use log::trace;
+use rustc_ast::Mutability;
use rustc_middle::{mir, ty};
-use rustc_target::{spec::PanicStrategy, abi::LayoutOf};
+use rustc_span::Symbol;
+use rustc_target::spec::abi::Abi;
+use rustc_target::spec::PanicStrategy;
use crate::*;
+use helpers::check_arg_count;
/// Holds all of the relevant data for when unwinding hits a `try` frame.
#[derive(Debug)]
ret: mir::BasicBlock,
}
-impl<'mir, 'tcx> EvalContextExt<'mir, 'tcx> for crate::MiriEvalContext<'mir, 'tcx> {}
+impl<'mir, 'tcx: 'mir> EvalContextExt<'mir, 'tcx> for crate::MiriEvalContext<'mir, 'tcx> {}
pub trait EvalContextExt<'mir, 'tcx: 'mir>: crate::MiriEvalContextExt<'mir, 'tcx> {
- /// Check if panicking is supported on this target, and give a good error otherwise.
- fn check_panic_supported(&self) -> InterpResult<'tcx> {
- match self.eval_context_ref().tcx.sess.target.target.target_os.as_str() {
- "linux" | "macos" => Ok(()),
- _ => throw_unsup_format!("panicking is not supported on this target"),
- }
- }
-
/// Handles the special `miri_start_panic` intrinsic, which is called
/// by libpanic_unwind to delegate the actual unwinding process to Miri.
fn handle_miri_start_panic(
&mut self,
+ abi: Abi,
+ link_name: Symbol,
args: &[OpTy<'tcx, Tag>],
- unwind: Option<mir::BasicBlock>,
+ unwind: StackPopUnwind,
) -> InterpResult<'tcx> {
let this = self.eval_context_mut();
trace!("miri_start_panic: {:?}", this.frame().instance);
// Get the raw pointer stored in arg[0] (the panic payload).
- let payload = this.read_scalar(args[0])?.not_undef()?;
- assert!(
- this.machine.panic_payload.is_none(),
- "the panic runtime should avoid double-panics"
- );
- this.machine.panic_payload = Some(payload);
+ let [payload] = this.check_shim(abi, Abi::Rust, link_name, args)?;
+ let payload = this.read_scalar(payload)?.check_init()?;
+ let thread = this.active_thread_mut();
+ assert!(thread.panic_payload.is_none(), "the panic runtime should avoid double-panics");
+ thread.panic_payload = Some(payload);
// Jump to the unwind block to begin unwinding.
- this.unwind_to_block(unwind);
- return Ok(());
+ this.unwind_to_block(unwind)?;
+ Ok(())
}
/// Handles the `try` intrinsic, the underlying implementation of `std::panicking::try`.
fn handle_try(
&mut self,
args: &[OpTy<'tcx, Tag>],
- dest: PlaceTy<'tcx, Tag>,
+ dest: &PlaceTy<'tcx, Tag>,
ret: mir::BasicBlock,
) -> InterpResult<'tcx> {
let this = self.eval_context_mut();
// a pointer to `Box<dyn Any + Send + 'static>`.
// Get all the arguments.
- let try_fn = this.read_scalar(args[0])?.not_undef()?;
- let data = this.read_scalar(args[1])?.not_undef()?;
- let catch_fn = this.read_scalar(args[2])?.not_undef()?;
+ let [try_fn, data, catch_fn] = check_arg_count(args)?;
+ let try_fn = this.read_pointer(try_fn)?;
+ let data = this.read_scalar(data)?.check_init()?;
+ let catch_fn = this.read_scalar(catch_fn)?.check_init()?;
// Now we make a function call, and pass `data` as first and only argument.
- let f_instance = this.memory.get_fn(try_fn)?.as_instance()?;
+ let f_instance = this.get_ptr_fn(try_fn)?.as_instance()?;
trace!("try_fn: {:?}", f_instance);
- let ret_place = MPlaceTy::dangling(this.layout_of(this.tcx.mk_unit())?, this).into();
+ let ret_place = MPlaceTy::dangling(this.machine.layouts.unit).into();
this.call_function(
f_instance,
+ Abi::Rust,
&[data.into()],
- Some(ret_place),
+ &ret_place,
// Directly return to caller.
- StackPopCleanup::Goto { ret: Some(ret), unwind: None },
+ StackPopCleanup::Goto { ret: Some(ret), unwind: StackPopUnwind::Skip },
)?;
// We ourselves will return `0`, eventually (will be overwritten if we catch a panic).
// This lets `handle_stack_pop` (below) know that we should stop unwinding
// when we pop this frame.
if this.tcx.sess.panic_strategy() == PanicStrategy::Unwind {
- this.frame_mut().extra.catch_unwind = Some(CatchUnwindData { catch_fn, data, dest, ret });
+ this.frame_mut().extra.catch_unwind =
+ Some(CatchUnwindData { catch_fn, data, dest: *dest, ret });
}
- return Ok(());
+ Ok(())
}
fn handle_stack_pop(
let this = self.eval_context_mut();
trace!("handle_stack_pop(extra = {:?}, unwinding = {})", extra, unwinding);
- if let Some(stacked_borrows) = &this.memory.extra.stacked_borrows {
+ if let Some(stacked_borrows) = &this.machine.stacked_borrows {
stacked_borrows.borrow_mut().end_call(extra.call_id);
}
if let (true, Some(catch_unwind)) = (unwinding, extra.catch_unwind.take()) {
// We've just popped a frame that was pushed by `try`,
// and we are unwinding, so we should catch that.
- trace!("unwinding: found catch_panic frame during unwinding: {:?}", this.frame().instance);
+ trace!(
+ "unwinding: found catch_panic frame during unwinding: {:?}",
+ this.frame().instance
+ );
// We set the return value of `try` to 1, since there was a panic.
- this.write_scalar(Scalar::from_i32(1), catch_unwind.dest)?;
+ this.write_scalar(Scalar::from_i32(1), &catch_unwind.dest)?;
- // `panic_payload` holds what was passed to `miri_start_panic`.
+ // The Thread's `panic_payload` holds what was passed to `miri_start_panic`.
// This is exactly the second argument we need to pass to `catch_fn`.
- let payload = this.machine.panic_payload.take().unwrap();
+ let payload = this.active_thread_mut().panic_payload.take().unwrap();
// Push the `catch_fn` stackframe.
- let f_instance = this.memory.get_fn(catch_unwind.catch_fn)?.as_instance()?;
+ let f_instance =
+ this.get_ptr_fn(this.scalar_to_ptr(catch_unwind.catch_fn)?)?.as_instance()?;
trace!("catch_fn: {:?}", f_instance);
- let ret_place = MPlaceTy::dangling(this.layout_of(this.tcx.mk_unit())?, this).into();
+ let ret_place = MPlaceTy::dangling(this.machine.layouts.unit).into();
this.call_function(
f_instance,
+ Abi::Rust,
&[catch_unwind.data.into(), payload.into()],
- Some(ret_place),
+ &ret_place,
// Directly return to caller of `try`.
- StackPopCleanup::Goto { ret: Some(catch_unwind.ret), unwind: None },
+ StackPopCleanup::Goto { ret: Some(catch_unwind.ret), unwind: StackPopUnwind::Skip },
)?;
// We pushed a new stack frame, the engine should not do any jumping now!
}
}
- /// Starta a panic in the interpreter with the given message as payload.
- fn start_panic(
- &mut self,
- msg: &str,
- unwind: Option<mir::BasicBlock>,
- ) -> InterpResult<'tcx> {
+ /// Start a panic in the interpreter with the given message as payload.
+ fn start_panic(&mut self, msg: &str, unwind: StackPopUnwind) -> InterpResult<'tcx> {
let this = self.eval_context_mut();
// First arg: message.
- let msg = this.allocate_str(msg, MiriMemoryKind::Machine.into());
+ let msg = this.allocate_str(msg, MiriMemoryKind::Machine.into(), Mutability::Not);
// Call the lang item.
let panic = this.tcx.lang_items().panic_fn().unwrap();
let panic = ty::Instance::mono(this.tcx.tcx, panic);
this.call_function(
panic,
- &[msg.to_ref()],
- None,
+ Abi::Rust,
+ &[msg.to_ref(this)],
+ &MPlaceTy::dangling(this.machine.layouts.unit).into(),
StackPopCleanup::Goto { ret: None, unwind },
)
}
// Forward to `panic_bounds_check` lang item.
// First arg: index.
- let index = this.read_scalar(this.eval_operand(index, None)?)?;
+ let index = this.read_scalar(&this.eval_operand(index, None)?)?;
// Second arg: len.
- let len = this.read_scalar(this.eval_operand(len, None)?)?;
+ let len = this.read_scalar(&this.eval_operand(len, None)?)?;
// Call the lang item.
let panic_bounds_check = this.tcx.lang_items().panic_bounds_check_fn().unwrap();
let panic_bounds_check = ty::Instance::mono(this.tcx.tcx, panic_bounds_check);
this.call_function(
panic_bounds_check,
+ Abi::Rust,
&[index.into(), len.into()],
- None,
- StackPopCleanup::Goto { ret: None, unwind },
+ &MPlaceTy::dangling(this.machine.layouts.unit).into(),
+ StackPopCleanup::Goto {
+ ret: None,
+ unwind: match unwind {
+ Some(cleanup) => StackPopUnwind::Cleanup(cleanup),
+ None => StackPopUnwind::Skip,
+ },
+ },
)?;
}
_ => {
// Forward everything else to `panic` lang item.
- this.start_panic(msg.description(), unwind)?;
+ this.start_panic(
+ msg.description(),
+ match unwind {
+ Some(cleanup) => StackPopUnwind::Cleanup(cleanup),
+ None => StackPopUnwind::Skip,
+ },
+ )?;
}
}
Ok(())