316 lines
10 KiB
Rust
316 lines
10 KiB
Rust
#![feature(
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i128_type,
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rustc_private,
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)]
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// From rustc.
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#[macro_use]
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extern crate log;
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#[macro_use]
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extern crate rustc;
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extern crate syntax;
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use rustc::ty::{self, TyCtxt};
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use rustc::ty::layout::TyLayout;
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use rustc::hir::def_id::DefId;
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use rustc::mir;
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use rustc::traits;
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use syntax::ast::Mutability;
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use syntax::codemap::Span;
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use std::collections::{HashMap, BTreeMap};
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pub use rustc::mir::interpret::*;
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mod fn_call;
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mod operator;
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mod intrinsic;
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mod helpers;
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mod memory;
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mod tls;
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use fn_call::EvalContextExt as MissingFnsEvalContextExt;
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use operator::EvalContextExt as OperatorEvalContextExt;
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use intrinsic::EvalContextExt as IntrinsicEvalContextExt;
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use tls::EvalContextExt as TlsEvalContextExt;
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pub fn eval_main<'a, 'tcx: 'a>(
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tcx: TyCtxt<'a, 'tcx, 'tcx>,
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main_id: DefId,
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start_wrapper: Option<DefId>,
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limits: ResourceLimits,
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) {
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fn run_main<'a, 'tcx: 'a>(
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ecx: &mut rustc::mir::interpret::EvalContext<'a, 'tcx, Evaluator>,
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main_id: DefId,
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start_wrapper: Option<DefId>,
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) -> EvalResult<'tcx> {
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let main_instance = ty::Instance::mono(ecx.tcx, main_id);
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let main_mir = ecx.load_mir(main_instance.def)?;
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let mut cleanup_ptr = None; // Pointer to be deallocated when we are done
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if !main_mir.return_ty().is_nil() || main_mir.arg_count != 0 {
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return err!(Unimplemented(
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"miri does not support main functions without `fn()` type signatures"
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.to_owned(),
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));
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}
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if let Some(start_id) = start_wrapper {
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let start_instance = ty::Instance::mono(ecx.tcx, start_id);
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let start_mir = ecx.load_mir(start_instance.def)?;
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if start_mir.arg_count != 3 {
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return err!(AbiViolation(format!(
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"'start' lang item should have three arguments, but has {}",
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start_mir.arg_count
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)));
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}
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// Return value
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let size = ecx.tcx.data_layout.pointer_size.bytes();
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let align = ecx.tcx.data_layout.pointer_align.abi();
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let ret_ptr = ecx.memory_mut().allocate(size, align, Some(MemoryKind::Stack))?;
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cleanup_ptr = Some(ret_ptr);
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// Push our stack frame
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ecx.push_stack_frame(
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start_instance,
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start_mir.span,
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start_mir,
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Place::from_ptr(ret_ptr),
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StackPopCleanup::None,
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)?;
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let mut args = ecx.frame().mir.args_iter();
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// First argument: pointer to main()
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let main_ptr = ecx.memory_mut().create_fn_alloc(main_instance);
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let dest = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?;
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let main_ty = main_instance.def.def_ty(ecx.tcx);
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let main_ptr_ty = ecx.tcx.mk_fn_ptr(main_ty.fn_sig(ecx.tcx));
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ecx.write_value(
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ValTy {
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value: Value::ByVal(PrimVal::Ptr(main_ptr)),
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ty: main_ptr_ty,
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},
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dest,
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)?;
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// Second argument (argc): 1
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let dest = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?;
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let ty = ecx.tcx.types.isize;
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ecx.write_primval(dest, PrimVal::Bytes(1), ty)?;
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// FIXME: extract main source file path
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// Third argument (argv): &[b"foo"]
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let dest = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?;
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let ty = ecx.tcx.mk_imm_ptr(ecx.tcx.mk_imm_ptr(ecx.tcx.types.u8));
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let foo = ecx.memory.allocate_cached(b"foo\0");
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let ptr_size = ecx.memory.pointer_size();
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let foo_ptr = ecx.memory.allocate(ptr_size * 1, ptr_size, None)?;
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ecx.memory.write_primval(foo_ptr.into(), PrimVal::Ptr(foo.into()), ptr_size, false)?;
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ecx.memory.mark_static_initalized(foo_ptr.alloc_id, Mutability::Immutable)?;
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ecx.write_ptr(dest, foo_ptr.into(), ty)?;
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assert!(args.next().is_none(), "start lang item has more arguments than expected");
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} else {
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ecx.push_stack_frame(
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main_instance,
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main_mir.span,
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main_mir,
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Place::undef(),
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StackPopCleanup::None,
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)?;
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// No arguments
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let mut args = ecx.frame().mir.args_iter();
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assert!(args.next().is_none(), "main function must not have arguments");
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}
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while ecx.step()? {}
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ecx.run_tls_dtors()?;
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if let Some(cleanup_ptr) = cleanup_ptr {
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ecx.memory_mut().deallocate(
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cleanup_ptr,
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None,
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MemoryKind::Stack,
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)?;
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}
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Ok(())
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}
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let mut ecx = EvalContext::new(tcx, limits, Default::default(), Default::default());
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match run_main(&mut ecx, main_id, start_wrapper) {
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Ok(()) => {
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let leaks = ecx.memory().leak_report();
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if leaks != 0 {
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tcx.sess.err("the evaluated program leaked memory");
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}
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}
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Err(mut e) => {
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ecx.report(&mut e);
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}
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}
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}
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pub struct Evaluator;
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#[derive(Default)]
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pub struct EvaluatorData {
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/// Environment variables set by `setenv`
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/// Miri does not expose env vars from the host to the emulated program
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pub(crate) env_vars: HashMap<Vec<u8>, MemoryPointer>,
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}
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pub type TlsKey = usize;
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#[derive(Copy, Clone, Debug)]
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pub struct TlsEntry<'tcx> {
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data: Pointer, // Will eventually become a map from thread IDs to `Pointer`s, if we ever support more than one thread.
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dtor: Option<ty::Instance<'tcx>>,
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}
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#[derive(Default)]
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pub struct MemoryData<'tcx> {
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/// The Key to use for the next thread-local allocation.
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next_thread_local: TlsKey,
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/// pthreads-style thread-local storage.
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thread_local: BTreeMap<TlsKey, TlsEntry<'tcx>>,
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}
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impl<'tcx> Machine<'tcx> for Evaluator {
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type Data = EvaluatorData;
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type MemoryData = MemoryData<'tcx>;
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type MemoryKinds = memory::MemoryKind;
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fn param_env<'a>(
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_: &EvalContext<'a, 'tcx, Self>,
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) -> ty::ParamEnv<'tcx> {
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ty::ParamEnv::empty(traits::Reveal::All)
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}
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/// Returns Ok() when the function was handled, fail otherwise
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fn eval_fn_call<'a>(
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ecx: &mut EvalContext<'a, 'tcx, Self>,
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instance: ty::Instance<'tcx>,
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destination: Option<(Place, mir::BasicBlock)>,
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args: &[ValTy<'tcx>],
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span: Span,
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sig: ty::FnSig<'tcx>,
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) -> EvalResult<'tcx, bool> {
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ecx.eval_fn_call(instance, destination, args, span, sig)
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}
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fn call_intrinsic<'a>(
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ecx: &mut rustc::mir::interpret::EvalContext<'a, 'tcx, Self>,
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instance: ty::Instance<'tcx>,
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args: &[ValTy<'tcx>],
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dest: Place,
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dest_layout: TyLayout<'tcx>,
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target: mir::BasicBlock,
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) -> EvalResult<'tcx> {
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ecx.call_intrinsic(instance, args, dest, dest_layout, target)
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}
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fn try_ptr_op<'a>(
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ecx: &rustc::mir::interpret::EvalContext<'a, 'tcx, Self>,
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bin_op: mir::BinOp,
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left: PrimVal,
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left_ty: ty::Ty<'tcx>,
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right: PrimVal,
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right_ty: ty::Ty<'tcx>,
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) -> EvalResult<'tcx, Option<(PrimVal, bool)>> {
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ecx.ptr_op(bin_op, left, left_ty, right, right_ty)
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}
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fn mark_static_initialized(m: memory::MemoryKind) -> EvalResult<'tcx> {
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use memory::MemoryKind::*;
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match m {
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// FIXME: This could be allowed, but not for env vars set during miri execution
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Env => err!(Unimplemented("statics can't refer to env vars".to_owned())),
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_ => Ok(()),
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}
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}
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fn box_alloc<'a>(
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ecx: &mut EvalContext<'a, 'tcx, Self>,
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ty: ty::Ty<'tcx>,
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dest: Place,
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) -> EvalResult<'tcx> {
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let size = ecx.type_size(ty)?.expect("box only works with sized types");
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let align = ecx.type_align(ty)?;
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// Call the `exchange_malloc` lang item
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let malloc = ecx.tcx.lang_items().exchange_malloc_fn().unwrap();
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let malloc = ty::Instance::mono(ecx.tcx, malloc);
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let malloc_mir = ecx.load_mir(malloc.def)?;
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ecx.push_stack_frame(
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malloc,
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malloc_mir.span,
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malloc_mir,
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dest,
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// Don't do anything when we are done. The statement() function will increment
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// the old stack frame's stmt counter to the next statement, which means that when
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// exchange_malloc returns, we go on evaluating exactly where we want to be.
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StackPopCleanup::None,
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)?;
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let mut args = ecx.frame().mir.args_iter();
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let usize = ecx.tcx.types.usize;
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// First argument: size
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let dest = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?;
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ecx.write_value(
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ValTy {
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value: Value::ByVal(PrimVal::Bytes(size as u128)),
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ty: usize,
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},
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dest,
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)?;
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// Second argument: align
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let dest = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?;
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ecx.write_value(
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ValTy {
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value: Value::ByVal(PrimVal::Bytes(align as u128)),
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ty: usize,
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},
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dest,
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)?;
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// No more arguments
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assert!(args.next().is_none(), "exchange_malloc lang item has more arguments than expected");
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Ok(())
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}
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fn global_item_with_linkage<'a>(
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ecx: &mut EvalContext<'a, 'tcx, Self>,
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instance: ty::Instance<'tcx>,
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mutability: Mutability,
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) -> EvalResult<'tcx> {
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// FIXME: check that it's `#[linkage = "extern_weak"]`
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trace!("Initializing an extern global with NULL");
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let ptr_size = ecx.memory.pointer_size();
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let ptr = ecx.memory.allocate(
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ptr_size,
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ptr_size,
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None,
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)?;
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ecx.memory.write_ptr_sized_unsigned(ptr, PrimVal::Bytes(0))?;
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ecx.memory.mark_static_initalized(ptr.alloc_id, mutability)?;
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ecx.tcx.interpret_interner.borrow_mut().cache(
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GlobalId {
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instance,
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promoted: None,
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},
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PtrAndAlign {
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ptr: ptr.into(),
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aligned: true,
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},
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);
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Ok(())
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}
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}
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