rust/src/operator.rs

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use std::convert::TryFrom;
use rustc::ty::{Ty, layout::{Size, Align, LayoutOf}};
use rustc::mir;
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use crate::*;
pub trait EvalContextExt<'tcx> {
fn binary_ptr_op(
&self,
bin_op: mir::BinOp,
left: ImmTy<'tcx, Tag>,
right: ImmTy<'tcx, Tag>,
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) -> InterpResult<'tcx, (Scalar<Tag>, bool, Ty<'tcx>)>;
fn ptr_eq(
&self,
left: Scalar<Tag>,
right: Scalar<Tag>,
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) -> InterpResult<'tcx, bool>;
fn pointer_offset_inbounds(
&self,
ptr: Scalar<Tag>,
pointee_ty: Ty<'tcx>,
offset: i64,
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) -> InterpResult<'tcx, Scalar<Tag>>;
}
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impl<'mir, 'tcx> EvalContextExt<'tcx> for super::MiriEvalContext<'mir, 'tcx> {
fn binary_ptr_op(
&self,
bin_op: mir::BinOp,
left: ImmTy<'tcx, Tag>,
right: ImmTy<'tcx, Tag>,
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) -> InterpResult<'tcx, (Scalar<Tag>, bool, Ty<'tcx>)> {
use rustc::mir::BinOp::*;
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trace!("ptr_op: {:?} {:?} {:?}", *left, bin_op, *right);
Ok(match bin_op {
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Eq | Ne => {
// This supports fat pointers.
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let eq = match (*left, *right) {
(Immediate::Scalar(left), Immediate::Scalar(right)) =>
self.ptr_eq(left.not_undef()?, right.not_undef()?)?,
(Immediate::ScalarPair(left1, left2), Immediate::ScalarPair(right1, right2)) =>
self.ptr_eq(left1.not_undef()?, right1.not_undef()?)? &&
self.ptr_eq(left2.not_undef()?, right2.not_undef()?)?,
_ => bug!("Type system should not allow comparing Scalar with ScalarPair"),
};
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(Scalar::from_bool(if bin_op == Eq { eq } else { !eq }), false, self.tcx.types.bool)
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}
Lt | Le | Gt | Ge => {
// Just compare the integers.
// TODO: Do we really want to *always* do that, even when comparing two live in-bounds pointers?
let left = self.force_bits(left.to_scalar()?, left.layout.size)?;
let right = self.force_bits(right.to_scalar()?, right.layout.size)?;
let res = match bin_op {
Lt => left < right,
Le => left <= right,
Gt => left > right,
Ge => left >= right,
_ => bug!("We already established it has to be one of these operators."),
};
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(Scalar::from_bool(res), false, self.tcx.types.bool)
}
Offset => {
let pointee_ty = left.layout.ty
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.builtin_deref(true)
.expect("Offset called on non-ptr type")
.ty;
let ptr = self.pointer_offset_inbounds(
left.to_scalar()?,
pointee_ty,
right.to_scalar()?.to_isize(self)?,
)?;
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(ptr, false, left.layout.ty)
}
_ => bug!("Invalid operator on pointers: {:?}", bin_op)
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})
}
fn ptr_eq(
&self,
left: Scalar<Tag>,
right: Scalar<Tag>,
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) -> InterpResult<'tcx, bool> {
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let size = self.pointer_size();
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// Just compare the integers.
// TODO: Do we really want to *always* do that, even when comparing two live in-bounds pointers?
let left = self.force_bits(left, size)?;
let right = self.force_bits(right, size)?;
Ok(left == right)
}
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/// Raises an error if the offset moves the pointer outside of its allocation.
/// For integers, we consider each of them their own tiny allocation of size 0,
/// so offset-by-0 is okay for them -- except for NULL, which we rule out entirely.
fn pointer_offset_inbounds(
&self,
ptr: Scalar<Tag>,
pointee_ty: Ty<'tcx>,
offset: i64,
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) -> InterpResult<'tcx, Scalar<Tag>> {
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let pointee_size = i64::try_from(self.layout_of(pointee_ty)?.size.bytes()).unwrap();
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let offset = offset
.checked_mul(pointee_size)
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.ok_or_else(|| err_panic!(Overflow(mir::BinOp::Mul)))?;
// We do this forst, to rule out overflows.
let offset_ptr = ptr.ptr_signed_offset(offset, self)?;
// What we need to check is that starting at `ptr`,
// we could do an access of size `offset`. Alignment does not matter.
self.memory.check_ptr_access(
ptr,
Size::from_bytes(u64::try_from(offset).unwrap()),
Align::from_bytes(1).unwrap(),
)?;
// That's it!
Ok(offset_ptr)
}
}