use rustc_hir::def_id::{DefId, CRATE_DEF_INDEX};
use rustc_middle::mir;
use rustc_middle::ty::{self, layout::TyAndLayout, List, TyCtxt};
-use rustc_target::abi::{FieldsShape, LayoutOf, Size, Variants};
+use rustc_target::abi::{Align, FieldsShape, LayoutOf, Size, Variants};
use rustc_target::spec::abi::Abi;
use rand::RngCore;
/// Gets an instance for a path.
fn try_resolve_did<'mir, 'tcx>(tcx: TyCtxt<'tcx>, path: &[&str]) -> Option<DefId> {
- tcx.crates().iter().find(|&&krate| tcx.original_crate_name(krate).as_str() == path[0]).and_then(
+ tcx.crates().iter().find(|&&krate| tcx.crate_name(krate).as_str() == path[0]).and_then(
|krate| {
let krate = DefId { krate: *krate, index: CRATE_DEF_INDEX };
let mut items = tcx.item_children(krate);
let this = self.eval_context_mut();
let param_env = ty::ParamEnv::reveal_all(); // in Miri this is always the param_env we use... and this.param_env is private.
let callee_abi = f.ty(*this.tcx, param_env).fn_sig(*this.tcx).abi();
- if callee_abi != caller_abi {
+ if this.machine.enforce_abi && callee_abi != caller_abi {
throw_ub_format!(
"calling a function with ABI {} using caller ABI {}",
callee_abi.name(),
Duration::new(seconds, nanoseconds)
})
}
+
+ fn read_c_str<'a>(&'a self, sptr: Scalar<Tag>) -> InterpResult<'tcx, &'a [u8]>
+ where
+ 'tcx: 'a,
+ 'mir: 'a,
+ {
+ let this = self.eval_context_ref();
+ let size1 = Size::from_bytes(1);
+ let ptr = this.force_ptr(sptr)?; // We need to read at least 1 byte, so we can eagerly get a ptr.
+
+ // Step 1: determine the length.
+ let mut len = Size::ZERO;
+ loop {
+ // FIXME: We are re-getting the allocation each time around the loop.
+ // Would be nice if we could somehow "extend" an existing AllocRange.
+ let alloc = this.memory.get(ptr.offset(len, this)?.into(), size1, Align::ONE)?.unwrap(); // not a ZST, so we will get a result
+ let byte = alloc.read_scalar(alloc_range(Size::ZERO, size1))?.to_u8()?;
+ if byte == 0 {
+ break;
+ } else {
+ len = len + size1;
+ }
+ }
+
+ // Step 2: get the bytes.
+ this.memory.read_bytes(ptr.into(), len)
+ }
+
+ fn read_wide_str(&self, sptr: Scalar<Tag>) -> InterpResult<'tcx, Vec<u16>> {
+ let this = self.eval_context_ref();
+ let size2 = Size::from_bytes(2);
+ let align2 = Align::from_bytes(2).unwrap();
+
+ let mut ptr = this.force_ptr(sptr)?; // We need to read at least 1 wchar, so we can eagerly get a ptr.
+ let mut wchars = Vec::new();
+ loop {
+ // FIXME: We are re-getting the allocation each time around the loop.
+ // Would be nice if we could somehow "extend" an existing AllocRange.
+ let alloc = this.memory.get(ptr.into(), size2, align2)?.unwrap(); // not a ZST, so we will get a result
+ let wchar = alloc.read_scalar(alloc_range(Size::ZERO, size2))?.to_u16()?;
+ if wchar == 0 {
+ break;
+ } else {
+ wchars.push(wchar);
+ ptr = ptr.offset(size2, this)?;
+ }
+ }
+
+ Ok(wchars)
+ }
+
+ /// Check that the ABI is what we expect.
+ fn check_abi<'a>(&self, abi: Abi, exp_abi: Abi) -> InterpResult<'a, ()> {
+ if self.eval_context_ref().machine.enforce_abi && abi != exp_abi {
+ throw_ub_format!(
+ "calling a function with ABI {} using caller ABI {}",
+ exp_abi.name(),
+ abi.name()
+ )
+ }
+ Ok(())
+ }
+
+ fn in_std(&self) -> bool {
+ let this = self.eval_context_ref();
+ this.tcx.def_path(this.frame().instance.def_id()).krate
+ == this.tcx.def_path(this.tcx.lang_items().start_fn().unwrap()).krate
+ }
}
/// Check that the number of args is what we expect.
throw_ub_format!("incorrect number of arguments: got {}, expected {}", args.len(), N)
}
-/// Check that the ABI is what we expect.
-pub fn check_abi<'a>(abi: Abi, exp_abi: Abi) -> InterpResult<'a, ()> {
- if abi == exp_abi {
- Ok(())
- } else {
- throw_ub_format!(
- "calling a function with ABI {} using caller ABI {}",
- exp_abi.name(),
- abi.name()
- )
- }
-}
-
pub fn isolation_error(name: &str) -> InterpResult<'static> {
throw_machine_stop!(TerminationInfo::UnsupportedInIsolation(format!(
"{} not available when isolation is enabled",