rust/src/lib.rs

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#![feature(rustc_private)]
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#![allow(clippy::cast_lossless)]
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#[macro_use]
extern crate log;
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// From rustc.
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extern crate syntax;
#[macro_use]
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extern crate rustc;
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extern crate rustc_data_structures;
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extern crate rustc_mir;
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extern crate rustc_target;
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mod fn_call;
mod operator;
mod intrinsic;
mod helpers;
mod tls;
mod range_map;
mod mono_hash_map;
mod stacked_borrows;
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use std::collections::HashMap;
use std::borrow::Cow;
use rand::rngs::StdRng;
use rand::SeedableRng;
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use rustc::ty::{self, TyCtxt, query::TyCtxtAt};
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use rustc::ty::layout::{LayoutOf, Size, Align};
use rustc::hir::{self, def_id::DefId};
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use rustc::mir;
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pub use rustc_mir::interpret::*;
// Resolve ambiguity.
pub use rustc_mir::interpret::{self, AllocMap, PlaceTy};
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use syntax::attr;
use syntax::source_map::DUMMY_SP;
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pub use crate::fn_call::EvalContextExt as MissingFnsEvalContextExt;
pub use crate::operator::EvalContextExt as OperatorEvalContextExt;
pub use crate::intrinsic::EvalContextExt as IntrinsicEvalContextExt;
pub use crate::tls::{EvalContextExt as TlsEvalContextExt, TlsData};
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use crate::range_map::RangeMap;
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#[allow(unused_imports)] // FIXME: rustc bug, issue <https://github.com/rust-lang/rust/issues/53682>.
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pub use crate::helpers::{EvalContextExt as HelpersEvalContextExt};
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use crate::mono_hash_map::MonoHashMap;
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pub use crate::stacked_borrows::{EvalContextExt as StackedBorEvalContextExt};
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// Used by priroda.
pub use crate::stacked_borrows::{Borrow, Stack, Stacks, BorStackItem};
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/// Insert rustc arguments at the beginning of the argument list that Miri wants to be
/// set per default, for maximal validation power.
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pub fn miri_default_args() -> &'static [&'static str] {
// The flags here should be kept in sync with what bootstrap adds when `test-miri` is
// set, which happens in `bootstrap/bin/rustc.rs` in the rustc sources.
&["-Zalways-encode-mir", "-Zmir-emit-retag", "-Zmir-opt-level=0", "--cfg=miri"]
}
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/// Configuration needed to spawn a Miri instance.
#[derive(Clone)]
pub struct MiriConfig {
pub validate: bool,
pub args: Vec<String>,
// The seed to use when non-determinism is required (e.g. getrandom())
pub seed: Option<u64>
}
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// Used by priroda.
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pub fn create_ecx<'a, 'mir: 'a, 'tcx: 'mir>(
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tcx: TyCtxt<'a, 'tcx, 'tcx>,
main_id: DefId,
config: MiriConfig,
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) -> EvalResult<'tcx, InterpretCx<'a, 'mir, 'tcx, Evaluator<'tcx>>> {
let mut ecx = InterpretCx::new(
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tcx.at(syntax::source_map::DUMMY_SP),
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ty::ParamEnv::reveal_all(),
Evaluator::new(config.validate, config.seed),
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);
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let main_instance = ty::Instance::mono(ecx.tcx.tcx, main_id);
let main_mir = ecx.load_mir(main_instance.def)?;
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if !main_mir.return_ty().is_unit() || main_mir.arg_count != 0 {
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return err!(Unimplemented(
"miri does not support main functions without `fn()` type signatures"
.to_owned(),
));
}
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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_bound_vars().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
)));
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}
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// Return value (in static memory so that it does not count as leak).
let ret = ecx.layout_of(start_mir.return_ty())?;
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let ret_ptr = ecx.allocate(ret, MiriMemoryKind::MutStatic.into());
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// Push our stack frame.
ecx.push_stack_frame(
start_instance,
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// There is no call site.
DUMMY_SP,
start_mir,
Some(ret_ptr.into()),
StackPopCleanup::None { cleanup: true },
)?;
let mut args = ecx.frame().mir.args_iter();
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// 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::Base(mir::PlaceBase::Local(args.next().unwrap())))?;
ecx.write_scalar(Scalar::Ptr(main_ptr), dest)?;
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// Second argument (argc): `1`.
let dest = ecx.eval_place(&mir::Place::Base(mir::PlaceBase::Local(args.next().unwrap())))?;
let argc = Scalar::from_uint(config.args.len() as u128, dest.layout.size);
ecx.write_scalar(argc, dest)?;
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// Store argc for macOS's `_NSGetArgc`.
{
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let argc_place = ecx.allocate(dest.layout, MiriMemoryKind::Env.into());
ecx.write_scalar(argc, argc_place.into())?;
ecx.machine.argc = Some(argc_place.ptr.to_ptr()?);
}
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// FIXME: extract main source file path.
// Third argument (`argv`): created from `config.args`.
let dest = ecx.eval_place(&mir::Place::Base(mir::PlaceBase::Local(args.next().unwrap())))?;
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// For Windows, construct a command string with all the aguments.
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let mut cmd = String::new();
for arg in config.args.iter() {
if !cmd.is_empty() {
cmd.push(' ');
}
cmd.push_str(&*shell_escape::windows::escape(arg.as_str().into()));
}
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// Don't forget `0` terminator.
cmd.push(std::char::from_u32(0).unwrap());
// Collect the pointers to the individual strings.
let mut argvs = Vec::<Pointer<Borrow>>::new();
for arg in config.args {
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// Add `0` terminator.
let mut arg = arg.into_bytes();
arg.push(0);
argvs.push(ecx.memory_mut().allocate_static_bytes(arg.as_slice()).with_default_tag());
}
// Make an array with all these pointers, in the Miri memory.
let argvs_layout = ecx.layout_of(ecx.tcx.mk_array(ecx.tcx.mk_imm_ptr(ecx.tcx.types.u8), argvs.len() as u64))?;
let argvs_place = ecx.allocate(argvs_layout, MiriMemoryKind::Env.into());
for (idx, arg) in argvs.into_iter().enumerate() {
let place = ecx.mplace_field(argvs_place, idx as u64)?;
ecx.write_scalar(Scalar::Ptr(arg), place.into())?;
}
ecx.memory_mut().mark_immutable(argvs_place.to_ptr()?.alloc_id)?;
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// Write a pointer to that place as the argument.
let argv = argvs_place.ptr;
ecx.write_scalar(argv, dest)?;
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// Store `argv` for macOS `_NSGetArgv`.
{
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let argv_place = ecx.allocate(dest.layout, MiriMemoryKind::Env.into());
ecx.write_scalar(argv, argv_place.into())?;
ecx.machine.argv = Some(argv_place.ptr.to_ptr()?);
}
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// Store command line as UTF-16 for Windows `GetCommandLineW`.
{
let tcx = &{ecx.tcx.tcx};
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let cmd_utf16: Vec<u16> = cmd.encode_utf16().collect();
let cmd_ptr = ecx.memory_mut().allocate(
Size::from_bytes(cmd_utf16.len() as u64 * 2),
Align::from_bytes(2).unwrap(),
MiriMemoryKind::Env.into(),
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).with_default_tag();
ecx.machine.cmd_line = Some(cmd_ptr);
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// Store the UTF-16 string.
let char_size = Size::from_bytes(2);
let cmd_alloc = ecx.memory_mut().get_mut(cmd_ptr.alloc_id)?;
let mut cur_ptr = cmd_ptr;
for &c in cmd_utf16.iter() {
cmd_alloc.write_scalar(
tcx,
cur_ptr,
Scalar::from_uint(c, char_size).into(),
char_size,
)?;
cur_ptr = cur_ptr.offset(char_size, tcx)?;
}
}
assert!(args.next().is_none(), "start lang item has more arguments than expected");
Ok(ecx)
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}
pub fn eval_main<'a, 'tcx: 'a>(
tcx: TyCtxt<'a, 'tcx, 'tcx>,
main_id: DefId,
config: MiriConfig,
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) {
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let mut ecx = create_ecx(tcx, main_id, config).expect("couldn't create ecx");
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// Perform the main execution.
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let res: EvalResult = (|| {
ecx.run()?;
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ecx.run_tls_dtors()
})();
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// Process the result.
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match res {
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Ok(()) => {
let leaks = ecx.memory().leak_report();
// Disable the leak test on some platforms where we do not
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// 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");
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}
}
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());
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let frames = ecx.generate_stacktrace(None);
err.span_label(span, e);
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// We iterate with indices because we need to look at the next frame (the caller).
for idx in 0..frames.len() {
let frame_info = &frames[idx];
let call_site_is_local = frames.get(idx+1).map_or(false,
|caller_info| caller_info.instance.def_id().is_local());
if call_site_is_local {
err.span_note(frame_info.call_site, &frame_info.to_string());
} else {
err.note(&frame_info.to_string());
}
}
err.emit();
} else {
ecx.tcx.sess.err(&e.to_string());
}
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() {
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trace!(" local {}: {:?}", i, local.value);
}
}
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}
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq)]
pub enum MiriMemoryKind {
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/// `__rust_alloc` memory.
Rust,
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/// `malloc` memory.
C,
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/// Part of env var emulation.
Env,
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/// Mutable statics.
MutStatic,
}
impl Into<MemoryKind<MiriMemoryKind>> for MiriMemoryKind {
#[inline(always)]
fn into(self) -> MemoryKind<MiriMemoryKind> {
MemoryKind::Machine(self)
}
}
impl MayLeak for MiriMemoryKind {
#[inline(always)]
fn may_leak(self) -> bool {
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use self::MiriMemoryKind::*;
match self {
Rust | C => false,
Env | MutStatic => true,
}
}
}
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pub struct Evaluator<'tcx> {
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/// Environment variables set by `setenv`.
/// Miri does not expose env vars from the host to the emulated program.
pub(crate) env_vars: HashMap<Vec<u8>, Pointer<Borrow>>,
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/// Program arguments (`Option` because we can only initialize them after creating the ecx).
/// These are *pointers* to argc/argv because macOS.
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/// We also need the full command line as one string because of Windows.
pub(crate) argc: Option<Pointer<Borrow>>,
pub(crate) argv: Option<Pointer<Borrow>>,
pub(crate) cmd_line: Option<Pointer<Borrow>>,
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/// Last OS error.
pub(crate) last_error: u32,
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/// TLS state.
pub(crate) tls: TlsData<'tcx>,
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/// Whether to enforce the validity invariant.
pub(crate) validate: bool,
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/// Stacked Borrows state.
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pub(crate) stacked_borrows: stacked_borrows::State,
/// The random number generator to use if Miri
/// is running in non-deterministic mode
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pub(crate) rng: Option<StdRng>
}
impl<'tcx> Evaluator<'tcx> {
fn new(validate: bool, seed: Option<u64>) -> Self {
Evaluator {
env_vars: HashMap::default(),
argc: None,
argv: None,
cmd_line: None,
last_error: 0,
tls: TlsData::default(),
validate,
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stacked_borrows: stacked_borrows::State::default(),
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rng: seed.map(|s| StdRng::seed_from_u64(s))
}
}
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}
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// FIXME: rustc issue <https://github.com/rust-lang/rust/issues/47131>.
#[allow(dead_code)]
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type MiriEvalContext<'a, 'mir, 'tcx> = InterpretCx<'a, 'mir, 'tcx, Evaluator<'tcx>>;
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// A little trait that's useful to be inherited by extension traits.
pub trait MiriEvalContextExt<'a, 'mir, 'tcx> {
fn eval_context_ref(&self) -> &MiriEvalContext<'a, 'mir, 'tcx>;
fn eval_context_mut(&mut self) -> &mut MiriEvalContext<'a, 'mir, 'tcx>;
}
impl<'a, 'mir, 'tcx> MiriEvalContextExt<'a, 'mir, 'tcx> for MiriEvalContext<'a, 'mir, 'tcx> {
#[inline(always)]
fn eval_context_ref(&self) -> &MiriEvalContext<'a, 'mir, 'tcx> {
self
}
#[inline(always)]
fn eval_context_mut(&mut self) -> &mut MiriEvalContext<'a, 'mir, 'tcx> {
self
}
}
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impl<'a, 'mir, 'tcx> Machine<'a, 'mir, 'tcx> for Evaluator<'tcx> {
type MemoryKinds = MiriMemoryKind;
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type FrameExtra = stacked_borrows::CallId;
type MemoryExtra = stacked_borrows::MemoryState;
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type AllocExtra = stacked_borrows::Stacks;
type PointerTag = Borrow;
type MemoryMap = MonoHashMap<AllocId, (MemoryKind<MiriMemoryKind>, Allocation<Borrow, Self::AllocExtra>)>;
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const STATIC_KIND: Option<MiriMemoryKind> = Some(MiriMemoryKind::MutStatic);
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#[inline(always)]
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fn enforce_validity(ecx: &InterpretCx<'a, 'mir, 'tcx, Self>) -> bool {
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ecx.machine.validate
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}
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/// Returns `Ok()` when the function was handled; fail otherwise.
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#[inline(always)]
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fn find_fn(
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ecx: &mut InterpretCx<'a, 'mir, 'tcx, Self>,
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instance: ty::Instance<'tcx>,
args: &[OpTy<'tcx, Borrow>],
dest: Option<PlaceTy<'tcx, Borrow>>,
ret: Option<mir::BasicBlock>,
) -> EvalResult<'tcx, Option<&'mir mir::Mir<'tcx>>> {
ecx.find_fn(instance, args, dest, ret)
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}
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#[inline(always)]
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fn call_intrinsic(
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ecx: &mut rustc_mir::interpret::InterpretCx<'a, 'mir, 'tcx, Self>,
instance: ty::Instance<'tcx>,
args: &[OpTy<'tcx, Borrow>],
dest: PlaceTy<'tcx, Borrow>,
) -> EvalResult<'tcx> {
ecx.call_intrinsic(instance, args, dest)
}
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#[inline(always)]
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fn ptr_op(
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ecx: &rustc_mir::interpret::InterpretCx<'a, 'mir, 'tcx, Self>,
bin_op: mir::BinOp,
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left: ImmTy<'tcx, Borrow>,
right: ImmTy<'tcx, Borrow>,
) -> EvalResult<'tcx, (Scalar<Borrow>, bool)> {
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ecx.ptr_op(bin_op, left, right)
}
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fn box_alloc(
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ecx: &mut InterpretCx<'a, 'mir, 'tcx, Self>,
dest: PlaceTy<'tcx, Borrow>,
) -> EvalResult<'tcx> {
trace!("box_alloc for {:?}", dest.layout.ty);
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// Call the `exchange_malloc` lang item.
let malloc = ecx.tcx.lang_items().exchange_malloc_fn().unwrap();
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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,
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Some(dest),
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// 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
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// `exchange_malloc` returns, we go on evaluating exactly where we want to be.
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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)?;
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// First argument: `size`.
// (`0` is allowed here -- this is expected to be handled by the lang item).
let arg = ecx.eval_place(&mir::Place::Base(mir::PlaceBase::Local(args.next().unwrap())))?;
let size = layout.size.bytes();
ecx.write_scalar(Scalar::from_uint(size, arg.layout.size), arg)?;
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// Second argument: `align`.
let arg = ecx.eval_place(&mir::Place::Base(mir::PlaceBase::Local(args.next().unwrap())))?;
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let align = layout.align.abi.bytes();
ecx.write_scalar(Scalar::from_uint(align, arg.layout.size), arg)?;
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// No more arguments.
assert!(
args.next().is_none(),
"`exchange_malloc` lang item has more arguments than expected"
);
Ok(())
}
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fn find_foreign_static(
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def_id: DefId,
tcx: TyCtxtAt<'a, 'tcx, 'tcx>,
memory_extra: &Self::MemoryExtra,
) -> EvalResult<'tcx, Cow<'tcx, Allocation<Borrow, Self::AllocExtra>>> {
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let attrs = tcx.get_attrs(def_id);
let link_name = match attr::first_attr_value_str_by_name(&attrs, "link_name") {
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Some(name) => name.as_str().get(),
None => tcx.item_name(def_id).as_str().get(),
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};
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let alloc = match link_name {
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"__cxa_thread_atexit_impl" => {
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// This should be all-zero, pointer-sized.
let size = tcx.data_layout.pointer_size;
let data = vec![0; size.bytes() as usize];
let extra = AllocationExtra::memory_allocated(size, memory_extra);
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Allocation::from_bytes(&data, tcx.data_layout.pointer_align.abi, extra)
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}
_ => return err!(Unimplemented(
format!("can't access foreign static: {}", link_name),
)),
};
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Ok(Cow::Owned(alloc))
}
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#[inline(always)]
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fn before_terminator(_ecx: &mut InterpretCx<'a, 'mir, 'tcx, Self>) -> EvalResult<'tcx>
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{
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// We are not interested in detecting loops.
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Ok(())
}
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fn adjust_static_allocation<'b>(
alloc: &'b Allocation,
memory_extra: &Self::MemoryExtra,
) -> Cow<'b, Allocation<Borrow, Self::AllocExtra>> {
let extra = AllocationExtra::memory_allocated(
Size::from_bytes(alloc.bytes.len() as u64),
memory_extra,
);
let alloc: Allocation<Borrow, Self::AllocExtra> = 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,
};
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Cow::Owned(alloc)
}
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fn tag_dereference(
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ecx: &InterpretCx<'a, 'mir, 'tcx, Self>,
place: MPlaceTy<'tcx, Borrow>,
mutability: Option<hir::Mutability>,
) -> EvalResult<'tcx, Scalar<Borrow>> {
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let size = ecx.size_and_align_of_mplace(place)?.map(|(size, _)| size)
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// For extern types, just cover what we can.
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.unwrap_or_else(|| place.layout.size);
if !ecx.tcx.sess.opts.debugging_opts.mir_emit_retag ||
!Self::enforce_validity(ecx) || size == Size::ZERO
{
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// No tracking.
Ok(place.ptr)
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} else {
ecx.ptr_dereference(place, size, mutability.into())?;
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// We never change the pointer.
Ok(place.ptr)
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}
}
#[inline(always)]
fn tag_new_allocation(
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ecx: &mut InterpretCx<'a, 'mir, 'tcx, Self>,
ptr: Pointer,
kind: MemoryKind<Self::MemoryKinds>,
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) -> Pointer<Borrow> {
if !ecx.machine.validate {
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// No tracking.
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ptr.with_default_tag()
} else {
let tag = ecx.tag_new_allocation(ptr.alloc_id, kind);
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Pointer::new_with_tag(ptr.alloc_id, ptr.offset, tag)
}
}
#[inline(always)]
fn retag(
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ecx: &mut InterpretCx<'a, 'mir, 'tcx, Self>,
kind: mir::RetagKind,
place: PlaceTy<'tcx, Borrow>,
) -> EvalResult<'tcx> {
if !ecx.tcx.sess.opts.debugging_opts.mir_emit_retag || !Self::enforce_validity(ecx) {
// No tracking, or no retagging. The latter is possible because a dependency of ours
// might be called with different flags than we are, so there are `Retag`
// statements but we do not want to execute them.
// Also, honor the whitelist in `enforce_validity` because otherwise we might retag
// uninitialized data.
Ok(())
} else {
ecx.retag(kind, place)
}
}
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#[inline(always)]
fn stack_push(
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ecx: &mut InterpretCx<'a, 'mir, 'tcx, Self>,
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) -> EvalResult<'tcx, stacked_borrows::CallId> {
Ok(ecx.memory().extra.borrow_mut().new_call())
}
#[inline(always)]
fn stack_pop(
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ecx: &mut InterpretCx<'a, 'mir, 'tcx, Self>,
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extra: stacked_borrows::CallId,
) -> EvalResult<'tcx> {
Ok(ecx.memory().extra.borrow_mut().end_call(extra))
}
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}