#![feature(rustc_private)] #![cfg_attr(feature = "cargo-clippy", allow(cast_lossless))] #[macro_use] extern crate log; // From rustc. #[macro_use] extern crate rustc; extern crate rustc_data_structures; extern crate rustc_mir; extern crate rustc_target; extern crate rustc_driver; extern crate syntax; use std::collections::HashMap; use std::borrow::Cow; use std::env; use rustc::ty::{self, Ty, TyCtxt, query::TyCtxtAt}; use rustc::ty::layout::{TyLayout, LayoutOf, Size}; use rustc::hir::{self, def_id::DefId}; use rustc::mir; use syntax::attr; pub use rustc_mir::interpret::*; pub use rustc_mir::interpret::{self, AllocMap}; // resolve ambiguity mod fn_call; mod operator; mod intrinsic; mod helpers; mod tls; mod range_map; mod mono_hash_map; mod stacked_borrows; use fn_call::EvalContextExt as MissingFnsEvalContextExt; use operator::EvalContextExt as OperatorEvalContextExt; use intrinsic::EvalContextExt as IntrinsicEvalContextExt; use tls::{EvalContextExt as TlsEvalContextExt, TlsData}; use range_map::RangeMap; #[allow(unused_imports)] // FIXME rustc bug https://github.com/rust-lang/rust/issues/53682 use helpers::{ScalarExt, EvalContextExt as HelpersEvalContextExt}; use mono_hash_map::MonoHashMap; use stacked_borrows::{EvalContextExt as StackedBorEvalContextExt}; // Used by priroda pub use stacked_borrows::{Borrow, Stacks, Mut as MutBorrow}; // Used by priroda pub fn create_ecx<'a, 'mir: 'a, 'tcx: 'mir>( tcx: TyCtxt<'a, 'tcx, 'tcx>, main_id: DefId, validate: bool, ) -> EvalResult<'tcx, EvalContext<'a, 'mir, 'tcx, Evaluator<'tcx>>> { let mut ecx = EvalContext::new( tcx.at(syntax::source_map::DUMMY_SP), ty::ParamEnv::reveal_all(), Evaluator::new(validate), ); let main_instance = ty::Instance::mono(ecx.tcx.tcx, main_id); let main_mir = ecx.load_mir(main_instance.def)?; if !main_mir.return_ty().is_unit() || main_mir.arg_count != 0 { return err!(Unimplemented( "miri does not support main functions without `fn()` type signatures" .to_owned(), )); } let libstd_has_mir = { let rustc_panic = ecx.resolve_path(&["std", "panicking", "rust_panic"])?; ecx.load_mir(rustc_panic.def).is_ok() }; if libstd_has_mir { let start_id = tcx.lang_items().start_fn().unwrap(); let main_ret_ty = tcx.fn_sig(main_id).output(); let main_ret_ty = main_ret_ty.no_late_bound_regions().unwrap(); let start_instance = ty::Instance::resolve( ecx.tcx.tcx, ty::ParamEnv::reveal_all(), start_id, ecx.tcx.mk_substs( ::std::iter::once(ty::subst::Kind::from(main_ret_ty))) ).unwrap(); let start_mir = ecx.load_mir(start_instance.def)?; if start_mir.arg_count != 3 { return err!(AbiViolation(format!( "'start' lang item should have three arguments, but has {}", start_mir.arg_count ))); } // Return value (in static memory so that it does not count as leak) let ret = ecx.layout_of(start_mir.return_ty())?; let ret_ptr = ecx.allocate(ret, MiriMemoryKind::MutStatic.into())?; // Push our stack frame ecx.push_stack_frame( start_instance, start_mir.span, start_mir, Some(ret_ptr.into()), StackPopCleanup::None { cleanup: true }, )?; let mut args = ecx.frame().mir.args_iter(); // First argument: pointer to main() let main_ptr = ecx.memory_mut().create_fn_alloc(main_instance).with_default_tag(); let dest = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?; ecx.write_scalar(Scalar::Ptr(main_ptr), dest)?; // Second argument (argc): 1 let dest = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?; ecx.write_scalar(Scalar::from_int(1, dest.layout.size), dest)?; // FIXME: extract main source file path // Third argument (argv): &[b"foo"] let dest = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?; let foo = ecx.memory_mut().allocate_static_bytes(b"foo\0").with_default_tag(); let foo_ty = ecx.tcx.mk_imm_ptr(ecx.tcx.types.u8); let foo_layout = ecx.layout_of(foo_ty)?; let foo_place = ecx.allocate(foo_layout, MiriMemoryKind::Env.into())?; ecx.write_scalar(Scalar::Ptr(foo), foo_place.into())?; ecx.memory_mut().mark_immutable(foo_place.to_ptr()?.alloc_id)?; ecx.write_scalar(foo_place.ptr, dest)?; assert!(args.next().is_none(), "start lang item has more arguments than expected"); } else { let ret_place = MPlaceTy::dangling(ecx.layout_of(tcx.mk_unit())?, &ecx).into(); ecx.push_stack_frame( main_instance, main_mir.span, main_mir, Some(ret_place), StackPopCleanup::None { cleanup: true }, )?; // No arguments let mut args = ecx.frame().mir.args_iter(); assert!(args.next().is_none(), "main function must not have arguments"); } Ok(ecx) } pub fn eval_main<'a, 'tcx: 'a>( tcx: TyCtxt<'a, 'tcx, 'tcx>, main_id: DefId, validate: bool, ) { let mut ecx = create_ecx(tcx, main_id, validate).expect("Couldn't create ecx"); // If MIRI_BACKTRACE is set and RUST_CTFE_BACKTRACE is not, set RUST_CTFE_BACKTRACE. // Do this late, so we really only apply this to miri's errors. if let Ok(var) = env::var("MIRI_BACKTRACE") { if env::var("RUST_CTFE_BACKTRACE") == Err(env::VarError::NotPresent) { env::set_var("RUST_CTFE_BACKTRACE", &var); } } // Run! The main execution. let res: EvalResult = (|| { ecx.run()?; ecx.run_tls_dtors() })(); // Process the result. match res { Ok(()) => { let leaks = ecx.memory().leak_report(); // Disable the leak test on some platforms where we likely do not // correctly implement TLS destructors. let target_os = ecx.tcx.tcx.sess.target.target.target_os.to_lowercase(); let ignore_leaks = target_os == "windows" || target_os == "macos"; if !ignore_leaks && leaks != 0 { tcx.sess.err("the evaluated program leaked memory"); } } Err(mut e) => { e.print_backtrace(); if let Some(frame) = ecx.stack().last() { let block = &frame.mir.basic_blocks()[frame.block]; let span = if frame.stmt < block.statements.len() { block.statements[frame.stmt].source_info.span } else { block.terminator().source_info.span }; let e = e.to_string(); let msg = format!("constant evaluation error: {}", e); let mut err = struct_error(ecx.tcx.tcx.at(span), msg.as_str()); let frames = ecx.generate_stacktrace(None); err.span_label(span, e); for FrameInfo { span, location, .. } in frames { err.span_note(span, &format!("inside call to `{}`", location)); } err.emit(); } else { ecx.tcx.sess.err(&e.to_string()); } /* Nice try, but with MIRI_BACKTRACE this shows 100s of backtraces. for (i, frame) in ecx.stack().iter().enumerate() { trace!("-------------------"); trace!("Frame {}", i); trace!(" return: {:#?}", frame.return_place); for (i, local) in frame.locals.iter().enumerate() { if let Ok(local) = local.access() { trace!(" local {}: {:?}", i, local); } } }*/ } } } #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub enum MiriMemoryKind { /// `__rust_alloc` memory Rust, /// `malloc` memory C, /// Part of env var emulation Env, /// mutable statics MutStatic, } impl Into> for MiriMemoryKind { #[inline(always)] fn into(self) -> MemoryKind { MemoryKind::Machine(self) } } impl MayLeak for MiriMemoryKind { #[inline(always)] fn may_leak(self) -> bool { use MiriMemoryKind::*; match self { Rust | C => false, Env | MutStatic => true, } } } pub struct Evaluator<'tcx> { /// Environment variables set by `setenv` /// Miri does not expose env vars from the host to the emulated program pub(crate) env_vars: HashMap, Pointer>, /// TLS state pub(crate) tls: TlsData<'tcx>, /// Whether to enforce the validity invariant pub(crate) validate: bool, /// Stacked Borrows state pub(crate) stacked_borrows: stacked_borrows::State, } impl<'tcx> Evaluator<'tcx> { fn new(validate: bool) -> Self { Evaluator { env_vars: HashMap::default(), tls: TlsData::default(), validate, stacked_borrows: stacked_borrows::State::new(), } } } #[allow(dead_code)] // FIXME https://github.com/rust-lang/rust/issues/47131 type MiriEvalContext<'a, 'mir, 'tcx> = EvalContext<'a, 'mir, 'tcx, Evaluator<'tcx>>; impl<'a, 'mir, 'tcx> Machine<'a, 'mir, 'tcx> for Evaluator<'tcx> { type MemoryKinds = MiriMemoryKind; type AllocExtra = stacked_borrows::Stacks; type PointerTag = Borrow; const ENABLE_PTR_TRACKING_HOOKS: bool = true; type MemoryMap = MonoHashMap, Allocation)>; const STATIC_KIND: Option = Some(MiriMemoryKind::MutStatic); fn enforce_validity(ecx: &EvalContext<'a, 'mir, 'tcx, Self>) -> bool { if !ecx.machine.validate { return false; } // Some functions are whitelisted until we figure out how to fix them. // We walk up the stack a few frames to also cover their callees. const WHITELIST: &[&str] = &[ // Uses mem::uninitialized "std::ptr::read", "std::sys::windows::mutex::Mutex::", ]; for frame in ecx.stack().iter() .rev().take(3) { let name = frame.instance.to_string(); if WHITELIST.iter().any(|white| name.starts_with(white)) { return false; } } true } /// Returns Ok() when the function was handled, fail otherwise #[inline(always)] fn find_fn( ecx: &mut EvalContext<'a, 'mir, 'tcx, Self>, instance: ty::Instance<'tcx>, args: &[OpTy<'tcx, Borrow>], dest: Option>, ret: Option, ) -> EvalResult<'tcx, Option<&'mir mir::Mir<'tcx>>> { ecx.find_fn(instance, args, dest, ret) } #[inline(always)] fn call_intrinsic( ecx: &mut rustc_mir::interpret::EvalContext<'a, 'mir, 'tcx, Self>, instance: ty::Instance<'tcx>, args: &[OpTy<'tcx, Borrow>], dest: PlaceTy<'tcx, Borrow>, ) -> EvalResult<'tcx> { ecx.call_intrinsic(instance, args, dest) } #[inline(always)] fn ptr_op( ecx: &rustc_mir::interpret::EvalContext<'a, 'mir, 'tcx, Self>, bin_op: mir::BinOp, left: Scalar, left_layout: TyLayout<'tcx>, right: Scalar, right_layout: TyLayout<'tcx>, ) -> EvalResult<'tcx, (Scalar, bool)> { ecx.ptr_op(bin_op, left, left_layout, right, right_layout) } fn box_alloc( ecx: &mut EvalContext<'a, 'mir, 'tcx, Self>, dest: PlaceTy<'tcx, Borrow>, ) -> EvalResult<'tcx> { trace!("box_alloc for {:?}", dest.layout.ty); // Call the `exchange_malloc` lang item let malloc = ecx.tcx.lang_items().exchange_malloc_fn().unwrap(); let malloc = ty::Instance::mono(ecx.tcx.tcx, malloc); let malloc_mir = ecx.load_mir(malloc.def)?; ecx.push_stack_frame( malloc, malloc_mir.span, malloc_mir, Some(dest), // Don't do anything when we are done. The statement() function will increment // the old stack frame's stmt counter to the next statement, which means that when // exchange_malloc returns, we go on evaluating exactly where we want to be. StackPopCleanup::None { cleanup: true }, )?; let mut args = ecx.frame().mir.args_iter(); let layout = ecx.layout_of(dest.layout.ty.builtin_deref(false).unwrap().ty)?; // First argument: size // (0 is allowed here, this is expected to be handled by the lang item) let arg = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?; let size = layout.size.bytes(); ecx.write_scalar(Scalar::from_uint(size, arg.layout.size), arg)?; // Second argument: align let arg = ecx.eval_place(&mir::Place::Local(args.next().unwrap()))?; let align = layout.align.abi(); ecx.write_scalar(Scalar::from_uint(align, arg.layout.size), arg)?; // No more arguments assert!(args.next().is_none(), "exchange_malloc lang item has more arguments than expected"); Ok(()) } fn find_foreign_static( tcx: TyCtxtAt<'a, 'tcx, 'tcx>, def_id: DefId, ) -> EvalResult<'tcx, Cow<'tcx, Allocation>> { let attrs = tcx.get_attrs(def_id); let link_name = match attr::first_attr_value_str_by_name(&attrs, "link_name") { Some(name) => name.as_str(), None => tcx.item_name(def_id).as_str(), }; let alloc = match &link_name[..] { "__cxa_thread_atexit_impl" => { // This should be all-zero, pointer-sized let data = vec![0; tcx.data_layout.pointer_size.bytes() as usize]; Allocation::from_bytes(&data[..], tcx.data_layout.pointer_align) } _ => return err!(Unimplemented( format!("can't access foreign static: {}", link_name), )), }; Ok(Cow::Owned(alloc)) } #[inline(always)] fn before_terminator(_ecx: &mut EvalContext<'a, 'mir, 'tcx, Self>) -> EvalResult<'tcx> { // We are not interested in detecting loops Ok(()) } fn adjust_static_allocation( alloc: &'_ Allocation ) -> Cow<'_, Allocation> { let alloc: Allocation = Allocation { bytes: alloc.bytes.clone(), relocations: Relocations::from_presorted( alloc.relocations.iter() .map(|&(offset, ((), alloc))| (offset, (Borrow::default(), alloc))) .collect() ), undef_mask: alloc.undef_mask.clone(), align: alloc.align, mutability: alloc.mutability, extra: Self::AllocExtra::default(), }; Cow::Owned(alloc) } #[inline(always)] fn memory_accessed( alloc: &Allocation, ptr: Pointer, size: Size, access: MemoryAccess, ) -> EvalResult<'tcx> { alloc.extra.memory_accessed(ptr, size, access) } #[inline(always)] fn memory_deallocated( alloc: &mut Allocation, ptr: Pointer, ) -> EvalResult<'tcx> { alloc.extra.memory_deallocated(ptr) } #[inline(always)] fn tag_reference( ecx: &mut EvalContext<'a, 'mir, 'tcx, Self>, place: MemPlace, ty: Ty<'tcx>, size: Size, mutability: Option, ) -> EvalResult<'tcx, MemPlace> { if !ecx.machine.validate || size == Size::ZERO { // No tracking Ok(place) } else { let ptr = place.ptr.to_ptr()?; let tag = ecx.tag_reference(ptr, ty, size, mutability.into())?; let ptr = Scalar::Ptr(Pointer::new_with_tag(ptr.alloc_id, ptr.offset, tag)); Ok(MemPlace { ptr, ..place }) } } #[inline(always)] fn tag_dereference( ecx: &EvalContext<'a, 'mir, 'tcx, Self>, place: MemPlace, ty: Ty<'tcx>, size: Size, mutability: Option, ) -> EvalResult<'tcx, MemPlace> { if !ecx.machine.validate || size == Size::ZERO { // No tracking Ok(place) } else { let ptr = place.ptr.to_ptr()?; let tag = ecx.tag_dereference(ptr, ty, size, mutability.into())?; let ptr = Scalar::Ptr(Pointer::new_with_tag(ptr.alloc_id, ptr.offset, tag)); Ok(MemPlace { ptr, ..place }) } } #[inline(always)] fn tag_new_allocation( ecx: &mut EvalContext<'a, 'mir, 'tcx, Self>, ptr: Pointer, kind: MemoryKind, ) -> EvalResult<'tcx, Pointer> { if !ecx.machine.validate { // No tracking Ok(ptr.with_default_tag()) } else { let tag = ecx.tag_new_allocation(ptr.alloc_id, kind); Ok(Pointer::new_with_tag(ptr.alloc_id, ptr.offset, tag)) } } }