rust/src/shims/backtrace.rs

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use crate::*;
use rustc_ast::ast::Mutability;
use rustc_middle::ty::layout::LayoutOf as _;
use rustc_middle::ty::{self, Instance};
use rustc_span::{BytePos, Loc, Symbol};
use rustc_target::{abi::Size, spec::abi::Abi};
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use std::convert::TryInto as _;
impl<'mir, 'tcx: 'mir> EvalContextExt<'mir, 'tcx> for crate::MiriEvalContext<'mir, 'tcx> {}
pub trait EvalContextExt<'mir, 'tcx: 'mir>: crate::MiriEvalContextExt<'mir, 'tcx> {
fn handle_miri_backtrace_size(
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&mut self,
abi: Abi,
link_name: Symbol,
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args: &[OpTy<'tcx, Tag>],
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dest: &PlaceTy<'tcx, Tag>,
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) -> InterpResult<'tcx> {
let this = self.eval_context_mut();
let &[ref flags] = this.check_shim(abi, Abi::Rust, link_name, args)?;
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let flags = this.read_scalar(flags)?.to_u64()?;
if flags != 0 {
throw_unsup_format!("unknown `miri_backtrace_size` flags {}", flags);
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}
let frame_count = this.active_thread_stack().len();
this.write_scalar(Scalar::from_machine_usize(frame_count.try_into().unwrap(), this), dest)
}
fn handle_miri_get_backtrace(
&mut self,
abi: Abi,
link_name: Symbol,
args: &[OpTy<'tcx, Tag>],
dest: &PlaceTy<'tcx, Tag>,
) -> InterpResult<'tcx> {
let this = self.eval_context_mut();
let tcx = this.tcx;
let flags = if let Some(flags_op) = args.get(0) {
this.read_scalar(flags_op)?.to_u64()?
} else {
throw_ub_format!("expected at least 1 argument")
};
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let mut data = Vec::new();
for frame in this.active_thread_stack().iter().rev() {
let mut span = frame.current_span();
// Match the behavior of runtime backtrace spans
// by using a non-macro span in our backtrace. See `FunctionCx::debug_loc`.
if span.from_expansion() && !tcx.sess.opts.debugging_opts.debug_macros {
span = rustc_span::hygiene::walk_chain(span, frame.body.span.ctxt())
}
data.push((frame.instance, span.lo()));
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}
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let ptrs: Vec<_> = data
.into_iter()
.map(|(instance, pos)| {
// We represent a frame pointer by using the `span.lo` value
// as an offset into the function's allocation. This gives us an
// opaque pointer that we can return to user code, and allows us
// to reconstruct the needed frame information in `handle_miri_resolve_frame`.
// Note that we never actually read or write anything from/to this pointer -
// all of the data is represented by the pointer value itself.
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let fn_ptr = this.memory.create_fn_alloc(FnVal::Instance(instance));
fn_ptr.wrapping_offset(Size::from_bytes(pos.0), this)
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})
.collect();
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let len: u64 = ptrs.len().try_into().unwrap();
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let ptr_ty = this.machine.layouts.mut_raw_ptr.ty;
let array_layout = this.layout_of(tcx.mk_array(ptr_ty, len)).unwrap();
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match flags {
// storage for pointers is allocated by miri
// deallocating the slice is undefined behavior with a custom global allocator
0 => {
let &[_flags] = this.check_shim(abi, Abi::Rust, link_name, args)?;
let alloc = this.allocate(array_layout, MiriMemoryKind::Rust.into())?;
// Write pointers into array
for (i, ptr) in ptrs.into_iter().enumerate() {
let place = this.mplace_index(&alloc, i as u64)?;
this.write_pointer(ptr, &place.into())?;
}
this.write_immediate(
Immediate::new_slice(Scalar::from_maybe_pointer(alloc.ptr, this), len, this),
dest,
)?;
}
// storage for pointers is allocated by the caller
1 => {
let &[_flags, ref buf] = this.check_shim(abi, Abi::Rust, link_name, args)?;
let buf_place = this.deref_operand(buf)?;
let ptr_layout = this.layout_of(ptr_ty)?;
for (i, ptr) in ptrs.into_iter().enumerate() {
let offset = ptr_layout.size * i.try_into().unwrap();
let op_place =
buf_place.offset(offset, MemPlaceMeta::None, ptr_layout, this)?;
this.write_pointer(ptr, &op_place.into())?;
}
}
_ => throw_unsup_format!("unknown `miri_get_backtrace` flags {}", flags),
};
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Ok(())
}
fn resolve_frame_pointer(
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&mut self,
ptr: &OpTy<'tcx, Tag>,
) -> InterpResult<'tcx, (Instance<'tcx>, Loc, String, String)> {
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let this = self.eval_context_mut();
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let ptr = this.read_pointer(ptr)?;
// Take apart the pointer, we need its pieces.
let (alloc_id, offset, ptr) = this.memory.ptr_get_alloc(ptr)?;
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let fn_instance =
if let Some(GlobalAlloc::Function(instance)) = this.tcx.get_global_alloc(alloc_id) {
instance
} else {
throw_ub_format!("expected function pointer, found {:?}", ptr);
};
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let lo =
this.tcx.sess.source_map().lookup_char_pos(BytePos(offset.bytes().try_into().unwrap()));
let name = fn_instance.to_string();
let filename = lo.file.name.prefer_remapped().to_string();
Ok((fn_instance, lo, name, filename))
}
fn handle_miri_resolve_frame(
&mut self,
abi: Abi,
link_name: Symbol,
args: &[OpTy<'tcx, Tag>],
dest: &PlaceTy<'tcx, Tag>,
) -> InterpResult<'tcx> {
let this = self.eval_context_mut();
let &[ref ptr, ref flags] = this.check_shim(abi, Abi::Rust, link_name, args)?;
let flags = this.read_scalar(flags)?.to_u64()?;
let (fn_instance, lo, name, filename) = this.resolve_frame_pointer(ptr)?;
// Reconstruct the original function pointer,
// which we pass to user code.
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let fn_ptr = this.memory.create_fn_alloc(FnVal::Instance(fn_instance));
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let num_fields = dest.layout.fields.count();
if !(4..=5).contains(&num_fields) {
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// Always mention 5 fields, since the 4-field struct
// is deprecated and slated for removal.
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throw_ub_format!(
"bad declaration of miri_resolve_frame - should return a struct with 5 fields"
);
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}
let lineno: u32 = lo.line as u32;
// `lo.col` is 0-based - add 1 to make it 1-based for the caller.
let colno: u32 = lo.col.0 as u32 + 1;
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let dest = this.force_allocation(dest)?;
if let ty::Adt(adt, _) = dest.layout.ty.kind() {
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if !adt.repr().c() {
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throw_ub_format!(
"miri_resolve_frame must be declared with a `#[repr(C)]` return type"
);
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}
}
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match flags {
0 => {
// These are "mutable" allocations as we consider them to be owned by the callee.
let name_alloc =
this.allocate_str(&name, MiriMemoryKind::Rust.into(), Mutability::Mut);
let filename_alloc =
this.allocate_str(&filename, MiriMemoryKind::Rust.into(), Mutability::Mut);
this.write_immediate(
name_alloc.to_ref(this),
&this.mplace_field(&dest, 0)?.into(),
)?;
this.write_immediate(
filename_alloc.to_ref(this),
&this.mplace_field(&dest, 1)?.into(),
)?;
}
1 => {
this.write_scalar(
Scalar::from_machine_usize(name.len().try_into().unwrap(), this),
&this.mplace_field(&dest, 0)?.into(),
)?;
this.write_scalar(
Scalar::from_machine_usize(filename.len().try_into().unwrap(), this),
&this.mplace_field(&dest, 1)?.into(),
)?;
}
_ => throw_unsup_format!("unknown `miri_resolve_frame` flags {}", flags),
}
this.write_scalar(Scalar::from_u32(lineno), &this.mplace_field(&dest, 2)?.into())?;
this.write_scalar(Scalar::from_u32(colno), &this.mplace_field(&dest, 3)?.into())?;
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// Support a 4-field struct for now - this is deprecated
// and slated for removal.
if num_fields == 5 {
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this.write_pointer(fn_ptr, &this.mplace_field(&dest, 4)?.into())?;
}
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Ok(())
}
fn handle_miri_resolve_frame_names(
&mut self,
abi: Abi,
link_name: Symbol,
args: &[OpTy<'tcx, Tag>],
) -> InterpResult<'tcx> {
let this = self.eval_context_mut();
let &[ref ptr, ref flags, ref name_ptr, ref filename_ptr] =
this.check_shim(abi, Abi::Rust, link_name, args)?;
let flags = this.read_scalar(flags)?.to_u64()?;
if flags != 0 {
throw_unsup_format!("unknown `miri_resolve_frame_names` flags {}", flags);
}
let (_, _, name, filename) = this.resolve_frame_pointer(ptr)?;
this.memory.write_bytes(this.read_pointer(name_ptr)?, name.bytes())?;
this.memory.write_bytes(this.read_pointer(filename_ptr)?, filename.bytes())?;
Ok(())
}
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}