use rustc::ty; use rustc::mir; use super::*; use helpers::EvalContextExt as HelperEvalContextExt; pub trait EvalContextExt<'tcx> { fn ptr_op( &self, bin_op: mir::BinOp, left: PrimVal, left_ty: ty::Ty<'tcx>, right: PrimVal, right_ty: ty::Ty<'tcx>, ) -> EvalResult<'tcx, Option<(PrimVal, bool)>>; fn ptr_int_arithmetic( &self, bin_op: mir::BinOp, left: MemoryPointer, right: i128, signed: bool, ) -> EvalResult<'tcx, (PrimVal, bool)>; } impl<'a, 'tcx> EvalContextExt<'tcx> for EvalContext<'a, 'tcx, super::Evaluator<'tcx>> { fn ptr_op( &self, bin_op: mir::BinOp, left: PrimVal, left_ty: ty::Ty<'tcx>, right: PrimVal, right_ty: ty::Ty<'tcx>, ) -> EvalResult<'tcx, Option<(PrimVal, bool)>> { use rustc::mir::interpret::PrimValKind::*; use rustc::mir::BinOp::*; let usize = PrimValKind::from_uint_size(self.memory.pointer_size()); let isize = PrimValKind::from_int_size(self.memory.pointer_size()); let left_kind = self.ty_to_primval_kind(left_ty)?; let right_kind = self.ty_to_primval_kind(right_ty)?; match bin_op { Offset if left_kind == Ptr && right_kind == usize => { let pointee_ty = left_ty .builtin_deref(true, ty::LvaluePreference::NoPreference) .expect("Offset called on non-ptr type") .ty; let ptr = self.pointer_offset( left.into(), pointee_ty, right.to_bytes()? as i64, )?; Ok(Some((ptr.into_inner_primval(), false))) } // These work on anything Eq if left_kind == right_kind => { let result = match (left, right) { (PrimVal::Bytes(left), PrimVal::Bytes(right)) => left == right, (PrimVal::Ptr(left), PrimVal::Ptr(right)) => left == right, (PrimVal::Undef, _) | (_, PrimVal::Undef) => return err!(ReadUndefBytes), _ => false, }; Ok(Some((PrimVal::from_bool(result), false))) } Ne if left_kind == right_kind => { let result = match (left, right) { (PrimVal::Bytes(left), PrimVal::Bytes(right)) => left != right, (PrimVal::Ptr(left), PrimVal::Ptr(right)) => left != right, (PrimVal::Undef, _) | (_, PrimVal::Undef) => return err!(ReadUndefBytes), _ => true, }; Ok(Some((PrimVal::from_bool(result), false))) } // These need both pointers to be in the same allocation Lt | Le | Gt | Ge | Sub if left_kind == right_kind && (left_kind == Ptr || left_kind == usize || left_kind == isize) && left.is_ptr() && right.is_ptr() => { let left = left.to_ptr()?; let right = right.to_ptr()?; if left.alloc_id == right.alloc_id { let res = match bin_op { Lt => left.offset < right.offset, Le => left.offset <= right.offset, Gt => left.offset > right.offset, Ge => left.offset >= right.offset, Sub => { return self.binary_op( Sub, PrimVal::Bytes(left.offset as u128), self.tcx.types.usize, PrimVal::Bytes(right.offset as u128), self.tcx.types.usize, ).map(Some) } _ => bug!("We already established it has to be one of these operators."), }; Ok(Some((PrimVal::from_bool(res), false))) } else { // Both are pointers, but from different allocations. err!(InvalidPointerMath) } } // These work if one operand is a pointer, the other an integer Add | BitAnd | Sub if left_kind == right_kind && (left_kind == usize || left_kind == isize) && left.is_ptr() && right.is_bytes() => { // Cast to i128 is fine as we checked the kind to be ptr-sized self.ptr_int_arithmetic( bin_op, left.to_ptr()?, right.to_bytes()? as i128, left_kind == isize, ).map(Some) } Add | BitAnd if left_kind == right_kind && (left_kind == usize || left_kind == isize) && left.is_bytes() && right.is_ptr() => { // This is a commutative operation, just swap the operands self.ptr_int_arithmetic( bin_op, right.to_ptr()?, left.to_bytes()? as i128, left_kind == isize, ).map(Some) } _ => Ok(None), } } fn ptr_int_arithmetic( &self, bin_op: mir::BinOp, left: MemoryPointer, right: i128, signed: bool, ) -> EvalResult<'tcx, (PrimVal, bool)> { use rustc::mir::BinOp::*; fn map_to_primval((res, over): (MemoryPointer, bool)) -> (PrimVal, bool) { (PrimVal::Ptr(res), over) } Ok(match bin_op { Sub => // The only way this can overflow is by underflowing, so signdeness of the right operands does not matter map_to_primval(left.overflowing_signed_offset(-right, self)), Add if signed => map_to_primval(left.overflowing_signed_offset(right, self)), Add if !signed => map_to_primval(left.overflowing_offset(right as u64, self)), BitAnd if !signed => { let base_mask : u64 = !(self.memory.get(left.alloc_id)?.align.abi() - 1); let right = right as u64; if right & base_mask == base_mask { // Case 1: The base address bits are all preserved, i.e., right is all-1 there (PrimVal::Ptr(MemoryPointer::new(left.alloc_id, left.offset & right)), false) } else if right & base_mask == 0 { // Case 2: The base address bits are all taken away, i.e., right is all-0 there (PrimVal::from_u128((left.offset & right) as u128), false) } else { return err!(ReadPointerAsBytes); } } _ => { let msg = format!("unimplemented binary op on pointer {:?}: {:?}, {:?} ({})", bin_op, left, right, if signed { "signed" } else { "unsigned" }); return err!(Unimplemented(msg)); } }) } }