Skip to content

chenx97/libffi-rs

 
 

Repository files navigation

libffi-rs: Rust bindings for libffi

GitHub Workflow Status Documentation Crates.io License: MIT License: Apache 2.0

The C libffi library provides two main facilities: assembling calls to functions dynamically, and creating closures that can be called as ordinary C functions. In Rust, the latter means that we can turn a Rust lambda (or any object implementing Fn/FnMut) into an ordinary C function pointer that we can pass as a callback to C.

Repository Layout

This repository is a Cargo workspace containing both libffi and libffi-sys.

Usage

Building libffi will build lifbffi-sys, which will in turn build the libffi C library from github, which requires that you have a working make, C compiler, automake, and autoconf first. It’s on crates.io, so you can add

[dependencies]
libffi = "2.0.0"

to your Cargo.toml.

This crate depends on the libffi-sys crate, which by default attempts to build its own version of the C libffi library. In order to use your system’s C libffi instead, enable this crate’s system feature in your Cargo.toml:

[features]
libffi = { version = "2.0.0", features = ["system"] }

See the libffi-sys documentation for more information about how it finds C libffi.

This crate supports Rust version 1.48 and later.

Examples

In this example, we convert a Rust lambda containing a free variable into an ordinary C code pointer. The type of fun below is extern "C" fn(u64, u64) -> u64.

use libffi::high::Closure2;

let x = 5u64;
let f = |y: u64, z: u64| x + y + z;

let closure = Closure2::new(&f);
let fun     = closure.code_ptr();

assert_eq!(18, fun(6, 7));

About

Rust bindings for libffi

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • C 48.2%
  • Assembly 14.4%
  • Shell 12.5%
  • TeX 11.6%
  • Makefile 5.7%
  • Rust 4.0%
  • Other 3.6%