Security
Headlines
HeadlinesLatestCVEs

Headline

GHSA-8mv5-7x95-7wcf: `mopa` is technically unsound

The mopa crate redefines the deprecated TraitObject struct from core::raw like so:

#[repr(C)]
#[derive(Copy, Clone)]
#[doc(hidden)]
pub struct TraitObject {
    pub data: *mut (),
    pub vtable: *mut (),
}

This is done to then transmute a reference to a trait object (&dyn Trait for any trait Trait) into this struct and retrieve the data field for the purpose of downcasting. This is used to implement downcast_ref_unchecked(), in terms of which downcast_ref() is also implemented. Same goes for mutable reference downcasting and Box downcasting.

The Rust compiler explicitly reserves the right to change the memory layout of &dyn Trait for any trait Trait. The worst case scenario is that it swaps data and vtable, making an executable location breach and compromisation of ASLR possible, since reads from data would read vtable instead. Likewise, arbitrary code execution is also theoretically possible if reads of vtable generated by the compiler read data instead.

While, as of Rust 1.52, this unsound assumption still holds true, updating the compiler may silently create UB in a crate which previously compiled and run without issues, compromising the security of builds which are believed to be reproducible.

A potential strategy to resolve this has already been suggested in an issue on the GitHub repository of the crate.

ghsa
#git

The mopa crate redefines the deprecated TraitObject struct from core::raw like so:

#[repr©] #[derive(Copy, Clone)] #[doc(hidden)] pub struct TraitObject { pub data: *mut (), pub vtable: *mut (), }

This is done to then transmute a reference to a trait object (&dyn Trait for any trait Trait) into this struct and retrieve the data field for the purpose of downcasting. This is used to implement downcast_ref_unchecked(), in terms of which downcast_ref() is also implemented. Same goes for mutable reference downcasting and Box downcasting.

The Rust compiler explicitly reserves the right to change the memory layout of &dyn Trait for any trait Trait. The worst case scenario is that it swaps data and vtable, making an executable location breach and compromisation of ASLR possible, since reads from data would read vtable instead. Likewise, arbitrary code execution is also theoretically possible if reads of vtable generated by the compiler read data instead.

While, as of Rust 1.52, this unsound assumption still holds true, updating the compiler may silently create UB in a crate which previously compiled and run without issues, compromising the security of builds which are believed to be reproducible.

A potential strategy to resolve this has already been suggested in an issue on the GitHub repository of the crate.

References

  • chris-morgan/mopa#13
  • https://rustsec.org/advisories/RUSTSEC-2021-0095.html

ghsa: Latest News

GHSA-27wf-5967-98gx: Kubernetes kubelet arbitrary command execution