block_data
             .statements
             .iter()
             .enumerate()
             .filter_map(|(i, stmt)| value_assigned_to_local(stmt, call.arg).map(|rval| (i, rval)))
             .next()
             .expect("call to rustc_peek should be preceded by \
                     assignment to temporary holding its argument");

         match (call.kind, peek_rval) {
             | (PeekCallKind::ByRef, mir::Rvalue::Ref(_, _, place))
             | (PeekCallKind::ByVal, mir::Rvalue::Use(mir::Operand::Move(place)))
             | (PeekCallKind::ByVal, mir::Rvalue::Use(mir::Operand::Copy(place)))
             => {
                 let loc = Location { block: bb, statement_index };
                 cursor.seek(loc);
                 let state = cursor.get();
                 results.operator().peek_at(tcx, place, state, call);
             }

             _ => {
                 let msg = "rustc_peek: argument expression \
                            must be either `place` or `&place`";
                 tcx.sess.span_err(call.span, msg);
             }
         }
     }
 }

 /// If `stmt` is an assignment where the LHS is the given local (with no projections), returns the
 /// RHS of the assignment.
 fn value_assigned_to_local<'a, 'tcx>(
     stmt: &'a mir::Statement<'tcx>,
     local: Local,
 ) -> Option<&'a mir::Rvalue<'tcx>> {
     if let mir::StatementKind::Assign(box (place, rvalue)) = &stmt.kind {
         if let Some(l) = place.as_local() {
             if local == l {
                 return Some(&*rvalue);
             }
         }
     }

     None
 }

 #[derive(Clone, Copy, Debug)]
 enum PeekCallKind {
     ByVal,
     ByRef,
 }

 impl PeekCallKind {
     fn from_arg_ty(arg: Ty<'_>) -> Self {
         match arg.kind {
             ty::Ref(_, _, _) => PeekCallKind::ByRef,
             _ => PeekCallKind::ByVal,
         }
     }
 }

 #[derive(Clone, Copy, Debug)]
 pub struct PeekCall {
     arg: Local,
     kind: PeekCallKind,
     span: Span,
 }

 impl PeekCall {
     fn from_terminator<'tcx>(
         tcx: TyCtxt<'tcx>,
         terminator: &mir::Terminator<'tcx>,
     ) -> Option<Self> {
         use mir::Operand;

         let span = terminator.source_info.span;
         if let mir::TerminatorKind::Call { func: Operand::Constant(func), args, .. } =
             &terminator.kind
         {
             if let ty::FnDef(def_id, substs) = func.literal.ty.kind {
                 let sig = tcx.fn_sig(def_id);
                 let name = tcx.item_name(def_id);
                 if sig.abi() != Abi::RustIntrinsic || name != sym::rustc_peek {
                     return None;
                 }

                 assert_eq!(args.len(), 1);
                 let kind = PeekCallKind::from_arg_ty(substs.type_at(0));
                 let arg = match &args[0] {
                     Operand::Copy(place) | Operand::Move(place) => {
                         if let Some(local) = place.as_local() {
                             local
                         } else {
                             tcx.sess.diagnostic().span_err(
                                 span,
                                 "dataflow::sanity_check cannot feed a non-temp to rustc_peek.",
                             );
                             return None;
                         }
                     }
                     _ => {
                         tcx.sess.diagnostic().span_err(
                             span,
                             "dataflow::sanity_check cannot feed a non-temp to rustc_peek.",
                         );
                         return None;
                     }
                 };

                 return Some(PeekCall {
                     arg,
                     kind,
                     span,
                 });
             }
         }

         None
     }
 }

 pub trait RustcPeekAt<'tcx>: BitDenotation<'tcx> {
     fn peek_at(
         &self,
         tcx: TyCtxt<'tcx>,
         place: &mir::Place<'tcx>,
         flow_state: &BitSet<Self::Idx>,
         call: PeekCall,
     );
 }

 impl<'tcx, O> RustcPeekAt<'tcx> for O
     where O: BitDenotation<'tcx, Idx = MovePathIndex> + HasMoveData<'tcx>,
 {
     fn peek_at(
         &self,
         tcx: TyCtxt<'tcx>,
         place: &mir::Place<'tcx>,
         flow_state: &BitSet<Self::Idx>,
         call: PeekCall,
     ) {
         match self.move_data().rev_lookup.find(place.as_ref()) {
             LookupResult::Exact(peek_mpi) => {
                 let bit_state = flow_state.contains(peek_mpi);
                 debug!("rustc_peek({:?} = &{:?}) bit_state: {}",
                        call.arg, place, bit_state);
                 if !bit_state {
                     tcx.sess.span_err(call.span, "rustc_peek: bit not set");
                 }
             }

             LookupResult::Parent(..) => {
                 tcx.sess.span_err(call.span, "rustc_peek: argument untracked");
             }
         }
     }
 }

 impl<'tcx> RustcPeekAt<'tcx> for IndirectlyMutableLocals<'_, 'tcx> {
     fn peek_at(
         &self,
         tcx: TyCtxt<'tcx>,
         place: &mir::Place<'tcx>,
         flow_state: &BitSet<Local>,
         call: PeekCall,
     ) {
         warn!("peek_at: place={:?}", place);
         let local = if let Some(l) = place.as_local() {
             l
         } else {
             tcx.sess.span_err(call.span, "rustc_peek: argument was not a local");
             return;
         };

         if !flow_state.contains(local) {
             tcx.sess.span_err(call.span, "rustc_peek: bit not set");
         }
     }
 }
	use rustc_target::spec::abi::{Abi};
	use syntax::ast;
	use syntax::symbol::sym;
	use syntax_pos::Span;

	use rustc::ty::{self, TyCtxt, Ty};
	use rustc::hir::def_id::DefId;
	use rustc::mir::{self, Body, BodyAndCache, Location, Local};
	use rustc_index::bit_set::BitSet;
	use crate::transform::{MirPass, MirSource};

	use crate::dataflow::{do_dataflow, DebugFormatted};
	use crate::dataflow::MoveDataParamEnv;
	use crate::dataflow::BitDenotation;
	use crate::dataflow::DataflowResults;
	use crate::dataflow::DataflowResultsCursor;
	use crate::dataflow::{
	DefinitelyInitializedPlaces, MaybeInitializedPlaces, MaybeUninitializedPlaces
	};
	use crate::dataflow::IndirectlyMutableLocals;
	use crate::dataflow::move_paths::{MovePathIndex, LookupResult};
	use crate::dataflow::move_paths::{HasMoveData, MoveData};

	use crate::dataflow::has_rustc_mir_with;

	pub struct SanityCheck;

	impl<'tcx> MirPass<'tcx> for SanityCheck {
	fn run_pass(&self, tcx: TyCtxt<'tcx>, src: MirSource<'tcx>, body: &mut BodyAndCache<'tcx>) {
	let def_id = src.def_id();
	if !tcx.has_attr(def_id, sym::rustc_mir) {
	debug!("skipping rustc_peek::SanityCheck on {}", tcx.def_path_str(def_id));
	return;
	} else {
	debug!("running rustc_peek::SanityCheck on {}", tcx.def_path_str(def_id));
	}

	let attributes = tcx.get_attrs(def_id);
	let param_env = tcx.param_env(def_id);
	let move_data = MoveData::gather_moves(body, tcx).unwrap();
	let mdpe = MoveDataParamEnv { move_data: move_data, param_env: param_env };
	let dead_unwinds = BitSet::new_empty(body.basic_blocks().len());
	let flow_inits =
	do_dataflow(tcx, body, def_id, &attributes, &dead_unwinds,
	MaybeInitializedPlaces::new(tcx, body, &mdpe),
	\|bd, i\| DebugFormatted::new(&bd.move_data().move_paths[i]));
	let flow_uninits =
	do_dataflow(tcx, body, def_id, &attributes, &dead_unwinds,
	MaybeUninitializedPlaces::new(tcx, body, &mdpe),
	\|bd, i\| DebugFormatted::new(&bd.move_data().move_paths[i]));
	let flow_def_inits =
	do_dataflow(tcx, body, def_id, &attributes, &dead_unwinds,
	DefinitelyInitializedPlaces::new(tcx, body, &mdpe),
	\|bd, i\| DebugFormatted::new(&bd.move_data().move_paths[i]));
	let flow_indirectly_mut =
	do_dataflow(tcx, body, def_id, &attributes, &dead_unwinds,
	IndirectlyMutableLocals::new(tcx, body, param_env),
	\|_, i\| DebugFormatted::new(&i));

	if has_rustc_mir_with(&attributes, sym::rustc_peek_maybe_init).is_some() {
	sanity_check_via_rustc_peek(tcx, body, def_id, &attributes, &flow_inits);
	}
	if has_rustc_mir_with(&attributes, sym::rustc_peek_maybe_uninit).is_some() {
	sanity_check_via_rustc_peek(tcx, body, def_id, &attributes, &flow_uninits);
	}
	if has_rustc_mir_with(&attributes, sym::rustc_peek_definite_init).is_some() {
	sanity_check_via_rustc_peek(
	tcx,
	body,
	def_id,
	&attributes,
	&flow_def_inits);
	}
	if has_rustc_mir_with(&attributes, sym::rustc_peek_indirectly_mutable).is_some() {
	sanity_check_via_rustc_peek(
	tcx,
	body,
	def_id,
	&attributes,
	&flow_indirectly_mut);
	}
	if has_rustc_mir_with(&attributes, sym::stop_after_dataflow).is_some() {
	tcx.sess.fatal("stop_after_dataflow ended compilation");
	}
	}
	}

	/// This function scans `mir` for all calls to the intrinsic
	/// `rustc_peek` that have the expression form `rustc_peek(&expr)`.
	///
	/// For each such call, determines what the dataflow bit-state is for
	/// the L-value corresponding to `expr`; if the bit-state is a 1, then
	/// that call to `rustc_peek` is ignored by the sanity check. If the
	/// bit-state is a 0, then this pass emits a error message saying
	/// "rustc_peek: bit not set".
	///
	/// The intention is that one can write unit tests for dataflow by
	/// putting code into a compile-fail test and using `rustc_peek` to
	/// make observations about the results of dataflow static analyses.
	///
	/// (If there are any calls to `rustc_peek` that do not match the
	/// expression form above, then that emits an error as well, but those
	/// errors are not intended to be used for unit tests.)
	pub fn sanity_check_via_rustc_peek<'tcx, O>(
	tcx: TyCtxt<'tcx>,
	body: &Body<'tcx>,
	def_id: DefId,
	_attributes: &[ast::Attribute],
	results: &DataflowResults<'tcx, O>,
	) where O: RustcPeekAt<'tcx> {
	debug!("sanity_check_via_rustc_peek def_id: {:?}", def_id);

	let mut cursor = DataflowResultsCursor::new(results, body);

	let peek_calls = body
	.basic_blocks()
	.iter_enumerated()
	.filter_map(\|(bb, block_data)\| {
	PeekCall::from_terminator(tcx, block_data.terminator())
	.map(\|call\| (bb, block_data, call))
	});

	for (bb, block_data, call) in peek_calls {
	// Look for a sequence like the following to indicate that we should be peeking at `_1`:
	// _2 = &_1;
	// rustc_peek(_2);
	//
	// /* or */
	//
	// _2 = _1;
	// rustc_peek(_2);
	let (statement_index, peek_rval) = block_data
	.statements
	.iter()
	.enumerate()
	.filter_map(\|(i, stmt)\| value_assigned_to_local(stmt, call.arg).map(\|rval\| (i, rval)))
	.next()
	.expect("call to rustc_peek should be preceded by \
	assignment to temporary holding its argument");

	match (call.kind, peek_rval) {
	\| (PeekCallKind::ByRef, mir::Rvalue::Ref(_, _, place))
	\| (PeekCallKind::ByVal, mir::Rvalue::Use(mir::Operand::Move(place)))
	\| (PeekCallKind::ByVal, mir::Rvalue::Use(mir::Operand::Copy(place)))
	=> {
	let loc = Location { block: bb, statement_index };
	cursor.seek(loc);
	let state = cursor.get();
	results.operator().peek_at(tcx, place, state, call);
	}

	_ => {
	let msg = "rustc_peek: argument expression \
	must be either `place` or `&place`";
	tcx.sess.span_err(call.span, msg);
	}
	}
	}
	}

	/// If `stmt` is an assignment where the LHS is the given local (with no projections), returns the
	/// RHS of the assignment.
	fn value_assigned_to_local<'a, 'tcx>(
	stmt: &'a mir::Statement<'tcx>,
	local: Local,
	) -> Option<&'a mir::Rvalue<'tcx>> {
	if let mir::StatementKind::Assign(box (place, rvalue)) = &stmt.kind {
	if let Some(l) = place.as_local() {
	if local == l {
	return Some(&*rvalue);
	}
	}
	}

	None
	}

	#[derive(Clone, Copy, Debug)]
	enum PeekCallKind {
	ByVal,
	ByRef,
	}

	impl PeekCallKind {
	fn from_arg_ty(arg: Ty<'_>) -> Self {
	match arg.kind {
	ty::Ref(_, _, _) => PeekCallKind::ByRef,
	_ => PeekCallKind::ByVal,
	}
	}
	}

	#[derive(Clone, Copy, Debug)]
	pub struct PeekCall {
	arg: Local,
	kind: PeekCallKind,
	span: Span,
	}

	impl PeekCall {
	fn from_terminator<'tcx>(
	tcx: TyCtxt<'tcx>,
	terminator: &mir::Terminator<'tcx>,
	) -> Option<Self> {
	use mir::Operand;

	let span = terminator.source_info.span;
	if let mir::TerminatorKind::Call { func: Operand::Constant(func), args, .. } =
	&terminator.kind
	{
	if let ty::FnDef(def_id, substs) = func.literal.ty.kind {
	let sig = tcx.fn_sig(def_id);
	let name = tcx.item_name(def_id);
	if sig.abi() != Abi::RustIntrinsic \|\| name != sym::rustc_peek {
	return None;
	}

	assert_eq!(args.len(), 1);
	let kind = PeekCallKind::from_arg_ty(substs.type_at(0));
	let arg = match &args[0] {
	Operand::Copy(place) \| Operand::Move(place) => {
	if let Some(local) = place.as_local() {
	local
	} else {
	tcx.sess.diagnostic().span_err(
	span,
	"dataflow::sanity_check cannot feed a non-temp to rustc_peek.",
	);
	return None;
	}
	}
	_ => {
	tcx.sess.diagnostic().span_err(
	span,
	"dataflow::sanity_check cannot feed a non-temp to rustc_peek.",
	);
	return None;
	}
	};

	return Some(PeekCall {
	arg,
	kind,
	span,
	});
	}
	}

	None
	}
	}

	pub trait RustcPeekAt<'tcx>: BitDenotation<'tcx> {
	fn peek_at(
	&self,
	tcx: TyCtxt<'tcx>,
	place: &mir::Place<'tcx>,
	flow_state: &BitSet<Self::Idx>,
	call: PeekCall,
	);
	}

	impl<'tcx, O> RustcPeekAt<'tcx> for O
	where O: BitDenotation<'tcx, Idx = MovePathIndex> + HasMoveData<'tcx>,
	{
	fn peek_at(
	&self,
	tcx: TyCtxt<'tcx>,
	place: &mir::Place<'tcx>,
	flow_state: &BitSet<Self::Idx>,
	call: PeekCall,
	) {
	match self.move_data().rev_lookup.find(place.as_ref()) {
	LookupResult::Exact(peek_mpi) => {
	let bit_state = flow_state.contains(peek_mpi);
	debug!("rustc_peek({:?} = &{:?}) bit_state: {}",
	call.arg, place, bit_state);
	if !bit_state {
	tcx.sess.span_err(call.span, "rustc_peek: bit not set");
	}
	}

	LookupResult::Parent(..) => {
	tcx.sess.span_err(call.span, "rustc_peek: argument untracked");
	}
	}
	}
	}

	impl<'tcx> RustcPeekAt<'tcx> for IndirectlyMutableLocals<'_, 'tcx> {
	fn peek_at(
	&self,
	tcx: TyCtxt<'tcx>,
	place: &mir::Place<'tcx>,
	flow_state: &BitSet<Local>,
	call: PeekCall,
	) {
	warn!("peek_at: place={:?}", place);
	let local = if let Some(l) = place.as_local() {
	l
	} else {
	tcx.sess.span_err(call.span, "rustc_peek: argument was not a local");
	return;
	};

	if !flow_state.contains(local) {
	tcx.sess.span_err(call.span, "rustc_peek: bit not set");
	}
	}
	}